false
0001517006
0001517006
2024-10-22
2024-10-22
iso4217:USD
xbrli:shares
iso4217:USD
xbrli:shares
UNITED STATES
SECURITIES AND EXCHANGE COMMISSION
Washington, D.C. 20549
FORM 8-K
CURRENT REPORT
Pursuant to Section 13 or 15(d) of the Securities
Exchange Act of 1934
Date of Report (Date of earliest event reported):
October 22, 2024
GATOS SILVER, INC.
(Exact name of registrant as specified in its charter)
Delaware
(State or other jurisdiction of incorporation) |
001-39649
(Commission File
Number) |
27-2654848
(I.R.S. Employer
Identification No.) |
925 W Georgia Street, Suite
910
Vancouver, British Columbia,
Canada
(Address of principal executive
offices) |
V6C 3L2
(Zip Code) |
Registrant’s telephone number, including
area code: (604) 424-0984
N/A
(Former name or former address, if changed since
last report)
Check the appropriate box below if the Form 8-K filing is intended
to simultaneously satisfy the filing obligation of the registrant under any of the following provisions:
☐ |
Written communications pursuant to Rule 425 under the Securities Act (17 CFR 230.425) |
☐ |
Soliciting material pursuant to Rule 14a-12 under the Exchange Act (17 CFR 240.14a-12) |
☐ |
Pre-commencement communications pursuant to Rule 14d-2(b) under the Exchange Act (17 CFR 240.14d-2(b)) |
☐ |
Pre-commencement communications pursuant to Rule 13e-4(c) under the Exchange Act (17 CFR 240.13e-4(c)) |
Securities registered pursuant to Section 12(b) of the Act:
Title of each class |
Trading Symbol(s) |
Name of each exchange on which registered |
Common Stock, par value $0.001 per share |
GATO |
New York Stock Exchange
Toronto Stock Exchange |
Indicate by check mark whether the registrant is an emerging growth
company as defined in Rule 405 of the Securities Act of 1933 (§230.405 of this chapter) or Rule 12b-2 of the Securities Exchange
Act of 1934 (§240.12b-2 of this chapter).
Emerging growth company ☒
If an emerging growth company, indicate by check mark if the registrant
has elected not to use the extended transition period for complying with any new or revised financial accounting standards provided pursuant
to Section 13(a) of the Exchange Act.
Item 8.01. Other Events.
On October 22, 2024, Gatos Silver, Inc. made
available an updated technical report summary, dated October 22, 2024, concerning the Los Gatos Joint Venture (the “Technical Report
Summary”). The Technical Report Summary has an effective date of July 1, 2024 and is included as Exhibit 96.1 to this Current Report
on Form 8-K.
Item 9.01. Financial Statements and Exhibits.
(d) Exhibits.
SIGNATURES
Pursuant to the requirements of the Securities
Exchange Act of 1934, the registrant has duly caused this report to be signed on its behalf by the undersigned hereunto duly authorized.
|
|
|
|
GATOS SILVER, INC. |
|
|
|
|
Date: October 22, 2024 |
|
|
|
By: |
|
/s/ Dale Andres |
|
|
|
|
|
|
Dale Andres |
|
|
|
|
|
|
Chief Executive Officer |
Exhibit 23.1
Stephan
Blaho
WSP
Canada Inc.
150
Commerce Valley Dr W
Thornhill,
ON, L3T 7Z3
CONSENT
OF QUALIFIED PERSON
I,
Stephan Blaho, state that I am a qualified person responsible for preparing or supervising the preparation of part of the Technical Report
Summary titled Mineral Resource and Mineral Reserve Update Los Gatos Joint Venture, State of Chihuahua, Mexico, dated October 22, 2024,
with an effective date of 1 July 2024, as signed and certified by me (the “Technical Report Summary”), filed with the U.S.
Securities and Exchange Commission (the “SEC”) as Exhibit 96.1 to, and referenced in, Gatos Silver, Inc.’s Current
Report on Form 8-K to which this consent is an exhibit (the “Form 8-K”).
Furthermore,
in connection with the Form 8-K, as well as the Registration Statement on Form F-4 filed with the SEC on October 15, 2024 and the
proxy statement/prospectus included therein (the “Registration Statement”), I state that:
| (a) | I
consent to the public filing of the Technical Report Summary; |
| (b) | I
consent to the use of my name in the Form 8-K and the Registration Statement, including my
status as an expert and “qualified person” (as defined in Subpart 1300 of Regulation
S-K promulgated by the SEC), to any quotation from or summarization in the Form 8-K of the
parts of the Technical Report Summary for which I am responsible, to the incorporation by
reference of the Technical Report Summary in the Registration Statement, and to the filing
of the Technical Report Summary as Exhibit 96.1 to the Form 8-K; and |
| (c) | I
confirm that I have read the Form 8-K and the Registration Statement, and that each of them
fairly and accurately reflects, in the form and context in which it appears, the information
in the parts of the Technical Report Summary for which I am responsible. |
Dated
at Thornhill, ON this 22nd day of October, 2024.
/s/ Stephan Blaho |
|
Signature of Qualified Person |
|
Stephan
Blaho, P.Eng. MBA
Exhibit 23.2
CONSENT
OF QUALIFIED THIRD-PARTY FIRM
Tierra
Group International, Ltd. (“TGI”) is responsible for authoring the following Sections of the technical report titled “Mineral
Resource and Mineral Reserve Update, Los Gatos Joint Venture, Chihuahua, Mexico” with a report date of October 22, 2024 and an
effective date of 1 July 2024 (the “Technical Report Summary”), filed with the U.S. Securities and Exchange Commission (the
“SEC”) as Exhibit 96.1 to, and referenced in, Gatos Silver, Inc.’s Current Report on Form 8-K to which this consent
is an exhibit (the “Form 8-K”):
| · | Section 1.8.1 Summary Tailings
Storage Development and Operations |
| · | Section 1.12 Summary Tailings
Storage Conclusions |
| · | Section 1.13 Summary Tailings
Storage Recommendations |
| · | Section 15.8: Tailings Storage |
| · | Section 22.4: Interpretation
and Conclusions for Infrastructure |
| · | Section 23.4.3: Recommendations
for Tailings Storage |
Since
its founding 11 years ago, Tierra Group International, Ltd. (Tierra Group) has prepared engineering designs for tailings storage facilities,
water management facilities such as lined process ponds and diversion channels, and other mine waste containment facilities for domestic
(United States) and international clients. Tierra Group’s work has included the development of engineering designs for tailings
storage, mine waste, and water management infrastructure construction, including preparation of Engineer’s construction cost estimates.
Tierra Group’s work has included full mine life cycle services from initial project planning through closure planning and execution.
Tierra Group has prepared reclamation closure cost estimates for numerous projects in the U.S and abroad. Tierra Group has participated
as contributors to numerous Preliminary Economic Assessments, Pre-Feasibility and Feasibility Studies as well as completed due diligence
assessments for investment decisions by potential investors.
In
connection with the Form 8-K, as well as the Registration Statement on Form F-4 filed with the SEC on October 15, 2024 and the proxy
statement/prospectus included therein (the “Registration Statement”), TGI consents: to the public filing of the Technical
Report Summary, to the use of its and the undersigned’s name in the Form 8-K and the Registration Statement, including TSI’s
status as an expert and “qualified person” (as defined in Subpart 1300 of Regulation S-K promulgated by the SEC), to any
quotation from or summarization in the Form 8-K of the parts of the Technical Report Summary for which it is responsible, to the incorporation
by reference of the Technical Report Summary in the Registration Statement, and to the filing of the Technical Report Summary as Exhibit
96.1 to the Form 8-K.
The
undersigned confirms that it has read the Form 8-K and the Registration Statement, and that each of them fairly and accurately reflects,
in the form and context in which it appears, the information in the parts of the Technical Report Summary for which TSI is responsible.
Dated
this 22nd of October 2024.
/s/
Matthew L. Fuller
Signature
of Authorized Person for Qualified Third-Party Firm
Matthew
L. Fuller. L.E.G., P.Geo.
Print
name of Authorized Person for Qualified Third-Party Firm
Exhibit 23.3
Dawn
H. Garcia, CPG
Stantec
USA
One
South Church Avenue, Suite 2100, Tucson, Arizona
CONSENT
OF QUALIFIED PERSON
I,
Dawn H. Garcia, state that I am a qualified person responsible for preparing or supervising the preparation of part of the Technical
Report Summary titled Mineral Resource and Mineral Reserve Update Los Gatos Joint Venture, State of Chihuahua, Mexico, dated October
22, 2024, with an effective date of 1 July 2024, as signed and certified by me (the “Technical Report Summary”), filed with
the U.S. Securities and Exchange Commission (the “SEC”) as Exhibit 96.1 to, and referenced in, Gatos Silver, Inc.’s
Current Report on Form 8-K to which this consent is an exhibit (the “Form 8-K”).
Furthermore,
in connection with the Form 8-K, as well as the Registration Statement on Form F-4 filed with the SEC on October 15, 2024 and the proxy
statement/prospectus included therein (the “Registration Statement”), I state that:
| (a) | I
consent to the public filing of the Technical Report Summary; |
| (b) | I
consent to the use of my name in the Form 8-K and the Registration Statement, including my status as an expert and “qualified person”
(as defined in Subpart 1300 of Regulation S-K promulgated by the SEC), to any quotation from or summarization in the Form 8-K of the
parts of the Technical Report Summary for which I am responsible, to the incorporation by reference of the Technical Report Summary in
the Registration Statement, and to the filing of the Technical Report Summary as Exhibit 96.1 to the Form 8-K; and |
| (c) | I
confirm that I have read the Form 8-K and the Registration Statement, and that each of them fairly and accurately reflects, in the form
and context in which it appears, the information in the parts of the Technical Report Summary for which I am responsible. |
Dated
at Tucson, Arizona, USA this 22 of October, 2024.
/s/ Dawn H.
Garcia
Signature of Qualified Person
Dawn H. Garcia, CPG AIPG 08313
Exhibit 23.4
Adam
Johnston, FAusIMM CP (Met)
Transmin
Metallurgical Consultants
10
Cavendish Gardens, Fleet, UK
CONSENT
OF A QUALIFIED PERSON
I,
Adam Johnston, state that I am a qualified person responsible for preparing or supervising the preparation of parts of the Technical
Report Summary titled ‘Mineral Resource and Mineral Reserve Update Los Gatos Joint Venture, State of Chihuahua, Mexico’,
dated October 22, 2024, with an effective date of 1 July 2024, as signed and certified by me (the “Technical Report Summary”),
filed with the U.S. Securities and Exchange Commission (the “SEC”) as Exhibit 96.1 to, and referenced in, Gatos Silver, Inc.’s
Current Report on Form 8-K to which this consent is an exhibit (the “Form 8-K”).
Furthermore,
in connection with the Form 8-K, as well as the Registration Statement on Form F-4 filed with the SEC on October 15, 2024 and the proxy
statement/prospectus included therein (the “Registration Statement”), I state that:
| (a) | I
consent to the public filing of the Technical Report Summary; |
| (b) | I
consent to the use of my name in the Form 8-K and the Registration Statement, including my
status as an expert and “qualified person” (as defined in Subpart 1300 of Regulation
S-K promulgated by the SEC), to any quotation from or summarization in the Form 8-K of the
parts of the Technical Report Summary for which I am responsible, to the incorporation by
reference of the Technical Report Summary in the Registration Statement, and to the filing
of the Technical Report Summary as Exhibit 96.1 to the Form 8-K; and |
| (c) | I
confirm that I have read the Form 8-K and the Registration Statement, and that each of them
fairly and accurately reflects, in the form and context in which it appears, the information
in the Technical Report Summary or in the parts thereof for which I am responsible. |
Dated
at Fleet, UK, this 22 day of October, 2024.
/s/
Adam Johnston
Adam
Johnston, FAusIMM CP (Met)
Exhibit 23.5
Ibrahim
Karajeh
WSP Canada
Inc.
6925
Century Avenue, Suite #500
Mississauga,
Ontario L5N 7K2
CONSENT
OF QUALIFIED PERSON
I, Ibrahim Karajeh, state that I am
a qualified person responsible for preparing or supervising the preparation of part
of the Technical Report Summary titled Mineral Resource and Mineral Reserve Update Los Gatos Joint Venture, State of Chihuahua,
Mexico, dated October 22, 2024, with an effective date of 1 July 2024, as signed and certified by me (the “Technical Report Summary”),
filed with the U.S. Securities and Exchange Commission (the “SEC”) as Exhibit 96.1 to, and referenced in, Gatos Silver, Inc.’s
Current Report on Form 8-K to which this consent is an exhibit (the “Form 8-K”).
Furthermore, in connection with the
Form 8-K, as well as the Registration Statement on Form F-4 filed with the SEC on October 15, 2024 and the proxy statement/prospectus
included therein (the “Registration Statement”), I state that:
| (a) | I
consent to the public filing of the Technical Report Summary; |
| (b) | I
consent to the use of my name in the Form 8-K and the Registration Statement, including my
status as an expert and “qualified person” (as defined in Subpart 1300 of Regulation
S-K promulgated by the SEC), to any quotation from or summarization in the Form 8-K of the
parts of the Technical Report Summary for which I am responsible, to the incorporation by
reference of the Technical Report Summary in the Registration Statement, and to the filing
of the Technical Report Summary as Exhibit 96.1 to the Form 8-K; and |
| (c) | I
confirm that I have read the Form 8-K and the Registration Statement, and that each of them
fairly and accurately reflects, in the form and context in which it appears, the information
in the parts of the Technical Report Summary for which I am responsible. |
Dated at Mississauga,
ON this 22nd day of October, 2024.
/s/ Ibrahim Karajeh |
|
Signature of Qualified Person |
|
Ibrahim Karajeh,
P.Eng.
Exhibit 23.6
William
Richard McBride
WSP Canada
Inc.
33 Mackenzie
Street
Sudbury,
ON, Canada, P3C 4Y1
CONSENT
OF QUALIFIED PERSON
I, William Richard McBride, state that
I am a qualified person responsible for preparing or supervising the preparation of part
of the Technical Report Summary titled Mineral Resource and Mineral Reserve Update Los Gatos Joint Venture, State of Chihuahua,
Mexico, dated October 22, 2024, with an effective date of 1 July 2024, as signed and certified by me (the “Technical Report Summary”),
filed with the U.S. Securities and Exchange Commission (the “SEC”) as Exhibit 96.1 to, and referenced in, Gatos Silver, Inc.’s
Current Report on Form 8-K to which this consent is an exhibit (the “Form 8-K”).
Furthermore, in connection with the
Form 8-K, as well as the Registration Statement on Form F-4 filed with the SEC on October 15, 2024 and the proxy statement/prospectus
included therein (the “Registration Statement”), I state that:
| (a) | I
consent to the public filing of the Technical Report Summary; |
| (b) | I
consent to the use of my name in the Form 8-K and the Registration Statement, including my
status as an expert and “qualified person” (as defined in Subpart 1300 of Regulation
S-K promulgated by the SEC), to any quotation from or summarization in the Form 8-K of the
parts of the Technical Report Summary for which I am responsible, to the incorporation by
reference of the Technical Report Summary in the Registration Statement, and to the filing
of the Technical Report Summary as Exhibit 96.1 to the Form 8-K; and |
| (c) | I
confirm that I have read the Form 8-K and the Registration Statement, and that each of them
fairly and accurately reflects, in the form and context in which it appears, the information
in the parts of the Technical Report Summary for which I am responsible. |
Dated at Sudbury,
ON this 22nd day of October, 2024.
/s/ William
Richard McBride |
|
Signature of Qualified Person |
|
William Richard
McBride, P.Eng.
Exhibit 23.7
Mathew
P. Oommen
WSP USA
Inc.
701 Emerson
Road – Suite 250
Creve
Coeur, MO 63141
CONSENT
OF QUALIFIED PERSON
I, Mathew P. Oommen, state that I am
a qualified person responsible for preparing or supervising the preparation of part
of the Technical Report Summary titled Mineral Resource and Mineral Reserve Update Los Gatos Joint Venture, State of Chihuahua,
Mexico, dated October 22, 2024, with an effective date of 1 July 2024, as signed and certified by me (the “Technical Report Summary”),
filed with the U.S. Securities and Exchange Commission (the “SEC”) as Exhibit 96.1 to, and referenced in, Gatos Silver, Inc.’s
Current Report on Form 8-K to which this consent is an exhibit (the “Form 8-K”).
Furthermore, in connection with the
Form 8-K, as well as the Registration Statement on Form F-4 filed with the SEC on October 15, 2024 and the proxy statement/prospectus
included therein (the “Registration Statement”), I state that:
| (a) | I
consent to the public filing of the Technical Report Summary; |
| (b) | I
consent to the use of my name in the Form 8-K and the Registration Statement, including my
status as an expert and “qualified person” (as defined in Subpart 1300 of Regulation
S-K promulgated by the SEC), to any quotation from or summarization in the Form 8-K of the
parts of the Technical Report Summary for which I am responsible, to the incorporation by
reference of the Technical Report Summary in the Registration Statement, and to the filing
of the Technical Report Summary as Exhibit 96.1 to the Form 8-K; and |
| (c) | I
confirm that I have read the Form 8-K and the Registration Statement, and that each of them
fairly and accurately reflects, in the form and context in which it appears, the information
in the parts of the Technical Report Summary for which I am responsible. |
Dated at Creve
Coeur, MO this 22nd day of October, 2024.
/s/ Mathew P. Oommen |
|
Signature of Qualified Person |
|
Mathew P. Oommen,
Registered SME Member
Exhibit 23.8
Ronald
Turner
Golder
Associates S.A.
Magdalena
181, 3rd Floor
Santiago,
Chile
CONSENT
OF QUALIFIED PERSON
I, Ronald Turner, state that I am a
qualified person responsible for preparing or supervising the preparation of part
of the Technical Report Summary titled Mineral Resource and Mineral Reserve Update Los Gatos Joint Venture, State of Chihuahua,
Mexico, dated October 22, 2024, with an effective date of 1 July 2024, as signed and certified by me (the “Technical Report Summary”),
filed with the U.S. Securities and Exchange Commission (the “SEC”) as Exhibit 96.1 to, and referenced in, Gatos Silver, Inc.’s
Current Report on Form 8-K to which this consent is an exhibit (the “Form 8-K”).
Furthermore, in connection with the
Form 8-K, as well as the Registration Statement on Form F-4 filed with the SEC on October 15, 2024 and the proxy statement/prospectus
included therein (the “Registration Statement”), I state that:
| (a) | I
consent to the public filing of the Technical Report Summary; |
| (b) | I
consent to the use of my name in the Form 8-K and the Registration Statement, including my
status as an expert and “qualified person” (as defined in Subpart 1300 of Regulation
S-K promulgated by the SEC), to any quotation from or summarization in the Form 8-K of the
parts of the Technical Report Summary for which I am responsible, to the incorporation by
reference of the Technical Report Summary in the Registration Statement, and to the filing
of the Technical Report Summary as Exhibit 96.1 to the Form 8-K; and |
| (c) | I
confirm that I have read the Form 8-K and the Registration Statement, and that each of them
fairly and accurately reflects, in the form and context in which it appears, the information
in the parts of the Technical Report Summary for which I am responsible. |
Dated at Santiago,
Chile this 22nd day of October, 2024.
/s/ Ronald
Turner |
|
Signature of Qualified Person |
|
Ronald Turner,
MAusIMM (CP)
Exhibit 96.1
Mineral Resource and Mineral Reserve
Update
Los Gatos Joint Venture, Chihuahua, Mexico
Submitted by:
Gatos Silver, Inc.
925 West Georgia Street, Suite 910
Vancouver, BC Canada V6C 3L2
Prepared by:
Stephan Blaho, P. Eng., PEO
Dawn Garcia, CPG, AIPG
Adam Johnston, FAusIMM CP (Met)
Ibrahim Karajeh, PEO, P. Eng.
William Richard McBride, P. Eng.
Mathew Oommen, MAusIMM, Registered Member SME
Ronald Turner, P. Geo., MAusIMM CP
Tierra Group International
Report Date: October 22,
2024
Effective Date: July 1, 2024
Cerro Los Gatos S-K 1300 Technical Report Summary |
Gatos Silver, Inc. |
|
|
Date and Signature Page
The effective date of this TRS is July 1, 2024
Qualified Person |
Professional Designation |
Role |
Employer |
Report Items |
Signature |
Stephan Blaho |
P.Eng., PEO
|
Mineral Reserves |
WSP Canada Inc. |
1.5, 1.6, 1.12, 1.13, 9.2, 12, 13, 21, 22.2 and 23.2 |
Original document signed |
Matthew Fuller |
P.Eng. APEGBC
(199825)
|
Tailings Storage Facility Engineer of Record |
Tierra Group International |
1.8.1, 1.12, 1.13, 15.8, 22.4 (TSF), and 23.4.4 |
Original document signed |
Dawn Garcia |
CPG, AIPG 08313 |
Environmental & Social |
Stantec USA |
1.9, 1.12, 1.13, 17, 22.5, and 23.5 |
Original document signed |
Adam Johnston |
FAusIMM CP (Met) |
Mineral Processing |
Transmin Metallurgical Consultants |
1.7, 1.12, 1.13, 9.3, 10, 14, 22.3, and 23.3 |
Original document signed |
Ibrahim Karajeh |
P.Eng. PEO
|
Infrastructure |
WSP Canada Inc. |
1.8 (excluding 1.8.1), 1.12, 1.13, 15.1 through 15.7, 22.4 (except TSF) and 23.4.1 – 23.4.3 |
Original document signed |
William Richard McBride |
P.Eng. PEO |
Economic Analysis |
WSP Canada Inc. |
1.10, 1.11, 16, 18, 19, and 22.6 |
Original document signed |
Mathew Oommen |
Registered SME Member |
Contributing Author |
WSP USA Inc. |
1.1, 2, 3, 4, and 5 |
Original document signed |
Ronald Turner |
P. Geo., MAusIMM CP
(302538)
|
Mineral Resources |
Golder Associates S.A. |
1.2, 1.3, 1.4, 1.12, 1.13, 6, 7, 8, 9.1, 11, 20, 22.1, and 23.1 |
Original document signed |
Cerro Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| |
Table of Contents
NOTE REGARDING FORWARD LOOKING INFORMATION |
TOC XVI |
1.0 Executive Summary |
1-1 |
1.1 Property Description and Ownership |
1-2 |
1.2 Geology and Mineralization |
1-2 |
1.3 Exploration, Sampling, and Data |
1-5 |
1.4 Mineral Resource Estimate |
1-5 |
1.5 Mineral Reserve Estimate |
1-7 |
1.6 Mining Methods |
1-9 |
1.7 Processing Plant |
1-12 |
1.8 Infrastructure |
1-14 |
1.9 Environmental Studies, Permitting, and Social Impacts |
1-16 |
1.10 Capital and Operating Costs |
1-17 |
1.11 Economic Analysis |
1-18 |
1.12 Conclusions of Qualified Persons |
1-19 |
1.13 Recommendations |
1-23 |
2.0 Introduction |
2-1 |
2.1 Registrant Information |
2-1 |
2.2 Terms of Reference and Purpose |
2-1 |
2.3 Sources of Information |
2-1 |
2.4 Personal Inspection Summary |
2-2 |
2.5 Previous Technical Reports |
2-2 |
3.0 Property Description |
3-1 |
3.1 Property Location |
3-1 |
3.2 Mineral Rights |
3-2 |
3.3 Surface Rights |
3-4 |
3.4 Description on Acquisition of Mineral Rights |
3-6 |
3.5 Significant Encumbrances to the Property |
3-6 |
Cerro Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| |
3.6 Other Factors and Risks Affecting Access |
3-7 |
4.0 Accessibility, Climate, Local Resources, Infrastructure and Physiography |
4-1 |
4.1 Access to the Property |
4-1 |
4.2 Climate Description |
4-1 |
4.3 Physiography |
4-1 |
4.4 Availability of Required Infrastructure |
4-2 |
5.0 History |
5-1 |
6.0 Geological setting, mineralization, and deposit |
6-1 |
6.1 Regional Geological Setting |
6-1 |
6.2 Local Geology |
6-4 |
6.3 Mineralized Zones |
6-8 |
6.4 Deposit Types |
6-10 |
7.0 Exploration |
7-1 |
7.1 Exploration Work (Non-Drilling) |
7-1 |
7.2 Exploration Drilling |
7-2 |
7.3 Hydrogeological Investigations |
7-11 |
7.4 Geotechnical Drilling and Sampling |
7-11 |
8.0 Sample Preparation, Analyses, and Security |
8-1 |
8.1 Sample Preparation Methods and Quality Control Measures |
8-1 |
8.2 Sample Preparation, Assaying, and Analytical Procedures |
8-4 |
8.3 Quality Control Procedures/Quality Assurance |
8-8 |
8.4 Opinion on Adequacy |
8-14 |
9.0 Data Verification |
9-1 |
9.1 Geology |
9-1 |
9.2 Mineral Reserves |
9-3 |
9.3 Metallurgy |
9-4 |
10.0 Mineral Processing and Metallurgical Testing |
10-1 |
10.1 Previous Disclosures |
10-1 |
10.2 New Metallurgical Testwork Programmes |
10-1 |
Cerro Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| |
10.3 Samples |
10-2 |
10.4 Mineralogical Characterization |
10-5 |
10.5 Mineralogy Performance Plant |
10-14 |
10.6 Historical Plant Performance |
10-15 |
10.7 Copper - Lead Recovery |
10-22 |
10.8 Fluorine Leaching |
10-31 |
10.9 Ultrafine Particle Flotation |
10-31 |
10.10 Ongoing Testwork |
10-31 |
10.11 Factors Affecting Economic Extraction |
10-32 |
10.12 High Soluble Copper Material |
10-32 |
10.13 Metallurgical Recoveries Used in Plant Production Estimates |
10-34 |
11.0 Mineral Resource Estimation |
11-1 |
11.1 Estimation Assumptions, Parameters, and Methods (Cerro Los Gatos) |
11-1 |
11.2 Estimation, Assumptions, Parameters and Methods (Esther) |
11-21 |
11.3 Mineral Resource Classification |
11-23 |
11.4 Basis for Establishing the Prospects of Economic Extraction for Mineral Resources |
11-26 |
11.5 Mineral Resource Uncertainty Discussion |
11-27 |
11.6 Qualified Person’s Opinion on Factors that are Likely to Influence the Prospect of Economic Extraction |
11-28 |
11.7 Mineral Resource Estimate |
11-28 |
12.0 Mineral Reserve Estimates |
12-1 |
12.1 Introduction |
12-1 |
12.2 Methodology for Estimating Mineral Reserves |
12-1 |
12.3 Metal Prices and Exchange Rate |
12-2 |
12.4 NSR Values |
12-2 |
12.5 NSR Cut-Offs |
12-3 |
12.6 Mining Recovery and Dilution |
12-4 |
12.7 Stope Optimization |
12-7 |
12.8 Mineral Reserve Estimate |
12-7 |
12.9 Factors Potentially Affecting the Mineral Reserve Estimate |
12-9 |
Cerro Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| |
13.0 Mining Methods |
13-1 |
13.1 Description of the Mine and Deposit |
13-1 |
13.2 Geotechnical |
13-3 |
13.3 Hydrogeology |
13-13 |
13.4 Groundwater Management |
13-16 |
13.5 Mine Design |
13-19 |
13.6 Mining Methods |
13-22 |
13.7 Mine Infrastructure |
13-31 |
13.8 Mine Equipment |
13-40 |
13.9 Mine Personnel |
13-42 |
13.10 Life-of-Mine Plan |
13-42 |
13.11 Mining Risks and Opportunities |
13-48 |
14.0 Processing and Recovery Methods |
14-1 |
14.1 Overview |
14-1 |
14.2 Plant Parameters |
14-1 |
14.3 Major Equipment |
14-2 |
14.4 Performance Predictions |
14-3 |
14.5 Comminution |
14-3 |
14.6 Beneficiation |
14-4 |
14.7 Fluorine Leaching Plant |
14-4 |
14.8 Concentrates |
14-7 |
14.9 Tailings |
14-7 |
14.10 Reagents |
14-7 |
14.11 Instrumentation |
14-8 |
14.12 Maintenance |
14-8 |
14.13 Water |
14-8 |
14.14 Plant Utilities and Services |
14-9 |
14.15 Process Labor |
14-9 |
14.16 Projects |
14-10 |
Cerro Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| |
15.0 Infrastructure |
15-1 |
15.1 Introduction |
15-1 |
15.2 General Site Layout |
15-1 |
15.3 Ventilation and Refrigeration Systems |
15-3 |
15.4 Mine Dewatering System |
15-5 |
15.5 Cemented Backfill |
15-6 |
15.6 Power Distribution |
15-9 |
15.7 Other Surface Infrastructure |
15-10 |
15.8 Tailings Storage |
15-10 |
16.0 Market Studies |
16-1 |
16.1 Lead Concentrate |
16-1 |
16.2 Zinc Concentrate |
16-1 |
16.3 Copper Concentrate |
16-1 |
16.4 Contracts |
16-2 |
17.0 Environmental Studies, Permitting, and Social or Community Impact |
17-1 |
17.1 Introduction |
17-1 |
17.2 Regulatory, Legal and Policy Framework |
17-2 |
17.3 Environmental Studies |
17-5 |
17.4 Waste Management |
17-13 |
17.5 Environmental Monitoring |
17-14 |
17.6 Water Management |
17-20 |
17.7 Permitting |
17-21 |
17.8 Social Considerations |
17-28 |
17.9 Mine Closure |
17-36 |
17.10 Adequacy of Response to Environmental and Social Issues |
17-40 |
18.0 Capital and Operating Costs |
18-1 |
18.1 Operating Costs |
18-1 |
18.2 Capital Costs |
18-2 |
18.3 Level Of Accuracy in the Estimates |
18-4 |
Cerro Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| |
18.4 Risks Associated with the Specific Engineering Estimation Methods Used to Arrive at The Estimates |
18-4 |
19.0 Economic Analysis |
19-1 |
19.1 Principal Assumptions |
19-1 |
19.2 Demonstration of Economic Viability |
19-2 |
19.3 Cash Cost and AISC Reconciliation |
19-11 |
20.0 Adjacent Properties |
20-1 |
21.0 Other Relevant Data and Information |
21-1 |
22.0 Interpretation and Conclusions |
22-1 |
22.1 Mineral Resources |
22-1 |
22.2 Mineral Reserves and Mining Methods |
22-1 |
22.3 Mineral Processing |
22-2 |
22.4 Infrastructure |
22-3 |
22.5 Environmental and Social |
22-3 |
22.6 Costs and Economic Analysis |
22-5 |
23.0 Recommendations |
23-1 |
23.1 Mineral Resources |
23-1 |
23.2 Mineral Reserves and Mining Methods |
23-1 |
23.3 Mineral Processing |
23-2 |
23.4 Infrastructure |
23-2 |
23.5 Environmental and Social |
23-4 |
24.0 References |
24-1 |
25.0 Reliance on Information Provided by the Registrant |
25-1 |
Cerro Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| |
TABLES
Table 1.1: CLG Mineral Resource Estimate Exclusive of Mineral Reserves |
|
Table 1.2: CLG Mineral Resource Estimate Inclusive of Mineral Reserves |
|
Table 1.3: Esther Mineral Resource Estimate |
|
Table 1.4: CLG Mineral Reserves as of July 1, 2024 |
|
Table 1.5: Process Plant Recovery Parameters |
|
Table 1.6: Life of Mine Projected Processing and Production Summary |
|
Table 1.7: Process Plant Product Characteristics |
|
Table 1.8: 2024 LOM Operating Costs |
|
Table 1.9: 2024 LOM Sustaining Capital |
|
Table 1.10: Economic Assumptions |
|
Table 1.11: LOM Financial Summary |
|
Table 2.1: Site Visits of Qualified Persons |
|
Table 3.1: Los Gatos Project Titled Mining Concessions |
|
Table 5.1: CLG Mine Production (2019 – H1 2024) |
|
Table 7.1: Drill Hole Count by Purpose |
|
Table 7.2: Total of Drill Holes and Meters per Campaign at Los Gatos |
|
Table 7.3: Drill Holes by Campaign at Esther until July 1, 2023 |
|
Table 8.1: QA/QC Controls for Sample Preparation and Assaying |
|
Table 8.2: Standard Control Sample Results for Silver- 2024 Campaigns |
|
Table 8.3 Standard Control Sample Results for Lead - 2024 Campaigns |
|
Table 8.4: Standard Control Sample Results for Zinc Standard - 2024 Campaigns |
|
Table 8.5: Standard Control Sample Results for Gold Standard - 2024 Campaigns |
|
Table 8.6: Blank Results - 2024 Campaign |
|
Table 8.7: Field Duplicates Results - 2024 Campaign |
|
Table 8.8: Pulp Duplicates Results - 2024 Campaign |
|
Table 8.9: Silver Results for Standard Control Samples - 2024 Campaign |
|
Table 8.10: Lead Results for Standard Control Samples - 2024 Campaign |
|
Table 8.11: Zinc Results for Standard Control Samples - 2024 Campaign |
|
Table 8.12: Gold Results for Standard Control Samples-2024 Campaign |
|
Table 8.13: Blank results - 2024 Campaign |
|
Table 8.14: Field Duplicates - 2024 Campaign |
|
Table 10.1: Summary of Sample Population and Domains Distribution |
|
Cerro Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| |
Table 10.2: Zinc Mineralogical Assemblage |
|
Table 10.3: Summary Statistics of Recovery |
|
Table 10.4: Modal Mineralogy – Feed |
|
Table 10.5: Deportment Zn - Feed |
|
Table 10.6: Modal Mineralogy - Conc Pb |
|
Table 10.7: Modal Mineralogy - Conc Zn |
|
Table 10.8: Summary Statistics of Silver Recovery |
|
Table 10.9: Summary Statistics of Lead Recovery and Lead Concentrate Grade |
|
Table 10.10: Summary Statistics of Zinc Recovery and Zinc Concentrate Grade |
|
Table 10.11: Summary of Results - LCT 25 (First Study) - Composite 4 |
|
Table 10.12: Summary of Results - LCT 29 (First Study) - Composite 5 |
|
Table 10.13: Summary of Results - LCT 37 (Second Study) - Composite 4 |
|
Table 10.14: Cu-Pb Separation - Variability - Statistics Analysis |
|
Table 10.15: Cu-Pb Separation - Summary Statistics - Mineralogy Modal |
|
Table 10.16: Cu-Pb Separation - Summary Statistics - Mineralogy Deportment Pb |
|
Table 10.17: Cu-Pb Separation - Summary Statistics - Mineralogy Deportment Zn |
|
Table 10.18: Cu-Pb Separation - Summary Statistics - Mineralogy Deportment Cu |
|
Table 10.19: CuPb Separation - Summary Statistics - Mineralogy Deportment Ag |
|
Table 10.20: Fluorine Leaching Plant Consumptions |
|
Table 10.21: Fluorine Leaching Results |
|
Table 10.22: Estimated Recoveries Based on Historical Reconciled Production Data |
|
Table 10.23: Historical Recoveries Compared to Estimated LOM |
|
Table 11.1: Summary of Los Gatos Global Drill Hole Database |
|
Table 11.2: Estimation Domain Definition |
|
Table 11.3: Composite Statistics for Ag (g/t), Pb (%) and Zn (%) for the Main Estimation Domains |
|
Table 11.4: Outliers Treatment by ED and Variable |
|
Table 11.5: Block Model Dimensions |
|
Table 11.6: Sample Selection and Radii of the Search Ellipsoid |
|
Table 11.7: Statistics Comparison for Ag, Pb and Zn for the main ED, Pass 2 |
|
Table 11.8: Block Model Dimensions (Esther) |
|
Table 11.9: Parameters for Calculating Block Net Smelter Return for Values for CLG Mineral Resource Reporting |
|
Table 11.10: Costs Used for Resource NSR Cut-Offs |
|
Table 11.11: CLG Mineral Resource Estimate Exclusive of Mineral Reserves |
|
Cerro Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| |
Table 11.12: CLG Mineral Resource Estimate Inclusive of Mineral Reserves |
|
Table 11.13: Esther Mineral Resource Estimate |
|
Table 12.1: Metal Prices and Exchange Rate Used in the Mineral Reserve Estimate |
|
Table 12.2: Parameters for Calculating NSR Values |
|
Table 12.3: Calculations of NSR Cut-Offs |
|
Table 12.4: Mining Recovery and Host-Rock Dilution – Longhole Stoping |
|
Table 12.5: Mining Recovery and Host-Rock Dilution– Cut-and-Fill Stopes |
|
Table 12.6: Backfill Dilution |
|
Table 12.7: CLG Mineral Reserves as of July 1, 2024, Reported on a 100% and 70% Basis |
|
Table 13.1: Characteristics of the Zones at CLG |
|
Table 13.2: Rock Strength Laboratory Test Results (MPa) |
|
Table 13.3: In-situ Stress Tensors |
|
Table 13.4: Ground Support Specification for Temporary 5 m x 5.5 m Excavation |
|
Table 13.5: Ground Support Specification for Permanent 5 m x 5.5 m Excavation |
|
Table 13.6: Ground Support Specification at Intersections |
|
Table 13.7: Parameters Used to Establish HR and N |
|
Table 13.8: Estimation of Crown Pillar Thickness and Stope Dimensions |
|
Table 13.9: Underground Dewatering Wells (June 2024) |
|
Table 13.10: Mine Design Criteria - Development |
|
Table 13.11: Mine Design Criteria – Stope Production |
|
Table 13.12: Mining Methods by Zone |
|
Table 13.13: Criteria for Mining Method Selection |
|
Table 13.14: Overview of Mining Methods by Zone |
|
Table 13.15: Explosives Used at CLG |
|
Table 13.16: Mine Infrastructure – Mine Access and Underground Facilities |
|
Table 13.17: Mine Infrastructure - Current and Planned Ventilation System |
|
Table 13.18: Estimates of Ventilation Requirement |
|
Table 13.19: Air Cooling Infrastructure |
|
Table 13.20: Mine Infrastructure – Mine Dewatering System for Contact WaterInfrastructure Item |
|
Table 13.21: Mine Infrastructure – Mine Dewatering System for Non-Contact Water |
|
Table 13.22: Mine Infrastructure – Mine Safety |
|
Table 13.23: Electrical Substations in the Underground Mine |
|
Table 13.24: Standby Generators at the Mine Site |
|
Cerro Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| |
Table 13.25: Mine Services at CLG |
|
Table 13.26: Mobile Mine Equipment |
|
Table 13.27: Planned Equipment Acquisitions |
|
Table 13.28: Mine Personnel |
|
Table 13.29: Life of Underground Mine Production Schedule, Excluding Stockpile Material (100% LGJV Basis) |
|
Table 13.30: Life-of-Mine Mill Production Schedule, Including Stockpile Material (100% LGJV Basis) |
|
Table 13.31: Life-of-Mine Production Schedule by Zone - Mt (100% LGJV Basis) |
|
Table 13.32: Life-of-Mine Production Schedule by Mining Method - Mt (100% LGJV Basis) |
|
Table 13.33: Life-of-Mine Backfill Placement, Cubic Meters |
|
Table 13.34: Life-of-Mine Longhole Drilling, Meters Drilled |
|
Table 13.35: Life-of-Mine Schedule for Lateral Development (meters) |
|
Table 13.36: Life-of-Mine Schedule for Vertical Development (meters) |
|
Table 14.1: Process Parameters |
|
Table 14.2: Predicted Process Performance |
|
Table 14.3: Major Equipment List |
|
Table 14.4: Projected Concentrate Grades |
|
Table 14.5: Projected Recoveries |
|
Table 15.1: Paste Backfill Plant Key Design Parameters |
|
Table 15.2. Paste Backfill Fill Strength Requirements for Longhole Stopes (Longitudinal and Transverse) |
|
Table 15.3: Paste Backfill Strength Requirements for Cut-and-fill Applications |
|
Table 15.4: Key Parameters of CLG TSF |
|
Table 15.5: TSF Design Criteria |
|
Table 15.6: Design Storm Events |
|
Table 15.7: TSF Construction Stages |
|
Table 15.8: TSF Capacity |
|
Table 15.9: Stage III Storage Volume |
|
Table 17.1: Overview of SEMARNAT Agencies |
|
Table 17.2: List of Official Mexican Standards Applicable to the Company’s Mining Operations |
|
Table 17.3: Monitoring Requirements at Cerro Los Gatos |
|
Table 17.4: Environmental Permit Registry and Required Reports |
|
Table 17.5: Estimated Population in the Area of Influence of Cerro Los Gatos Mine, 2023 |
|
Table 17.6: Potential Social Impacts and Mitigation Measures, 2023 |
|
Table 17.7: Closure Cost Estimate (December 2023) |
|
Cerro Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| |
Table 18.1: Projected Operating Costs |
|
Table 18.2: Mine Operating Cost Projection |
|
Table 18.3: Processing Plant Operating Cost Projection |
|
Table 18.4: General and Administrative Cost Projection |
|
Table 18.5: LOM Sustaining Capital, $M |
|
Table 19.1: Commodity Prices and Exchange Rate Assumptions |
|
Table 19.2: LOM Production Summary |
|
Table 19.3: Commodity Prices and Production |
|
Table 19.4: Annual Revenue Forecast |
|
Table 19.5: Annual Operating and Capital Cost Forecast |
|
Table 19.6: Annual Cash Flow Summary |
|
Table 19.7: LOM Unit Cost Details |
|
Table 19.8: Sensitivity of Undiscounted LOM Free Cash Flow and NPV at a 5% Discount Rate to Changes in Silver Prices |
|
Table 19.9: Reconciliation of Cash Costs and AISC to Cost of Sales (as defined under US GAAP) |
|
Cerro Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| |
FIGURES
Figure 1.1: Cerro Los Gatos Location Map |
|
Figure 1.2: Surface Geological Map of the Cerro Los Gatos Deposit Area |
|
Figure 1.3: Geologic Model, Section Looking Northwest through the Central Zone Showing the Lithological Sequence at Los Gatos Deposit |
|
Figure 3.1: Project Location Map |
|
Figure 3.2: Los Gatos Concessions Map |
|
Figure 3.3: Surface Rights and Exploration Permissions |
|
Figure 6.1: Location of the Sierra Madre Occidental Volcanic Province |
|
Figure 6.2: Regional Geological Map of the Los Gatos Area based on Servicio Geologico Mexico Data |
|
Figure 6.3: Stratigraphic Column of Regional Geology of Los Gatos |
|
Figure 6.4: Geological Map of the Cerro Los Gatos Deposit Area |
|
Figure 6.5: Geologic Model, Section Looking Northwest through the Central Zone Showing the Lithological Sequence at Los Gatos Deposit |
|
Figure 6.6: Typical Los Gatos Fault with Reddened Slickensided Fault Plane Cutting Siliceous Rhyolite |
|
Figure 6.7: Geological Model 3D View Looking South Southeast |
|
Figure 6.8: Idealized Section of an Epithermal Deposit |
|
Figure 6.9: Epithermal Textures in Drill Core |
|
Figure 7.1: Regional Geology Map of Los Gatos Concessions, Showing Individual Target Areas |
|
Figure 7.2: Distribution of Drill Holes by Type Used for Resource Estimation at CLG |
|
Figure 7.3: Drill Hole Distribution Used for Mineral Resource Estimation at Esther |
|
Figure 7.4: Example Core Logging Sheet for Los Gatos |
|
Figure 7.5: Diamond Drill Hole Recovery - All Data |
|
Figure 7.6: Example of a Completed Drill Hole Site |
|
Figure 8.1: A) Sampling Sheet I B) Sample ID Booklet |
|
Figure 8.2: A) Geological Core-Shack; B), Geological Logging on Site; C), Electrical Diamond Saw; D), Half Core Placed in a
Labelled Core Box |
|
Figure 8.3: A) Storage Conditions in the Core Warehouse at San José El Sitio; and B), Rejects Storage |
|
Figure 8.4: Density Samples |
|
Figure 8.5: Samples After Crushing (Left) and Pulp Samples Labelled (Right) |
|
Figure 8.6: Internal Mine Laboratory |
|
Figure 8.7: Diagram of Sample Preparation and Analyses of CLG DDH Samples by ALS-Chemex |
|
Figure 8.8: Quality Control Decision Flow Diagram |
|
Figure 10.1:Sample Representativity |
|
Cerro Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| |
Figure 10.2: Production 2019-2024 |
|
Figure 10.3: Life-of-Mine 2024-2032 |
|
Figure 10.4: Spatial Distribution of Samples from Channels |
|
Figure 10.5: Spatial Distribution of Variability Samples from Cores |
|
Figure 10.6: Pseudo-Color Map of a Sphalerite, Galena, Quartz |
|
Figure 10.7: Spatial Distribution of Sphalerite in LAS Samples |
|
Figure 10.8: Spatial Distribution of Hemimorphite in LAS Samples |
|
Figure 10.9: Spatial Distribution of Zinc Recovery Results |
|
Figure 10.10: Spatial Distribution of Lead Recovery Results |
|
Figure 10.11: Spatial Distribution of Silver Recovery to Lead Concentrate Results |
|
Figure 10.12: Spatial Distribution of Copper Recovery to Lead Concentrate Results |
|
Figure 10.13: Pb Total Recovery by Zone |
|
Figure 10.14: Pb Total Recovery by Head Grade |
|
Figure 10.15: Zn Total Recovery by Zone |
|
Figure 10.16: Zn Total Recovery by Head Grade |
|
Figure 10.17: Ag Total Recovery by Zone |
|
Figure 10.18: Ag Total Recovery by Head Grade |
|
Figure 10.19: Cu Total Recovery by Zone |
|
Figure 10.20: Cu Total Recovery by Head Grade |
|
Figure 10.21: Distribution of Plant Throughput Performance |
|
Figure 10.22: Time Plot of Plant Throughput Performance |
|
Figure 10.23: Distributions of Historical Silver Recovery (Total, to Pb Concentrate, to Zn Concentrate) |
|
Figure 10.24: Time Plot of Plant Total Silver Recovery |
|
Figure 10.25: Distributions of Historical Lead Recovery and Lead Concentrate Grade |
|
Figure 10.26: Time Plot of Plant Lead Concentrate Grade |
|
Figure 10.27: Time Plot of Plant Lead Recovery |
|
Figure 10.28: Distributions of Historical Zinc Recovery And Zinc Concentrate Grade |
|
Figure 10.29: Time Plot of Plant Zinc Recovery |
|
Figure 10.30: CuPb Separation - Pb Recovery in Pb Concentrate |
|
Figure 10.31: CuPb Separation - Cu Recovery in Pb Concentrate |
|
Figure 10.32: CuPb Separation - Zn Recovery in Zn Concentrate |
|
Figure 10.33: Pseudocolor Image of Lead Concentrate Mineralogy |
|
Figure 10.34: Pseudocolor Image of Zinc Concentrate Mineralogy |
|
Cerro Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| |
Figure 10.35: Pseudocolor Image of Copper Concentrate Mineralogy |
|
Figure 10.36: Pseudocolor Image of Silver Mineralogy |
|
Figure 10.37: Soluble Cu – 3D View |
|
Figure 11.1: Main Fault Blocks at Los Gatos Deposit |
|
Figure 11.2: Plan View of the Structural Fault Blocks at CLG |
|
Figure 11.3: Plan View of Los Gatos Veins on each Fault Block |
|
Figure 11.4: Cross-section of the Los Gatos Lithology Model. Looking NWE |
|
Figure 11.5: Contact Analysis for ED 503 vs ED 504 (left) and ED 505 vs ED 506 (right) for Ag |
|
Figure 11.6: Experimental and Modeled Variograms for Ag, ED 301 |
|
Figure 11.7: Experimental and Modeled Variograms for Pb, ED 302 |
|
Figure 11.8: Experimental and Modeled Variograms for Zn, ED 201 |
|
Figure 11.9: Example of Local Varying Anisotropy for Two Different Veins in the CLG Model |
|
Figure 11.10: Angle and Axis Convention in Vulcan |
|
Figure 11.11: Percentage of Estimated Blocks and Mean Grades (upper) and Mean Distance (lower) per Pass by ED for Ag |
|
Figure 11.12: Number of Samples and Drill Holes per Estimation Pass for Ag ED 303 |
|
Figure 11.13: Number of Samples and Drill Holes per Estimation Pass for Ag ED 309 |
|
Figure 11.14: Swath Plots for Ag for ED 302 and ED 303 |
|
Figure 11.15: Swath Plots for Pb for ED 302 and ED 303 |
|
Figure 11.16: Swath Plots for Zn for ED 302 and ED 303 |
|
Figure 11.17: Visual Validation of Ag Estimation |
|
Figure 11.18: Grade comparison for Ag between the plant feed (blue), the long-term model (red LP), and the short-term model
(green CP), between January 2023 and March 2024 |
|
Figure 11.19: Grade comparison for Pb between the plant feed (blue), the long-term model (red LP), and the short-term model
(green CP), between January 2023 and March 2024 |
|
Figure 11.20: Grade comparison for Zn between the plant feed (blue), the long-term model (red LP), and the short-term model
(green CP), between January 2023 and March 2024 |
|
Figure 11.21: 3D View of Esther Modeled Vein and the Drill Holes Used for Geological Interpretation |
|
Figure 11.22: Formula for Theoretical Grid Definition |
|
Figure 11.23: Resource Classification, Showing Blocks Inside Veins, 3D View |
|
Figure 12.1: Long Section of Mine Illustrating 2024 Mineral Reserves and 2023 Mineral Reserves |
|
Figure 13.1: Long Section of the CLG Deposit Showing the Four Zones |
|
Figure 13.2: Typical Cross-Sections of the Zones at CLG |
|
Figure 13.3: Illustration of Possible Rock Mass Damage and Failure Due to High Compressive Induced Stresses for Different Mining Depths |
|
Cerro Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| |
Figure 13.4: Ground Support Design Graph, based on Rock Mass Quality, Q |
|
Figure 13.5: Design Span for CLG Cut-and-Fill Stopes |
|
Figure 13.6: Stability Graph for Transverse and Longitudinal Stopes |
|
Figure 13.7: Crown Pillar Thickness Along Deposit Strike (2022 Reserve Analysis) |
|
Figure 13.8: Conceptual Hydrogeologic Model |
|
Figure 13.9: Dewatering Rates from March 2021 to June 2024 |
|
Figure 13.10: As-Built Isometric View of Longitudinal Cut-and-fill Mining at CLG |
|
Figure 13.11: As-built Isometric View of Transverse Cut-and-fill Mining at CLG |
|
Figure 13.12: As-Built Isometric View of Longitudinal Longhole Stoping at CLG |
|
Figure 13.13: Schematic of the Transverse Longhole Stoping Design at CLG |
|
Figure 13.14: Drilling Layout for a Longitudinal Longhole Stope – Plan View |
|
Figure 13.15: Drilling Layout for a Longitudinal Longhole Stope – Section View |
|
Figure 13.16: Schematic Illustrating the Current and Planned Mine Ventilation System at CLG |
|
Figure 14.1: Crushing and Grinding Simplified Process Flowsheet |
|
Figure 14.2: Lead Flotation Simplified Process Flowsheet |
|
Figure 14.3: Zinc Flotation and Tailings Simplified Process Flowsheet |
|
Figure 14.4: Fluorine Leaching Plant Process Flowsheet |
|
Figure 14.5: Proposed Cu-Pb separation plant process flowsheet |
|
Figure 15.1: Infrastructure Layout |
|
Figure 15.2: Aerial View of Overall Site with Infrastructure in As-Built Conditions |
|
Figure 15.3: Aerial View of Refrigeration Plant 1 (middle to bottom right), Emergency Power Genset (middle), Mine Rescue (middle to bottom
right), and Vent Raise (top left) |
|
Figure 15.4: Aerial View of Paste Backfill Plant (left), Refrigeration Plant 2 (right), and Vent Raise (middle) |
|
Figure 15.5: Refrigeration Plant 2 |
|
Figure 15.6: (A) Evaporative Cooling Towers as the First Stage of Cooling (B) Mechanical Refrigeration Units at Refrigeration Plant
1 as Second Stage of Cooling |
|
Figure 15.7: (A) Air Intake through Bulk Air Cooler and Delivery to Underground by Injection Fan (B) Injection Air Fan at Refrigeration
Plant 1 |
|
Figure 15.8: Underground Wellhead Pumps and Surface Discharge Header |
|
Figure 15.9: Filter Feed Tanks (left), Vacuum Pump, and Binder Silo (right) at the Paste Fill Plant |
|
Figure 15.10: Tailings Dewatering Disc Filter (left) and Positive Displacement Pumps for Paste Fill (right) |
|
Figure 15.11: Stage II, Phase 2 Plan View (current elevation) |
|
Figure 15.12: TSF Stage III Plan View (ultimate elevation) |
|
Figure 15.13: TSF As-Built and Future Stages Section View |
|
Cerro Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| |
Figure 15.14: TSF Capacity Curve |
|
Figure 15.15: Proposed Stage II Phase 3 Monitoring Plan (Preliminary) |
|
Figure 17.1: Mina Cerro Los Gatos and the San José River Hydrologic Microbasin |
|
Figure 17.2: Hydrologic Region Boundaries |
|
Figure 17.3: Hydrologic Regional Map |
|
Figure 17.4: Santo Toribio Sub-basin |
|
Figure 17.5: Aquifer Designations Delineated by CONAGUA within the Rio San Jose Microbasin |
|
Figure 17.6: Groundwater Contour Map, March 2024 |
|
Figure 17.7: Perimeter Air Quality Monitoring Locations |
|
Figure 17.8: Locations of Fixed Emission Sources |
|
Figure 17.9: Surface Water Monitoring Locations |
|
Figure 17.10: Groundwater Monitoring Well Locations |
|
Figure 17.11: Overview of Environmental Permitting Process for Mining Operations in Mexico |
|
Figure 17.12: Location of Communities and Project |
|
Figure 19.1: Annual Silver Production, Cash Costs and All-in Sustaining Costs (By-Product Basis) |
|
Figure 19.2: Annual Silver Equivalent Production, Cash Costs and All-in Sustaining Costs (Co-Product Basis) |
|
Figure 19.3: Annual and Cumulative After-Tax Free Cash Flow |
|
Figure 19.4: Sensitivity of Post-tax NPV at a 5% Discount Rate to Changes in Key Inputs |
|
Cerro Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| |
NOTE REGARDING FORWARD LOOKING INFORMATION
This Technical Report Summary contains statements that constitute “forward
looking information” and “forward-looking statements” within the meaning of U.S. and Canadian securities laws. All statements
other than statements of historical facts contained in this Technical Report Summary, including statements regarding Mineral Resource
and Reserve estimates, potential cash flow and cash distributions, life of mine, net present value, operating costs, capital costs, economic
analysis, production, cash flows, mill throughput rates, viability of modifications and projects to improve efficiency, and expected mining
methods, are forward-looking statements. Forward-looking statements are based on beliefs, assumptions, current expectations about future
events and on information currently available. Such statements are subject to risks, uncertainties, and other factors that could cause
actual results to differ materially from those expressed or implied in the forward-looking statements including without limitation, commodity
prices, foreign exchange rates, changes in laws or regulations, failure to obtain or retain permits and licenses, achievement of ramp
development rates, requirements to alter mining methodologies, dewatering the mine in a cost-effective manner, opposition to mining that
may arise, labor interruptions, uncertainties due to health and safety considerations, risks and uncertainties set out in this Technical
Report Summary, other general risks associated with mining operations, and such other risks and uncertainties described in the Gatos Silver,
Inc.’s (Gatos Silver, Inc, is referred to herein as the “Company” or “GSI”) filings with the U.S. Securities
and Exchange Commission and Canadian securities commissions including its 2023 annual report filed on form 10-K, as amended by Amendment
No. 1, and subsequent 10-K reports, also available on the Company’s website on gatossilver.com. Further, there may be other factors
that cause actions, events or results not to be as anticipated, estimated or intended that could cause actual actions, events or results
to differ materially from those described in forward-looking statements.
The Company expressly disclaims any obligation or undertaking to update
the forward-looking statements contained in this Technical Report Summary to reflect any change in its expectations or any change in events,
conditions, or circumstances on which such statements are based unless required to do so by applicable law. No assurance can be given
that such future results will be achieved, and as such, readers should not place undue reliance on forward-looking statements. Forward-looking
statements speak only as of the date of this Technical Report Summary.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| |
The operating Cerro Los Gatos (CLG) underground mine and processing
facilities are approximately centered on Latitude 27° 34’ 17” N, Longitude 106° 21’ 33” W, located approximately
7 kilometers (km) from the town of San José de Sitio, within the Municipality of Satevó in the State of Chihuahua, Mexico.
The mine is approximately 120 kilometers (km) south of the state capital of Chihuahua City and approximately 100 km north/northwest
of the historical mining city of Hidalgo del Parral (Figure 1.1). In this Technical Report Summary (TRS), Cerro Los Gatos (CLG) is defined
as the underground mine, processing facilities, Tailings Storage Facility (TSF), and supporting onsite infrastructure as well as the known
extents of the Cerro Los Gatos Mineral Reserve and Mineral Resource. The Esther deposit is an undeveloped Mineral Resource located approximately
4 km south-west of CLG.
Source: CLG
Figure 1.1: Cerro Los Gatos Location Map
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The CLG life of mine (LOM) plan, which is based on the Mineral Reserves
has:
| n | A current reserve mine life that continues to the end of 2032 at steady-state throughput rates of 3,500 tpd. |
| n | Average annual production of 6.1 million (M) ounces of silver with average annual cash flow of $80 M (after-tax) through 2032 at $23
per ounce silver price. |
| n | Average all-in sustaining costs (AISC) of $4.94 per ounce of payable silver, net of by-product credits and co-product AISC of $14.24
per ounce of payable silver equivalent. AISC is a non-GAAP (Generally Accepted Accounting Principles) measure. Please see Section 19.3
for further information. |
| n | Average operating costs of $82.14 per tonne milled. |
| n | A post-tax net present value (NPV) at a 5% discount rate of $538.8 M ($664.1 M pre-tax). |
| n | Silver price sensitivities show average annual free cash flow of $111 M (after-tax), resulting in a post-tax NPV of $760 M, at a silver
price of $30/oz, and average annual free cash flow of $136 M (after-tax), resulting in a post-tax NPV of $935 M, at a silver price of
$35/oz. |
The CLG life of mine plan (LOM Plan) described in this TRS covers the
period starting July 1, 2024, through to the end of the reserve life in 2032, with closure and reclamation activities expected to occur
during 2033 through to the end of 2036.
Unless otherwise indicated, the currency in this TRS is U.S. dollars.
| 1.1 | Property Description and Ownership |
The Los Gatos Joint Venture (LGJV) holds concessions through its Mexican
subsidiary, Minera Plata Real, S. de R.L. de C.V. (MPR). MPR is 70% owned by Gatos Silver, Inc. and 30% owned by Dowa Metals & Mining
Co., Ltd. MPR is the owner of mineral rights held in eighteen titled concessions, covering approximately 103,000 hectares (Ha). MPR has
purchased surface lands covering the known extents of the CLG and Esther Resource areas, totalling approximately 5,189 hectares, and has
negotiated and ratified an access agreement with the community of San José del Sitio for the use of the access road.
Environmental baseline data collection began in May 2010, to prepare
for the development of future environmental studies (EIS) required for the project. The Environmental Impact Study (Manifestación
de Impacto Ambiental) for the development of the Cerro Los Gatos project was filed with the Mexican Environmental Regulatory authorities
(SEMARNAT) on December 12, 2016, and was approved in 2017. A positive Feasibility Study (FS) was completed on CLG in 2017 (Tetra Tech,
2017). The CLG mine was constructed in 2018 and commissioned in mid 2019. The CLG mine produces concentrates containing silver, lead,
zinc, copper and gold, which are shipped to smelters for processing.
| 1.2 | Geology and Mineralization |
The CLG and Esther deposits are embedded within andesites of the Lower
Volcanic Series (LVS) of the Sierra Madre Occidental (SMO) volcanic province. On the LGJV concessions, the LVS is exposed in a horst feature
that stretches from the CLG deposit approximately 25 km to the northwest to the edge of the concession package.
CLG is an intermediate sulphidation epithermal vein developed within
a listric fault zone. Mineralization at CLG is characterized by silver, lead, zinc, and copper sulphides and their corresponding oxides,
along with fluorite, manganese, barite, and traces of gold associated with quartz and calcite veins. The veins vary in orientation from
West-Northwest to North-Northwest and vary in thickness up to 25 meters (m).
A plan view of the local geology and location of mineralization is provided
in Figure 1.2.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 1.2: Surface Geological Map of the Cerro Los Gatos Deposit
Area
The Cerro Los Gatos deposit is a listric-shaped mineralized horizon
hosting steeply to shallowly dipping mineralized-shoots at depth. Mineralization of interest occurs for approximately 1,800 m in length,
between an elevation varying roughly between 700 masl and 1,400 masl. The top of the mineralized horizon at Cerro Los Gatos is generally
located at an elevation of 1,400 masl. The natural topographic surface is in the order of 1,570 masl ± 50 masl.
Figure 1.3 provides a typical cross-section view of the CLG deposit.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 1.3: Geologic Model, Section Looking Northwest through the
Central Zone Showing the Lithological Sequence at Los Gatos Deposit
The veins at Cerro Los Gatos contain silver, zinc, and lead. Lower concentrations
of gold and copper are also associated with the veining.
Silver mineralization occurs dominantly as acanthite (argentite) and
native silver.
Zinc mineralization occurs as sphalerite, zinc silicates and zinc carbonates
of variable grain sizes disseminated in quartz vein material, as open-space filling in cavities, and as replacements in the andesitic
and dacitic flow units. Sphalerite ranges from yellow to brown in color and is deposited in a similar style but is not always associated
with the galena mineralization. Zinc oxides after sphalerite also exists down along fault structures through the deposit.
Lead mineralization occurs primarily as galena and lead oxide minerals
of varying grain sizes that are disseminated in quartz vein material, as open-space filling in cavities, and as replacements in the andesitic
and dacitic flow units.
Copper mineralization occurs dominantly as chalcopyrite disseminated
within quartz veins. Various other copper minerals are present in trace amounts including azurite, malachite, covellite, chalcocite and
native copper.
Gold mineral species have not been identified visually but are present
in small quantities in assay results.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 1.3 | Exploration, Sampling, and Data |
Exploration at CLG by MPR has been completed primarily by diamond drilling
(DD) and limited non-drilling exploration activities, including surface geochemical assay, geophysics, surface mapping, and structural
studies.
The Mineral Resource estimate uses geological and geochemical data that
has been collected up until March 31, 2024, for CLG and July 31, 2022, for the Esther deposit. As of March 31, 2024, the global database
available for the 2024 Mineral Resource estimation of the CLG deposit includes 654 (278,215 m) surface and 1,073 (98,056 m) underground
core drill holes. The database includes regional exploration drilling that is outside the main area of interest of the CLG deposit, and
therefore has no direct input in the 3D geological modeling or resource estimation for the CLG Mineral Resource calculations. The database
within the area of interest of the CLG deposit and used in the Mineral Resource estimation of CLG includes 599 (249,091 m) surface and
1,067 (97,548 m) underground core drill holes. The CLG Mineral Resource incorporates an additional 53,689 meters of surface resource drilling
in 75 holes and 12,354 meters of underground definition drilling from 118 holes since the 2023 Technical Report. The Mineral Resource
for Esther is unchanged since 2022.
The sample collection and preparation, assaying and security procedures
implemented by MPR use methodologies in accordance with internal and mining industry standards and were continuously monitored to ensure
the integrity of the data collected.
| 1.4 | Mineral Resource Estimate |
Material factors that may cause actual results to materially vary from
the conclusions, estimates, designs, forecasts, or projections, include any significant differences in any one, or more, of the material
factors, or assumptions, set out in this subsection, this report, and as set out above in the note regarding forward looking information,
including geological and grade interpretations and controls, as well as assumptions and forecasts associated with the establishment of
the prospects for economic extraction.
Mineral Resources were estimated using surface exploration and underground
drilling and associated sampling data available for CLG.
The estimation is based on a 3D geological model built using implicit
modeling to characterize the structures and establish the geometry and continuity of the veins that form the estimation domains.
Exploratory Data Analysis (EDA) and geostatistical analysis were completed
on the raw and composite datasets to help define the interpolation parameters and Mineral Resource classifications. Estimation was completed
using Ordinary Kriging (OK) using nested passes with outlier capping, variography, and estimation plan defined per each estimation domain.
The Mineral Resource classification is based on drill hole spacing grids,
the closeness to mine infrastructure (production drifts), and the level of geological confidence for the continuity and grade of each
vein allowing for appropriate consideration of uncertainty and risk.
Mineral Resources were constrained based on a stope optimization that
considered economic Net Smelter Return (NSR) cut-off value, price, mining costs, infrastructure constraints, and mining licenses. For
the cut-off definition a NSR calculation was used for generation of the stope optimization shapes. The parameters applied to the calculation
of NSR in the block model (including metal values, recovery factors, transportation costs, etc.) were provided by MPR and reviewed and
considered reasonable by WSP.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The estimated Mineral Resources reported exclusive and inclusive of
Mineral Reserves are summarized in Table 1.1 and Table 1.2, respectively, on a 100% LGJV basis and on a 70% GSI attributable
basis. The effective date of the Mineral Resource estimate is July 1, 2024.
Table 1.1: CLG Mineral Resource Estimate Exclusive of
Mineral Reserves
100% LGJV Basis |
Mt |
Ag
(g/t) |
Zn
(%)
|
Pb
(%) |
Au
(g/t) |
Cu
(%) |
Ag
(Moz) |
Zn
(Mlbs) |
Pb (Mlbs) |
Au
(koz) |
Cu
(Mlbs) |
Measured |
0.24 |
222 |
2.78 |
1.51 |
0.36 |
0.07 |
1.7 |
14.7 |
8.0 |
2.8 |
0.3 |
Indicated |
0.55 |
75 |
3.71 |
2.00 |
0.21 |
0.25 |
1.3 |
44.8 |
24.1 |
3.7 |
3.1 |
Measured and Indicated |
0.79 |
120 |
3.43 |
1.85 |
0.26 |
0.20 |
3.0 |
59.5 |
32.0 |
6.5 |
3.4 |
Inferred |
1.51 |
80 |
4.22 |
2.01 |
0.22 |
0.29 |
3.9 |
140.2 |
66.9 |
10.5 |
9.5 |
70% GSI Attributable Basis |
Mt |
Ag
(g/t) |
Zn
(%) |
Pb
(%) |
Au
(g/t) |
Cu
(%) |
Ag
(Moz) |
Zn
(Mlbs) |
Pb (Mlbs) |
Au
(koz) |
Cu
(Mlbs) |
Measured |
0.17 |
222 |
2.78 |
1.51 |
0.36 |
0.07 |
1.2 |
10.3 |
5.6 |
2.0 |
0.2 |
Indicated |
0.38 |
75 |
3.71 |
2.00 |
0.21 |
0.25 |
0.9 |
31.4 |
16.9 |
2.6 |
2.1 |
Measured and Indicated |
0.55 |
120 |
3.43 |
1.85 |
0.26 |
0.20 |
2.1 |
41.6 |
22.4 |
4.6 |
2.4 |
Inferred |
1.06 |
80 |
4.22 |
2.01 |
0.22 |
0.29 |
2.7 |
98.2 |
46.8 |
7.4 |
6.7 |
Table 1.2: CLG Mineral Resource Estimate Inclusive of
Mineral Reserves
100% LGJV Basis |
Mt |
Ag |
Zn |
Pb |
Au |
Cu |
Ag |
Zn |
Pb |
Au |
Cu |
(g/t) |
(%) |
(%) |
(g/t) |
(%) |
(Moz) |
(Mlbs) |
(Mlbs) |
(koz) |
(Mlbs) |
Measured |
3.12 |
380 |
5.39 |
2.60 |
0.37 |
0.11 |
38.1 |
371.2 |
179.1 |
37.5 |
7.7 |
Indicated |
5.87 |
131 |
4.65 |
2.62 |
0.23 |
0.33 |
24.7 |
601.6 |
339.2 |
43.1 |
42.9 |
Measured and Indicated |
8.99 |
217 |
4.91 |
2.61 |
0.28 |
0.25 |
62.8 |
972.8 |
518.3 |
80.5 |
50.5 |
Inferred |
1.52 |
81 |
4.22 |
2.02 |
0.22 |
0.29 |
4.0 |
141.7 |
67.7 |
10.6 |
9.7 |
70% GSI Attributable Basis |
Mt |
Ag |
Zn |
Pb |
Au |
Cu |
Ag |
Zn |
Pb |
Au |
Cu |
(g/t) |
(%) |
(%) |
(g/t) |
(%) |
(Moz) |
(Mlbs) |
(Mlbs) |
(koz) |
(Mlbs) |
Measured |
2.18 |
380 |
5.39 |
2.60 |
0.37 |
0.11 |
26.7 |
259.8 |
125.4 |
26.2 |
5.4 |
Indicated |
4.11 |
131 |
4.65 |
2.62 |
0.23 |
0.33 |
17.3 |
421.2 |
237.4 |
30.1 |
30.0 |
Measured and Indicated |
6.29 |
217 |
4.91 |
2.61 |
0.28 |
0.25 |
43.9 |
681.0 |
362.8 |
56.4 |
35.4 |
Inferred |
1.07 |
81 |
4.22 |
2.02 |
0.22 |
0.29 |
2.8 |
99.2 |
47.4 |
7.5 |
6.8 |
Notes:
| 1. | Mineral Resources are reported on a 100% LGJV basis and 70% GSI attributable basis and exclusive and inclusive of Mineral Reserves. |
| 2. | Under SEC Regulation S-K 1300, a Mineral resource is a concentration or occurrence of material of economic interest in or on the Earth's
crust in such form, grade or quality, and quantity that there are reasonable prospects for economic extraction. A mineral resource is
a reasonable estimate of mineralization, taking into account relevant factors such as cut-off grade, likely mining dimensions, location
or continuity, that, with the assumed and justifiable technical and economic conditions, is likely to, in whole or in part, become economically
extractable. It is not merely an inventory of all mineralization drilled or sampled. |
| 3. | Mineral Resources which are not Mineral Reserves do not have demonstrated economic viability. The estimate of Mineral Resources may
be materially affected by environmental, permitting, legal, marketing, or other relevant issues. |
| 4. | The SEC definitions for Mineral Resources in S-K 1300 were used for Mineral Resource classification which are consistent with Canadian
Institute of Mining, Metallurgy and Petroleum (CIM) Definition Standards for Mineral Resources and Mineral Reserves (CIM (2014) definitions). |
| 5. | The quantity and grade of reported Inferred Mineral Resources in this estimation are uncertain in nature and there has been insufficient
exploration to define these Inferred Mineral Resources as an Indicated or Measured Mineral Resource. It is uncertain if further exploration
will result in upgrading Inferred Mineral Resources to an Indicated or Measured Mineral Resource category. |
| 6. | Specific gravity has been assumed on a dry basis. |
| 7. | Tonnage and contained metal have been rounded to reflect the accuracy of the estimate and numbers may not sum exactly. |
| 8. | Mineral Resources exclude all Mineral Resource material mined prior to July 1, 2024. |
| 9. | Mineral Resources are reported within stope shapes using a $70.94/tonne net smelter return (“NSR”) cut-off calculated
using an Ag price of US$23/oz, Zn price of US$1.25/lb, Pb price of US$0.95/lb, Au price of US$1,850/oz and Cu price of US$4.00/lb. The
NSR cutoff includes mill recoveries and payable metal factors appropriate to the existing CLG processing circuit augmented with a pyrite
leach circuit and copper separation circuit. The milling recoveries for these additional projects is based on existing metallurgical testwork.
The metallurgical recoveries that are used as inputs to the resource NSR are 93.2% Ag, 63.4% Zn, 61.1% Au and range between 87.2%-89.4%
Pb and between 66.5%-82.0% Cu. |
| 10. | No dilution was applied to the Mineral Resource which are reported on an insitu basis (point of reference). |
| 11. | Contained Metal (CM) is calculated as follows: |
| a. | Zn, Pb and Cu CM (Mlb) = Tonnage (Mt) * Grade (%) / 100 * 2204.6 |
| b. | Ag and Au, CM (Moz) = Tonnage (Mt) * Grade (g/t) / 31.1035; multiply Au CM (Moz) by 1000 to obtain Au CM (koz) |
| 12. | The Mineral Resource estimates were prepared under the supervision of Ronald Turner, MAusIMM(CP) an employee of Golder Associates
S.A. who is the independent Qualified Person for these Mineral Resource estimates. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The mineral resource estimate for the Esther deposit remains unchanged
from that published in the 2022 and 2023 TRS. It is summarized in Table 1.3.
Table 1.3: Esther Mineral Resource Estimate
100% LGJV Basis |
Mt |
Ag (g/t) |
Zn
(%)
|
Pb
(%)
|
Au (g/t) |
Ag (Moz) |
Zn (Mlbs) |
Pb (Mlbs) |
Au (koz) |
Indicated |
0.28 |
122 |
4.30 |
2.17 |
0.14 |
1.1 |
26.8 |
13.6 |
1.2 |
Inferred |
1.20 |
133 |
3.69 |
1.53 |
0.09 |
5.1 |
98.0 |
40.6 |
3.3 |
70% GSI Attributable Basis |
Mt |
Ag (g/t) |
Zn |
Pb |
Au (g/t) |
Ag (Moz) |
Zn (Mlbs) |
Pb (Mlbs) |
Au (koz) |
(%) |
(%) |
Indicated |
0.20 |
122 |
4.30 |
2.17 |
0.14 |
0.8 |
18.8 |
9.5 |
0.8 |
Inferred |
0.84 |
133 |
3.69 |
1.53 |
0.09 |
3.6 |
68.6 |
28.4 |
2.3 |
Notes:
| 1. | Mineral Resources are reported on a 100% LGJV basis and 70% GSI attributable basis and are exclusive of Mineral Reserves (there are
no Mineral Reserves at Esther). |
| 2. | Under SEC Regulation S-K 1300, a Mineral resource is a concentration or occurrence of material of economic interest in or on the Earth's
crust in such form, grade or quality, and quantity that there are reasonable prospects for economic extraction. A mineral resource is
a reasonable estimate of mineralization, taking into account relevant factors such as cut-off grade, likely mining dimensions, location
or continuity, that, with the assumed and justifiable technical and economic conditions, is likely to, in whole or in part, become economically
extractable. It is not merely an inventory of all mineralization drilled or sampled. |
| 3. | Mineral Resources which are not Mineral Reserves do not have demonstrated economic viability. The estimate of Mineral Resources may
be materially affected by environmental, permitting, legal, marketing, or other relevant issues. |
| 4. | The SEC definitions for Mineral Resources in S-K 1300 were used for Mineral Resource classification which are consistent with Canadian
Institute of Mining, Metallurgy and Petroleum (CIM) Definition Standards for Mineral Resources and Mineral Reserves (CIM (2014) definitions). |
| 5. | The quantity and grade of reported Inferred Mineral Resources in this estimation are uncertain in nature and there has been insufficient
exploration to define these Inferred Mineral Resources as an Indicated or Measured Mineral Resource. It is uncertain if further exploration
will result in upgrading Inferred Mineral Resources to an Indicated or Measured Mineral Resource category. |
| 6. | Specific gravity has been assumed on a dry basis. |
| 7. | Tonnage and contained metal have been rounded to reflect the accuracy of the estimate and numbers may not sum exactly. |
| 8. | Mineral Resources are reported within stope shapes using a $52/tonne net smelter return (“NSR”) cut-off assuming processing
recoveries equivalent to CLG with a silver price of $22/oz, zinc price of $1.20/lb, lead price of $0.90/lb and gold price of $1,700/oz.
The metallurgical recoveries that were used as inputs to the NSR were based on experience with similar mineralized material from CLG.
The metallurgical recovery parameters used in the NSR were 87.8% Ag, 65.0% Zn, 87.2% Pb and 56.4% Au There is a portion of the Esther
deposit that is oxidized and additional metallurgical test work is required to define processing recoveries. |
| 9. | No dilution was applied to the Mineral Resource which are reported on an insitu basis (point of reference). |
| 10. | Contained Metal (CM) is calculated as follows: |
| a. | Zn, Pb and Cu CM (Mlb) = Tonnage (Mt) * Grade (%) / 100 * 2204.6 |
| b. | Ag and Au, CM (Moz) = Tonnage (Mt) * Grade (g/t) / 31.1035; multiply Au CM (Moz) by 1000 to obtain Au CM (koz) |
| 11. | The Mineral Resource estimates were prepared under the supervision of Ronald Turner, MAusIMM(CP) an employee of Golder Associates
S.A. who is the independent Qualified Person for these Mineral Resource estimates. |
| 1.5 | Mineral Reserve Estimate |
The mine design, scheduling, and Mineral Reserve estimates were prepared
by the CLG Technical Services Department under the supervision of the Qualified Person (QP) responsible for these estimates.
| 1.5.2 | Methodology for Estimating Mineral Reserves |
The methodology applied by CLG for the 2024 Mineral Reserve estimate
follows industry-standard practices and remains consistent with the approach used for the 2023 update. It adheres to the requirements
of S-K 1300 and NI 43-101, which mandate rigorous procedures to convert Measured and Indicated Resources into Proven and Probable Reserves
by applying relevant Modifying Factors.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 1.5.3 | Metal Prices and Exchange Rate |
The metal prices and exchange rates used in the Mineral Reserve estimate
were based on the three-year trailing monthly averages from June 2021 to June 2024, supplemented by long-term analyst consensus estimates.
CLG assigned block Net Smelter Return (NSR) values to the resource block
model for three processing recovery/revenue/cost outcomes, differentiated by the Pb/Cu ratio:
| n | Pb/Cu ratio of ROM ore > 15. Two concentrates, zinc (Zn) and lead (Pb), with Cu not recovered as a payable component. |
| n | Pb/Cu ratio of ROM ore between 7 and 15. Two concentrates, Zn and Pb, with Cu as a payable component of the Pb concentrate. |
| n | Pb/Cu ratio of ROM ore < 7. Three concentrates, Zn, Pb, and Cu. |
| n | Note that final processing scenarios, recoveries and payabilities are determined based on the blended period grades fed to the processing
plant and not on individual block values. |
CLG used net smelter return (NSR) cut-offs to estimate the Mineral
Reserve. The NSR cut-off represents the minimum value that a tonne of mineralized material must generate, considering on-site costs related
to mining and processing, to ensure economic viability. This value ensures that only material which can be mined profitably is included
in the reserve estimate. For this analysis, six NSR cut-offs were applied, corresponding to three different mining methods and two cost
allocation approaches.
| 1.5.6 | Dilution and Mining Recovery |
Mining recovery and unplanned dilution of host rock were estimated considering
the selected mining method, the dip and width of the vein, and the influence of a significant hanging wall fault. In addition, dilution
from backfill was evaluated based on the mining method employed and the type of backfill material used.
The Mineable Shape Optimizer (MSO) algorithm, integrated within Deswik
mine design software, was employed to generate preliminary stope solids. This process identified the potentially mineable portions of
the Mineral Resource that may qualify for inclusion in the Mineral Reserve.
| 1.5.8 | Mineral Reserve Estimate |
Table 1.4 presents the Mineral Reserve estimate for the CLG mine as
of July 1, 2024. The estimates are reported on both a 100% and a 70% ownership basis, corresponding to the total Mineral Reserve and GSI’s
70% interest in the Los Gatos Joint Venture (LGJV). The LGJV, through its Mexican subsidiary Minera Plata Real, S. de R.L. de C.V., owns
the CLG mine.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 1.4: CLG Mineral Reserves as of July 1, 2024
100% LGJV Basis |
Mt |
Ag |
Zn |
Pb |
Au |
Cu |
Ag |
Zn |
Pb |
Au |
Cu |
(g/t) |
(%) |
(%) |
(g/t) |
(%) |
(Moz) |
(Mlbs) |
(Mlbs) |
(koz) |
(Mlbs) |
Proven |
3.49 |
300 |
4.35 |
2.09 |
0.29 |
0.09 |
33.6 |
334.4 |
160.6 |
32.6 |
7.0 |
Probable |
6.85 |
107 |
3.66 |
2.06 |
0.18 |
0.26 |
23.6 |
552.3 |
310.9 |
40.5 |
40.0 |
Proven and Probable |
10.33 |
172 |
3.89 |
2.07 |
0.22 |
0.21 |
57.3 |
886.7 |
471.4 |
73.1 |
46.9 |
70% GSI Attributable Basis |
Mt |
Ag |
Zn |
Pb |
Au |
Cu |
Ag |
Zn |
Pb |
Au |
Cu |
(g/t) |
(%) |
(%) |
(g/t) |
(%) |
(Moz) |
(Mlbs) |
(Mlbs) |
(koz) |
(Mlbs) |
Proven |
2.44 |
300 |
4.35 |
2.09 |
0.29 |
0.09 |
23.5 |
234.1 |
112.4 |
22.8 |
4.9 |
Probable |
4.80 |
107 |
3.66 |
2.06 |
0.18 |
0.26 |
16.5 |
386.6 |
217.6 |
28.4 |
28.0 |
Proven and Probable |
7.23 |
172 |
3.89 |
2.07 |
0.22 |
0.21 |
40.1 |
620.7 |
330.0 |
51.2 |
32.8 |
Notes:
| 1. | Mineral Reserves are reported on a 100% basis and 70% GSI attributable basis and exclude all mineral reserve material mined prior
to July 1, 2024. |
| 2. | Specific gravity has been assumed on a dry basis. |
| 3. | Tonnage and contained metal have been rounded to reflect the accuracy of the estimate and numbers may not sum exactly. |
| 4. | Values are inclusive of mining recovery and dilution. Values are determined as of delivery to the mill (point of reference) and therefore
not inclusive of milling recoveries. |
| 5. | Mineral Reserves are reported within stope shapes using a variable cut-off basis with a Ag price of US$23/oz, Zn price of US$1.25/lb,
Pb price of US$0.95/lb, Au price of US$1850/oz and Cu price of US$4.00/lb. Metallurgical recoveries used in the NSR calculation for generation
of the stope solids vary based on the block Pb:Cu ratio. For a Pb:Cu ratio >15 the NSR metallurgical recovery parameters were 88.2%
Ag, 63.4% Zn, 89.4% Pb, 54.2% Au and 0% Cu, for Pb:Cu of >7 and <15, the NSR metallurgical recovery parameters were 88.2% Ag, 63.4%
Zn, 89.4% Pb, 54.2% Au and 60% Cu and for Pb:Cu ratio of <7 the NSR metallurgical recovery parameters used were 88.2% Ag, 63.4% Zn,
87.2% Pb, 54.2% Au and 82% Cu. The metallurgical recovery parameters in the economic analysis, after plant production modeling, average
88.2% Ag, 63.1% Zn, 88.5% Pb, 54.2% Au and 71.5% Cu to concentrates where the metal is payable. |
| 6. | The Mineral Reserve is reported on a fully diluted basis defined by mining method, stope geometry and ground conditions. |
| 7. | Contained Metal (CM) is calculated as follows: |
| • | Zn, Pb and Cu, CM (Mlb) = Tonnage (Mt) * Grade (%) / 100 * 2204.6 |
| • | Ag and Au, CM (Moz) = Tonnage (Mt) * Grade (g/t) / 31.1035; multiply Au CM (Moz) by 1000 to obtain Au CM (koz) |
| 8. | The SEC definitions for Mineral Reserves in Regulation S-K 1300 were used for Mineral Reserve classification and are consistent with
Canadian Institute of Mining, Metallurgy and Petroleum (CIM) Definition Standards for Mineral Resources and Mineral Reserves (CIM (2014)
definitions). |
| 9. | Under SEC Regulation S-K 1300, a Mineral Reserve is defined as an estimate of tonnage and grade or quality of indicated and measured
mineral resources that, in the opinion of the qualified person, can be the basis of an economically viable project. More specifically,
it is the economically mineable part of a measured or indicated mineral resource, which includes diluting materials and allowances for
losses that may occur when the material is mined or extracted. |
| 10. | The Mineral Reserve estimates were prepared under the supervision of Mr. Stephan Blaho, P.Eng., an employee of WSP Canada Inc. who
is the independent Qualified Person for these Mineral Reserve estimates. |
| 1.6.1 | Description of the Mine and Deposit |
CLG is an underground mine that produces Ag, Zn, and Pb, with gold (Au)
and Cu as by-products. The orebody is characterized by high-grade polymetallic sulphide mineralization in an epithermal vein-style deposit.
The deposit consists of four zones called the Northwest (NW), Central (CZ), Southeast Upper (SEU), and Southeast (SE) zones. CLG effectively
addresses several challenges in developing and operating the underground mine, including groundwater management, temperature regulation,
and ground control.
The ground conditions in parts of the deposit are adversely affected
by proximity to a major hanging wall fault called the Los Gatos fault. This major basin boundary fault ranges from centimeters to tens
of meters in width. While the fault itself does not host mineralization, in areas where the mineralized veins are located adjacent to
the structure, mining and ground support methods need to be adapted to limit mining dilution and increase mining recovery.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Geotechnical engineers at the CLG mine have developed a rock support
system which is applied to development headings (ramps and drifts), cut-and-fill stopes, longhole stopes, and pillars. The WSP QP has
engaged a highly experienced geotechnical engineer to review the rock support designs and who has visited the mine to observe installed
rock support and the behaviour of the standing rock mass. Discussions have been held with CLG technical staff to investigate rock mechanics
challenges, and identify and mitigate excavation risks.
Various combinations of rock bolts, welded-wire fabric (mesh), shotcrete
and cable bolts are utilized in the mine (see Section 13.2.1). In addition, stope voids are backfilled with cemented backfill to provide
support for remnant pillars and stope spans (see Section 13.2.1.2).
Rock support in the CLG Mine is complicated by major fault structures
intersecting the mineralized veins at oblique and high angles. Engineers have applied specific mining methods and rock support techniques
to provide secure and safe mine openings (see Section 13.2.1).
The unmined rock above the uppermost stopes is referred to as the crown
pillar. At CLG the crown pillar has been evaluated for stability, probability of failure and likelihood of surface subsidence (Section
13.2.1.4). Since the mineralized veins peter out many tens of meters from the topographic surface and the stopes will be backfilled, there
is very little to no likelihood of crown pillar failures, nor of surface subsidence, along the strike of the deposit.
The QP is of the opinion that the rock support designs and installation
protocols employed by CLG are adequate to manage the natural and induced stresses in the rock mass and are consistent with observed rock
support strategies in mines of similar mining techniques and rock conditions.
The CLG deposit is characterised by the Los Gatos Fault (LGF) and a
number of cross faults, including the Falla Aportadora NW, which is a major water-bearing structure. Of the six identified hydrogeological
units (HGUs) identified at CLG, the central gouge zone of the LGF and less-fractured rock masses distal to the fault zones are considered
to be of relatively lower permeability. The fractured rock masses on either side of the LGF and areas where cross faults intersect the
LGF are considered to be of relatively higher permeability and to be favorable conduits for groundwater flow.
Water flows into the mining area from two sources – rainwater
through epiclastics and fracture zones, and upswelling thermal waters via the Lower Gatos Fault.
The strategy for managing water at CLG is to draw down the water table
and thus minimize the rate of inflow of groundwater. The original topographic surface of the Cerro Los Gatos deposit ranges from 1571
to 1624 meters above sea level (masl). The natural water table was at 1400 masl and inflows occur below 1450 masl. A series of 18 wells
were drilled from surface to establish dewatering wells and piezometer stations. Once underground development began, additional wells
were drilled from underground bays to intercept groundwater within the rock mass before it flowed into the mine for the dual purpose of
lowering the water table and reducing the temperature gradient in the mine. Wells have been drilled and pumps installed in the NW and
CZ zones with more planned in the SE zones as the mine deepens (see Section 13.3).
The QP observes that mining productivity and mine development rates
increase when the water table has been drawn down below the mining horizon in advance of excavations.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 1.6.4 | Groundwater Management |
The CLG deposit is situated within a regional aquifer, which poses significant
challenges for controlling groundwater inflows into the underground workings. CLG employs two dewatering systems to manage the groundwater:
| n | Conventional contact-water dewatering infrastructure |
| n | A network of dewatering wells |
The Mineral Reserve estimate is based on a detailed mine design and
production schedule, both of which were developed using Deswik software. The design process began with the establishment of key criteria
for stope production and mine development, ensuring that the mining methods and development sequence align with the overall project objectives
and economic constraints.
CLG employs two primary mining methods: cut-and-fill (CAF) and longhole
stoping (LHS). The selection between these methods is determined by the geotechnical characteristics of the mineralization and surrounding
host rock. These methods are implemented in either longitudinal or transverse orientations, depending on the vein width and geometry
| n | Access and Underground Facilities: Access to the underground workings is provided through a system of ramps. CLG has established
an underground maintenance shop within a mined-out stope in the NW zone. |
| n | Ventilation System: The mine utilizes a pull-type ventilation system. Exhaust fans, installed at the collars of three return-air
raises, draw spent air from the underground workings. Fresh air enters the mine through the main ramp and two principal intake raises. |
| n | Air-Cooling Infrastructure: CLG operates two dedicated air-cooling plants designed to regulate underground temperatures, maintaining
safe and comfortable working conditions. |
| n | Dewatering Infrastructure: The dewatering system at CLG consists of two components: |
| § | Conventional Contact-Water Dewatering: This system collects water that enters the mine workings and pumps it to surface. |
| § | Dewatering Wells: These wells extract groundwater from the aquifer, reducing the inflow into the underground workings. |
| n | Safety Infrastructure: The safety infrastructure at CLG includes an escapeway raise to surface, a permanent refuge station,
and three portable refuge chambers. |
| n | Electric Power: The underground electrical power distribution system includes 19 mobile electrical substations (13,800/480
volts) and three fixed substations (13,800/4,160 volts). |
| n | Underground Communications: The communication system includes a leaky feeder cable network, a fiber-optic backbone, a personnel
location system, and video surveillance cameras. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
CLG operates as a fully mechanized mine, utilizing rubber-tired, diesel-powered
equipment for all phases of its mining operations. The current fleet includes the following:
| n | Six two-boom, electric-hydraulic development jumbos |
| n | One cable bolter and seven mechanized rock bolters |
| n | Nine LHDs (Load-Haul-Dump), most equipped for remote-control mucking |
| n | Seven mine trucks with a 40-t payload capacity |
| n | Three production drill rigs (one top-hammer and two down-the-hole) |
As of July 1, 2024, the mine department employed a total of 483 individuals.
The underground mine operates on a two-shift schedule, with each shift working 10-hours per day. The workforce is organized into three
rotational crews, each working 14 days on followed by 7 days off. At any given time, two of the three crews are present on-site, ensuring
continuous operation.
The Life-of-Mine (LOM) plan projects that the CLG mine will remain in
operation for an additional 8.3 years from the July 1, 2024, effective date of this report, with production continuing until Q4 of 2032.
Over this period, the mine’s average annual production is estimated at approximately 1.2 Mt. Notably, around 50% of the total LOM
production will be sourced from the Mineral Reserves in the SE Zone.
The CLG processing plant employs a conventional design and flotation
technology typical of base metal operations. The processing flow sheet is comprised of a crushing and grinding circuit, including jaw
crusher, semi-autogenous grinding (SAG) mill and ball mill, which feeds a flotation plant consisting of lead and zinc flotation circuits
(including rougher, regrind and cleaner stages), lead and zinc concentrate thickening, and tailings thickening.
Since commencing operations, processing improvements, relative to the
2017 Feasibility Study design, have been achieved through equipment additions and optimized maintenance and operating practices. The actual
plant performance from 2019 through to 2024 has been the primary basis for the processing rate and metallurgical predictions in this Mineral
Reserves update study. During 2019 to 2024, the main sources of processed material were the Central and NW Zones. Over the remaining Reserve
there will be increasing contributions from the SE Zone.
There is no indication that the characteristics of the material being
mined will change and therefore the throughput and recovery assumptions applied for future processing are considered as reasonable for
the LOM. The plant equipment sizing is robust for the throughput projected.
The plant operating practices are consistent with the design, metallurgical
testwork described in Section 14.2, and performance predictions that have been used in developing the Mineral Reserve.
The construction design nominal throughput basis for the processing
facility was 2,500 t/d, 365 days per year or 912,500 tonnes per year (t/y) of ROM on an operating basis of 92% utilization.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| n | From January 2024 to June 2024, the average processing rate was 3,225 tonnes per calendar day. |
| n | The 2024 LOM Plan averages a processing rate 3,401 tonnes per calendar day with a nominal rate of 3,500 tonnes per calendar day. |
The 2019 to 2024 processing recovery results have been better than the
recoveries achieved in the 2016 Feasibility test program. The 2024 LOM Plan is based on average historical monthly metal recoveries after
removal of outliers.
The 2024 LOM Plan contemplates the construction and operation of a processing
circuit that separates a copper concentrate from high-copper lead concentrates. The CLG produces zinc concentrates with significant silver
content, however due to the properties of the feed mineral (type of grain, mineral associations, grade of oxidation, etc.) fluorine bearing
minerals are simultaneously recovered which incurs minor financial penalties on the sale to smelters. A fluorine leach circuit was constructed
in early 2023 and started operation in June 2023. The fluorine leach circuit is designed to lower the content of the zinc concentrate
to approximately 500 ppm fluorine. To date less than 500 ppm fluorine has been steadily achieved. There are minor losses of silver and
zinc during the leaching processes that have been accounted for in the processing plant production calculations.
The key process parameters are outlined in Table 1.5.
Table 1.5: Process Plant Recovery Parameters
|
44% of LOM tonnage |
56% of LOM |
Zinc Circuit |
|
High Cu Stream (<15:1 Pb:Cu) |
Low Cu Stream |
|
Cu Conc |
Pb Conc |
Pb Conc |
Zn Conc |
Leach Rec |
After Leach |
Ag recovery, % |
6.80% |
71.20% |
78.00% |
10.20% |
99.70% |
10.17% |
Au recovery, % |
3.25% |
50.95% |
54.20% |
6.30% |
99.00% |
6.24% |
Pb recovery, % |
2.50% |
86.90% |
89.40% |
1.70% |
97.00% |
1.65% |
Zn recovery, % |
1.00% |
8.90% |
9.90% |
63.40% |
99.60% |
63.15% |
Cu recovery, % |
52.50% |
27.50% |
60.00% |
10.00% |
95.00% |
9.50% |
F recovery, % |
0.40% |
0.63% |
1.03% |
0.24% |
35.01% |
0.08% |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table
1.6: Life of Mine Projected Processing and Production Summary
Plant Metrics |
Units |
H2 2024 |
2025 |
2026 |
2027 |
2028 |
2029 |
2030 |
2031 |
2032 |
LOM |
Processed Material |
Mt |
0.60 |
1.26 |
1.28 |
1.28 |
1.28 |
1.28 |
1.28 |
1.16 |
0.93 |
10.33 |
Process Rate |
tpd |
3,247 |
3,444 |
3,500 |
3,500 |
3,500 |
3,500 |
3,500 |
3,166 |
3,055 |
3,401 |
Ag Grade |
g/t |
260 |
221 |
193 |
167 |
154 |
153 |
153 |
146 |
141 |
172 |
Zn Grade |
% |
4.02 |
4.30 |
4.42 |
4.05 |
3.98 |
4.22 |
3.35 |
3.30 |
3.24 |
3.89 |
Pb Grade |
% |
1.89 |
2.04 |
2.13 |
2.10 |
2.12 |
2.13 |
1.99 |
2.05 |
2.09 |
2.07 |
Au Grade |
g/t |
0.26 |
0.23 |
0.25 |
0.20 |
0.22 |
0.24 |
0.21 |
0.19 |
0.18 |
0.22 |
Cu Grade |
% |
0.09 |
0.12 |
0.12 |
0.14 |
0.16 |
0.21 |
0.37 |
0.33 |
0.27 |
0.21 |
Ag Production |
Moz |
4.4 |
7.9 |
7.0 |
6.0 |
5.6 |
5.5 |
5.5 |
4.8 |
3.7 |
50.5 |
Zn Production |
Mlbs |
33.4 |
75.2 |
78.7 |
72.0 |
71.0 |
75.1 |
59.5 |
53.1 |
42.0 |
559.9 |
Pb Production |
Mlbs |
22.2 |
50.6 |
53.3 |
52.6 |
53.0 |
52.8 |
49.0 |
45.7 |
37.8 |
417.0 |
Au Production |
koz |
2.8 |
5.1 |
5.6 |
4.5 |
4.9 |
5.4 |
4.6 |
3.8 |
3.0 |
39.6 |
Cu Production |
Mlbs |
0.7 |
2.0 |
0.9 |
2.8 |
3.4 |
4.5 |
8.4 |
6.7 |
4.2 |
33.5 |
AgEq Production |
Moz |
7.5 |
14.8 |
14.1 |
13.0 |
12.6 |
13.0 |
12.6 |
11.0 |
8.6 |
107.2 |
Notes:
| 1. | LOM begins on July 1, 2024. The 2024 Mineral Reserve excludes all mineral reserve material mined prior to July 1, 2024. |
| 2. | Ag production is silver contained in Pb and Zn concentrates, Zn production is zinc contained in Zn
concentrate, Pb production is lead contained in Pb concentrate, Au production is gold contained in Pb concentrate and Cu production is
copper contained in Pb concentrate when Cu is expected to be above the payable threshold. |
Table 1.7: Process Plant Product Characteristics
|
|
Zinc Concentrate |
Lead Concentrate |
Copper Concentrate |
Cu > 1.5% |
Cu < 1.5% |
Concentrate Produced |
t |
450,860 |
297,272 |
45,731 |
33,895 |
Concentrate Grades |
|
|
|
|
|
Zinc |
% |
56.3% |
11.0% |
11.9% |
4.5% |
Lead |
% |
0.78% |
55.5% |
52.9% |
6.0% |
Silver |
g/t |
402 |
3,923 |
4,131 |
1,004 |
Gold |
g/t |
0.31 |
3.48 |
3.12 |
0.83 |
Copper |
% |
0.45% |
2.37% |
1.47% |
24.11% |
CLG is an operating mine with significant existing infrastructure in
place supporting the operation, including offsite and onsite components. Existing offsite infrastructure comprises grid power distribution
to the mine and previously completed road upgrades to facilitate heavy equipment transport during construction, material deliveries and
concentrate shipments, in addition to worker traffic. On site infrastructure is comprised of office and maintenance facilities, processing
facilities, a TSF, backfill plants, a refrigeration plant, a mine ventilation system, and dewatering ponds for sediment settling and water
cooling.
The underground mine operates three air extractive fans to exhaust spent
air, with fresh air intake via the decline ramp and two downcast fresh air raises equipped with refrigeration plants and air coolers.
The current installed capacity of the ventilation system is 1.3 M CFM and plans are in place for an expansion to provide fresh air to
the SE Zone.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The mine dewatering system consists of both surface and underground
infrastructure. None of the dewatering wells drilled from surface are currently active, as the water table is now beneath the effective
depth of those wells. There are currently five main underground wells in the NW zone, with two more under development. Two underground
wells are present in the Central Zone. As the mine expands, capital has been allocated for the anticipated additional dewatering infrastructure
in the NW, Central and SE zones that will be required to manage the water underground.
Site infrastructure in addition to production-related installations
are typical of a mining operation of this scale, located some distance from supporting populations, and include a concrete batch plant,
maintenance shops, administration and engineering building, mine dry for underground personnel, warehouse facilities, security guard house
and gates, residential camps and cafeterias.
| 1.8.1 | Tailings Storage Facility |
The CLG TSF has been constructed and tailings have been deposited in
the facility since 2019. Regular dam raises have been constructed to increase the volume of the TSF.The material used in the dam construction
is mostly rockfill with some screened filter material. All TSF stages are built using local borrow materials, primarily rockfill excavated
and blasted from foundation material within the TSF. The TSF uses downstream construction methods.
The tailings dam has a composite liner consisting of geosynthetic clay
liner (GCL) overlain by a 1.5 mm (60-mil), Linear Low-density Polyethylene (LLDPE) geomembrane. The liner extends along the base of the
impoundment and the embankment’s upstream slope and anchored along the edges of each concurrent construction stage. The lining system
is placed on a 0.15-m thick bedding fill.
The original permitted TSF design consists of four Stages (I to IV)
with an ultimate crest elevation of 1638.0 m. However, due to a change in the tailings delivery rate to the TSF with the commissioning
of the paste plant in the fourth quarter of 2022, the ultimate TSF will have a maximum crest elevation of 1636.0 m (Stage III) which is
adequate for the revised and reduced volume of tailings to be stored based on the Mineral Reserve and LOM Plan.
To date, four dam raises have been constructed to the existing crest
elevation of 1628.0 m. The LOM Plan requires two additional raises to be built during 2025 and 2028 to a final maximum crest elevation
of 1636.0 m.
The 2023 TSF dam height assessment allowed for 10.3 Mt of material processed
from July 2023 onwards. It is projected that 40% of the tailings produced by the Process Plant will be sent to the Paste Plant, for use
as underground backfill, while the remaining 60% will be sent to the TSF. As a result, tailings accumulated in the TSF are estimated at
9.49 Mt (3.71 Mt stored until June 2024 and 5.78 Mt from July 2024 until mine closure).
The TSF design criteria were established based on the facility size
and risk using applicable dam safety and water quality regulations and industry best practice for the TSF embankment on a standalone basis.
The dam has a blanket drain in the foundation to control and reduce the water level in the dam due to any infiltration that could occur.
Incorporating the blanket drain will improve the stability of the embankment in the event of liner failure.
The TSF has an Operations, Maintenance, and Surveillance (OMS) Manual
that describes operating and monitoring procedures to confirm the condition of the embankment, foundation, and performance of the TSF
dam and impoundment. Regular TSF inspections are completed, including annual inspections by the Engineer of Record.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 1.9 | Environmental Studies, Permitting, and Social Impacts |
Mexico has established environmental laws and regulations that apply
to the development, construction, operation and closure of mining projects, and the Company has management systems in place to ensure
ongoing regulatory compliance. Of particular importance are the air, surface water and groundwater quality monitoring programs. An environmental
compliance report is submitted annually to the Mexican environmental authority. There are no outstanding violations issued by the environmental
authority against MPR.
Certain revisions were made in 2023 to Mexican laws affecting the mining
sector. This TRS reflects the Company’s understanding of the laws that affect the Company in light of these revisions. It should
be noted that the current and revised laws are subject to ongoing interpretation and that in many instances the revised laws require implementing
regulations, which have not yet been promulgated, for their impact to be fully assessed.
The Company has all material permits for the current operations. The
Company is waiting on final resolution documents for three permits: the modification of the environmental permit that added the fluorine
leach plant to the metallurgical process; a permit for land occupied by the tailings facility (the permit was approved and permitting
fees have been paid; however, the Company has not received the signed permit from the government agency); and a permit regarding the use
of treated water from the personnel camp sewage treatment facilities. The QP notes that none of these final resolution permit documents
are a high material risk for the current operations.
MPR has produced several social baseline studies that collected information
from official statistical sources, as well as interviews and participatory workshops with stakeholders and the local communities in the
area of direct influence. The social baseline study was updated in 2023, with consultations carried out in nine communities. A detailed
analysis to identify and characterize stakeholders was prepared. The information obtained has been used to identify social impacts in
the communities, as well as social risks for the mining operations. The Company has mitigation measures in place for the highest priority
social risks.
The MPR community relations team has had a presence in the region since
the mineral exploration phase and has established communication and collaboration channels based on transparency of information. The objective
of the MPR Community Relations Policy is to establish the guidelines for institutional work with the neighboring communities and for MPR
social interaction projects. Projects are to promote social development, either independently or through strategic alliances with various
institutions (public or private), that are aimed at addressing health, education, culture, and basic infrastructure, based on respect
for human rights, beliefs, and local characteristics. The Company carried out 50 social programs in 2023 and has entered into collaborative
agreements with local and state governments on construction and agricultural programs that benefit the communities.
MPR has established a community relations office in the nearby town
of San José del Sitio, which allows for a permanent point of contact between the communities and the mine. MPR has established
various commitments for the hiring of local labor, as well as in the acquisition of services during the life of the project, through agreements
with stakeholders. A total of 165 direct employees from the area of influence work for CLG. Of these employees, 40% are female and 60%
are male.
A conceptual mine closure strategy was presented in the closure plan
(Tetra Tech, 2018) that was submitted to the Mexican environmental authority. The closure cost estimate was updated at the end of 2023
based on disturbance areas and 2023 local rates for closure activities such as haulage, demolition and removal. The closure cost was estimated
at $16.4 M.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 1.10 | Capital and Operating Costs |
Operating cost estimates were developed based on recent actual costs
with minor specific adjustments for business improvement initiatives that are currently being implemented. Operating costs are estimated
in 2024 dollars with no inflation or escalation considered. They were prepared on an annual basis using a detailed build-up of individual
cost centres and considering specific mine site activity levels and cost drivers. Operating costs at CLG have been reviewed by WSP and
found to be reasonable for a mechanized mine utilizing the cut-and-fill and bulk longhole mining methods and for an associated processing
plant producing saleable concentrates. The plant has demonstrated typical operating costs for a facility of its size.
Operating cost expenditures for the 2024 LOM are estimated at $848.6
M from July 1, 2024, to the planned end of the mine’s life in 2032, equivalent to $82.14 per tonne milled. Table 1.8 summarizes
the expected site operating expenses projected to the end of mine life to mine and process the defined Mineral Reserve, segmented by major
cost centre of Mining, Processing, which includes TSF operations, and General and Administrative.
Table 1.8: 2024 LOM Operating Costs
Cost Center |
LOM Cost, $M |
Unit Cost, $/t milled |
Mining |
435.5 |
42.16 |
Processing |
256.0 |
24.77 |
G&A |
157.1 |
15.20 |
Total Operating Costs |
848.6 |
82.14 |
Note: Numbers may not necessarily add up due to rounding.
There are no expansion plans requiring development capital in the LOM
Plan.
CLG will require $186.9 M in sustaining capital for continuing underground
mine development, installation of a copper-lead separation circuit, and two additional raises of the TSF dam, as well as other miscellaneous
equipment and infrastructure projects.
Table 1.9 summarizes the capital expenditures in the 2024 LOM planned
for the balance of the mine life. Sustaining capital is estimated in 2024 dollars with no inflation or escalation considered. The QPs
have reviewed the planned annual expenditures and agree that they are reasonable.
Table 1.9: 2024 LOM Sustaining Capital
Item |
Units |
LOM Cost |
Mine Development |
|
|
Lateral Development |
m |
17,583 |
Mine Development |
$M |
96.1 |
Infrastructure & Equipment |
Mine |
$M |
61.4 |
Process Plant |
$M |
26.2 |
Others |
$M |
3.2 |
Infrastructure & Equipment |
$M |
90.8 |
Total Sustaining Capital |
$M |
186.9 |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The economic analysis for this TRS was performed by Gatos Silver, Inc.
(GSI) using the GSI financial model. Key inputs to the financial model are described in the relevant sections of this Technical Report
Summary and are inclusive of the mine plan, processing and production schedule, operating and capital costs, commodity prices and exchange
rate assumptions.
The economic analysis of the 2024 LOM Plan supports the declaration
of Mineral Reserves. WSP reviewed the 2024 LOM Plan information and the financial model in detail.
Economic assumptions are based on an approximately equal weighting of
three-year trailing averages and analyst long-term consensus forecasts as of June 30, 2024 (see Table 1.10).
Table 1.10: Economic Assumptions
Commodity Prices - 2024 LOM Plan |
Silver Price |
$/oz |
23.00 |
Gold Price |
$/oz |
1,850.00 |
Zinc Price |
$/lb |
1.25 |
Lead Price |
$/lb |
0.95 |
Copper Price |
$/lb |
4.00 |
Exchange Rate |
|
|
MXN per $1 USD |
- |
20.00 |
The LGJV mill currently produces two products, a lead concentrate and
a zinc concentrate, and the economic analysis assumes investment in a new copper-lead separation circuit in 2025 to allow production of
a third copper concentrate product starting in 2026. Payable metals are evaluated using the recovery parameters described in the metallurgical
tables found in Section 14 of this report, as well as management’s estimates of treatment and refining charges for each concentrate
based on current and expected long-term concentrate market conditions.
The 2024 LOM in the financial model begins on July 1, 2024, with operations
continuing through to the end of 2032 (8.33 years). The 2024 LOM includes closure costs totaling $16.4 M over the 2033-2036 period.
The financial model assumes a 5% discount rate for the economic analysis
and an unlevered basis. Corporate administration, management fees, interest expense, and exploration costs are excluded from the economic
analysis used to support the Mineral Reserves.
The 2024 LOM depicts a 3,401 t/d processing rate for a total of 10.33
Mt of mineralized material through the mill at average ROM grades of 172 g/t silver, 3.89% zinc, 2.07% lead, 0.21% copper, and 0.22 g/t
gold over a 8.33-year period. The 2024 LOM Plan supports the Mineral Reserves as it demonstrates economic viability via projected revenues
exceeding all projected operating, sustaining capital, and closure costs.
Table 1-10 summarizes the economic analysis of Cerro Los Gatos Mine
based on the projected cash flow generated by the mining and processing of the material identified by the 2024 LOM Plan. The economic
analysis
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
considers applicable mining and corporate income taxes which have rates
of 7.5% and 30%, respectively, and a government royalty on gold and silver production of 0.5%.
Table 1.11: LOM Financial Summary
Item |
Unit |
LOM Total / Avg. |
End of Mine Life |
- |
Oct. 31, 2032 |
Total Mill Throughput |
Mt |
10.33 |
Average Mill Throughput Rate |
tpd |
3,401 |
Total Silver Production |
Moz |
50.48 |
Total Silver Equivalent Production(1) |
Moz |
107.16 |
Average Silver Production |
Moz / year |
6.06 |
Average Zinc Production |
Mlbs / year |
67.19 |
Average Lead Production |
Mlbs / year |
50.04 |
Average Gold Production |
koz / year |
4.75 |
Average Copper Production |
Mlbs / year |
4.03 |
Average Silver Equivalent Production(1) |
Moz AgEq. / year |
12.9 |
|
|
|
Site Operating Costs |
$/tonne milled |
82.14 |
Sustaining Capital |
$M |
186.9 |
Closure Costs |
$M |
16.4 |
By-Product AISC(2) |
$/oz Ag Pay. |
4.94 |
Co-Product AISC(2) |
$/oz AgEq Pay. |
14.24 |
|
|
|
Total After-Tax Free Cash Flow |
$M |
650.4 |
Average Annual Free Cash Flow |
$M |
80.0 |
Pre-Tax NPV (5%) |
$M |
664.1 |
Post-Tax NPV (5%) |
$M |
538.8 |
Notes:
| 1. | Silver equivalent production for the 2024 LOM Plan is calculated using 2024 reserve price assumptions to “convert” zinc,
lead, gold and copper production contained in concentrates to “equivalent” silver ounces (contained metal, multiplied by price,
divided by silver price). |
| 2. | See Section 19 for Non-GAAP financial measures and AISC and Cash Cost reconciliation. |
The post-tax Net Present Value (NPV 5%) of the Cerro Los Gatos mine
is $538.8 M using a discount rate of 5%. Annual after-tax cash flow is expected to average $80 M over the 8.33 years of operations. The
Cerro Los Gatos mine remains economic under a wide range of commodity prices. The 2024 LOM Plan shows By-Product All-in Sustaining Costs
(AISC) of $4.94 per ounce of silver payable and Co-Product AISC of $14.24 per ounce of silver equivalent payable.
| 1.12 | Conclusions of Qualified Persons |
Throughout the exploration, development, and mining of the deposit a
sound knowledge and understanding of the geological controls on the mineralization has been acquired, which are adequately expressed in
the Resource Model.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The deposit has logging data from subsurface workings and surface and
underground drilling that has been adequately reviewed and validated which allows it to be used with sufficient confidence in the construction
of a long-term resource model.
A new geological model has been constructed of the deposit that integrates
the different sources of information through an implicit 3D model. Based on this geological model an estimation of the main grades of
the deposit has been performed using Ordinary Kriging (OK) interpolators. The results have been validated in detail by visual and statistical
review and against existing production data.
The Mineral Resource categorization uses methodologies and assumptions
that allow for adequate consideration of uncertainty and risk.
The Mineral Resources reported in this TRS are reported above a NSR
cut-off value, supported by studies, and considers reasonable prospects for economic extraction by optimizing stopes using assumptions
and reliable data.
It is the opinion of the QP that the Mineral Resources presented herein
are appropriate for public disclosure and comply with the definitions of Mineral Resources as established by S-K 1300 and CIM Definition
Standards for Mineral Resources and Mineral Reserves (2014).
The Mineral Reserves for CLG have been re-estimated, and a Mine Plan
developed, which is attuned to the deposit and the conditions under which the mineralized material can be mined and processed. The Mineral
Reserves have been estimated with consideration for the modifying factors of mining dilution and mining recovery for each mining method,
support service costs as well as reasonable assumptions regarding input costs and metal prices.
The Mine Plan will deliver mineralized material to the processing plant
of contained metal value well in excess of the NSR cut-off value used to establish economic blocks of mineralized material. The Mine Plan
is considered by the QP to be robust and achievable in the current operating environment.
Mine management has responded to challenges presented by each of the
structurally controlled zones of the CLG deposit and invested in actions and techniques that will ensure safety of workers and reduce
operating costs.
Other conclusions drawn by the Mining QP are:
| n | High ambient underground temperatures must continue to be well managed to maintain appropriate conditions for underground workers. |
| n | The continuation of pumping to lower the water table will have a direct impact on mine development productivity. |
Identified risks to the Mineral Reserves pertain to:
| n | Accessing and mining the Mineral Reserves per the LOM production schedule will depend on success in managing the groundwater. The
challenges with mine dewatering and inflows may increase as the mine deepens. |
| n | Since ground support will be used, the maximum recommended span will be the Stable limit of 9 m for an RMR of 60, bearing in mind
that encountering rock of a lower RMR may result in ground problems, and ground support requirements may have to be increased. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| n | The hydrogeological data available for the SE zone is limited. Although sustaining capital has been allocated in the LOM Plan for
installation of additional dewatering infrastructure, additional capital necessary for dewatering wells in this part of the mine is difficult
to estimate accurately. |
| n | The challenges with geothermal heat and controlling temperatures in the underground work environment could increase as the mine deepens.
The assumed higher primary ramp development rates following the installation of additional dewatering infrastructure may not be achieved.
Not achieving the planned development rates could impact mine sequencing. Failure to adequately manage geothermal conditions could impact
production and development rates and schedules. |
| n | The plan to increase the proportion of LHS depends on the SE zone having suitable conditions for employing the method; however, the
geotechnical data available for that part of the mine is limited. If geotechnical conditions are unsuitable to LHS, the proportion of
ore requiring the CAF mining method could be higher. |
The following factors represent opportunities to enhance mining operations
at CLG:
| n | The expanded diamond drilling program planned for Inferred Resources in the SE zone and South-East Deeps has the potential to add
significantly to the CLG mine life. |
| n | The exploration drilling program will also provide core which can be subjected to geotechnical test work to better understand rock
mass characteristics and conditions at depth. |
It is the opinion of the Mining QP that the Mineral
Reserves presented herein are appropriate for public disclosure and comply with the definitions of Mineral Reserves, as established by
S-K 1300 and CIM Definition Standards for Mineral Resources and Mineral Reserves (2014).
The following conclusions were made regarding the
mineral processing:
| n | The Cerro Los Gatos mine has conducted substantial metallurgical studies since 2012, including process optimization, mineralogical
characterization and variability testing. The operation currently produces high-quality lead and zinc concentrates with significant silver
content. The conventional flotation plant, originally designed for 2,500 t/d, now consistently processes over 3,400 t/d, including crushing,
grinding, and separate lead-copper and zinc flotation circuits. |
| n | Recent improvements include a fluorine leaching plant commissioned in 2023 to reduce fluorine levels in zinc concentrate to below
500 ppm, meeting buyer specifications. The mine faces challenges with increasing copper content in some areas, necessitating careful management
and further testwork. Plans for 2025 include implementing a $5 M copper-lead separation circuit to produce separate copper and lead concentrates,
in response to the projected increase in copper grades from about 0.1% Cu in 2024 to 0.35% Cu by end of mine life. |
| n | Other projects include increasing plant capacity to 4,000 t/d, and improving flotation of fine particles. The plant is well-equipped
with necessary instrumentation, maintenance facilities, and water management systems, ensuring efficient operation and environmental compliance.
Ongoing geometallurgical studies continue to drive process improvements and risk mitigation, adapting to the evolving mineral characteristics
of the deposit. |
The following conclusions were made
regarding the site infrastructure:
The mine dewatering system has achieved
steady state status – that is, adequate drainage, wells and pumping installations have been installed to draw down the water table
around active mining horizons. CLG has made
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
plans and budgeted for additional underground wells to enable
the continued removal of groundwaters as the mine is deepened to the SE.
The underground ventilation system requires
expansion as the mine activity gravitates to the SE Zone and to depth. Plans, schedules, and budgets are in place to establish adequate
air flow to the future mine development areas.
The TSF is a mature structure operating under steady-state
conditions and monitored by permanent stations installed throughout the TSF dam structure. There are two more lifts scheduled for the
dam to complete its construction for acceptance of the LOM tailings volumes. The TSF is managed by an independent Engineer of Record,
Tierra Group International, Ltd., which conforms with Mexican and other industry accepted guidelines such as the International Committee
on Large Dams and the Canadian Dam Association.
The following observations and conclusions have been developed based
on the site visit and inquiries made by the environmental and permitting QP and review of available information.
| n | No material issues were noted. |
| n | The Company has all material permits for the current operations. The company is waiting on final resolution documents for three permits:
the modification of the environmental permit that added the fluorine leach plant to the metallurgical process; a permit for land occupied
by the tailings facility; and a permit regarding the use of treated water from the personnel camp sewage treatment facilities. None of
these final permit documents are a high material risk for the current operations. |
| n | The environmental agency (SEMARNAT) has not issued any violations to Los Gatos Mine. It is noted that environmental monitoring practices
could be improved at site to better align with global industry standards. |
| n | The groundwater system, in particular the occurrence and quality of perched groundwater, is not well understood. The groundwater monitoring
program does not meet international industry standards for the monitor well number, placement, design or sampling methods. |
| n | Paste tailings were characterized as hazardous for toxicity and corrosivity and as potentially acid-generating based on Mexican environmental
testing criteria. A composite waste rock sample was characterized as potentially acid-generating. The cemented tailings and cemented waste
rock samples did not exhibit hazardous or potentially acid-generating characteristics after the cement solidified. |
| n | The closure plan presents a five-year post-closure period, which is the timeframe in the authorized environmental impact assessment;
however, the closure cost estimate updated in 2023 included a post-closure monitoring period of 15 years. |
| n | Mine closure planning has not advanced since the original closure plan was prepared, and closure planning is at a preliminary stage.
Closure costs could increase as closure planning advances. |
The following observations and conclusions are drawn regarding community
and social aspects:
| n | The CLG Mine is an operation located in the municipality of Satevó in the state of Chihuahua. The presence of the mine has
contributed to the decrease in migration of community members, and the demographic increase in the communities of the area of influence.
The generation of direct and indirect employment has been the main reason for the return of the inhabitants. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| n | The presence of a community relations facility in the town of San José del Sitio since the exploration work commenced has allowed
a continued relationship with the stakeholders of the area of influence, generating various collaboration agreements and community investment
and co-investment. |
| n | The socioeconomic baseline was updated in 2023. A detailed identification and characterization of stakeholders was prepared and analyzed.
The Company has identified the highest priority social risks and has developed mitigation measures. |
| n | The ejidos and the unions are the interest groups with the greatest relevance to the operation, since there are agreements for the
right of way, as well as transport services and machinery used in the operations. Periodic meetings for the follow-up of agreements between
the parties are held in the Agrarian Prosecutor's Office, giving greater credibility and legality to the fulfillment of agreements between
the parties. |
| n | One of the main mechanisms for disseminating social and environmental actions is the quarterly bulletin of the CLG Mine, which is
distributed in the communities of the area of influence, and among employees. |
| n | LGJV has completed the construction of a lined landfill that is used jointly by the mine and the local community for solid waste disposal.
Major social projects currently include a collaborative effort between local and state governments to test the viability of pomegranate
production. |
| n | Grievances received by the Company are managed effectively and the number of complaints received has decreased over time. In 2023
there were twenty-two complaints or suggestions received, with the most common related to preferential hiring of local labor and the adult
education program. |
| n | CLG Mine has formalized its commitment to sustainability and social responsibility issues through adherence to the United Nations
Global Compact as a member and, at the national level, it has been awarded with the Socially Responsible Company Distinction granted by
the Mexican Center for Philanthropy (CEMEFI). |
The following recommendations are made by the Qualified Persons:
Geology and Mineral Resources:
| n | Continue with the surface and underground drilling campaigns to upgrade the Mineral Resource categorization (infill drilling) and
increase Mineral Resources (step-out drilling). |
Mining and Mineral Reserves:
| n | For future Mineral Reserve estimates, evaluate whether specific mine closure and sustaining capital expenditures for both the mine
and the processing plant should be considered as relevant costs in determining the NSR cut-offs. CLG’s current methodology is consistent
with prior Mineral Reserve estimates and standard practices at many other mines, where cut-off calculations are typically limited to operating
costs. |
| n | In future analyses of unplanned dilution for LHS, verify whether Equivalent Linear Overbreak Slough (ELOS) does in fact increase with
vein width and if footwall ELOS is greater for shallower-dipping veins of the same width, as it is not clear what the underlying reasons
are for these relationships. |
| n | Continue to update the alteration and fault models as additional geotechnical data is collected. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| n | Conduct in-situ stress measurements to investigate the magnitude and orientation of the principal stresses. This data will be important
for assessing the potential induced compressive stresses, particularly, in the lower portion of the SE zone. |
| n | Base stope dimensions on the Stand-up Time Curve and the Span Design Curve for CAF and on the Stability Graph Empirical Method for
LHS. |
| n | Establish the maximum stope span as the Stable limit of 9 m for an RMR of 60, considering that ground support will be used. However,
the ground support requirements may have to be increased should rock of a lower RMR be encountered. |
| n | Utilize Class CS-1 to Class CS-3 ground support, considering a maximum span of 9 m, an ESR of 3.0, and a Q-value ranging from 0.4
to 10. Class CS-1 consists of no ground support or just spot bolting, while Class CS-3 includes systematic bolting with 5 to 6 cm of fiber-reinforced
shotcrete. |
| n | Use welded wire mesh instead of shotcrete for CAF due to the temporary nature of the openings. |
| n | Continue employing systematic bolting to support temporary drill drifts, given the uncertainties associated with the behavior of the
ore, rock mass deterioration due to blasting, and the mine-induced stress changes. |
| n | Prefer welded wire mesh over shotcrete to support drill drifts, considering that these headings are relatively temporary. |
| n | Install cable bolts at intersections considering the span dimensions. |
| n | Prioritize the development of internal escapeway raises to enhance mine safety. |
| n | Evaluate whether additional portable refuge chambers would be beneficial on a provisional basis until the internal escapeway system
is fully developed. |
| n | Assess the potential for a second escapeway raise to surface, considering the distance of the SE Zone from Escapeway Raise #1. |
| n | Ensure that the design of the planned internal escapeways complies with Mexican mining regulations, particularly regarding ladderways
and manways. |
Metallurgy and Mineral Processing:
| n | Conduct additional geometallurgical studies in the Southeast zone to better characterize the high soluble copper material. |
| n | Develop and implement a comprehensive sampling and testing program to control high soluble copper content in production. |
| n | Optimize the mine plan to manage the blending of high soluble copper material with other ore types. |
| n | Continue research and development efforts on ultrafine particle recovery technologies to improve overall metal recoveries. |
| n | Execute plans for the copper-lead separation circuit. |
| n | Conduct a thorough impact assessment of increasing plant throughput to 4,000 t/d on downstream processes and final product quality. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| n | Continue to investigate opportunities for debottlenecking the grinding and flotation circuits. |
| n | Conduct a review of tailings management to maximize backfill and minimize TSF construction costs. |
Infrastructure:
Pertaining to the paste fill plant:
| n | Cure CRF and paste test samples underground as a means to mimic the actual “as placed” conditions as recommended in the
Minefill (2019) report. |
| n | Review operational procedures and practice in terms of QA/QC; sampling and testing; data collection, analysis, and trending; and opportunities
to optimize. |
| n | Review performance records for paste based on logs over the past operation periods. Review the paste recipe in terms of solids content,
binder content, slump, and water bleeding; pumping distance in terms of pipe length, horizontal and vertical distances; pressure drops
along pipeline and pressure at discharge of PD pump (in comparison to pump pressure capacity); binder content and strength developed over
different curing time periods (3, 7, 14, and 28 days). |
| n | Review plant instrumentation design and control schemes in general. Consistent and optimal paste recipe is achieved via control of
moisture addition to the filter cake. Moisture addition is either in the form of water or preferably in the form of filter feed slurry
bypass (controlled based on cake tonnage and moisture) followed by slump water (controlled based on paste viscosity measured by mixer
power). |
| n | Review paste underground distribution system design and construction; and operation crew training and readiness to predict issues
(like scaling, settlement, plugs, excessive wear) and recover from them should they occur. |
Pertaining to the dewatering infrastructure:
| n | It is recommended that a documented dewatering plan be developed by the operator that adequately describes the conceptual hydrogeological
model, summarizes groundwater conditions and dewatering progress to date, establishes dewatering pumping rate and drawdown performance
targets and defines dewatering well and monitoring well or piezometer installation plans. |
| n | Review dewatering system performance and revise the dewatering plan, as needed. |
| n | Describe the conceptual hydrogeologic model. |
| n | Summarize groundwater conditions and dewatering progress to date. |
| n | Establish dewatering pumping rate and drawdown performance targets. |
| n | Define dewatering well and monitoring well or piezometer installation plans for: |
| § | The following year in detail. |
| § | Longer term (2-3 years) in overview. |
| n | Review dewatering system performance and revise the dewatering plan, as needed. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
CLG is advancing work on several components of the
dewatering plan to enable improved dewatering and water management in the operations and have included $14 M in capital projects relating
to mine dewatering within the LOM Plan, including the installation of additional wells and pumping infrastructure.
Pertaining to the electrical power:
| n | Review future potential demands and the possibility to exceed the current feed capacity. Review options for upgrade ahead of time
should the need materialize. |
Tierra Group makes the following recommendations
with respect to tailings storage:
| n | Develop a closure plan based on the current LOM schedule. |
| n | Develop a detailed deposition plan to support the closure strategy. |
| n | Continue quarterly bathymetric surveys to validate and update deposition plan and water balance. |
| n | Monitor tailings tonnage sent to paste plant to confirm assumptions used in the design. |
| n | Additional vibrating wire piezometers, inclinometers, and survey prisms are recommended for future expansions. |
| n | Maintain a current tailings water and mass balance based bathymetric surveys and operational data to support TSF construction schedules. |
| n | Continue monitoring and inspections activities in accordance with the OMS manual. |
Environmental and Social:
| n | Although the environmental agency (SEMARNAT) has not issued any violations to Los Gatos Mine, there are opportunities for improvement
to better align with international industry practices. |
| n | A written environmental monitoring plan should be developed that includes a description of all media monitoring requirements based
on Company and regulatory agency requirements, sampling procedures, protocol for the management of results and interpretation, action
levels, corrective action plan and documentation procedures. |
| n | Changes in the mine plan since the 2018 feasibility study trigger a need for evaluation of the potential changes in the geochemical
characteristics of the mining wastes. Any new development areas and representative samples from those areas should be considered for characterization.
The kinetic testing program should consider longer-term tests to ensure that results have stabilized and provide a high level of confidence
for the prediction of long-term environmental conditions. |
| n | Representative tailings and waste rock samples should be subject to kinetic geochemistry testing to evaluate the long-term environmental
impacts. |
| n | Incorporate surface water sampling at the surface waste rock storage facility and during storm events at ephemeral streams. |
| n | Waste rock from the surface waste rock storage facility should be characterized and only used where problematic lithologies are properly
managed to prevent long-term environmental impacts. Assuming that the |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
waste rock facility may remain after closure, an understanding
of the physical as well as chemical stability is necessary.
| n | The existing conceptual closure plan is recommended to be updated and follow accepted international industry standards. |
| n | Closure designs were based on 100-year storm water probability events. It is recommended that climate change be considered, as well
as an updated analysis of the storm water events to determine whether a 100-year, 24-hour storm water event is practical for long-term
stability. |
| n | Additional technical studies to support the closure designs should be carried out, including erosion modeling to configure closure
design slopes, tailings water quality predictions and a closure water balance to support a closure water management strategy and cost
estimate. The closure costs should be updated to reflect changes in the mine plan and provide more details as closure planning advances. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 2.1 | Registrant Information |
Gatos Silver, Inc. (“Gatos Silver”) is listed on the New
York Stock Exchange and the Toronto Stock Exchange. The company’s corporate office is located at 925 West Georgia Street, Vancouver,
BC, Canada V6C 3L2.
| 2.2 | Terms of Reference and Purpose |
This report has been prepared by WSP as a Technical Report Summary to
satisfy U.S. Securities and Exchange Commission regulation subpart S-K 1300 (SK-1300) for Gatos Silver. The quality of information, conclusions,
and estimates contained herein are consistent with the level of effort involved in consultants’ services, based on; i), information
available at the time of preparation; ii), data supplied by outside sources; and iii), the assumptions, conditions, and qualifications
set forth in this TRS. The purpose of this TRS is to report Mineral Resources and Mineral Reserves for the CLG Mine, 70% owned by Gatos
Silver.
Key Acronyms and definitions for this Report include:
| n | Golder: Golder Associates Ltd. |
| n | WSP: WSP Global and its subsidiary companies, including Golder, which was acquired by WSP in 2022. |
| n | Mt: Million tonnes (Metric) |
| n | QA/QC: Quality Assurance / Quality Control |
| n | S-K 1300: United States Security and Exchange Commission regulation subpart S-K 1300 |
| n | TRS: Technical Report Summary |
| 2.3 | Sources of Information |
The compilation and estimation of Mineral Resources and Mineral Reserves
used public and private data sources. The supply of the private data sources from Gatos Silver included a drill hole database, geological
model, internal documentation and assumptions, laboratory certificates, mine designs, mine plans and other mine planning files.
A detailed list of cited reports is noted in Section 24.0 of this TRS.
WSP has adopted certain provisions from previous Technical Reports authored
by WSP Golder (2022 and 2023), Tetra Tech (2012, 2017, 2020) and Behre Dolbear, as appropriate. Where content from previous Technical
Reports have been included, the authors have not relied upon previous authors and are taking responsibility for the sections indicated
by the certificates of QPs of this TRS.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 2.4 | Personal Inspection Summary |
Site visits have been conducted by WSP, Golder Associates S.A., Stantec
USA, Tierra Group International, and Transmin Metallurgical Consultants personnel as described
on Table 2.1.
Table 2.1: Site Visits of Qualified Persons
Name |
Role |
Company |
Site Visit Dates |
Stephan Blaho, P. Eng., |
Mining Engineering |
WSP Canada Inc. |
May 14-16, 2024 |
Matt Fuller, P.Geo. |
Tailings Storage Facility |
Tierra Group International |
August 6-8, 2024 |
Dawn Garcia, AIPG, CPG |
Environmental & Social |
Stantec |
April 29-30, 2024 |
Adam Johnston, FAUSIMM (CP) |
Mineral Processing |
Transmin Metallurgical Consultants |
May 21-24, 2024 |
Ibrahim Karajeh, P. Eng. |
Infrastructure |
WSP Canada Inc. |
May 14 – 16, 2024 |
William Richard McBride, P.Eng. |
Costs and Economic Analysis |
WSP Canada Inc. |
N/A |
Mathew Oommen, Registered SME Member
|
Property, Accessibility, History |
WSP USA Inc. |
May 14-16, 2024 |
Ronald Turner, MAusIMM (CP) |
Mineral Resources |
Golder Associates S.A. |
May 14-16, 2024 |
| 2.5 | Previous Technical Reports |
The following technical reports have been made publicly available previously:
| n | S-K 1300 Technical Report Summary October 2023 WSP Golder Mineral Reserves Report |
| n | NI 43-101 Technical Report October 2023 WSP Golder Mineral Reserves Report |
| n | S-K 1300 Technical Report Summary November 2022 WSP Golder Mineral Reserves Report |
| n | NI 43-101 Technical Report November 2022 WSP Golder Mineral Reserves Report |
| n | NI 43-101
Technical Report July 2020 Tetra Tech Mineral Reserves Report1 |
| n | NI 43-101 Technical Report January 2017 Tetra Tech Feasibility Study Report |
1 On January 25,2022,
the Company issued a press release stating the Mineral Resource and Mineral Reserve estimates in the 2020 Technical Report should not
be relied upon.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The operating Cerro Los Gatos (CLG) underground mine and processing
facilities are approximately centered on Latitude 27° 34' 17" N, Longitude 106° 21' 33" W, near the town of San José
de Sitio, within the Municipality of Satevó in the State of Chihuahua, Mexico. The mine is approximately 120 kilometers (km) south
of the state capital of Chihuahua City and approximately 100 km north/northwest of the historical mining city of Hidalgo del Parral (Figure
3.1).
Source: CLG
Figure 3.1: Project Location Map
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 3.2.1 | Name and Number of Mineral Rights |
Gatos Silver is a Canadian-headquartered, Delaware-incorporated precious
metals exploration, development and production company. Gatos Silver’s primary efforts are focused on the operation of the LGJV
in Chihuahua, Mexico. The LGJV was formed on January 1, 2015, when Gatos Silver entered into the Unanimous Omnibus Partner Agreement with
Dowa Metals and Mining Co., Ltd. (“Dowa”) to further explore, and potentially develop and operate mining properties within
the LGD. The entities comprising the LGJV are Minera Plata Real S. de R.L. de C.V. (‘‘MPR’’) and Operaciones San
Jose de Plata S. de R.L. de C.V (“OSJ”) (collectively, the ‘‘LGJV Entities’’). The LGJV ownership
is currently 70% Gatos Silver and 30% Dowa. On September 1, 2019, the LGJV commenced commercial production at CLG, which produces silver-containing
lead concentrate and zinc concentrate
MPR is the owner of mineral rights held by eighteen titled concessions,
covering approximately 103,000 ha. Under applicable Mexican law, titled mining concessions grant holders exploration and exploitation
rights, subject to certain conditions including minimum expenditure requirements. Titled mining concessions exclude surface rights, which
are generally separately negotiated. Titled mining concessions are summarized in Table 3.1, collectively the “Project Area”.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 3.1: Los Gatos Project Titled Mining Concessions
No. |
Lot |
Holder |
Surface
(Ha)
|
Title |
Type of Concession |
Term |
Location |
1 |
Los Gatos |
MPR |
19,711.7 |
231498 |
Mining |
March 3, 2058 |
Satevó, Chihuahua |
2 |
Los Gatos 2 |
MPR |
10,719.6 |
228950 |
Mining |
February 21, 2057 |
Satevó, Chihuahua |
3 |
Los Gatos 3 |
MPR |
27.3 |
231076 |
Mining |
January 15, 2058 |
Satevó, Chihuahua |
4 |
Los Gatos 4 |
MPR |
52,597.0 |
238511 |
Mining |
September 22, 2061 |
Satevó, Chihuahua |
5 |
Mezcalera |
MPR |
4,991.6 |
228249 |
Mining |
October 16, 2056 |
Satevó, Chihuahua |
6 |
Mezcalera 2 Fracción I |
MPR |
39.3 |
228929 |
Mining |
February 20, 2057 |
Satevó, Chihuahua |
7 |
Mezcalera 2 Fracción II |
MPR |
26.1 |
228930 |
Mining |
February 20, 2057 |
Satevó, Chihuahua |
8 |
Mezcalera 2 Fracción III |
MPR |
29.1 |
228931 |
Mining |
February 20, 2057 |
Satevó, Chihuahua |
9 |
La Gavilana |
MPR |
10.0 |
237137 |
Mining |
November 18, 2060 |
Satevó, Chihuahua |
10 |
La Gavilana Fracción I |
MPR |
44.0 |
237461 |
Mining |
December 20, 2060 |
Satevó, Chihuahua |
11 |
Paula Adorada |
MPR |
40.0 |
223392 |
Mining |
December 8, 2054 |
Satevó, Chihuahua |
12 |
San Luis |
MPR |
16.0 |
236908 |
Mining |
October 4, 2060 |
Satevó, Chihuahua |
13 |
Los Estados Fracc. 1 |
MPR |
9.0 |
237694 |
Mining |
April 24, 2061 |
Satevó, Chihuahua |
14 |
Los Estados Fracc. 2 |
MPR |
44.0 |
237695 |
Mining |
April 24, 2061 |
Satevó, Chihuahua |
15 |
San Luis 3 |
MPR |
0.01 |
240452 |
Mining |
May 22, 2062 |
Satevó, Chihuahua |
16 |
San Luis 2 |
MPR |
42.4 |
238694 |
Mining |
October 17, 2061 |
Satevó, Chihuahua |
17 |
Ampliación oeste de San Luis |
MPR |
53.3 |
187432 |
Mining |
July 05,2040 |
Satevó, Chihuahua |
18 |
Los Veranos |
MPR |
14,739.8 |
238573 |
Mining |
September 22, 2061 |
Satevó, Chihuahua |
Figure 3.2 depicts the Los Gatos concessions.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: Minera Plata Real S. de R.L. de C.V. (MPR)
Figure 3.2: Los Gatos Concessions Map
MPR has arranged permissions to enter and perform exploration and
mining activities on several land properties in the Project Area, including all surface rights necessary to access the CLG operating
mine and processing and tailings facilities. Figure 3.3 shows the distribution of communal land and private property, where
permissions have been obtained and the nature of such permissions. MPR has purchased surface lands covering the known extents of the
CLG, and Esther Resource areas, totalling 5,188.6 ha, as shown in light blue in Figure 3.3.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 3.3: Surface Rights and Exploration Permissions
MPR has negotiated and ratified an access agreement with the
community of San Jose del Sitio for use of the access road through communally owned land shown in light green fill on Figure 3.3.
This agreement, the term of which extends to November 6, 2046, allows access through the surface land holdings of the community and
is registered with the federal land registry. MPR has worked together with the community since the inception of the exploration
project and has enjoyed strong support from the community leaders and Ejido assemblies.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
MPR has established a multi-disciplinary team to maintain ongoing communications
in the nine most proximate communities to CLG, including San José del Sitio and La Esperanza, as well as the municipality
of Satevo.
| 3.4 | Description on Acquisition of Mineral Rights |
As noted above, the Los Gatos Joint Venture holds concessions through
its Mexican subsidiary company, MPR. MPR is 70% owned by Gatos Silver, Inc. and 30% owned by Dowa Metals & Mining Co., Ltd. The Los
Gatos concession (title 231498) is held subject to a royalty agreement, described below.
MPR also holds the rights to the concession of Paula Adorada through
a Contract of Assignment of Rights duly recorded with the Public Registry of Mining.
| 3.5 | Significant Encumbrances to the Property |
Under Mexican mining law, titled concessions must have submitted the
required Surveying and Assessment Works to define their precise location and rights against any pre-existing mining claim and concession
owners have the obligation to submit annual Assessment of Work Reports by the end of May for each concession, or group of concessions,
based on minimum investment amounts. All of MPR’s concessions are grouped for legal compliance with requirements by Mexican mining
law, except for the Paula Adorada claim, which was acquired later. Non-compliance with these requirements is cause for cancellation only
after the authority communicates in writing to the concessionaire advising of any such default and granting the concessionaire a specified
time frame in which to remedy the default. As of the date of this report, MPR concessions are in good standing with respect to this obligation.
In Mexico, there are no limitations on the total amount of mining concessions
or on the amount of land that may be held by an individual or a company.
Secondly, holders of mining concessions must make bi-annual payments
of mining duties. As of the date of this report, MPR has timely made these payments in connection with its concessions. As result, MPR’s
concessions are in good standing.
On May 8, 2023, a Decree was published in the Official Gazette of the
Federation amending, adding to, and repealing several provisions of the Mining Law, the National Water Law, the General Law of Ecological
Balance and Environmental Protection and the General Law for the Prevention and Integral Management of Waste, regarding mining and water
concessions.
As a result of the Decree, with respect to concession tenors, the term
of any new concession will be 30 years, with the option of a single 25-year term extension subject to certain conditions. At the end of
such extension, the concession holder may participate on a priority-basis in the bidding of the concession for another 25 years. Under
the Decree, all mining concessions granted prior to the entry into force of the Decree retain their existing durations as reflected in
their title documentation. This applies to all concession currently held by MPR.
The Decree, which requires implementing regulations in some instances,
also introduces the following new requirements upon full implementation: new concessions would only be granted through a public bidding
process; new mining concessions would be granted in respect of specified minerals; the potential to expropriate private land would be
discontinued; the approval of transferees of mining concessions would be required; minimum payments of 5% of profits to local communities
would be imposed; social impact studies and community consultation would be required; restoration, closure and post closure programs would
be required with financial guarantees; water availability would be a condition for granting new mining concessions; the concept of presumptive
approval (afirmativa ficta) for approval matters properly and timely submitted to regulatory agencies
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
would be removed; parastatal entities could be created and would enjoy
preferential rights to exploration; environmental obligations and prohibitions would be increased; and water concessions could be significantly
modified by governmental authorities in certain circumstances. Although it is not clear in all instances, the amendments under the Decree
are generally stated to not have retroactive effect, and as such their most significant impact would be expected to be on new mining concessions
rather than existing concessions and operations, including those of the LGJV and Gatos. Certain of the amendments may also apply to existing
operations, such as the requirement for approval of any concession transferee, establishing a closure and post-closure program and additional
environmental obligations.
In June 2023 MPR filed an Amparo against the decree, considering that
it violates constitutional principles. On February 26, 2024, the Federal Court in charge of the trial granted a favorable judgment in
first instance, ordering the suspension of the application of the entire decree in favor of MPR. In this regard, the House of Representatives
and the Senate, respectively, filed appeals against this resolution, which are pending resolution. As of today, the suspension granted
in favor of MPR remains in effect.
There are royalty contracts that apply to two concessions
and one royalty contract that previously applied to a concession. The details of the contracts follow.
A NSR royalty agreement was established in 2015 with the previous owner
of the Los Gatos concession (title 231498) (the “La Cuesta Royalty Agreement”). The La Cuesta Royalty Agreement stipulated
a 2% royalty on revenue until a threshold of $10 M in payments was reached. Thereafter, the royalty was reduced to 0.5% until $15 M has
been paid. $12.95 M has been paid through July 26, 2024. The remaining 0.5% royalty will be retired upon the payment of $ 2.05 M after
July 26, 2024. Under the La Cuesta Royalty Agreement there is also a production payment of 0.5% NSR on production from lands within a
1-km boundary of the Los Gatos concession which is also subject to the previously referenced $15 M maximum.
A royalty agreement in respect of the Paula Adorada concession (title
223392) was acquired from the Chihuahua-based company Grupo Factor through a Contract of Assignment of Rights effective December 3, 2014.
There are no remaining obligations or royalties under this agreement.
A NSR royalty agreement in respect of the Ampliación Oeste De
San Luis concession (title 187432) was acquired from Mr. Mario Humberto Ayub Touche through a Contract of Assignment of Rights, effective
May 31, 2024. The agreement stipulates a 2% royalty on revenue from this concession until a threshold of $5 M in payments is reached.
There are currently no defined Mineral Resources or Mineral Reserves on this concession.
| 3.6 | Other Factors and Risks Affecting Access |
Mining operations in Mexico have from time-to-time been subject to illicit
community-led blockades. MPR works closely with local communities to mitigate this and other risks. Please see Section 17.0 for further
information on social considerations. MPR is not aware of any other material risk factors which could limit or deny access to the CLG
Mine.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 4.0 | Accessibility, Climate, Local Resources, Infrastructure and Physiography |
| 4.1 | Access to the Property |
CLG Mine is accessible by automobile from Mexican Federal Highway 24
to km 81 and then turning west on a newly paved road for 40 km west to the community of San José de Sitio, situated near the southeast-end
of the concession block. Travel time by automobile is approximately two hours, either from Chihuahua City from the north or Hidalgo del
Parral from the south. The city of Valle de Zaragoza, located on Federal Highway 24, 35 km to the south of the turnoff to San José
del Sitio is the nearest significant commercial center.
The climate of the Los Gatos project is typical of desert areas of Northwest
Mexico; it is semi-arid, with a maximum temperature in the order of 41.7 degrees Celsius (°C) and a minimum recorded at minus 14°C;
annual average temperature is 18.3°C. Annual rainfall averages 363.9 millimeters (mm) over an average of 61 days, mostly during the
rainy season of June through September, and relative humidity is 50%, with a dominant northeastward wind. There is abundant sunshine and
little cloud cover during most of the year. Snow is a rare occurrence in Southern Chihuahua but has been recorded on occasion. Exploration
and mining activities are seldom interrupted by adverse weather conditions, except for short-lived storms producing floods and damage
to access roads.
Vegetation is characterized by a semi-desert landscape, with typical
low brush vegetation in the slopes including lechuguilla, ocotillo, sotol, yucca, sage, bear grass, and other types of indigenous grasses.
Larger brush and trees are common along the main watercourses, with the presence of oak, cypress, cottonwood, poplar, huizache, and mesquite,
among others.
The soils of the area are sandy to rocky and are composed of detrital
material from the local volcanic and sedimentary rocks classified as lithosols and yermosols. The lack of flat areas with regular water
sources and good soils results in only small areas useful for crops, but there is sufficient growth of native grasses and desert plant
life to support the principal economic activity of the region, cattle grazing. Land tenure in the municipality of Satevó is 25%
communal (Ejido); and 52% private property, with predominantly cattle grazing and other agricultural use.
The Project Area is in the Sierras y Llanuras del Norte Physiographic
Province near the boundaries between the Gran Meseta, Cañones, Sierras, and Llanura Tarahumara Sub Provinces. The general physiography
of the Los Gatos area is characterized by low rolling volcanic hills with local escarpments and flat valley floors. Altitudes vary between
1,550 meters above sea level (masl) at the base of the Santo Toribio Creek and 1,780 masl at the top of the Los Gatos Hill, one of the
highest peaks of the Project Area. The mine portal elevation is 1,585 masl.
Locally, the surface lands are mostly owned by private individuals as
small cattle ranches, with average sizes of 1,000 to 2,000 hectares. Many of these ranches are unimproved grazing lands with no structures;
however, a few ranch houses exist in the scattered areas. Some landowners live locally in the community of San José del Sitio or
surrounding communities, while others live in the surrounding cities of Zaragoza, Parral, and Chihuahua.
Two communities hold parcels of surface lands as agrarian communes or
"Ejidos." These are the communities of La Esperanza and San José del Sitio, which have collective ownership of their
respective surface lands.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 4.4 | Availability of Required Infrastructure |
CLG is an operating mine. All required infrastructure for the current
operation is in place, with some additions required for the LOM Plan as described in Section 15.0.
Infrastructure constructed to support the mining and processing operations
at CLG Mine include offsite and onsite components. Offsite infrastructure comprises grid power distribution to the mine and a main access
road.
Electrical power to the CLG site is supplied via a 115-kilovolt (kV)
utility transmission line which originates from the San Francisco de Borja’ substation in Satevó (Chihuahua).
CLG mine is accessible by existing road, which is used to transport
personnel, materials and supplies to the mine and concentrates from the mine. That existing road is owned and maintained by the State
and is paved up to the local San Jose del Sitio community and beyond that is a 11km gravel access road through an easement over ejido
lands that is maintained by MPR. Railway transport infrastructure does not exist in the vicinity of the mine, nor is there nearby rail
access to seaports. Lead and zinc concentrate products are trucked to Manzanillo. The nearest commercial airport is in Chihuahua City.
Water resources in the region are mostly related to the Conchos River
Basin, which includes the San Pedro, San Francisco de Borja, and Satevó River sub-basins. A larger supply of surface water is associated
with the Conchos River, located 7 km to the South of the main operation areas. The Conchos River is dammed in several locations, including
La Boquilla, a major hydro power plant in the region. Scattered ranch houses near and within the Project Area are normally serviced by
generators and small wells or capture ponds from surface runoff waters. Make-up water for the operation is sourced from water generated
by the underground mining operations.
Onsite infrastructure is comprised of camp facilities, office and maintenance
facilities, a processing plant, a tailings storage facility, backfill plants, refrigeration plants, a mine ventilation system, and dewatering
ponds for sediment settling and water cooling. An accommodation camp with supporting facilities is operated onsite for workers and contractors.
Since the mining industry is well-established in Mexico, and the local population density is relatively low, the vast majority of mine
personnel travel to site from across Mexico with most coming from within Chihuahua State. Mine personnel who are not locally resident
are required to stay on on-site accommodation.
Section 15.0 discusses infrastructure in more detail.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The Los Gatos area is considered a region with extensive veining but
only limited showings of precious and base metals mineralization. It has been the subject of very limited historical prospecting and mineral
exploration. There are small prospect pits and minor historic workings in the Esther, San Luis, Tren/Margarita, and Paula zones. There
is no known record keeping from this small-scale production. Surface work by MPR has not uncovered any evidence of modern prospecting
activities in the area such as drill hole collars, survey points, or earlier sample locations.
Los Gatos was initially recognized by reconnaissance activities by La
Cuesta International Inc. (La Cuesta) and La Cuesta applied for the original Los Gatos concession in 2005.
An initial letter of agreement for exploration work on the project was
negotiated between La Cuesta and Los Gatos Ltd., (a former parent company to MPR) in early 2006, and a final contract was ratified in
April 2006 between MPR and La Cuesta.
Exploration activities increased from 2008 onwards with drilling during
2008 and 2009 focused on the Amapola area approximately 12km north-west of the CLG deposit. During 2009 and 2010 the Esther and CLG deposits
were recognized as significant mineralized zones and exploration activities were advanced at both zones. Recognizing the size and scale
of CLG, drilling activities were focused on advancing this deposit.
There are no records of historical Mineral Resource and Mineral Reserve
estimates before the involvement of MPR. Any silver, lead, and zinc production that might have been carried out from the Esther and Gavilana
(Paula) prospects was probably limited to a few hundreds of tonnes with irregular silver and lead-zinc concentrations. A Feasibility Study
(FS) was completed on Los Gatos in 2017 (Tetra Tech, 2017) and the project secured financing for construction, commissioning, and start
up with first concentrate produced in the second half of 2019.
Table 5.1 depicts CLG Mine production from 2019 through the first half
(H1) of 2024.
Table 5. 1: CLG Mine Production (2019 – H1 2024)
|
|
2019 |
2020 |
2021 |
2022 |
2023 |
H1 -2024 |
To Date |
Tonnes milled |
000s tonnes |
274.2 |
667.4 |
909.6 |
971.6 |
1,071.4 |
587.0 |
4,481.2 |
Tonnes milled per day |
tonnes |
2,247 |
1,829 |
2,492 |
2,662 |
2,935 |
3,225 |
|
Silver Grade |
g/t |
232 |
229 |
295 |
368 |
299 |
279 |
296 |
Zinc Grade |
% |
3.09 |
3.64 |
3.94 |
4.37 |
3.90 |
4.27 |
3.97 |
Lead Grade |
% |
2.00 |
2.27 |
2.27 |
2.31 |
1.85 |
1.92 |
2.12 |
Gold Grade |
g/t |
0.52 |
0.42 |
0.32 |
0.33 |
0.29 |
0.29 |
0.34 |
Metal Production contained in concentrates |
|
|
|
|
|
|
|
Ag in Pb and Zn Concentrate |
Moz |
1.7 |
4.2 |
7.6 |
10.3 |
9.2 |
4.7 |
37.7 |
Zn in Zn Concentrate |
Mlbs |
11.6 |
34.2 |
49.6 |
60.7 |
57.4 |
34.9 |
248.3 |
Pb in Pb Concentrate |
Mlbs |
9.1 |
27.4 |
39.8 |
43.9 |
38.9 |
22.2 |
181.4 |
Au in Pb Concentrate |
koz |
2.5 |
4.9 |
5.2 |
5.3 |
5.3 |
2.7 |
26.0 |
Source: CLG
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 6.0 | Geological setting, mineralization, and deposit |
| 6.1 | Regional Geological Setting |
North-western Mexico geologically consists of a series of accreted arc
terranes that are overlain in the area of the Cerro Los Gatos deposit by the thick volcanic sequence of the Sierra Madre Occidental (SMO)
volcanic province. Figure 6.1 shows the location of the SMO over the older arc terranes (Campa and Coney 1983).
Source: Campa and Coney 1983
Figure 6.1: Location of the Sierra Madre Occidental Volcanic
Province
The SMO is a middle tertiary volcanic province which extends from the
southwestern United States to central Mexico. The average thickness of the flows exceeds 1 km (McDowell and Clabaugh, 1979).
The SMO sequence of volcanic rocks is subdivided into two major units,
the Lower Volcanic Series (LVS), and the Upper Volcanic Series (UVS):
| n | The LVS is characterized by a predominant pile of andesitic volcanoclastic rocks. The group is generally massive in nature. While
predominantly andesitic, the upper parts, toward the contact with the UVS, tend to become more felsic, and thick beds of rhyodacite and
rhyolite are found intercalated with andesite and dacite. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| n | The UVS is characterized by a thick sequence of felsic volcanoclastic rocks, predominantly ignimbrites, that shows well-defined bedding
and tuffaceous horizons. These rocks form most of the high scarps and cliffs that characterize this province. |
The Cerro Los Gatos (CLG) and Esther deposits are embedded within andesitic
rocks that are considered to be part of the LVS. The exposed area of andesite that contains the CLG and Esther deposits is considered
an uplifted horst feature. These andesites are exposed at surface for approximately 30km to the north-west of the CLG deposit and there
are multiple vein outcrops throughout this exposure.
The rhyolites around the andesite horst are considered to be an early
(lower) part of the UVS.
The CLG deposit sits on a range front fault of a tertiary extensional
basin known as the Rio Conchos graben that is filled with unconsolidated or partially consolidated sediments. The basin formation and
filling likely occurred both contemporaneously and after the mineral deposition of the CLG deposit. The extensional faulting that formed
the basin influences the local dip and fault segmentation of the mineralization.
Both the sediments that fill the tertiary extensional basin and the
rhyolites that surround the andesites at surface are considered to overlay the andesite.
The regional geology in the area of the CLG deposit is shown in Figure
6.2.
On a regional scale, both West-Northwest and North-Northwest trending
large scale structures are observed. The North-Northwest trending faults in the deposit area are extensional and associated with the edges
of the graben basin. The West-Northwest trending fault and fracture zones possibly reflect reactivated basement structures.
In the region, epithermal mineralization is associated with both West-Northwest
and North-Northwest trending structures.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG internal report
Figure 6.2: Regional Geological Map of the Los Gatos Area
based on Servicio Geologico Mexico Data
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
A stratigraphic column representing the regional
geology is shown in Figure 6.3.
The LVS hosting the CLG deposit, is likely correlative to the Tv2 and
Tv3 units of McDowell 2007. Intruding and deposited on the entire section are locally important rhyolite flows, flow domes, and dikes
that are likely correlative with unit Tv4 of McDowell 2007. Each of the rocks in the section contains observable hydrothermal alteration,
suggesting that mineralization in the area probably occurred late in the history of the development of the volcanic section.
Figure 6.4 shows a geological map of the Cerro Los Gatos deposit area
and Figure 6.5 depicts a cross-section through the deposit, looking Northwest.
| 6.2.1 | Local Structural Framework |
In the area between the Esther and CLG deposits there are NW-striking
faults with major normal (extensional) displacements. These faults tend to be marked by strongly reddened (hematitic) rocks and soils.
From SW to NE the principal faults comprise the Esther, Ambar, Cascabel and Los Gatos faults.
The Los Gatos fault is a major North-West trending listric fault zone,
generally ranging from 5 to 30m wide that forms the edge of the graben basin. This fault frequently contains fine gouge. The mineralized
veins that form the Cerro Los Gatos deposit sit in the footwall of the fault, ranging from immediately adjacent to up to 100m from the
fault.
A fault parallel to the Los Gatos fault, known as the Lower Gatos fault,
sits within the mineralized veins and is postulated to be an earlier plane of movement for the graben boundary before the primary movement
shifted to the Los Gatos fault.
The Los Gatos fault and mineralized zones are cross-cut by two sub-vertical
major North-West to North-North-West trending faults known as the Anti-Gatos-1 and Anti-Gatos-2 faults. Anti-Gatos-1 separates the North-West
zone from the Central Zone and the Anti-Gatos-2 separates the Central and South-East Upper blocks from the South-East main block.
There are multiple late cross cutting faults trending
North-East. Most of these do not have significant movement. The North-East trending Ramp fault does offset the mineralized veins and separates
the Central block of mineralization from the South-East Upper block.
Figure 6.6 (WP 243) shows a typical siliceous fault plane, with slickensides,
beside non-exposed ground (presumably clay-altered rock).
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG internal report
Figure 6.3: Stratigraphic Column of Regional Geology of Los Gatos
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG internal report
Figure 6.4: Geological Map of the Cerro Los Gatos Deposit
Area
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 6.5: Geologic Model, Section Looking Northwest through the
Central Zone Showing the Lithological Sequence at Los Gatos Deposit
Source: CLG
Figure 6.6: Typical Los Gatos Fault with Reddened Slickensided
Fault Plane Cutting Siliceous Rhyolite
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The Los Gatos District hosts a series of quartz, quartz-calcite, and
calcite veins in at least fifteen separate vein systems that are exposed along a strike length of approximately 30 km and an outcrop belt
width of approximately five km.
The veins containing silver, lead and zinc at CLG are hosted primarily
by the andesite rocks immediately above the contact with the dacitic lithic tuff. Vein thickness is variable. Figure 6.7 shows an isometric
view of the dacite lithic tuff unit (pink) which marks the position of a NE facing monoclinic fold that is disrupted by brittle deformation
along the Lower Gatos and the antithetic Anti-gatos faults (In red: Ag, Pb, Zn Mineralization).
Source: CLG
Figure 6.7: Geological Model 3D View Looking South Southeast
Economic mineralized grades are not present at surface; however, epithermal
alteration textures are present. The general northwest trending, northeast dipping CLG vein system is persistent with a mapped extension
of 10 km, with true widths of as much as 25 m at depth as demonstrated by diamond drilling. Banded quartz veins and breccias are cemented
by quartz, calcite, and abundant manganese oxides.
The CLG deposit is a listric-shaped mineralized horizon hosting steeply
to shallowly dipping mineralized-shoots at depth. Mineralization of economic interest occurs for approximately 1,800 m in length, between
an elevation varying roughly between 700 masl and 1,400 masl. The top of the mineralized horizon at Cerro Los Gatos is generally located
at an elevation of 1,400 masl. The natural topographic surface is in the order of 1,570 masl ± 50 masl.
The veins at CLG contain silver, zinc and lead. Lower concentrations
of gold and copper are also associated with the veining.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Silver mineralization occurs as acanthite (argentite) and native silver
and has been detected in thin sections as proustite as small inclusions within galena grains.
Zinc mineralization occurs as sphalerite, zinc silicates and zinc carbonates
of variable grain sizes disseminated in quartz vein material, as open-space filling in cavities, and as replacements in the andesitic
and dacitic flow units. Sphalerite ranges from yellow to brown in color and is deposited in a similar style but is not always associated
with the galena mineralization. Zinc oxides after sphalerite also exist down along fault structures through the deposit.
Lead mineralization occurs primarily as galena and lead oxide minerals
of varying grain sizes that are disseminated in quartz vein material, as open-space filling in cavities, and as replacements in the andesitic
and dacitic flow units.
Copper mineralization generally occurs as chalcopyrite disseminated
within quartz veins. Azurite and malachite have been observed in oxidized areas of the South-East zone.
Gold mineral species have not been identified visually but are present
in small quantities in assay results.
The veins themselves display variable gangue mineralization, depending
on the depth of exposure within the epithermal environment. It is common to observe calcite or manganese oxide mineralization at high
levels within the epithermal system which transitions to barite, fluorite, and quartz at lower levels.
Within the mineralized portions of the veins, it is common to see quartz
and fluorite and occasional minor calcite associated with lead, zinc, silver, copper, and gold mineralization. Fluorite is a significant
component of the mineralized zones. The veins are typically rhythmically banded on a scale of 1 mm to 10 mm per band, with repeated pulses
of quartz carrying the metals and other gangue minerals.
It is common to see multiple pulses of mineralization where small veins
crosscut each other. It is also common to see various coloration of quartz in the multiple pulses, ranging from milky white to vitreous
gray to amethystine purple.
It is apparent that most of the economic mineral values are associated
with sulfide mineralization. Oxide mineralization is limited but present at depth, and is commonly related to fracture, breccia zones,
and open spaces within the veins.
The Los Gatos vein mineralization has a halo of hydrothermal alteration.
The distribution of alteration is complex because the halo was subsequently offset by the major listric fault movement.
The Los Gatos footwall rocks are mostly unoxidized. Unaltered mafics
and feldspar are common, even as close as 20 m from the fault zone. Approaching the Los Gatos vein(s), magnetite is destroyed and the
andesites become pale green. The illite alteration is typical argillic alteration found around epithermal veins. The dacitic tuffs are
less affected; they remain siliceous and contain only a minor percentage of illite + pyrite. Illite alteration is seen at depth and at
surface. At deeper levels, epidote + chlorite + pyrite alteration is widespread (propylitic) as far as 200 m into the footwall of the
South-East zone.
High elevations within the hanging wall, particularly within rhyolite,
are affected by massive chalcedony replacement and veinlets of chalcedony. Kaolinite + silica alteration occurs preferentially within
the acidic volcanic rocks.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Los Gatos is interpreted as an intermediate sulfidation epithermal vein
system. Veins in the CLG deposit show textures and gangue mineralogy (local chalcedony and calcite, and quartz-replaced lattice texture
calcite) that indicate a relatively high-level hydrothermal system in the boiling environment. Breccia with clasts of vein quartz indicates
a protracted hydrothermal system during multiple faulting events.
Mineralization at CLG is characterized by silver, lead, zinc, and copper
sulfides and their corresponding oxides, along with fluorite, manganese, barite, and traces of gold associated with quartz and calcite
veins.
The veins vary in orientation from West-Northwest to Northwest to North-Northwest
and vary in thickness from 20 cm to 30 m in the mine operation. Study of the veins in hand specimens and thin sections suggest they
are epithermal in origin and are likely of intermediate sulfidation composition.
The exploration model for these types of veins was put forward in a
paper by Dr. Larry J. Buchanan (1981) that set the basis for the understanding and interpretation of epithermal deposits that has been
widely used in exploration; see Figure 6.8.
Source: Buchanan L.J., 1981
Figure 6.8: Idealized Section of an Epithermal Deposit
Figure 6.9 shows epithermal textures encountered in CLG drill holes
GA-132 at 392 m down the hole on the left, and GA-175 at 273 m down the hole on the right.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 6.9: Epithermal Textures in Drill Core
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Exploration on the LGJV concessions by MPR has been completed primarily
by core drilling and limited non-drilling exploration activities including surface geochemical assay, geophysics, surface mapping and
structural studies.
Results of recent and ongoing drilling programs are intended to define
new discoveries and better delineate known deposits to increase confidence of the Mineral Resource and Mineral Reserve estimates as the
basis for future organic growth of the business.
The non-drilling exploration work is currently ongoing to identify new
mineralization beyond what is being reported in this TRS.
| 7.1 | Exploration Work (Non-Drilling) |
Detailed mapping and rock geochemistry has been completed during 2022,
2023 and 2024 on various exploration targets on the LGJV concession package outside the CLG and Esther zones.
During 2023, the first phase of a Magneto-Telluric study was completed
over CLG and the Los Gatos fault to the northwest and southeast. The intent of this survey was to attempt to identify structures within
the basin that may indicate accumulations of mineralization similar to South-East Deeps.
Regional scale geologic mapping has been conducted over areas of the
Los Gatos concession where the LGJV controls the surface rights utilizing both local staff from MPR and independent contractors (Figure 7.1
outlines the LGJV concessions and target areas). Limited areas of detailed surface mapping exist in the immediate vicinity of the Esther
and CLG deposits.
During 2022, MPR commenced detailed mapping programs over the central
area of the concessions from Los Torunos to Wall-e and the area between CLG and Esther.
During 2023 a drone LiDAR and airphoto survey was completed over the
Ojito ranch approximately 20 km northwest of the CLG operation. The intent of this survey was to prioritize geological mapping targets.
During 2024, drone surveys were carried out along the Los Gatos fault area between CLG and San Luis and in the Los Veranos area.
Detailed mapping was completed during 2023 over Cieneguita, Santa Ana,
El Valle, La Palma, San Luis, Los Rieles, Lince, Diana, and Portigueno targets.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 7.1: Regional Geology Map of Los Gatos Concessions,
Showing Individual Target Areas
Since the acquisition of Los Gatos by MPR, several drilling campaigns
have been carried out with different objectives. As of March 31, 2024, 2,188 drill holes relevant to the LGJV concessions had been completed
by MPR, for a total of 542,502 m drilled. The project database contains surface exploration drilling on other prospects that are not applicable
to this report. Table 7.1 shows all drilling campaigns on the LGJV property, tabulated by drilling objective and Figure 7.2 shows
a map with spatial distribution of the CLG deposit drilling.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 7.1: Drill Hole Count by Purpose
Purpose |
Meters |
N° Drill Holes |
Definition |
99,256.70 |
1,101 |
Exploration and metallurgical testing |
1,733.10 |
6 |
Geotechnical |
6,770.20 |
28 |
Metallurgical testing |
1,693.50 |
5 |
Pumping wells |
5,269.30 |
13 |
Surface Exploration |
417,609.50 |
953 |
Underground Bulk Sample Targeting |
419.8 |
4 |
Underground Exploration |
9,749.65 |
78 |
Total |
542,501.75 |
2,188 |
Mineral exploration drilling was initiated at the CLG Project in October
2008 and continued until 2012. Drilling restarted in 2015, following the joint venture agreement with DOWA, with four rigs simultaneously
operating until February 2016. Drilling began with a Mexican contractor, Minera Gavilán, but most of the drilling was completed
by Major Drilling with Major 5000 rigs. Drilling was conducted using a wire line rig with diamond core capabilities. Holes begin with
HQ size and are reduced, if necessary, to NQ and very rarely to BQ, where difficult drilling conditions are encountered. Drilling from
the 2015-2016 program were pre-collared with tri-cone bits.
Drilling resumed in connection with underground development in August-December
2018 from designed and excavated chambers within underground workings. The drilling was conducted by Major Drilling to retrieve NQ size
core drilled from the footwall side of the mineralized zone.
Surface drilling has continued since 2019. The surface efforts until
early 2024 were dominantly focused on infill drilling to improve geologic confidence, and then switching to resource conversion drilling
to infill the SE inferred resource to a drill density sufficient to support an indicated resource classification. Until mid-2022, holes
were pre-collared with a tri-cone bit and core collected using HQ size, reduced to NQ size if poor drilling conditions were encountered.
From mid-2022, the epiclastics have been drilled starting with PQ to control drill hole deviation.
Underground definition drilling commenced in 2019. The underground drilling
utilized small MPR owned “Termite” rigs drilling LTK48 (35mm) diamond core and Boart-Longyear LM-75 rigs drilling NQ core.
In late 2022, the termite drilling changed to 42mm diamond core. An Ingetrol drill rig, model H300 was added to the underground drilling
fleet in 2024. The drill rig was mobilized to site in Q1-2024 and commenced drilling on April 15th with NQ core. The rig supplemented
the LM 75 rig, to allow for additional drilling capacity of infill / extension drilling.
Exploration drilling has been undertaken almost yearly at CLG. Drilling
specific to the CLG Mineral Resource estimation is 1,666 holes, totalling 346,639 m of core.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 7.2 shows the summary of the different campaigns throughout the
mineral exploration work on the Cerro Los Gatos deposit, by year as of the database cutoff date of March 31, 2024. Figure 7.2 illustrates
the drill hole locations.
During 2022 there was a backlog of underground diamond drill core that
had been drilled but not logged or sampled. This backlog was resolved during 2022. There are some drill holes shown in Table 7.2 that
were drilled during 2021 but not finalized until after the 2022 mineral resource database cutoff date.
Table 7.2: Total of Drill Holes and Meters per Campaign at Los
Gatos
Year |
Data |
Meters |
N° Drill Holes |
2009 |
Surface |
12,067.48 |
30 |
2010 |
Surface |
12,373.5 |
22 |
2011 |
Surface |
557.78 |
1 |
2012 |
Surface |
12,255.09 |
38 |
2014 |
Surface |
1,733.1 |
6 |
2015 |
Surface |
61,788.8 |
184 |
2016 |
Surface |
8,442.04 |
25 |
UG |
419.75 |
4 |
2018 |
Surface |
401.3 |
1 |
UG |
3,564.5 |
32 |
2019 |
Surface |
19,272.4 |
66 |
UG |
4,500.28 |
93 |
2020 |
Surface |
679 |
2 |
UG |
18,550.29 |
236 |
2021 |
Surface |
35,398.62 |
94 |
UG |
30,494.15 |
311 |
2022 |
Surface |
23,831 |
42 |
UG |
24,204.11 |
241 |
2023 |
Surface |
47,765.75 |
72 |
UG |
12,736.5 |
124 |
2024 |
Surface |
12,524.9 |
16 |
UG |
3,078.85 |
26 |
Total |
|
346,639.19 |
1,666.00 |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Figure 7.2 presents a plan view of drill holes, segmented by surface
and underground collar locations.
Source: CLG
Figure 7.2: Distribution of Drill Holes by Type
Used for Resource Estimation at CLG
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
As at July 1, 2023, a total of 108 drill holes for 42,374 m have been
completed in the Esther area. After the 2022 Mineral Resource model was completed in 2022, 5 drill holes, totalling 1,467 meters were
completed outside of the reported mineral resource solid.
Table 7.3 shows the summary of the different campaigns at the Esther
area, by year. This table contains drill holes including some beyond the area encompassing the mineral resource block model. Figure 7.3
illustrates the drill hole locations.
Table 7.3: Drill Holes by Campaign at Esther until July 1, 2023
|
N° Drill Holes |
Meters |
Year |
Surface |
2009 |
18 |
6,872 |
2010 |
16 |
8,519 |
2011 |
6 |
2,950 |
2021 |
28 |
10,067 |
2022 |
40 |
13,966 |
Total |
108 |
42,374 |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 7.3: Drill Hole Distribution Used for Mineral Resource Estimation at Esther
Drill hole logging was conducted by geologists at the Los Gatos core
logging and storage facility, supervised by the senior geologist. The process included a detailed description of the lithology of the
different rock units found in the deposit, as well as the identification of alteration, structures, and mineral zones. Based on the geological
description, codes were assigned to each geological unit. The process was conducted manually on paper log sheets, which were then entered
into a Microsoft (MS) Excel spreadsheet. Once the transcription was completed, the geologists reviewed the Excel files for consistency.
An example of a paper logging sheet is shown in Figure 7.4.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 7.4: Example Core Logging Sheet for Los Gatos
| 7.2.3 | Drill Core, Sampling, and Recovery factors |
| 7.2.3.1 | Topographic Survey |
Detailed topographic mapping was acquired using Photosat (Canada). The
topography was created at 1-m, 5-m, 10-m, and 50-m contours from Geoeye® satellite coverage. Survey control points were
established on surface, with coordinates assessed by total station for survey accuracy.
The percentage of core recovery for diamond drill holes (DDH) was calculated
as the ratio of the length of the recovered pieces by the length of the drilled interval. In some cases, recovery was less than 100 percent
due to washout of fines, compaction of soft units, or inability of the bit to break and recover rock core. Occasionally, recovery exceeded
100 percent due to borehole collapse (redrilling), clay expansion, or core breakout to the bottom of the borehole during barrel recovery.
The measurement is recorded to the nearest centimeter (cm) and as a number, not a percentage. A final core recovery percentage is calculated
within the database. Figure 7.4 shows the core recovery of DDH drilling between 2009 and 2024 to the time of data cutoff.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 7.5: Diamond Drill Hole Recovery - All Data
| 7.2.3.3 | Surveying - Drill Collar Survey |
| 7.2.3.3.1 | Surface Drill Holes |
Surveys of drill collar locations have been completed by a local contract
surveyor using a Topcon Total Station GTS-236W and Leica Total Station. All collar and survey information were previously stored in a
master database in Microsoft Access® and transferred to the new acQuire database system in late 2022. Most surface collars
have been cemented and labelled with the drill hole name; Figure 7.6 shows typical collars on the Los Gatos area.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: WSP
Figure 7.6: Example of a Completed Drill Hole Site
| 7.2.3.3.2 | Underground Drill Holes |
Underground collars have been surveyed by conventional mine survey (measuring
offsets from control points). To ensure accuracy, collar location and hole dip/azimuth were measured twice by the mine survey department.
One measure is completed while the machine is still drilling, and a second measurement taken after the machine is off the drill hole,
using a tube inserted into the drill hole for hole inclination measurement.
| 7.2.3.4.1 | Surface Drill Holes |
Up until 2022, surface drill holes were surveyed down the hole with
a Flexit EZ Trac device on 50-m intervals, as the holes were completed and with a magnetic tool, Wireless Multishot (Devico Devishot).
The accuracy of the Flexit EZ Trac is reported by its manufacturer to be 0.25 degrees (°) in calculation of both the azimuth and inclination.
The measurements were made in areas without extreme fracturing or faulting
in the rock that could affect the measuring instrument. Once the measurement is obtained, it is reviewed by MPR geologists to evaluate
if it is within the allowed parameters of azimuth and inclination deviation.
If the result was not satisfactory the measurement was performed again
and if the result was still not satisfactory, the reason is evaluated (fracture zone, magnetism in the rock or instrument failure). All
the measurements that are accepted by the geology department are noted in the daily drilling reports of the AP DRILLING company and incorporated
in the database.
Since April 2022, Los Gatos has used Reflex Gyrocompass and DeviAligner
tools for rig alignment and conducted a post-completion 3m interval gyro downhole survey program for holes drilled from surface using
Reflex Gyro Sprint-IQ and DevyGyro tools.
| 7.2.3.4.2 | Underground Drill Holes |
During late 2022, Los Gatos implemented a downhole survey program for
holes drilled from underground. The GyroRigALigner and GyroScout tools are used for rig alignment and post drill hole surveying respectively.
Previously, downhole dips/azimuths were not measured for underground drill holes.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 7.2.4 | Drilling Results and Interpretation |
Based on the geological understanding of the deposit, the reconciliation
and the QA/QC program, it is the opinion of this QP that the drill hole spacing, extents and continuities, drilling methods and sample
quality at Los Gatos are acceptable for the purpose of modeling and estimating mineralization content of the deposit.
| 7.3 | Hydrogeological Investigations |
Hydrogeological characterization of the site has been conducted by MPR
and consultants (Hernández-Bedolla, 2015; Tetra Tech, 2015, 2019, 2020, and Hydro Ressources, 2020a-e, 2021). Hydrogeologic characterization
consisted of the installation of wells and monitoring of water levels. Aquifer testing at the site was conducted between 2010 and 2016
and consisted of numerous short duration slug tests and pumping tests in boreholes and dewatering wells and one long-term (93-day) constant
rate pumping test (Tetra Tech, 2019, 2020). Data acquired during these investigations was used to develop a conceptual hydrogeological
model of the site, which formed the framework for the development of a numerical groundwater flow model (summarized in Tetra Tech, 2019).
This flow model was used to simulate drawdown effects of pumping from dewatering wells and to produce a dewatering plan for the development
of the underground mine.
Mine development below the water table after 2019 demonstrated that
the initial numerical groundwater flow model significantly underestimated the groundwater inflow rates to the underground mine. This indicated
that the conceptual model in use was inadequate and needed revision. Noting the strong influence of fault structures on groundwater inflow
to the underground workings, in 2020, MPR retained consultants that specialized in the analysis of structurally complex, fractured rock
groundwater systems. As appropriate for these types of hydrogeological systems, the groundwater characterization effort since 2020 has
been focused on defining the degree of compartmentalization of the groundwater system at CLG and on the location of the principal water
bearing structures (Hydro Ressources, 2020a-e, 2021) using targeted drilling and flow monitoring. These studies have allowed the estimated
peak dewatering rate required to meet target drawdown rates for the current mine plan in the Northwest (NW) and Central zones to be better
constrained.
Since mid-2022, CLG has employed a staff hydrogeologist to collect and
evaluate hydrogeological data and analyse the results of mine dewatering programs. As of July 2023, the company has a total of seven piezometers
to measure static water levels, four collared in underground monitoring wells and three piezometers collared from surface. These piezometers
are used to evaluate the water level and impact of dewatering. Pumping volumes are monitored on a real-time, minute-by-minute,
basis. During 2023 and 2024, CLG engaged ITASCA to create a hydrogeological framework and numerical model incorporating the various data
sources and current understanding of hydrogeology.
Section 13.3 describes the conceptual hydrogeological setting in more
detail.
| 7.4 | Geotechnical Drilling and Sampling |
For all diamond drilling that has been completed on the deposit, basic
geotechnical information, including core recovery, rock hardness and RQD was collected from the core simultaneously with geological logging.
From 2012 to 2015, point load testing was introduced as well as the
logging of joint form and frequency for estimation of RMR values. From 2015 onwards, point load testing was continued, and the format
of joint evaluation was modified to include the estimation of a Barton Q parameter. For the period of 2023-2024 the geotechnical team
implemented an extensive point load testing and joint form and frequency mapping program specific to the SE Deeps zone.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The mine employs geotechnical engineers who conduct detailed geotechnical
rock quality logging of individual areas for specific projects. Examples of these are vent raise locations or the trial of a new stope
methodology, such as the implementation of transverse longhole mining in the Central zone. This detailed geotechnical analysis is completed
on diamond drill core on an as-needed basis.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 8.0 | Sample Preparation, Analyses, and Security |
Data summarized in this Section and utilized for Mineral Resource estimation
has been collected by MPR. The sample collection and preparation, assaying and security procedures implemented by MPR use methods in accordance
with internal and mining industry standards and were continuously monitored to ensure the integrity of the data collected.
No historic sampling by previous operators has been utilized by MPR
nor has it been described in this section. Descriptions and quantities of samples are limited to drilling within the immediate CLG deposit
mineral resource area (project ID “GA” in the database); various surface sampling and drilling outside of the deposit area
are not considered relevant to this section.
| 8.1 | Sample Preparation Methods and Quality Control Measures |
At Los Gatos only DDH core samples have been used for resource estimation
purposes. DDH cores are labeled and secured in wooden cases before daily transport from the rig to the core shack by truck. Once at the
core shack, they undergo geotechnical logging by field assistants, while geologists conduct geological logging and the selection of the
intervals to be sampled.
Sample intervals are selected only where the geologist recognizes mineralization.
In practice, the core is extensively sampled above the hanging wall and below the footwall on either side of the mineralized zone. Samples
are constrained to a minimum length of 80 cm and a maximum of 10 m. Surface drilling is dominantly assayed at 2.0m intervals with underground
(UG) drill core dominantly sampled on 1.5m intervals.
Geologists are responsible for selecting the intervals to be sampled
and entering records on a sampling sheet (Figure 8.1). When cores are sawed in half along the longitudinal axis, an identifier is assigned
by using a sample identification notebook.
Source: WSP
Figure 8.1: A) Sampling Sheet I B) Sample ID Booklet
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Prior to core sawing the geologist marks a cut line along the core to
ensure adequate representation of the style of mineralization. A sample sheet is provided to the core cutter containing sample numbers
and the “from – to” intervals. NQ and HQ core is sawn in half along its long axis with an electric diamond saw. One
half is bagged while the remaining half of the core is stored at the Geological core shack for further geological characterization and
storage. The smaller 42mm diameter core from the UG Termite drill rigs is whole core sampled.
Figure 8.2 shows the core shack, geological logging, the diamond
saw core cutter, and half core placed in a core box.
Samples of holes drilled from surface are then sent for mechanical preparation
at an independent laboratory in Chihuahua (ALS Chemex). Core samples from the underground drilling programs undergo mechanical preparation
at an onsite Mine Laboratory.
Cores are collected and placed in plastic boxes that are labeled by
the drillers on the rig with drill hole number, box number and a mark that indicates the beginning hole depth of the box. Plastic or wooden
plugs are inserted, marking the drilling advance meterage with the help of a marker at the end of each drilling run. Plastic plugs are
marked with the depth and highlighted with a marker for better visualization in core photographs.
Core preparation is completed in the core shack, which is secured by
fence gates, monitored by security personnel and securely locked at night. In the warehouse the samples are received and then processed
for geological logging, density sample selection, photography and saw cutting.
Prior to the core sawing process, paper labels are used to identify
the samples. One label is stapled to the corrugated plastic core box while the second is placed in the sample bag along with the sample,
keeping a receipt in the original sample tag booklet (Figure 8.1B). Sample identification is also transcribed on the plastic core box
using a red marker. Sample numbering begins with the numbering of the previous batch of samples. The core remaining after sampling is
stored in a secure core storage facility located in the local community of San Jose del Sitio, or in a core storage area on site (Figure 8.3).
Prior to transport to Chihuahua City, samples are stored in a secure
building adjacent to the core logging area. Prior to, and during transportation, actions are taken to guarantee the integrity of the samples.
Plastic trays with cores are closed to avoid displacement or loss of samples, shipments are checked to ensure the integrity of the samples,
and a document detailing the contents, and the work order is generated. Only project personnel are involved in the selection, preparation,
and delivery of samples to the laboratory.
Samples are transported by MPR employees to Chihuahua City approximately
three times a week. The samples are received at the ALS Chemex preparation facility in Chihuahua City (ALS Chihuahua) using a Chain of
Custody form that allows traceability of the samples during transit. Once mechanical preparation is completed, pulp samples are shipped
to Vancouver, Canada for chemical assay. Once pulp samples are returned from Vancouver, they are stored in the core storage facility in
San José del Sitio in conditions that guarantee their integrity over time (Figure 8.3).
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: WSP
Figure 8.2: A) Geological Core-Shack; B), Geological
Logging on Site; C), Electrical Diamond Saw; D), Half Core Placed in a Labelled Core Box
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: WSP
Figure 8.3: A) Storage Conditions in the Core Warehouse
at San José El Sitio; and B), Rejects Storage
| 8.2 | Sample Preparation, Assaying, and Analytical Procedures |
MPR measures density of DDH cores using the Archimedes method. Samples
are selected by the geologist as representative for each lithology; however, in the presence of hydrothermal veins and hydrothermal breccias,
samples are taken every two meters, unlike the country rock where only representative samples are taken.
The length of the samples is standardized to 10 cm. They are cut to
samples of uniform size to facilitate the weighing and kerosene wax coating process (Figure 8.4). The data obtained are entered into
a Microsoft Excel spreadsheet, which is then added to the geological database.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: WSP
Figure 8.4: Density Samples
The sample mechanical preparation steps are summarized below:
| 1. | Drying in an electric oven at 105°C for approximately 10 hours. |
| 2. | Primary crushing to #3 (3 screen openings per linear inch) Tyler (Ty). |
| 3. | Secondary crushing, 90% passes #10 Ty. |
| 4. | Sample splitting to two kilograms using a rotary splitter. |
| 5. | Pulverizing, 95% passes #150 Ty. |
| 6. | Three samples are created. |
| 8.2.2.2 | Underground Samples |
Core samples are received at the mine site laboratory and registered
in LIMS before the mechanical preparation.
The mechanical preparation steps are summarized below:
1. Weighing of samples and entry in LIMS.
2. Drying in an electric oven at 221°F ±9°F for approximately
three to four hours.
3. Primary crushing in a Terminator Crusher to 75% (P75)
passing #10 mesh (PO-LA-02-07), if not the opening of the slats should be adjusted. This test is completed every 20 samples.
5. Homogenization and splitting in a Jones splitter is repeated until
a sample size of approximately 300 g is achieved.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
6. Pulverization to 85% passing #200 mesh is then conducted on the 300
g samples. One out of 20 samples is subjected to a particle size test.
7. Pulp samples are placed in a box
labeled with the lot number and are transferred to the temporary storage area (Figure 8.5).
Source: WSP
Figure 8.5: Samples After Crushing (Left) and Pulp Samples
Labelled (Right)
After mechanical preparation in the ALS Chemex lab in Chihuahua City
(ALS Chihuahua) samples are sent to ALS Vancouver for chemical assay.
From 2008 to June 2009 samples were analyzed for Ag, Pb, Zn, Cu and
31 additional elements by aqua regia digestion with inductively coupled plasma - atomic emission spectroscopy (ALS-Chemex code ICP41).
Reanalysis was considered for values above 100 g/t Ag, and 1% Pb. Zn and Cu were analyzed by inductively coupled plasma aqua regia - atomic
emission spectroscopy (ALS-Chemex code OG46).
After June 2009, the samples have been analyzed for Ag, Pb, Zn, Cu and
29 additional elements by four-acid digestion, inductively coupled plasma - atomic emission spectroscopy (ALS-Chemex code ICP61). An overlimit
reanalysis is conducted for values above 100 g/t Ag, and 1% Pb. Zn and Cu were analyzed by four-acid digestion, inductively coupled plasma
- atomic emission spectroscopy (OG62). Values exceeding 1,500 g/t Ag are reanalyzed by fire assay with gravimetric finish (GRA21). Samples
are analyzed for Au using fire assay with
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
atomic absorption spectroscopy finish (AA23) with a re-run for values
exceeding 10 g/t Au, using fire assay with gravimetric finish (GRA21).
The results of the analyzed samples are reported to Los Gatos via an
Excel file in .csv format and pdf format sent by email and are imported directly into the database, avoiding any type of manipulation
of the results.
| 8.2.3.2 | Underground Samples |
The Mine Lab uses Fire Assay for Ag and Au with AAS assay and for Pb,
Zn, Cu, and Fe digestion with nitric acid and hydrochloric acid digestion with atomic absorption finish. Fluorine is analyzed on Pb and
Zn head samples and concentrates, using ion selective electrode (Figure 8.6). The analysis flow is further shown in Figure 8.7.
Source: WSP
Figure 8.6: Internal Mine Laboratory
| 8.2.4 | Laboratory Certification |
The ALS Chihuahua laboratory is responsible for mechanical preparation
and the ALS Vancouver laboratory for assaying of surface samples. ALS Chemex is independent of MPR and is ISO 17025 accredited. The accreditation
of ALS Vancouver encompasses preparation processes completed at ALS Chihuahua. There is no relationship, or conflict of interest between
MPR and the ALS Chemex S.A. group.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Underground samples are sent to the Internal MPR Laboratory, which is
not certified. While the onsite laboratory is not certified, in 2023 MPR has instituted an umpire check assay program, whereby 3% of pulps
are shipped to ALS Chemex Vancouver each quarter for an independent check assay. Results are then compared to the original assay result
from the onsite laboratory to confirm validity. 132 umpire samples were analyzed during the period of April 1 2023, through to March 31
2024. The results show good reproducibility of the results with no inter-laboratory biases observed.
Source: CLG
Figure 8.7: Diagram of Sample Preparation and Analyses
of CLG DDH Samples by ALS-Chemex
| 8.3 | Quality Control Procedures/Quality Assurance |
MPR sample assays are subject to a comprehensive Quality Assurance and
Quality Control (QA/QC) program for monitoring Ag, Au, Pb and Zn. Table 8.1 details the QA/QC procedure, which includes insertion of control
samples to monitor precision, accuracy and contamination for the sampling, mechanical preparation, and assaying stages.
The drilling campaigns from April 2022 onwards included the insertion
of Pulp Duplicates. These pulp duplicates were obtained after the crushing and homogenization of the samples with a frequency of one in
20 samples. since
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
October 2022, coarse blanks are inserted for samples obtained by underground
and surface drilling and fine blanks are no longer inserted.
Each batch of samples includes 30 samples, comprising 24 routine samples
and six control samples. The Database Administrator controls the analytical quality of each batch, monitoring annual and monthly behaviours.
Irregular, or suspect, analysis results are reviewed directly upon import of assay certificates into the acQuire database and addressed
in a timely manner to ensure the integrity of the database.
The ALS Chemex and CLG Mine laboratories have an independent QA/QC program
that includes field duplicates, pulp duplicates, coarse analytical blanks, and Certified Reference Material (CRM), commonly called ‘standards.’
The target frequency for these QA/QC samples are shown in Table 8.1.
Separately, a subset of pulp samples from the underground drilling that
were originally assayed at the CLG Mine laboratory were sent to ALS Chemex for an umpire check assay program.
Table 8.1: QA/QC Controls for Sample Preparation and Assaying
Control Sample |
Description |
Frequency (%) |
Observations |
Threshold |
Campaigns |
Fine Blank |
Silica sand (previously analyzed by a certified external laboratory) |
1 in 20 samples |
Contamination in assaying |
10 times detection limit with a 95% confidence |
2008 to 2024 |
Standard |
Commercial Reference Material |
1 in 20 samples |
Accuracy in chemical analysis |
Results are within ±2 and ±3 standard deviations of the certified value |
2008 to 2024 |
Field Duplicate |
Obtained from the second split of the original sample |
1 in 20 samples |
Precision in DDH samples |
20% Relative Error |
2008 to 2024 |
Pulp Duplicate |
Obtained after crushing and homogenization |
1 in 20 samples |
Precision in DDH samples |
10% Relative Error |
2022 to 2024 |
Coarse Blanks |
Marble stone (Previously analyzed) |
1 in 20 samples |
Contamination in mechanical Preparation |
10 times detection limit with a 95% confidence |
2022 to 2024 |
Results outside the acceptance range require re-preparation and re-analysis
of the complete batch (Figure 8.8).
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 8.8: Quality Control Decision Flow Diagram
The control samples include the insertion of blind
QA/QC control samples (coarse blanks, ¼ core field duplicates, pulp duplicates and Certified Reference Materials (CRM)) with
all batches sent to the laboratory.
| 8.3.2.1.1 | Certified Reference Materials (CRM) |
For the 2024 period, the results of the CRM analyses for silver, lead,
zinc and gold of samples from surface drilling campaigns show an acceptable precision with results within acceptable tolerance limits
(2σ), and a low bias.
The results are shown in Table 8.2 through Table 8.5.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 8.2: Standard Control Sample Results for Silver-
2024 Campaigns
Element |
CRM ID |
CRM Value |
CRM |
Accept Min (2σ) |
Accept Max (2σ ) |
Mean |
Std. |
N° of Analyses |
Bias |
Outliers |
% Outliers |
Std. Dev |
Dev. |
Ag |
CDN-ME-1902 |
356 |
19 |
318 |
394 |
354.6 |
5.939 |
112 |
-0.41 |
0 |
0 |
CDN-ME-2003 |
106 |
9 |
88 |
124 |
108.5 |
2.505 |
85 |
2.38 |
0 |
0 |
Table 8.3 Standard Control Sample Results for Lead - 2024 Campaigns
Element |
CRM ID |
CRM Value |
CRM |
Accept Min (2σ) |
Accept Max (2σ) |
Mean |
Std Dev |
N° of Analyses |
Bias |
Outliers |
% Outliers |
Std. Dev |
Pb |
CDN-ME-1902 |
22,000 |
1,000 |
20,000 |
24,000 |
21,893 |
273.77 |
112 |
-0.49 |
0 |
0 |
CDN-ME-2003 |
4,750 |
160 |
4,430 |
5,070 |
4,746 |
110.96 |
85 |
-0.08 |
0 |
0 |
Table 8.4: Standard Control Sample Results for Zinc
Standard - 2024 Campaigns
Element |
CRM ID |
CRM Value |
CRM |
Accept Min (2σ) |
Accept Max (2σ) |
Mean |
Std Dev |
N° of Analyses |
Bias |
Outliers |
% Outliers |
Std. Dev |
Zn |
CDN-ME-1902 |
36,660 |
2,300 |
32,060 |
41,260 |
36,179 |
445.24 |
112 |
-1.15 |
0 |
0 |
CDN-ME-2003 |
10,500 |
500 |
9,500 |
11,500 |
10,633 |
197.82 |
85 |
1.26 |
0 |
0 |
Table 8.5: Standard Control Sample Results for Gold Standard
- 2024 Campaigns
Element |
CRM ID |
CRM Value |
CRM
Std. Dev
|
Accept Min (2σ) |
Accept Max (2σ) |
Mean |
Std Dev |
N° of Analyses |
Bias |
Outliers |
% Outliers |
Au |
CDN-ME-1902 |
5.38 |
0.42 |
4.54 |
6.22 |
5.337 |
0.207 |
112 |
-0.8 |
0 |
0 |
CDN-ME-2003 |
1.301 |
0.135 |
1.031 |
1.571 |
1.315 |
0.083 |
85 |
1.05 |
0 |
0 |
Table 8.6 summarize the blanks result for gold, silver, lead and
zinc in the 2024 Campaigns.The limited zinc results analysis out of tolerance limit, most were located immediately before high-grade samples
previously identified by CLG personnel.
Table 8.6: Blank Results - 2024 Campaign
Element |
Outliers |
Std. |
Accept Max |
N° of Analyses |
Mean |
Dev. |
Ag |
0 |
0.09 |
5 |
278 |
0.26 |
Au |
0 |
0.004 |
0.1 |
275 |
0.004 |
Pb |
0 |
13.65 |
100 |
278 |
7.9 |
Zn |
10 |
34.36 |
100 |
275 |
19.8 |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 8.3.2.1.3 | Field Duplicates |
Table 8.7 summarize the field duplicates result for the 2024 campaigns;
the silver and gold analysis values exhibited an acceptable to regular precision.
Table 8.7: Field Duplicates Results - 2024 Campaign
Element |
N° of Analyses |
% Average HRD (%) |
Average HARD (%) |
|
|
|
|
Ag ppm |
229 |
-0.25 |
4.51 |
|
|
Au ppm |
229 |
-1.57 |
4.74 |
|
|
Pb ppm |
229 |
-0.06 |
1.61 |
|
|
Zn ppm |
229 |
0.31 |
1.11 |
|
|
The QAQC program included pulp duplicates in the 2024 campaign. Table 8.8
summarizes the pulp duplicate results for the 2024 Campaigns. In general, no significant biases in pulp duplicates were observed for silver,
gold, lead and zinc, and the accuracy was within acceptable ranges for silver, lead and zinc. Gold values from pulp duplicates have fair
precision.
Table 8.8: Pulp Duplicates Results - 2024 Campaign
Element |
N° of Analyses |
% Average HRD (%) |
Average HARD (%) |
|
|
|
|
Ag ppm |
63 |
0.47 |
3.07 |
|
|
Au ppm |
63 |
-1.45 |
7.31 |
|
|
Pb ppm |
63 |
0.07 |
1.83 |
|
|
Zn ppm |
61 |
0.31 |
1.23 |
|
|
The control samples include the insertion of blind QA/QC control samples
(coarse blanks, ¼ core field duplicates and Certified Reference Materials (CRM)) with all batches sent to the laboratory.
| 8.3.2.2.1 | Certified Reference Materials (CRM) |
For the 2024 period, the results of the CRM analyses for silver, lead,
zinc and gold of samples from underground drilling campaigns show an acceptable precision with results within acceptable tolerance limits
(2σ), and a low bias.
The results of the CRM analyses are shown in Table 8.9, Table 8.10,
Table 8.11, and Table 8.12.
Table 8.9: Silver Results for Standard Control Samples
- 2024 Campaign
Element |
CRM
ID |
CRM Value |
CRM Std Dev |
Accept Min (2σ) |
Accept Max (2σ) |
Mean |
Std Dev |
N° of Analyses |
Bias |
Outliers |
% Outliers |
Ag |
CDN-ME-1811 |
87 |
7 |
73 |
101 |
87.518 |
2.57 |
85 |
0.59 |
0 |
0 |
CDN-ME-2003 |
106 |
9 |
97 |
115 |
110.115 |
2.625 |
61 |
3.88 |
0 |
0 |
CDN-ME-1902 |
356 |
19 |
318 |
394 |
346.703 |
6.52 |
74 |
-2.61 |
0 |
0 |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 8.10 shows the results for lead in the 2024 period. There
is no evidence of bias, and all the samples were within the acceptable limits.
Table 8.10: Lead Results for Standard Control Samples
- 2024 Campaign
Element |
CRM
ID |
CRM
Value |
CRM
Std Dev |
Accept
Min (2σ) |
Accept
Max (2σ) |
Mean |
Std
Dev |
N°
of Analyses |
Bias |
Outliers |
%
Outliers |
Pb |
CDN-ME-1811 |
0.304 |
0.016 |
0.272 |
0.336 |
0.31 |
0.005 |
85 |
2.2 |
0 |
0 |
CDN-ME-2003 |
0.475 |
0.016 |
0.443 |
0.507 |
0.48 |
0.007 |
61 |
1 |
0 |
0 |
CDN-ME-1902 |
2.200 |
0.100 |
2.000 |
2.400 |
2.208 |
0.047 |
74 |
0.38 |
0 |
0 |
Table 8.12 shows the results for zinc. For the 2024 period there
are no samples outside the confidence limits, and no bias is present.
Table 8.11: Zinc Results for Standard Control Samples
- 2024 Campaign
Element |
CRM
ID |
CRM
Value |
CRM
Std Dev |
Accept
Min (2σ) |
Accept
Max (2σ) |
Mean |
Std
Dev |
N°
of Analyses |
Bias |
Outliers |
%
Outliers |
Zn |
CDN-ME-1811 |
1.54 |
0.06 |
1.42 |
1.66 |
1.529 |
0.023 |
85 |
-0.7 |
0 |
0 |
CDN-ME-2003 |
1.05 |
0.05 |
0.95 |
1.15 |
1.052 |
0.022 |
61 |
0.15 |
0 |
0 |
CDN-ME-1902 |
3.666 |
0.23 |
3.206 |
4.126 |
3.603 |
0.062 |
74 |
-1.71 |
0 |
0 |
The results for gold CRM are shown in Table 8.12, they indicate
that the accuracy is good with no evidence of bias for all the samples.
Table 8.12: Gold Results for Standard Control Samples-2024
Campaign
Element |
CRM
ID |
CRM
Value |
CRM
Std Dev |
Accept
Min (2σ) |
Accept
Max (2σ) |
Mean |
Std
Dev |
N°
of Analyses |
Bias |
Outliers |
%
Outliers |
Au |
CDN-ME-1811 |
2.05 |
0.24 |
1.57 |
2.53 |
2.039 |
0.141 |
85 |
-0.54 |
0 |
0 |
CDN-ME-2003 |
1.301 |
0.135 |
1.031 |
1.571 |
1.294 |
0.072 |
61 |
-56 |
0 |
0 |
CDN-ME-1902 |
5.38 |
0.42 |
4.54 |
6.22 |
5.337 |
0.23 |
74 |
-0.8 |
0 |
0 |
Table 8.13 summarizes the field duplicates result for the 2024
Campaigns show the results of the blanks for gold, silver, lead, and zinc. There was no evidence of contamination during the mechanical
preparation of samples with no samples exceeding the acceptance thresholds.
Table 8.13: Blank results - 2024 Campaign
Element |
Outliers |
Std. |
Accept Max |
N° of Analyses |
Mean |
Dev. |
Ag ppm |
0 |
0.00 |
5.00 |
260 |
2.5 |
Au ppm |
0 |
0.00 |
0.05 |
260 |
0.005 |
Pb % |
0 |
0.001 |
0.10 |
260 |
0.0051 |
Zn % |
0 |
0.00 |
0.05 |
20 |
0.005 |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 8.3.2.2.3 | Field Duplicates |
Table 8.14 summarizes the field duplicate results
for the 2024 Campaigns for Ag, Au, Pb, and Zn field duplicates. The precision is within the acceptance threshold for Pb and Zn. Ag and
Au have regular precision with 90% of the samples exhibiting a half absolute relative difference (HARD) value below 40%.
Table 8.14: Field Duplicates - 2024 Campaign
Element |
N° of Analyses |
% Average HRD (%) |
Average HARD (%) |
|
|
|
|
Ag ppm |
208 |
0.09 |
0.98 |
|
|
Au ppm |
208 |
-0.11 |
1.55 |
|
|
Pb % |
208 |
0.05 |
0.54 |
|
|
Zn % |
208 |
0.01 |
0.56 |
|
|
In the opinion of the Qualified Person, both the mechanical preparation
protocols and the procedures that regulate the chemical analysis methodologies, traceability and custody of the samples that support the
Mineral Resource estimate at CLG are adequate and correspond to those commonly used in the mining industry for the processing of samples
from this type of deposit.
The QA/QC results established for the monitoring of contamination, accuracy,
and precision demonstrate that the sample assay data is acceptable for use for Mineral Resource and Mineral Reserve estimation.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Field data is collected and analysed for all mineral projects. The greatest
volume of data is geological which informs geologists and mineral resource estimators. Rock property information is also collected for
purposes of design and monitoring of the TSF foundation and dam, building foundations, rock mechanics analyses, ground control determinations
for rock support, crown pillar assessment, tunnel dimensions, and stope dimensions. Mineral processing monitoring and control systems
and procedures have also been reviewed.
CLG is now an operating mine which produces operating data on a daily
basis. The mine technical services department monitors and measures the conditions in the mine, including air flow, volume and quality,
water ingress, pumping systems, personnel health status and safety systems. The processing plant technical team continuously monitors
the technical and performance aspects of the plant as standard operating procedures for supervision of the comminution system, flotation,
filtration, metal recovery and plant discharge with particular attention to flow rates (i.e., plant throughput) and system performance.
The respective QPs have reviewed the data collection records and systems
used to supervise and manage the functions of the mine and plant, and verify the systems and protocols employed by CLG as adequate for
purpose.
The data used for the Mineral Resource estimate were directly exported
from the database. The export was carried out according to established procedures for exporting data from the geological information management
system.
Geological data validation and review was performed by Mr. Ronald Turner.
The procedures used meet industry standards.
Metallurgical accounting balances are closed and reconciled with mine
production reports, and concentrate sold on a monthly basis, in order to ensure accuracy and accountability. Facilities conducting plant
sampling, flow measurements, sample preparation, concentrate dispatch, and assay laboratory functions were visited in order to assess
their conditions and compliance with best practices. Plant supervisory staff were interviewed, and documentation was reviewed in order
to gain a better understanding of compliance, procedures and policies.
All the aspects that could materially impact the
integrity of the data informing the estimation of Mineral Resources (core logging, sampling, analytical results, and database management)
are supported by protocols, procedures, and process mapping implemented on site which follows industry practice. The information system
is supported by security protocols administrated internally by MPR that allow the capture and administration of data.
Up until late 2022, the database software used
was MS Access for the surface drilling database and MS Excel for the underground definition drilling database. In late 2022, an acQuire
database system was implemented, and the data storage and management was transferred to this system.
All the data is entered and administrated in acQuire where the validation
process is made before data exportation for geological modeling and resource estimation purposes. Validations are implemented throughout
the data capture chain. Access permissions to the platform are managed in a manner that ensures security and integrity.
A single data management system, which guarantees that all data complies
with the same quality assurance protocols, is fully implemented on site.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 9.1.1.2 | Drilling and Sampling |
For quality assurance of data captured in the chain of sampling and
assaying, individual sample labels were, and are, used. For DDH drill core, trays are labelled and include “from-to” information.
A registry of blanks, duplicates and standards insertion for QC is performed
for every batch of samples sent for mechanical preparation and chemical analysis. Each batch name identifies the destination, type of
preparation and analysis, laboratory name, dates of delivery and return, analytical suite name, etc.
The shipping list is generated internally on site prior to delivery
of the samples to the preparation laboratory.
Geologists log directly onto paper. These paper records are entered
into acQuire by a data entry technician and verified after entry by both the database manager and the responsible geologist. The process
is undertaken, or supervised, by suitably qualified geologists. For a group of representative drill holes of the deposit, the QP verifies
that the existing records in the original backups match those in the database. This verification included the geological logging and assaying.
| 9.1.3 | Sample Preparation and Chemical Analysis |
All samples received in the laboratory are carefully
recorded in the Laboratory Information Management System (LIMS) before proceeding with sample preparation.
Once mechanical preparation is completed, batches are sent to the Vancouver assay lab for chemical analysis and assays. Assay samples
are collected by appropriately qualified staff at the laboratories. The insertion of control samples of pulp duplicates has improved confidence
in the precision of the analytical results.
The geological modeling included all the main geological variables that
control the mineralization and was carried out using data that are considered adequate and properly reviewed and validated. The methodology
used in the modeling follows industry best practices and allows proper modeling of the continuity of the mineralization existing at Cerro
Los Gatos. The geological model was statistically validated and reviewed by the QP together with the mine personnel.
During March and April 2022, Gatos Silver completed a detailed internal
review of all drilling, surface and underground, that was to be used in the Mineral Resource estimate. This review entailed validating
the database geochemical analysis values for Ag, Zn, Pb, Cu, and Au back to the .csv assay certificate from the relevant laboratory, CLG
or ALS-Chemex. The complete UG assay database was validated against original assay certificates. All except 64 samples, of 44,031 total
samples (99.85% validation), of the surface database were verified against original assay certificates.
As part of the process of verifying the data added to the 2024 model,
the surface and underground geochemical analysis database values for Ag, Zn, Pb, Cu, and Au were checked against the original certificates
and no inconsistencies were identified.
The QP for Geology and Mineral Resource estimation
is not aware of any additional limitations or any failure to perform adequate data verification.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The process of data validation includes several iterations to fix and
resolve possible differences that may be identified during the data collection processes. No limitations that may affect the data are
considered, the data capture processes ensure the integrity of the information among the different procedures and protocols of the data
flow.
As a result of the data verification and validation process, the differences
that were identified have been corrected in the database in coordination with the Geology Department at CLG. The final data extraction
for the mineral resource modeling process considers all the corrections made in the database resulting from verification work.
| 9.1.7 | Opinion on Data Adequacy |
A reasonable level of verification has been completed at CLG, and no
material issues have been identified. The data verification programs for the data used for the Resource Model adequately support the geological
interpretations, and the analytical and database quality; and therefore, support the use of the data in Mineral Resource estimation.
The validation results of the data that were exported for the 2024 Mineral
Resource Model have been conducted in accordance with the established export and validation procedures. The QP considers the information
to be suitable for use in the Mineral Resource model and considers the historical data to be of acceptable quality.
The QP responsible for the Mineral Reserves and Mining Methods took
the following steps to verify the data forming the basis of the estimate:
| n | Site Visit: The QP conducted a site visit to the CLG mine from May 13 to 16, 2024. The QP toured the underground operations,
observing active stopes and development headings to assess current mining activities. |
| n | Mine Design Review: During the visit, the QP met with the CLG engineering team to review the mine design work in progress for
the Mineral Reserve estimate. |
| n | NSR Cut-off Discussions: The QP engaged in detailed discussions regarding Net Smelter Return (NSR) cut-off calculations, verifying
their appropriateness for the Mineral Reserve estimate. |
| n | Dilution, Recovery and Stope Dimensions: The QP and the WSP Senior Principal Rock Mechanics Engineer discussed dilution factors,
mining recovery rates, and proposed stope dimensions with CLG engineers. |
| n | Geotechnical Review: The WSP Senior Principal Rock Mechanics Engineer reviewed the geotechnical parameters in collaboration
with the QP to ensure they were accurate and appropriate for the reserve estimation. |
| n | Mining Assumptions Verification: The QP verified the reasonableness of key mining assumptions, including productivity, development
rates, stope optimization parameters, and mine design criteria. This verification was based on a review of recent operating experience
at CLG and the QP’s extensive professional experience. |
| n | Hydrogeological Review: A WSP Senior Hydrogeologist, in consultation with the QP, reviewed the hydrogeological parameters and
piezometer data to confirm their accuracy and relevance for estimating LOM groundwater conditions. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| n | Software Review: A WSP Mining Engineer, under the supervision of the QP, reviewed the inputs for the mine design and the scheduling
software. |
| n | Internal Controls Assessment: The QP reviewed internal controls at CLG Mine and procedures for verification of input data as
they apply to the preparation of the Mineral Reserve estimation. |
The QP is of the opinion that the data and verification procedures used
at CLG comply with industry standards and are adequate for the purposes of Mineral Reserve estimation.
Mineral processing data is constantly monitored and analyzed as a management
control mechanism. Typical data management tests have been reviewed by the QP and are summarized below:
| n | Metallurgical accounting balances are closed and reconciled with mine production reports and concentrate sold on a monthly basis in
order to ensure accuracy and accountability. |
| n | The plant sampling, flow measurements, sample preparation, concentrate dispatch, and assay laboratory facilities were visited in order
to assess their conditions and compliance with best practices. |
| n | Supervising staff were interviewed, and documentation was reviewed in order to gain a better understanding of their compliance, procedures
and policies. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 10.0 | Mineral Processing and Metallurgical Testing |
Since 2012, Mina Cerro Los Gatos has been conducting
metallurgical studies for the processing of its ore. The following reports detail the studies up to 2023:
| 1. | Tetra Tech Mineral Resources Report (December 21, 2012): |
| n | Phase I and Phase II studies by RDi (May and July 2012, respectively) focused on metallurgical follow-up studies for Minera Plata
Real Los Gatos. |
| 2. | SGS Canada Inc., Burnaby, British Columbia (September 1, 2016): |
| n | Metallurgical feasibility study for the Los Gatos PJ project, Project 14392-003 – Final report. |
| 3. | SGS Canada Inc., Lakefield, Ontario (March 24, 2017): |
| n | Pilot plant flotation tests on a mineral sample from Los Gatos, Project 14392-0005 – Final report. |
| 4. | Base Met Labs, Canada (February 2020 - April 2022): |
| n | Mineralogical assessment of concentrator performance at Mina Cerro Los Gatos. |
| 5. | Gatos Silver Internal Report (February 2023): |
| n | Fluorine leaching of zinc concentrate. |
| 6. | SGS Canada (August 2022): |
| n | Mineralogical assessment of Mina Cerro Los Gatos for 38 variability samples. |
| 7. | Gatos Silver Internal Reports (August 2023): |
| n | Update on fluorine leaching of zinc concentrate, recovery of Au-Ag in tails, and recovery of Pb-Cu. |
| 8. | Gatos Silver Internal Report (December 2023): |
| n | Throughput debottlenecking study. |
| 10.2 | New Metallurgical Testwork Programmes |
Mina Cerro Los Gatos continues to advance its studies
in 2024, as detailed below:
| 1. | Gatos Silver Internal Report (February 2024): |
| n | Study on ultrafine recovery. |
| n | Mineralogical assessment of Mina Cerro Los Gatos for 7 plant samples and 71 variability samples. |
| 3. | Frisco Research and Development (June 2024): |
| n | Mineralogical characterization of Mina Cerro Los Gatos for 8 variability samples. |
| 4. | Current Metallurgical Program: |
| n | Gatos Silver Internal Report (July 2024): Brownfield 3 Variability Samples (W-30 2024) program focused on the separation of lead (Pb)
and copper (Cu) for 18 samples from the SE zone of the deposit, where high copper contents have been identified. The mineralogical characterization
of these samples is currently underway. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
From 2021 to 2024, the geometallurgy team at Los
Gatos studied the resource using samples from two sources. First, 118 samples were taken from drill core for flotation tests, and 109
of these were further analyzed for their mineralogy. Second, 683 samples from underground channel samples were taken for additional flotation
tests. The goal was to improve the short-term block model with new data on metallurgical performance.
| 10.3.1 | Sample representativity |
Currently, 801 samples have been registered and
processed at the plant between June 2021 and April 2024. For the evaluation of representativeness, 248 are analyzed, which are samples
that have not yet been processed. According to Figure 10.1, the representativeness of the samples was evaluated by comparing their chemical
characteristics and spatial distribution with the information obtained from the drill cores. The samples were found to be reasonably representative
of the resource and reserves, covering the range of grades for the main elements (Ag, Zn, Pb, Cu, Au) and rock types.
Source: CLG
Figure 10.1:Sample Representativity
Table 10.1 presents the distribution of the block model by zones, it
is highlighted that:
| n | The SE zone has a lower intensity of sampling than the CZ zone. |
| n | The SEU zone is an extension of the CZ zone reserves. |
| n | More sampling from the SE Zone is recommended before entering production. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 10.1: Summary of Sample Population and Domains Distribution
Zone |
Reserve |
Metallurgical Samples |
% |
Average Ag, g/t |
Total |
% |
Samples /Mt |
SE |
50 |
93 |
67 |
27 |
36 |
SEU |
6 |
118 |
21 |
8 |
8 |
CZ |
27 |
224 |
121 |
49 |
210 |
NW |
18 |
331 |
39 |
16 |
8 |
| 10.3.3 | Historical Production |
Figure 10.2 illustrates the material that fed the production plant between
2019 to June 30, 2024, and the block model by zones. The Southeast (SE) reserve has increased with the 2024 update.
Source: CLG
Figure 10.2: Production 2019-2024
Figure 10.3 presents the life of mine per year for the period from 2024
to 2032.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 10.3: Life-of-Mine 2024-2032
| 10.3.5 | Spatial Distribution |
Figure 10.4 and Figure 10.5 present the geometallurgical variability
sample spatial distribution by sample sources, channel samples and phase variability samples from drillholes.
Source: CLG
Figure 10.4: Spatial Distribution of Samples from Channels
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 10.5: Spatial Distribution of Variability Samples from Cores
| 10.4 | Mineralogical Characterization |
The Los Gatos metallurgy team has conducted mineralogical studies of
variability samples since 2022. In 2024, a comprehensive mineralogical characterization of 71 geometallurgical samples was performed at
the SGS Canada laboratory.
The primary objective of these studies was to assess the effects of
mineralogical assemblages and overhead textures on individual flotation samples. The key minerals identified for the primary metals of
interest are as follows:
| n | Silver: Enargite (Ag), Diaphorite, and Mckinstryite |
| n | Lead: Galena and Leningradite |
| n | Zinc: Sphalerite, Zincite, Descloizite, Hemimorphite, and Genthelvite |
Figure 10.6 illustrates on the left side the pseudocolor image of a
complex particle intermediate between galena, chalcopyrite, sphalerite, and quartz and on the right side of the image a complex sphalerite
particle associated with galena and quartz.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 10.6: Pseudo-Color Map of a Sphalerite, Galena, Quartz
From the results, it was concluded that, for most of the samples, zinc
is found as sphalerite, hemimorphite, and chlorite. Sphalerite presents as >80% liberated in most samples and the rest is associated
with non-sulfide gangue minerals. The galena is 79% free; while the rest is associated with sphalerite, pyrite and gangue minerals.
Table 10.2 presents the statistical analysis of the main lead, zinc,
and copper minerals reported in modal mineralogy.
Table 10.2: Zinc Mineralogical Assemblage
Mineral |
Min |
Max |
Average |
Galena |
0.36 |
52.7 |
4.75 |
Sphalerite |
0.44 |
29.8 |
8.22 |
Hemimorphite |
0.01 |
8.27 |
1.43 |
Chalcopyrite |
0.05 |
3.79 |
0.72 |
Figure 10.7 and Figure 10.8 present the spatial distribution of the
mineralogically characterized samples. It is observed that the hemimorphite content is higher in the Central zone and SE zone, and lower
in the NW zone. The sphalerite content varies throughout the deposit.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 10.7: Spatial Distribution of Sphalerite in LAS Samples
Source: CLG
Figure 10.8: Spatial Distribution of Hemimorphite in LAS Samples
It was concluded that:
| n | Zinc present as oxide, silicate and carbonate minerals would not be recovered by flotation. |
| n | The reduction of pyrite from bulk Cu/Pb concentrates could potentially obtain a cleaner bulk concentrate. |
Figure 10.9 to Figure 10.12 illustrate the geometallurgical variability
sample spatial distribution by recovery results for zinc, lead, silver, and copper.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 10.9: Spatial Distribution of Zinc Recovery Results
Source: CLG
Figure 10.10: Spatial Distribution of Lead Recovery Results
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 10.11: Spatial Distribution of Silver Recovery to Lead Concentrate
Results
Source: CLG
Figure 10.12: Spatial Distribution of Copper Recovery to Lead Concentrate
Results
Table 10.3 presents the statistical analysis of the results of the Pb-Zn
flotation tests for the variability samples and channels representing mineralization that has not yet been processed. The analysis of
recoveries of Ag, Pb, Cu, and Zn by deposit origin is presented.
Table 10.3: Summary Statistics of Recovery
Stage |
Ag Rec CPb% |
Pb Rec CPb% |
Cu Rec CPb% |
Zn Rec CZn% |
Channels |
Ph-Var |
Channels |
Ph-Var |
Channels |
Ph-Var |
Channels |
Ph-Var |
N |
153 |
93 |
153 |
93 |
153 |
93 |
153 |
93 |
Minimum |
15.3 |
27.0 |
17.3 |
17.9 |
8.12 |
13.2 |
3.43 |
1.45 |
Maximum |
98.3 |
98.8 |
98.8 |
98.9 |
93.8 |
96.1 |
85.9 |
93.7 |
Mean |
72.8 |
78.9 |
86.1 |
85.7 |
55.8 |
65.4 |
48.5 |
50.5 |
Median |
74.3 |
81.6 |
89.4 |
93.6 |
57.6 |
67.4 |
51.2 |
59.0 |
SD |
15.4 |
12.7 |
12.8 |
18.0 |
18.8 |
19.0 |
20.5 |
28.9 |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
An examination of global lead recovery results reveals significant variability
in the Southeast region of the deposit, as evidenced by zone mapping. This observation suggests the need for a more comprehensive assessment
of recovery patterns in relation to other geological events or parameters within this part of the deposit.
Similarly, the analysis of global zinc, silver, and copper recovery
results indicates that zone mapping alone is insufficient to explain the variability observed across the deposit. As with lead, it is
recommended to continue to investigate potential associations between these metal recoveries and additional geological factors or parameters
present in the deposit.
Figure 10.13 presents the metallurgical performance of lead in the geometallurgical
variability tests by mining zone, and Figure 10.14 illustrates it in relation to the lead head grade.
Source: CLG
Figure 10.13: Pb Total Recovery by Zone
Source: CLG
Figure 10.14: Pb Total Recovery by Head Grade
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Figure 10.15 presents the metallurgical performance of zinc in the geometallurgical
variability tests by mining zone, and Figure 10.16 illustrates it in relation to the zinc head grade.
Source: CLG
Figure 10.15: Zn Total Recovery by Zone
Source: CLG
Figure 10.16: Zn Total Recovery by Head Grade
Figure 10.17 presents the metallurgical performance of silver in the
geometallurgical variability tests by mining zone.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 10.17: Ag Total Recovery by Zone
Figure 10.18 illustrates the metallurgical
performance of silver in geometallurgical variability tests based on the Ag feed grade.
Source: CLG
Figure 10.18: Ag Total Recovery
by Head Grade
Figure 10.19 presents the metallurgical performance of copper in the
geometallurgical variability tests by mining zone.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 10.19: Cu Total Recovery by Zone
Figure 10.20 illustrates the metallurgical performance of copper in
geometallurgical variability tests based on the Cu feed grade.
Source: CLG
Figure 10.20: Cu Total Recovery by Head Grade
Recovery results do not show a strong correlation with observable geological
events or parameters. Therefore, historical plant information was used to predict metallurgical performance. Furthermore, past plant data
is thought to be a better predictor of industrial scale performance than laboratory testwork. The past plant feed is representative of
the future feed in the short and mid-term. Additional testing and scale-up efforts are necessary to mitigate risks associated with long-term
predictions in the NW and Southeast regions, ensuring smoother transitions into production and minimizing unexpected outcomes.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 10.5 | Mineralogy Performance Plant |
The mineralogical characterization was carried out on composite samples
taken from the Los Gatos process. Base Metal Labs in Canada performed characterization of samples from February and August 2020, January
and June 2021, and April 2022; while SGS Canada carried out sample characterization on the June 2023 sample.
Table 10.4 presents the results of modal analysis for samples taken
from the plant feed. The June 2023 sample shows the highest content of sphalerite, iron oxides, and chlorite. Sphalerite is the primary
mineral contributing zinc, which decreased from 2021 to 2022; however, it increased notably in the June 2023 sample compared to previous
periods. Table 10.5 illustrates the zinc distribution. Galena content remains similar to that of the April 2022 sample, while fluorite
content is lower compared to previous samples.
Table 10.4: Modal Mineralogy – Feed
Mineral |
Feb-20 |
Aug-20 |
Jan-21 |
Jun-21 |
Apr-22 |
Jun-23 |
Pyrite |
1.98 |
1.72 |
0.85 |
1.18 |
2.3 |
0.89 |
Galena |
2.07 |
2.57 |
2.28 |
2.25 |
3.13 |
3.07 |
Sphalerite |
4.12 |
5.02 |
4.39 |
5.48 |
5.53 |
7.4 |
Cu Sulfides |
0.12 |
0.14 |
0.18 |
0.16 |
0.31 |
0.2 |
Zn Silicates |
- |
- |
- |
- |
- |
0.82 |
Zincite |
- |
- |
- |
- |
- |
0.02 |
Quartz/Feldspars |
67.9 |
63.3 |
67 |
63.7 |
68.5 |
64.5 |
Muscovite |
1.85 |
3.37 |
2.71 |
3.71 |
3.56 |
3.55 |
Fluorite |
6.18 |
8.04 |
9.08 |
7.66 |
5.63 |
4.05 |
Silver Minerals |
0.04 |
0.07 |
0.07 |
0.07 |
0.13 |
0.04 |
Iron Oxides |
2.74 |
2.65 |
2.18 |
3.41 |
1.93 |
3.81 |
Chlorite |
3.74 |
4.21 |
2.74 |
3.75 |
1.49 |
4.74 |
Biotite/Phlogopite |
1.47 |
1.56 |
1.07 |
1.52 |
1.03 |
1.99 |
Table 10.5: Deportment Zn - Feed
Mineral |
Feb-20 |
Aug-20 |
Jan-21 |
Jun-21 |
Apr-22 |
Jun-23 |
Sphalerite |
85.4 |
82.3 |
81.3 |
76.3 |
75 |
91.4 |
Hemimorphite |
- |
- |
- |
- |
- |
4.00 |
Chlorite |
- |
- |
- |
- |
- |
3.11 |
Smithsonite |
2.6 |
4.5 |
6.9 |
8.5 |
3.9 |
- |
Willemite |
2.6 |
4 |
2.4 |
3.9 |
16.2 |
- |
Baileychlore |
8.3 |
7.8 |
7.7 |
9.4 |
4.2 |
- |
Fe Oxides |
0.9 |
1.3 |
1.2 |
1.7 |
0.6 |
0.01 |
Table 10.6 presents the modal mineralogy of the lead concentrate. The
main diluent in lead concentrate is sphalerite, however, there has been a steady increase in the copper content of the bulk concentrate.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 10.6: Modal Mineralogy - Conc Pb
Mineral |
Feb-20 |
Aug-20 |
Jan-21 |
Jun-21 |
Apr-22 |
Jun-23 |
Pyrite |
4.06 |
4.43 |
0.97 |
3.4 |
7.08 |
1.94 |
Galena |
68.8 |
67.8 |
62.5 |
60.1 |
59.7 |
63.7 |
Sphalerite |
13.3 |
14.4 |
21.1 |
17.3 |
16.6 |
13.5 |
Cu Sulfides |
1.93 |
2.01 |
1.95 |
1.91 |
2.42 |
4.07 |
Ag-Sulfosalts |
- |
- |
- |
- |
- |
0.53 |
Quartz/Feldspars |
3.77 |
3.01 |
4.26 |
4.86 |
5.48 |
2.99 |
Fluorite |
0.69 |
1.82 |
1.1 |
0.92 |
0.9 |
0.43 |
Silver Minerals |
1.1 |
0.89 |
0.84 |
1.62 |
2.12 |
- |
Iron Oxides |
1.77 |
2.03 |
3.37 |
3.85 |
2.72 |
7.5 |
Table 10.7 presents the modal mineralogy of the zinc concentrate. The
implementation of the fluorite leaching plant in 2023 has increased the quality of the concentrate. There has also been continued reduction
in lead losses to the zinc concentrate over the years.
Table 10.7: Modal Mineralogy - Conc Zn
Mineral |
Feb-20 |
Aug-20 |
Jan-21 |
Jun-21 |
Apr-22 |
Jun-23 |
Pyrite |
1.69 |
0.88 |
1.35 |
0.84 |
1.54 |
0.29 |
Galena |
4.45 |
1.97 |
2.32 |
1.84 |
1.76 |
0.50 |
Sphalerite |
87.5 |
90.3 |
86.6 |
89.9 |
89.2 |
93.7 |
Cu Sulfides |
0.92 |
1.03 |
1.01 |
0.96 |
0.72 |
0.92 |
Zn Silicates |
- |
- |
- |
- |
- |
0.15 |
Quartz/Feldspars |
1.58 |
1.49 |
2.63 |
1.98 |
2.69 |
1.03 |
Fluorite |
0.19 |
0.32 |
0.48 |
0.26 |
0.30 |
0.07 |
Iron Oxides |
1.71 |
1.08 |
1.68 |
1.30 |
2.09 |
1.88 |
| 10.6 | Historical Plant Performance |
The Los Gatos mill has been operating since 2019 at an increasing production
rate from 2,700 tonnes per operating day (t/d) to an average of 3086 t/d in 2023, and 3,542 t/d in Q1 2024. The main source of material
was mined from the Central Zone and NW zone. This is expected to continue, with increasing contributions from the Southeast Zone.
The historical plant performance has been the primary basis for the
metallurgical predictions in this resource update.
The plant was originally designed for 2,500 t/d throughput capacity,
but through good maintenance, operating, and optimization processes, the plant can reliably achieve over 3,300 t/d.
| n | The 2024 LOM Plan is based on an nominal processing rate of 3,500 tonnes per calendar day which equates to 3,746 tonnes per operating
day assuming two days per month non-operating. |
| n | From June 2021 to August 2022, the average throughput was 2,872 t/d. |
| n | From January 2022 to August 2022, the average throughput was 2,902 t/d. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| n | From September 2022 to June 2023, the average throughput was 3,086 t/d. |
| n | From July 2023 to April 2024, the average throughput was 3,303 t/d. |
The mine production and therefore availability of material for the processing
plant continues to be the limiting constraint on throughput. Figure 10.21 and Figure 10.22 provide the distribution of plant throughput
performance and time plot of plant throughput performance, respectively.
Source: CLG
Figure 10.21: Distribution of Plant Throughput Performance
Source: CLG
Figure 10.22: Time Plot of Plant Throughput Performance
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Figure 10.23 provides distributions of the historical total Ag recovery
in plant (AgR Total%), which is the sum of Ag recovered in the Pb concentrate (AgR CcPb%) and Zn concentrate (AgR CcZn). Figure 10.24
shows a time graph of the plant's total silver recovery for the 34-month period from July 2021 to April 2024. Silver metallurgical performance
has been stable.
Source: CLG
Figure 10.23: Distributions of Historical Silver Recovery (Total,
to Pb Concentrate, to Zn Concentrate)
Source: CLG
Figure 10.24: Time Plot of
Plant Total Silver Recovery
Table 10.8 includes summary statistics of silver recovery performance
for the period of July 2021 to April 2024.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 10.8: Summary Statistics of Silver Recovery
|
AgG CcPb, ppm |
AgR CcPb% |
AgR CcZn% |
AgR Total% |
Median |
6,962 |
78.4 |
10.3 |
89.1 |
Mean |
7,200 |
78.0 |
10.9 |
88.9 |
Std. Deviation |
2,268 |
4.38 |
3.53 |
2.17 |
Minimum |
2,635 |
49.9 |
2.91 |
76.1 |
Maximum |
19,437 |
89.4 |
33.0 |
94.5 |
25th percentile |
5,611 |
75.5 |
8.31 |
87.6 |
50th percentile |
6,962 |
78.4 |
10.3 |
89.1 |
75th percentile |
8,433 |
81.2 |
12.7 |
90.4 |
After analysis of the historical plant production database, the total
silver recovery was estimated to be 88.9%.
Figure 10.25 presents distributions of historical lead recovery and
lead concentrate grade. Figure 10.26
and Figure 10.27
provide time plot of plant lead concentrate grade and time plot of plant lead recovery, respectively. The lead metallurgical performance
has been stable.
Source: CLG
Figure 10.25: Distributions of Historical Lead Recovery and Lead
Concentrate Grade
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure
10.26:
Time Plot of Plant Lead Concentrate Grade
Source: CLG
Figure
10.27:
Time Plot of Plant
Lead Recovery
Table 10.9 provides summary statistics
of lead recovery and lead concentrate grade for the period of July 2021 to April 2024.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 10.9: Summary Statistics of Lead Recovery and Lead Concentrate
Grade
|
PbG CcPb% |
PbR CcPb% |
Median |
52.3 |
89.2 |
Mean |
52.3 |
88.9 |
Std. Deviation |
3.52 |
2.62 |
Minimum |
37.4 |
71.6 |
Maximum |
68.2 |
94.6 |
25th percentile |
50.1 |
87.6 |
50th percentile |
52.3 |
89.2 |
75th percentile |
54.5 |
90.6 |
After analysis of the historical plant production database, it was estimated
that the recovery of lead in the lead concentrate would be 88.9% in the LOM plan.
Figure 10.28 provides distributions of historical zinc recovery and
zinc concentrate grade. Figure 10.29 provides a time plot of plant zinc recovery and zinc concentrate grade for the period of July 2021
to April 2024. Results have varied and is thought to be due to variable non-sphalerite zinc proportion in the plant feed.
Source: CLG
Figure 10.28: Distributions of Historical Zinc Recovery And Zinc
Concentrate Grade
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 10.29: Time Plot of
Plant Zinc Recovery
Table 10.10 provides summary statistics of zinc recovery and zinc concentrate
grade for the period of July 2021 to April 2024.
Table 10.10: Summary Statistics of Zinc Recovery and Zinc Concentrate
Grade
|
ZnG CcZn% |
ZnR CcZn% |
Median |
57.0 |
63.0 |
Mean |
56.8 |
62.6 |
Std. Deviation |
1.38 |
5.19 |
Minimum |
47.1 |
39.0 |
Maximum |
61.1 |
79.2 |
25th percentile |
56.0 |
59.6 |
50th percentile |
57.0 |
63.0 |
75th percentile |
57.8 |
65.9 |
After analysis of the historical
plant production database, it was estimated that the recovery of zinc in the zinc concentrate would be 62.6%.
Analysis of the historical plant production database has yielded estimates
for the recovery of gold and copper in the lead concentrate. The predicted recovery rates are as follows:
| n | Gold recovery in lead concentrate: 52% |
| n | Copper recovery in lead concentrate: 61.8% |
Although gold and copper are minor contributors to overall revenue,
it is important to note that the current lead concentrate purchase contracts include payable terms for these metals.
Conversely, the current zinc concentrate purchase contract does not
include payable terms for gold or copper. As a result, displacement of these metals to the zinc concentrate is not considered to be recovery.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 10.7 | Copper - Lead Recovery |
The Cerro Los Gatos mine produces bulk concentrates, which are primarily
lead with silver and copper credits, and a zinc concentrate. However, starting in 2025, it is anticipated that the SE zone, which contains
high levels of copper, will begin contributing to the processing plant feed. This development presents an opportunity to generate a separate
copper concentrate with more favorable copper payment terms than the bulk concentrate.
The initial evaluation focused on a flotation circuit where copper was
floated, and lead was depressed. For this study, two master composites were created:
| n | Composite 4: High copper grade (0.38%) |
| n | Composite 5: Low copper grade (0.23%) |
This approach resulted in a high silver content in the copper concentrate,
which was slightly less beneficial economically than having the silver in the lead concentrate.
Consequently, the flotation circuit was modified to float lead and depress
copper. This adjustment demonstrated improved copper grade and better silver recovery in the lead concentrate.
The results of the first study are presented in Table 10.11 and Table
10.12, while the results for the second study are shown in Table 10.13.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 10.11: Summary of Results - LCT 25 (First Study) - Composite
4
Product |
Mass, % |
Grade |
Recovery, % |
Ag, g/t |
Pb, % |
Zn, % |
Cu, % |
Fe, % |
Ag |
Pb |
Zn |
Cu |
Fe |
Cu Conc |
1.11 |
6,652 |
4.32 |
6.27 |
20.2 |
20.6 |
55.1 |
2.47 |
1.68 |
66.5 |
7.43 |
Pb Conc |
2.86 |
1,124 |
58.9 |
5.61 |
1.62 |
3.20 |
23.9 |
86.5 |
3.87 |
13.7 |
2.97 |
Feed Calc |
100 |
135 |
1.95 |
4.15 |
0.34 |
3.09 |
100 |
100 |
100 |
100 |
100 |
Table 10.12: Summary of Results - LCT 29 (First Study) - Composite
5
Product |
Mass, % |
Grade |
Recovery, % |
Ag, g/t |
Pb, % |
Zn, % |
Cu, % |
Fe, % |
Ag |
Pb |
Zn |
Cu |
Fe |
Cu Conc |
0.70 |
7,272 |
6.69 |
7.76 |
18.8 |
18.5 |
40.6 |
1.98 |
1.44 |
58.1 |
4.75 |
Pb Conc |
3.14 |
1,460 |
64.9 |
6.87 |
1.75 |
3.30 |
36.4 |
85.7 |
5.69 |
24.2 |
3.79 |
Feed Calc |
100 |
126 |
2.38 |
3.79 |
0.23 |
2.74 |
100 |
100 |
100 |
100 |
100 |
Table 10.13: Summary of Results - LCT 37 (Second Study) - Composite
4
Product |
Mass, % |
Grade |
Recovery, % |
Ag, g/t |
Pb, % |
Zn, % |
Cu, % |
Fe, % |
Ag |
Pb |
Zn |
Cu |
Fe |
Cu Conc |
0.55 |
2,040 |
12.6 |
1.60 |
27.3 |
23.8 |
6.77 |
2.53 |
0.20 |
51.3 |
4.84 |
Pb Conc |
3.74 |
3,144 |
65.5 |
5.27 |
1.99 |
3.00 |
67.4 |
85.0 |
4.26 |
24.2 |
3.94 |
Feed Calc |
100 |
187 |
3.09 |
4.96 |
0.33 |
3.05 |
100 |
100 |
100 |
100 |
100 |
18 samples taken from the Southeast zone were selected in order to evaluate
their metallurgical performance against the differential flotation scheme selected. Testing showed promising results with initial samples
and these results are expected to be replicated.
The location of the selected samples are presented in the following
3D figures (Figure 10.30 to Figure 10.32) of the Los Gatos block model.
Source: CLG
Figure 10.30: CuPb Separation - Pb Recovery in Pb Concentrate
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 10.31: CuPb Separation - Cu Recovery in Pb Concentrate
Source: CLG
Figure 10.32: CuPb Separation - Zn Recovery in Zn Concentrate
Figure 10.37 presents the statistical analysis of the recoveries in
the lead, zinc and copper concentrate.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 10.14: Cu-Pb Separation - Variability - Statistics Analysis
Stream |
Element |
Average |
Min |
Max |
SD |
P25 |
P75 |
Feed |
Ag, g/t |
57.2 |
21.5 |
94.7 |
26.4 |
36.8 |
78.8 |
Pb, % |
1.9 |
0.3 |
4.9 |
1.3 |
1.1 |
2.6 |
Zn, % |
3.5 |
0.4 |
8.7 |
2.0 |
2.2 |
4.1 |
Cu, % |
0.4 |
0.1 |
1.7 |
0.4 |
0.2 |
0.4 |
Fe, % |
4.0 |
2.7 |
5.7 |
0.8 |
3.5 |
4.4 |
Recovery to Bulk conc, % |
Ag |
69.8 |
21.2 |
85.1 |
15.4 |
67.5 |
78.8 |
Pb |
81.3 |
18.8 |
95.3 |
19.4 |
82.3 |
90.7 |
Zn |
23.8 |
3.1 |
52.9 |
13.9 |
12.2 |
34.0 |
Cu |
65.6 |
19.2 |
92.0 |
19.0 |
55.2 |
77.8 |
Fe |
17.0 |
4.1 |
50.9 |
11.6 |
9.0 |
22.4 |
Recovery to Pb conc, % |
Ag |
76.3 |
27.0 |
90.5 |
15.0 |
75.4 |
85.8 |
Pb |
87.4 |
22.7 |
98.3 |
19.4 |
89.7 |
97.4 |
Zn |
28.6 |
3.7 |
60.9 |
17.0 |
14.5 |
36.9 |
Cu |
71.5 |
22.6 |
96.1 |
19.4 |
59.7 |
86.2 |
Fe |
19.8 |
5.1 |
54.5 |
11.9 |
12.6 |
25.4 |
Recovery to Zn conc, % |
Ag |
12.4 |
2.0 |
24.4 |
6.3 |
7.8 |
16.4 |
Pb |
2.1 |
0.5 |
4.9 |
1.1 |
1.3 |
2.8 |
Zn |
53.0 |
1.9 |
86.6 |
32.3 |
24.4 |
79.0 |
Cu |
16.7 |
1.4 |
42.6 |
13.1 |
7.4 |
25.5 |
Fe |
36.0 |
3.5 |
53.2 |
15.7 |
27.0 |
49.8 |
Recovery to Cu conc % |
Ag |
18.3 |
3.4 |
43.8 |
11.6 |
9.5 |
24.0 |
Pb |
16.6 |
0.9 |
49.6 |
14.5 |
4.5 |
27.9 |
Zn |
6.6 |
0.1 |
36.4 |
11.8 |
0.6 |
3.2 |
Cu |
39.8 |
14.5 |
59.2 |
15.1 |
31.5 |
52.4 |
Fe |
3.7 |
0.8 |
9.7 |
2.9 |
1.3 |
5.4 |
Table 10.14 shows the variability test work results for the Cu-Pb separation
circuit. Ongoing research is looking to explain the three samples that exhibit high zinc displacement to the bulk concentrate. The current
hypothesis, yet to be confirmed by mineralogical analysis, suggests the presence of soluble copper, possibly in the form of chalcocite
or bornite.
Mineralogical studies have identified native copper in the ore, which
is not expected to contribute to zinc activation and native copper is expected to report to the copper concentrate. However, soluble copper
in copper-zinc flotation can be problematic, as it tends to activate zinc minerals.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The activation of zinc by soluble copper can potentially be managed
through careful reagent selection and dosage, up to a certain threshold.
If reagent control proves ineffective, it may be necessary to separate
high soluble copper ore from high zinc ore. These different ore types would then be processed in separate campaigns.
Further studies will include detailed testwork to confirm the behaviour
of soluble copper and its impact on zinc activation in the flotation process. Geological investigation will include examination of the
spatial distribution and characteristics of ore types containing soluble copper and high zinc content. The presence and nature of copper
minerals throughout the resource will be investigated through mineralogy and soluble copper assays.
To implement this flotation circuit in the current Los Gatos processing
plant, an engineering study will be required.
The mineralogical characterization of 8 variability samples was carried
out (LGSE-043 to LGSE-050), Table 10.15 presents a statistical summary of the main minerals reported in the modal analysis. The samples
have a high content of carbonates and pyroxenes, on average 40%. Minerals of lead, zinc and copper were reported.
Table 10.15: Cu-Pb Separation - Summary Statistics - Mineralogy
Modal
Mineral |
Min |
Max |
Average |
SD |
Hematite |
0.03 |
0.64 |
0.30 |
0.18 |
Pyrrhotite |
0.01 |
0.31 |
0.13 |
0.09 |
Pyrite |
1.32 |
6.46 |
3.31 |
1.66 |
Chalcopyrite |
0.70 |
2.30 |
1.28 |
0.54 |
Hemimorphite |
0.00 |
0.26 |
0.04 |
0.09 |
Marmatite |
0.34 |
5.11 |
1.11 |
1.63 |
Sphalerite |
2.07 |
22.4 |
6.27 |
6.81 |
Scrutinyite |
0.04 |
0.62 |
0.29 |
0.22 |
Galena |
0.14 |
3.70 |
1.26 |
1.10 |
Table 10.16 summarizes the lead mineral distribution, with galena as
the primary mineral (>75%), followed by scrutinyite and anglesite (each >3%). Figure 10.33 shows a pseudocolor image of galena particles
associated with pyrite, sphalerite, and chalcopyrite.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 10.16: Cu-Pb Separation - Summary Statistics - Mineralogy
Deportment Pb
Mineral |
Min |
Max |
Average |
SD |
Litharge |
0.37 |
1.30 |
0.61 |
0.29 |
Alamosite |
2.05 |
5.66 |
3.84 |
1.46 |
Scrutinyite |
3.08 |
5.72 |
4.30 |
0.89 |
Anglesite |
3.16 |
7.93 |
4.72 |
1.82 |
Seligmannite |
0.36 |
0.94 |
0.58 |
0.20 |
Dufrenoysite |
0.60 |
2.08 |
1.06 |
0.50 |
Boulangerite |
1.90 |
2.94 |
2.18 |
0.34 |
Galena |
77.7 |
86.5 |
81.6 |
2.74 |
Source: CLG
Figure 10.33: Pseudocolor Image of Lead Concentrate Mineralogy
Table 10.17 presents a statistical summary of the Zn minerals, with
sphalerite being the main contributor above 80% and marmatite above 8%. Figure 10.34 illustrates the pseudocolor image of sphalerite particles
associated with pyrite, chalcocite, galena, and chalcopyrite.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 10.17: Cu-Pb Separation - Summary Statistics - Mineralogy
Deportment Zn
Mineral |
Min |
Max |
Average |
SD |
Hemimorphite |
0.00 |
4.20 |
0.67 |
1.46 |
Willemite |
0.00 |
5.99 |
0.91 |
2.09 |
Marmatite |
8.29 |
17.6 |
12.3 |
3.18 |
Sphalerite |
80.8 |
90.5 |
85.9 |
3.44 |
Source: CLG
Figure 10.34: Pseudocolor Image of Zinc Concentrate Mineralogy
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 10.18 presents a statistical summary of the Cu minerals, with
chalcopyrite being the main contributor above 70%.Figure 10.35 illustrates the pseudocolor image of chalcopyrite particles associated
with pyrite, sphalerite, and galena.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 10.18: Cu-Pb Separation - Summary Statistics - Mineralogy
Deportment Cu
Mineral |
Min |
Max |
Average |
SD |
Bournonite |
0.01 |
0.15 |
0.06 |
0.05 |
Covellite |
0.00 |
0.19 |
0.06 |
0.07 |
Idaite |
0.00 |
0.43 |
0.21 |
0.18 |
Native Copper |
0.00 |
0.27 |
0.03 |
0.10 |
Bornite |
0.00 |
1.50 |
0.40 |
0.48 |
Seligmannite |
0.06 |
2.56 |
0.81 |
0.89 |
Tenorite |
0.00 |
0.47 |
0.07 |
0.17 |
Cubanite |
0.30 |
1.65 |
0.65 |
0.46 |
Chalcosite |
0.00 |
23.9 |
5.70 |
8.26 |
Chalcopyrite |
73.0 |
97.8 |
91.6 |
8.75 |
Source: CLG
Figure 10.35: Pseudocolor Image of Copper Concentrate Mineralogy
Table 10.19 presents a statistical summary of the Ag minerals, with
argentite and silver being the main contributors with an average of 27% and 60% respectively. Figure 10.36 illustrates the pseudocolor
image of silver particles associated with pyrite, chalcopyrite, and galena.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 10.19: CuPb Separation - Summary Statistics - Mineralogy
Deportment Ag
Mineral |
Min |
Max |
Average |
SD |
Argentopyrite |
0.00 |
4.14 |
0.57 |
1.44 |
Balkanite |
0.00 |
0.64 |
0.14 |
0.23 |
Eucairite |
0.00 |
1.17 |
0.26 |
0.43 |
Stromeyerite |
0.00 |
7.09 |
2.79 |
2.82 |
Kustelite |
0.00 |
2.56 |
0.35 |
0.90 |
Stephanita |
0.00 |
3.73 |
0.64 |
1.28 |
Hessite |
0.00 |
1.66 |
0.74 |
0.60 |
Jalpaite |
0.00 |
25.21 |
6.78 |
9.06 |
Argentite |
2.64 |
89.2 |
26.9 |
27.3 |
Native silver |
0.00 |
87.1 |
60.8 |
29.4 |
Source: CLG
Figure 10.36: Pseudocolor Image of Silver Mineralogy
The results of the mineralogical analysis show a varied composition
of sulfides and gangue minerals. Among the sulfides present, the following were found:
| n | Galena, with a liberation range between 18% and 69%. |
| n | Sphalerite and marmatite (with 6.4% to 7.7% Fe), showing liberation from 19% to 70%. |
| n | Chalcopyrite and chalcocite, with liberation ranging between 46% and 91%. |
It is important to note that in rare cases, chalcopyrite occurs as disseminated
occlusions in sphalerite, a phenomenon known as "chalcopyrite disease", in percentages varying from 6% to 55%.
The main gangue minerals are quartz and calcite.
This mineralogical composition suggests a complex polymetallic ore,
with potential for lead, zinc, and copper extraction, but which could require flexible separation processes due to the variability in
liberation degrees and the presence of interlocked minerals, as in the case of chalcopyrite in sphalerite.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
In June 2023, the Cerro Los Gatos mine commissioned a fluoride leaching
plant to reduce the fluorine content in the zinc concentrate, meeting the primary customer's specifications.
Table 10.20 presents the operating inputs of the fluorine leaching process
during June 2023 to April 2024.
Table 10.20: Fluorine Leaching Plant Consumptions
Conditions |
H2SO4, kg/t |
29.6 |
Al2O3, kg/t |
6.82 |
Table 10.21 summarizes the results obtained in June 2023 to April 2024.
Table 10.21: Fluorine Leaching Results
|
Conc Zn, t |
Ag, g/t |
Au, g/t |
Pb, % |
Zn, % |
Cu, % |
Fe,% |
F, g/t |
Conc Zn Feed |
35,008 |
809 |
0.42 |
0.63 |
55.3 |
0.46 |
5.75 |
1,499 |
Conc Zn Leached |
34,400 |
822 |
0.43 |
0.64 |
56.1 |
0.47 |
5.21 |
458 |
According to these results, >70% of the fluorine was removed in the
plant, complying with the specification. Minor losses of zinc and silver through the leach circuit have been accounted for in the recovery
assumptions used for financial modeling.
| 10.9 | Ultrafine Particle Flotation |
The Cerro Los Gatos mine produces lead and zinc concentrates with significant
silver content, achieving an 89% total silver recovery. The 11% loss is primarily due to silver associations with hydrophilic, non-sulfide
gangue minerals that report to the final tailings.
In February 2024, tailings flotation tests were conducted to recover
gold and silver for subsequent extraction via cyanidation leaching. However, due to high variability and generally low silver recovery
(< 40%), alternative approaches were explored.
Current focus is on ultrafine particle recovery technologies, as mineralogical
characterization from June 2023 identified ultrafine particles as the primary source of sphalerite and liberated silver losses. Technologies
under consideration include the various brands of pneumatic flotation technology.
Recovery efforts are centered on flotation techniques to maximize concentrate
recovery of these fine particles to the bulk and lead concentrates.
A geometallurgical testing program is progressing as a continuous improvement
initiative. Samples that are representative of future production continue to be selected and are tested for laboratory flotation performance,
and detailed mineralogy.
The current focus of test work is on the new resource that has been
discovered.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 10.11 | Factors Affecting Economic Extraction |
The 2023 period obtained slightly lower recoveries of lead and silver
compared to the 2022 period, while the 2024 period is presenting recoveries similar to those of 2022, it is estimated that this could
be due to the head grades of the mill feed. Projected future grades are expected to continue rising, facilitating higher recoveries.
The “zinc oxide” risk was identified as hemimorphite by
mineralogy. Geological controls on the origin of the hemimorphite and its spatial distribution in the deposit have not advanced. There
is sufficient evidence through laboratory variability flotation testing that future production will not be materially different from past
production in terms of long-term hemimorphite content.
| 10.12 | High Soluble Copper Material |
During metallurgical testing and analysis, a small amount of material
with high soluble copper content was identified in the SE zone of the deposit. This material possibly contains chalcocite or bornite,
but native copper has also been identified. The presence of high soluble copper reduces the selectivity of copper-lead over zinc in the
bulk flotation circuit, potentially impacting overall process efficiency.
The project geologists determined that the high soluble copper zones
are likely to be small and restricted in both volume and location within the deposit. While this limits the overall impact on the project,
it necessitates careful management and further investigation to ensure optimal processing outcomes.
To address this issue in the short term, a two-pronged approach will
be implemented. Firstly, each mining area will be characterized for soluble copper content prior to processing. This will allow for early
identification of problematic zones and enable proactive management. Secondly, any identified high soluble copper material will be separated
and campaigned. This selective processing approach will minimize the impact of high soluble copper content on the overall flotation circuit
performance.
For the mid-term, it is recommended that geometallurgical variability
characterization be conducted to map out the distribution of high soluble copper material within the deposit. This mapping will provide
a more detailed understanding of the extent and location of the high soluble copper zones. Additionally, geochemistry and geological modeling
should be used to better control and predict this risk. These tools will enable more accurate forecasting of potential processing challenges
and allow for more effective long-term planning.
Additional metallurgical testwork is recommended. Mineralogical characterization
of the high soluble copper material should be undertaken to better understand its composition and behaviour in the flotation circuit and
guide process optimization testwork. This may involve adjustments to reagent schemes, or other process variables, but is unlikely to require
changes in plant design. Also, strategies for optimizing mine planning around areas with high soluble copper content should be developed.
This could involve selective mining techniques or blending strategies to manage the feed to the processing plant.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 10.37: Soluble Cu – 3D View
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 10.13 | Metallurgical Recoveries Used in Plant Production Estimates |
The estimation of recoveries in the plant is carried out based on the
mine plan, where a segmentation of the mineral is proposed based on the Pb/Cu grade relationship:
| n | When the Pb/Cu ratio is higher than 15, the mineral would be processed same as current operation, producing only Pb and Zn concentrates. |
| n | For material with a Pb/Cu ratio of 15 or lower, Cu, Pb and Zn concentrates would be obtained, requiring the flotation of a Pb-Cu bulk
concentrate and then a separation with Cu flotation/Pb depression. |
Table 10.22 presents the estimated recoveries made based on historical
reconciled production data, as well as the metallurgical tests realized with drill core samples from the mine. These tests are divided
between rougher flotation of Pb (Bulk Pb-Cu) concentrate and Zn concentrate for the individual samples of the cores, and also, Locked
Cycle Tests (LCT) to determine the Pb-Cu separation efficiency were performed with composites of the same samples. This process is expected
to be commissioned in January 2026.
Table 10.22: Estimated Recoveries Based on Historical Reconciled
Production Data
|
44% of LOM tonnage |
|
56% of LOM |
|
|
|
|
|
High Cu Stream (<15:1 Pb:Cu) |
|
Low Cu Stream |
|
Zinc Circuit |
|
Cu Conc |
Pb Conc |
|
Pb Conc |
|
Zn Conc |
Leach Rec |
After Leach |
Ag recovery, % |
6.80% |
71.20% |
|
78.00% |
|
10.20% |
99.70% |
10.17% |
Au recovery, % |
3.25% |
50.95% |
|
54.20% |
|
6.30% |
99.00% |
6.24% |
Pb recovery, % |
2.50% |
86.90% |
|
89.40% |
|
1.70% |
97.00% |
1.65% |
Zn recovery, % |
1.00% |
8.90% |
|
9.90% |
|
63.40% |
99.60% |
63.15% |
Cu recovery, % |
52.50% |
27.50% |
|
60.00% |
|
10.00% |
95.00% |
9.50% |
F recovery, % |
0.40% |
0.63% |
|
1.03% |
|
0.24% |
35.01% |
0.08% |
Table 10.23 shows the recoveries obtained during the historical work
compared to that estimated in the LOM.
Table 10.23: Historical Recoveries Compared to Estimated LOM
Element |
Historical |
LOM |
Ag recovery, % |
88.9 |
88.2 |
Pb recovery, % |
88.9 |
89.4 |
Zn recovery, % |
65.6 |
63.2 |
Au recovery, % |
52.0 |
54.2 |
Cu recovery, % |
61.8 |
60.0 |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 11.0 | Mineral Resource Estimation |
This TRS provides a Mineral Resource estimate and classification of
resources reported in accordance with the S-K 1300. From information entered into the Los Gatos geological database, MPR geologists
constructed 3D wireframes for structural blocks, veins and lithology using Leapfrog™ Geo software. Estimation of occurrences of
silver, zinc, lead, gold, and copper in a 3D block model was completed with Maptek Vulcan software.
The methods and results of resource estimation are reported below and
correspond to the final version of the 3D block model, “Block Model 2024.bmf”
The estimate of Mineral Resources may be materially affected if mining,
metallurgical, or infrastructure factors change from those currently assumed at CLG. Estimates of Inferred Mineral Resources have significant
geological uncertainty, and it should not be assumed that all or any part of an Inferred Mineral Resource will be converted to the Measured
or Indicated categories. Mineral Resources reported in the TRS are stated exclusive and inclusive of Mineral Reserves. Mineral Resources
that are not Mineral Reserves have not met the threshold for reserve modifying factors, such as estimated economic viability, that would
allow for conversion to Mineral Reserves. The Resource estimate is consistent with both S-K 1300 and the Guidelines and Definition Standards
for Mineral Resources and Mineral Reserves (CIM 2014).
| 11.1 | Estimation Assumptions, Parameters, and Methods (Cerro Los Gatos) |
CLG geologists used Leapfrog Geo software for solids model generation
and Vulcan software for block model estimation, reporting, statistics review, geostatistics, and swath plots.
The acQuire exploration database containing both surface and underground
drilling was exported to a comma separated value (.CSV) file, which is a standard format for the software used. When data is moved between
different programs it is checked to verify that the data is spatially correct. Additionally, a running summation to verify values and
visual spot checks were conducted.
| 11.1.3 | Drilling Data Los Gatos |
The global database available for the 2024 Mineral Resource estimation
of the CLG deposit includes 654 (278,214.96 m) surface and 1,073 (98,055.93 m) underground core drill holes. Table 11.1 summarizes
the data included in the global database. The database includes regional exploration drilling that is outside the main area of interest
of the CLG deposit, and therefore had no direct input in the 3D geological modeling or resource estimation for the CLG Mineral Resource
calculations. See Table 7.2 in Section 7.0 for a representation of drill holes within the CLG deposit.
Data sets used in the Mineral Resource estimation included DDH, topographic
data, and density data.
Summary information on the CLG drill programs is provided in Table 11.1.
The drill hole file was reviewed in plan and section to validate the accuracy of the collar locations, hole orientations and down hole
trace, and the assay data was analyzed for out-of-range values. The drill hole database was determined to be suitable to support the 2024
Mineral Resource estimate.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 11.1: Summary of Los Gatos Global Drill Hole Database
Table |
N° Drill Holes |
Core length (m) |
Collar |
1,727 |
376,270.89 |
Survey |
1,727 |
NA |
Lithology |
1,705 |
370,511.81 |
Assay |
1,684 |
81,740.926 |
| 11.1.4 | Geological Interpretation |
The Los Gatos geological model considers fault blocks, veins, and lithologies.
Construction of the models considered the following:
| n | Database tables in csv format: collar, survey, lithology, and assay. |
| n | Database validation for each of the variables |
| n | Display of information in Leapfrog Geo. |
| n | Cross sectional interpretation (2D). |
| n | Chronology of the Lithology Units (.xls format). |
| n | Description of rock codes (.pdf format). |
The geological models were built in Leapfrog Geo v.2023.2 by CLG geologists
using implicit modeling for all geological units. Implicit modeling refers to the creation of wireframes defined by mathematical functions,
geology, and stratigraphic relationship. Traditional explicit control points and / or polylines were utilized in areas of low data density
to assist, and control the implicit interpolation procedures, to generate geologically plausible and valid volumes. Additionally, all
underground development mapping was georeferenced in Leapfrog Geo and used to insert control points / polylines where required, ensuring
the final implicit wireframe contacts corresponded correctly to the mapping.
The final Leapfrog Geo wireframes were exported and then imported into
Maptek Vulcan software to code model blocks for use in estimation processes.
The structural framework defines the size, shape, and continuity of
the CLG deposit. The oldest faults are the Lower Los Gatos and Upper Los Gatos faults, which served as conduits for mineralizing fluids.
The Upper Los Gatos fault has a listric shape with a NW strike and NE dip. Several different studies were completed to reveal the primary
faults cutting the system including a photo lineament analysis, and a study of the elevation changes that occur across the upper contact
of the dacitic lithic tuff. All the primary faults, except for the Gatos Fault, were used to define the structural domains or fault blocks
used in the associated geologic model.
Main fault blocks, from the northwest to the southeast, include the
Northwest (NW), Central (CZ), and Southeast 2 (SE) (Figure 11.1).
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: WSP
Figure 11.1: Main Fault Blocks at Los Gatos Deposit
Seven cross-faults were used to divide the geologic model into eight
fault blocks within the final geologic model (Figure 11.2).
| n | Block 1 – NW Ext – No significant mineralization |
| n | Block 2 – NW – Major mineralized zone |
| n | Block 3 – Central Upper – Minor mineralization |
| n | Block 4 – NW Offset – Deeper zone |
| n | Block 5 – Central – Major mineralized zone |
| n | Block 7 – South-East 1 – Minor mineralization |
| n | Block 10 – NW Ext 2 – No significant mineralization |
| n | Block 11 – South-East 4 - Major mineralized zone |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG internal report
Figure 11.2: Plan View of the Structural Fault Blocks
at CLG
| 11.1.6 | Lithology and Vein Model |
The Los Gatos deposit is hosted in a series of andesitic lava flows
and pyroclastic breccias that are interbedded and overlaid by flows and tuffs of dacitic composition. Silver mineralization at Los Gatos
is predominantly hosted in a series of quartz, quartz-calcite, and calcite veins. These vein systems vary locally but predominantly have
northwest strikes and mostly steep dips.
All available assay, lithology and structural data from the drill hole
logs and geological mapping of underground exposures were used for geological interpretation of the veins. Each interval interpreted to
be within the vein model was coded with a vein and fault block code.
The post-mineral low-grade or waste Veta Rosa vein was modeled separately
and was assigned estimation domains prefixed by RV separately from the mineralized veins.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Eight different veins were interpreted on fault blocks, totalling 28
body veins, as can be seen in Figure 11.3.
Source: CLG
Figure 11.3: Plan View of Los Gatos Veins on each Fault
Block
The model also includes the following lithological units:
| n | Epiclastic erosional volcanic sediments above the rhyolite and andesite |
| n | Rhyolite overlaying the andesite and underlying the epiclastics. |
| n | Undifferentiated andesitic volcanics, the primary vein host, situated in the footwall of Los Gatos fault. |
| n | Dacite/volcanic tuff within the andesite, which comprises the immediate footwall of the mineralization and occasional host. |
A cross-section showing the relationship of veins, and the lithological
units is shown for the Central Zone (CZ) (Figure 11.4).
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 11.4: Cross-section of the Los Gatos Lithology
Model. Looking NWE
| 11.1.7 | Exploration Data Analysis |
Samples with assays equal to detection limits or zero were adjusted
to half of the minimum detection limit. In general, for each element, less than 0.5 % of the samples inside the mineralized veins were
adjusted. Samples from underground had a different detection limit; all samples with a value of 5.0 ppm silver were adjusted to 2.5 ppm.
| 11.1.7.2 | Sample Length and Assay Compositing |
There are a variety of sample lengths in the drill core database, though
the most common sample lengths were 1.0 m, 1.5 m, and 2.0 m. The surface database had a majority of 2.0 m samples while the most common
sample length in the underground database was 1.5 m. Considering the general width of the veins and that the majority of samples inside
the modeled veins are of 1.5 m in length, it was decided that the composite length should be 1.5 m. The methodology used breaks in the
compositing process when there was a change in the underlying estimation domain. Therefore, only samples from the same estimation domain
are composited together, while any remaining sample lengths are merged into the last composite.
| 11.1.7.3 | Estimation Domain Definition |
Estimation Domains (EDs) have been defined based on the modeled veins
with each vein defining an independent estimation domain. For veins VN2SBSE4 and VN3SBSE4 a differentiation between high and low grade
was made using geological and grade criteria. Material lying outside veins define a single low-grade domain (ED 99), as shown in Table 11.2.
In terms of the economic value of each vein, the most important veins
are from the central zone (from ED 301 to ED 310), vein VN1NW (ED 201), vein VN6NW (ED 206), and VN7NW (ED 207). Table 11.3 summarizes
the composite statistics for selected key domain for Ag, Pb, and Zn, respectively.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 11.2: Estimation Domain Definition
Estimation Domain |
Vein |
Estimation Domain |
Vein |
Estimation Domain |
Vein |
101 |
VN1EXTNW |
301 |
CZVN1 |
501 |
RVSBSE4 |
102 |
VN2EXTNW |
302 |
CZVN2 |
502 |
VN1SBSE4 |
103 |
VN3EXTNW |
303 |
CZVN3 |
503 |
VN2SBSE4_LG |
104 |
VN4EXTNW |
304 |
CZVN4 |
504 |
VN2SBSE4_HG |
201 |
VN1NW |
305 |
CZVN5 |
505 |
VN3SBSE4_LG |
202 |
VN2NW |
306 |
CZVN6 |
506 |
VN3SBSE4_HG |
203 |
VN3NW |
307 |
CZVN7 |
99 |
Waste Rock |
204 |
VN4NW |
308 |
CZVN8 |
|
|
205 |
VN5NW |
309 |
RV |
|
|
206 |
VN6NW |
310 |
RV1 |
|
|
207 |
VN7NW |
401 |
VN1SBSE1 |
|
|
208 |
VN8NW |
402 |
VN2SBSE1 |
|
|
To determine the type of contact (soft or hard) between different EDs,
a contact analysis was conducted. Contact analysis is a mathematical method to define the grade behavior among composites from different
EDs as they approach a contact. The type of contact is important during the process of grade estimation.
In general, the results show abrupt changes in the grade at the
contact between the modeled veins and the waste rock, therefore, it was decided to use hard boundaries between all EDs and variables
to avoid sharing composites between veins. Even for the high and low grade domains defined in Table 11.2 the change in grade is
sharp at the contact. Figure 11.5 shows the contact analyses for ED 503 vs ED 504 (left) and ED 505 vs ED 506
(right) for Ag.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 11.3: Composite Statistics for Ag (g/t), Pb (%)
and Zn (%) for the Main Estimation Domains
Element |
ED |
#
Data |
Min.
(g/t) |
Max.
(g/t) |
Mean(g/t) |
Median(g/t) |
Q1(g/t) |
Q3(g/t) |
Std.
Dev. |
CV |
Ag |
301 |
2,050 |
0.1 |
25,373.00 |
438.5 |
117.6 |
42.8 |
348.1 |
1,290.70 |
2.9 |
302 |
2,279 |
1.4 |
23,804.90 |
346.9 |
87.2 |
38.5 |
240 |
1,048.30 |
3 |
303 |
2,522 |
2 |
23,362.00 |
249.1 |
71.2 |
29.5 |
220.7 |
759.9 |
3.1 |
304 |
95 |
18 |
9,136.00 |
475.2 |
104 |
60 |
185.8 |
1,344.30 |
2.8 |
305 |
190 |
2.5 |
3,907.00 |
224.1 |
53.5 |
24.8 |
167 |
528.8 |
2.4 |
306 |
639 |
2.5 |
3,600.00 |
287.1 |
94 |
30.5 |
288.4 |
520 |
1.8 |
307 |
25 |
5 |
372 |
99.9 |
73 |
21.6 |
136.6 |
97.2 |
1 |
308 |
359 |
5 |
3,733.00 |
307.5 |
142.8 |
47.1 |
378.8 |
482.7 |
1.6 |
309 |
2,195 |
0.3 |
1,935.00 |
27.1 |
14.1 |
5.9 |
29.5 |
77 |
2.8 |
310 |
13 |
0.1 |
138 |
35.8 |
40 |
5.7 |
46.8 |
35.5 |
1 |
201 |
3,728 |
0.6 |
32,329.00 |
435.9 |
61.5 |
25 |
241.7 |
1,411.20 |
3.2 |
206 |
338 |
2.5 |
18,635.00 |
514.6 |
81 |
18 |
355.3 |
1,446.40 |
2.8 |
207 |
165 |
2.5 |
3,955.20 |
171.3 |
56.5 |
19.4 |
131.6 |
464.8 |
2.7 |
Pb |
301 |
2,050 |
0.01 |
54.6 |
2.14 |
1.02 |
0.33 |
2.72 |
3.13 |
1.46 |
302 |
2,279 |
0.0047 |
37.36 |
1.75 |
0.7 |
0.24 |
2.03 |
2.81 |
1.6 |
303 |
2,522 |
0.0025 |
28.69 |
2.37 |
1.08 |
0.35 |
3.07 |
3.28 |
1.39 |
304 |
95 |
0.07 |
42.32 |
2.3 |
0.39 |
0.14 |
1.09 |
7.28 |
3.16 |
305 |
190 |
0.0307 |
13.73 |
0.99 |
0.19 |
0.11 |
1.06 |
2.04 |
2.06 |
306 |
639 |
0.0177 |
33 |
1.7 |
0.37 |
0.15 |
1.29 |
3.58 |
2.11 |
307 |
25 |
0.0631 |
1.39 |
0.33 |
0.21 |
0.13 |
0.43 |
0.31 |
0.93 |
308 |
359 |
0.03 |
44.01 |
4.52 |
2.46 |
0.7 |
6.79 |
5.59 |
1.24 |
309 |
2,195 |
0.0004 |
3.78 |
0.14 |
0.05 |
0.03 |
0.13 |
0.28 |
2.05 |
310 |
13 |
0.004 |
0.07 |
0.03 |
0.03 |
0.01 |
0.04 |
0.02 |
0.66 |
201 |
3,728 |
0.01 |
31.14 |
2.53 |
1.22 |
0.43 |
3.16 |
3.49 |
1.38 |
206 |
338 |
2.5 |
18,635.00 |
514.6 |
81 |
18 |
355.3 |
1,446.40 |
2.8 |
207 |
165 |
0.005 |
11.19 |
0.68 |
0.17 |
0.06 |
0.62 |
1.51 |
2.21 |
Zn |
301 |
2,050 |
0.0175 |
30 |
4.46 |
2.73 |
0.83 |
6.37 |
4.89 |
1.1 |
302 |
2,279 |
0.0063 |
36.85 |
3.97 |
2.09 |
0.56 |
5.8 |
4.76 |
1.2 |
303 |
2,522 |
0.0117 |
30.65 |
4.27 |
2.53 |
0.96 |
5.9 |
4.71 |
1.1 |
304 |
95 |
0.0116 |
11.58 |
1.31 |
0.51 |
0.28 |
1.24 |
2.01 |
1.53 |
305 |
190 |
0.03 |
13.31 |
1.26 |
0.44 |
0.21 |
1.28 |
2.1 |
1.66 |
306 |
639 |
0.013 |
25.89 |
3.07 |
1.04 |
0.42 |
3.47 |
4.78 |
1.56 |
307 |
25 |
0.0618 |
0.72 |
0.24 |
0.18 |
0.14 |
0.31 |
0.16 |
0.67 |
308 |
359 |
0.04 |
31.24 |
7.36 |
4.93 |
1.89 |
10.74 |
7.04 |
0.96 |
309 |
2,195 |
0.0006 |
18.47 |
0.28 |
0.1 |
0.04 |
0.25 |
0.74 |
2.64 |
310 |
13 |
0.0017 |
0.19 |
0.03 |
0.01 |
0.01 |
0.02 |
0.05 |
1.81 |
201 |
3,728 |
0.01 |
31.14 |
2.53 |
1.22 |
0.43 |
3.16 |
3.49 |
1.38 |
206 |
338 |
0.0073 |
18 |
2.58 |
1.61 |
0.65 |
3.31 |
2.97 |
1.15 |
207 |
165 |
0.005 |
20.07 |
1.03 |
0.22 |
0.08 |
0.73 |
2.77 |
2.68 |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 11.5: Contact Analysis for ED 503 vs ED 504 (left)
and ED 505 vs ED 506 (right) for Ag
| 11.1.7.5 | Evaluation of Outlier Grades, Cut-offs, and Grade Capping |
Definition and control of outliers is a common industry practice that
is necessary and useful to prevent potential overestimation of volumes and grades. Values defined as outliers have been controlled in
the estimation using capping. The use of capping is a change from the previous year when the high grade restriction methodology had been
used. Outliers were defined according to probability distribution curves, depending on population, or continuity breaks, reconciliation
with the short-term block model (channel samples) and the production information from the plant. Table 11.4 shows the selected values
and the number of composites affected by ED.
The values and methodology selected produced a decrease in metal content
of 1.63% for Ag, 0.95% for Pb and 0.46% for Zn, when compared to an alternative model where capping was not used.
Down-the-Hole (DTH), directional (3D), and omnidirectional variograms
were calculated and modeled to define the spatial continuity for each variable. Variograms were calculated for each variable using the
1.5 m composite database. The variography was completed using the following procedure:
| n | Derivation of nugget effect from DTH variograms |
| n | Adjustment of variogram models to the main continuity directions |
Due to some EDs possessing a lower number of composites, it was not
possible to model a robust variogram for some EDs. As a result, a global variogram was used for some veins. In general, the calculated
nugget effect varies between 20% to 30% of the total sill, which is considered appropriate for the variability of these types of deposits.
The total ranges are around 120 m to 200 m in the main direction, which is considered adequate. Figure 11.6, Figure 11.7 and
Figure 11.8 illustrates a few examples of the modeled variograms for Ag, Pb and Zn in selected estimation domains. Due to the variable
nature of the orebody, variogram analysis was performed on
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
normal score transformed data, and the resulting variogram models were
back transformed for use in the estimation process.
Table 11.4: Outliers Treatment by ED and Variable
ED |
Ag (ppm) |
Pb (%) |
Zn (%) |
Capping Value |
Restricted Samples |
Capping Value |
Restricted Samples |
Capping Value |
Restricted Samples |
301 |
11,000 |
4 |
19.0 |
6 |
25.0 |
5 |
302 |
10,500 |
3 |
21.0 |
4 |
29.0 |
5 |
303 |
5,500 |
4 |
23.0 |
5 |
27.0 |
5 |
304 |
- |
- |
- |
- |
- |
- |
305 |
- |
- |
- |
- |
- |
- |
306 |
3,200 |
3 |
21.0 |
2 |
25.0 |
2 |
307 |
- |
- |
- |
- |
- |
- |
308 |
2,750 |
|
23.0 |
4 |
28.0 |
5 |
309 |
- |
- |
- |
- |
- |
- |
310 |
- |
- |
- |
- |
- |
- |
Source: CLG
Figure 11.6: Experimental and Modeled Variograms for
Ag, ED 301
Source: CLG
Figure 11.7: Experimental and Modeled Variograms for
Pb, ED 302
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 11.8: Experimental and Modeled Variograms for
Zn, ED 201
| 11.1.8 | Block Model Parameters, Specific Gravity, and Grade Estimation |
| 11.1.8.1 | Block Model Parameters and Domaining |
Table 11.5 shows the definition for the block model built in Maptek
Vulcan®, using the local coordinate system.
Table 11.5: Block Model Dimensions
Orientation |
East |
North |
Elevation |
Origin |
367,300 |
3,047,900 |
600 |
Rotation (°) |
120 |
- |
- |
Parent Block Size (m) |
5.0 |
5.0 |
5.0 |
Sub-Block Size (m) |
1.25 |
1.25 |
1.25 |
No. of Blocks |
620 |
150 |
210 |
Range (m) |
3,100 |
750 |
1,050 |
| 11.1.8.2 | Interpolation and Extrapolation Parameters |
The estimation of Ag, Pb, and Zn grades for CLG has been conducted using
Ordinary Kriging (OK) with four nested passes for each ED. Local varying anisotropy methodology was used to handle the geological variability
of the dip and azimuth of each vein. This method defines a local orientation for the search ellipsoid for each block using the footwall
and hanging wall surfaces. The result is that all the veins have an independent set of variables for azimuth, dip and plunge, as shown
in Figure 11.9.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 11.9: Example of Local Varying Anisotropy for
Two Different Veins in the CLG Model
For the CLG deposit a set of schemes defining different search radii,
sample selection strategies, octant usage and outlier control were implemented and analyzed to apply an appropriate estimate plan.
The OK plan included the following criteria and restrictions:
| n | Discretization of 4 x 4 x 3 |
| n | For outlier control, restriction of high grades was achieved using capping for all passes (see Section 11.1.7.6). |
| n | Hard boundaries have been implemented in all estimation passes and between all EDs. |
Search radii were defined based on data distribution in the model as
well as the variogram model. Table 11.6 summarizes the radii of searches implemented and the scheme of samples selection, for all
variables according to Vulcan® convention (see Figure 11.10).
Table 11.6: Sample Selection and Radii of the Search
Ellipsoid
Pass |
Search Radii (m) |
Samples |
Major |
Semi |
Minor |
Min |
Max |
Max per Drill Hole |
Max per Octant. |
1 |
40.0 |
70.0 |
10.0 |
7 |
12 |
3 |
5 |
2 |
90.0 |
120.0 |
22.5 |
6 |
12 |
3 |
5 |
3 |
190.0 |
220.0 |
47.5 |
8 |
20 |
3 |
3 |
4 |
380.0 |
410.0 |
380.0 |
6 |
20 |
- |
- |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 11.10: Angle and Axis Convention in Vulcan
For the selected sample selection scheme, a detailed analysis was performed
for the block model pass, the number of samples and the drill holes used for estimation. The objective of this analysis was to evaluate
the implementation of the OK estimation plan and, specifically, determine how the estimation plan accounted for the number of samples
and number of drill holes in each estimation pass. This analysis also allowed the evaluation of the spatial coverage of every block by
determining whether the estimation was performed by an interpolation or extrapolation process.
Figure 11.11 provides a summary of estimated block percentage (bars),
and mean grade (circle) per estimation pass for each ED for silver. Figure 11.12 and Figure 11.13 show the number of samples
and drill holes by estimation pass for silver for ED 303 and 309, respectively. The following observations can be made from the figures:
| n | The first pass is a local track, evidenced in the representation in terms of estimated volume, with a mean estimated distance of approximately
20-30 m. The second pass estimated a mean distance closer to 60 m. |
| n | The majority of veins were estimated in the first two passes. |
| n | In general, it is observed that all EDs included an adequate number of samples and drill holes for grade interpolation. For both examples,
more than three drill holes were used in the first estimation pass, and only in the third and fourth passes was the kriging plan allowed
to estimate with two drill holes. This sample selection strategy ensures adequate grade interpolation with correct three-dimensional spatial
coverage. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: WSP
Figure 11.11: Percentage of Estimated Blocks and Mean
Grades (upper) and Mean Distance (lower) per Pass by ED for Ag
Source: WSP
Figure 11.12: Number of Samples and Drill Holes per Estimation
Pass for Ag ED 303
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: WSP
Figure 11.13: Number of Samples and Drill Holes per Estimation
Pass for Ag ED 309
Specific gravity was estimated using a similar approach to that of metal
grade estimation. Four kriging passes were defined for each ED with a hard boundary between all EDs. For the outlier treatment, a global
capping was used with a value of 2.0 (t/m3) and 3.5 for the lower and the upper tail of the distribution, respectively. The
results show a wide variation in specific gravity between veins. There were 9,901 specific gravity measurements in the database used for
estimation.
In the QP’s opinion, the estimation of specific gravity with OK
is an improvement to assess the local variability of specific gravity between veins.
In order to validate the Los Gatos Resource estimation, validation of
the block model was carried out to assess the performance of the OK technique and the conformity of input values. The validation was carried
out on estimated blocks up to the third pass, considering composites used in the estimates.
| 11.1.9.1 | Global Statistics |
A statistical validation between declustered composite grades and estimated
blocks was completed. Global statistics of mean grades for composites can be influenced by several factors, such as sample density, grouping,
and, to a greater extent, the presence of high grades that have been restricted in the estimation plan. Consequently, global statistics
of declustered composites were calculated using the nearest-neighbor (NN) method with search ranges as used in the OK estimation technique.
A summary of this comparison is shown for
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
key domains in Table 11.7 for Ag, Pb, and Zn, respectively, where
negative values indicate a negative difference between block mean grades in relation to composite mean grades, and vice-versa. In general,
differences under 10% are satisfactory, and differences above 10% require attention. The result of the analyses shows that relative differences
for the main ED were found to be within acceptable limits. Only EDs with few samples and poor geological continuity showed results above
the expected threshold.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 11.7: Statistics Comparison for Ag, Pb and Zn for
the main ED, Pass 2
Element |
ED |
Number
of data |
Minimum
(g/t) |
Maximum
(g/t) |
Mean
(g/t) |
Blocks |
NN |
Blocks |
NN |
Blocks |
NN |
Blocks |
NN |
%Diff |
Ag |
301 |
32,192 |
32,192 |
1.8 |
3.8 |
7,301.8 |
8,158.2 |
361.3 |
362.8 |
-0.40% |
302 |
45,361 |
45,361 |
0.4 |
6.1 |
7,137.9 |
6,690.1 |
223.9 |
214.9 |
4.20% |
303 |
54,665 |
54,665 |
0.6 |
5.3 |
3,537 |
3,464.5 |
138.6 |
137.2 |
1.00% |
304 |
1,758 |
1,758 |
53.4 |
49.1 |
3,891.7 |
3,916.5 |
608.1 |
634.6 |
-4.20% |
305 |
3,502 |
3,502 |
8.3 |
4.5 |
2,155.9 |
1,853.5 |
238.7 |
271.7 |
-12.20% |
306 |
13,289 |
13,289 |
2.6 |
5.5 |
1,991.4 |
2,021.7 |
214.9 |
201.1 |
6.80% |
307 |
2,579 |
2,579 |
35.5 |
19.8 |
262.8 |
201 |
112.6 |
113.1 |
-0.50% |
308 |
5,165 |
5,165 |
13.5 |
10.7 |
1,511.9 |
1,765.5 |
245.7 |
248.6 |
-1.20% |
309 |
45,842 |
45,842 |
1.1 |
1.7 |
250.5 |
216.4 |
18.6 |
18.7 |
-0.70% |
310 |
783 |
783 |
8.3 |
15.1 |
73 |
62 |
40.2 |
35.2 |
14.10% |
201 |
44,965 |
44,965 |
1 |
2.4 |
11,459.4 |
12,324.9 |
304.9 |
299.6 |
1.80% |
206 |
8,778 |
8,778 |
0.1 |
5.9 |
4,222.3 |
3,151.5 |
382.7 |
356.8 |
7.30% |
207 |
3,852 |
3,852 |
3.1 |
2.5 |
2,850.6 |
2,271.4 |
139.3 |
159.6 |
-12.70% |
Pb |
301 |
32,190 |
32,190 |
0 |
0.02 |
15.39 |
13.17 |
2.04 |
2.09 |
-2.40% |
302 |
45,360 |
45,360 |
0.03 |
0.02 |
16.95 |
13.38 |
1.58 |
1.63 |
-3.40% |
303 |
54,282 |
54,282 |
0 |
0.04 |
15.5 |
14.74 |
1.85 |
1.85 |
-0.50% |
304 |
1,758 |
1,758 |
0.06 |
0.09 |
28.31 |
20.51 |
2.33 |
2.7 |
-13.90% |
305 |
3,503 |
3,503 |
0.05 |
0.04 |
9.09 |
6.26 |
1.06 |
1.2 |
-11.70% |
306 |
13,285 |
13,285 |
0 |
0.06 |
15.46 |
15.16 |
1.1 |
1.14 |
-3.80% |
307 |
2,579 |
2,579 |
0.08 |
0.11 |
0.93 |
0.86 |
0.26 |
0.25 |
3.90% |
308 |
5,163 |
5,163 |
0.05 |
0.15 |
14.19 |
15.85 |
3.68 |
3.92 |
-6.20% |
309 |
44,511 |
44,511 |
0 |
0.01 |
1.64 |
1.4 |
0.11 |
0.11 |
-1.50% |
310 |
783 |
783 |
0.01 |
0.01 |
0.06 |
0.04 |
0.03 |
0.02 |
10.60% |
201 |
44,983 |
44,983 |
0 |
0.03 |
16.08 |
15.81 |
2.17 |
2.11 |
3.30% |
206 |
8,783 |
8,783 |
0.03 |
0.02 |
8.06 |
6.39 |
0.99 |
0.97 |
2.00% |
207 |
3,849 |
3,849 |
0 |
0.01 |
5.87 |
6.33 |
0.49 |
0.47 |
2.30% |
Zn |
301 |
32,188 |
32,188 |
0 |
0.06 |
22.77 |
23.23 |
4.13 |
4.21 |
-1.70% |
302 |
45,361 |
45,361 |
0.06 |
0.03 |
22.08 |
25.76 |
3.63 |
3.67 |
-0.90% |
303 |
54,672 |
54,672 |
0.01 |
0.06 |
19.94 |
20.42 |
3.85 |
3.84 |
0.20% |
304 |
1,758 |
1,758 |
0.16 |
0.19 |
7.77 |
5.65 |
1.6 |
1.73 |
-7.90% |
305 |
3,504 |
3,504 |
0.07 |
0.07 |
9.91 |
8.16 |
1.31 |
1.46 |
-10.20% |
306 |
13,290 |
13,290 |
0.12 |
0.14 |
20.63 |
21.81 |
2.25 |
2.24 |
0.70% |
307 |
2,579 |
2,579 |
0.1 |
0.11 |
0.63 |
0.54 |
0.29 |
0.27 |
7.70% |
308 |
5,159 |
5,159 |
0.03 |
0.47 |
22.8 |
24.88 |
6.27 |
6.41 |
-2.10% |
309 |
45,839 |
45,839 |
0.01 |
0.01 |
3.79 |
2.81 |
0.21 |
0.21 |
-0.20% |
310 |
783 |
783 |
0.01 |
0.01 |
0.11 |
0.06 |
0.03 |
0.03 |
12.40% |
201 |
44,984 |
44,984 |
0.05 |
0.06 |
25.91 |
26.9 |
4.79 |
4.7 |
2.00% |
206 |
8,784 |
8,784 |
0.08 |
0.04 |
10.06 |
9.05 |
2.06 |
2.04 |
0.80% |
207 |
3,848 |
3,848 |
0.01 |
0.02 |
11.79 |
15.63 |
0.87 |
0.82 |
5.80% |
In order to evaluate block grade robustness in relation to data, a semi-local
comparison using swath plots was completed. Generating swath plots entails averaging blocks and samples separately in regular 30 m (east)
x 30 m (north) x 20 m (elevation) panels and then comparing the mean grade in each sample and block panel through each axis. Figure 11.14
to Figure 11.16 provide a summary of swath plots for each variable for ED 302 and ED 303. The review was conducted considering the
block estimation up to the third pass. In general, results indicate that grade estimates for the deposit reasonably follow trends found
at the local and global scale without observing an excessive degree of smoothing.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: WSP
Figure 11.14: Swath Plots for Ag for ED 302 and ED 303
Source: WSP
Figure 11.15: Swath Plots for Pb for ED 302 and ED 303
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: WSP
Figure 11.16: Swath Plots for Zn for ED 302 and ED 303
| 11.1.9.3 | Visual Validation |
To visually validate the estimation, the QP completed a review of a
set of cross sectional and plan views. The validation shows a suitable representation of samples in blocks. Locally, the blocks match
the estimation composites both in cross section and plan. In general, there is an adequate match between composite data and block model
data for Ag, Pb and Zn grades. High grade areas are suitably represented, and high-grade samples exhibit suitable control, which validates
the treatment of outliers used. Smoothing increases in boundary and deep areas of the deposit, due to the reduction in the number of available
composites.
Figure 11.17 presents an example of vertical sections from the
estimate model for Ag.
Source: WSP
Figure 11.17: Visual Validation of Ag Estimation
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 11.1.9.4 | Block Model Reconciliation |
Based on channel sample data from production drifts, a short-term model
was developed by the geology team from Los Gatos. Figure 11.18, Figure 11.19, and Figure 11.20 show the comparison between
the plant feed (blue), the long-term model (red) and the short-term model (green) for Ag, Pb, and Zn for the period between January 2023
and March 2024. In general, the differences between the plant feed and the long- and short-term model are lower for Pb and Zn. The variability
is greater for Ag, but both the long-term and short-term models follow the general trend of the plant feed. In the opinion of the QP the
difference in metal content between these two models is acceptable and the long-term model based on the drill holes should be considered
a good approximation of expected grades.
Source: CLG
Figure 11.18: Grade comparison for Ag between the plant
feed (blue), the long-term model (red LP), and the short-term model (green CP), between January 2023 and March 2024
Source: CLG
Figure 11.19: Grade comparison for Pb between the plant
feed (blue), the long-term model (red LP), and the short-term model (green CP), between January 2023 and March 2024
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 11.20: Grade comparison for Zn between the plant
feed (blue), the long-term model (red LP), and the short-term model (green CP), between January 2023 and March 2024
| 11.2 | Estimation, Assumptions, Parameters and Methods (Esther) |
The Mineral Resource estimate for the Esther deposit remains unchanged
from that reported in 2022.
In the Esther zone the Leapfrog™ Geo software was used for solids
model generation and Vulcan software for block model estimation, reporting, statistics review, geostatistics, and swath plots.
| 11.2.2 | Drilling Data Esther |
The database available for the 2022 Mineral Resource estimation of Esther
included included DDH data, topographic surface data, and density data, with 82 drill holes totalling 10,246 mm and was reviewed in plan
and section to validate the accuracy of the collar locations, hole orientations and down hole trace, and assay data were analyzed for
out-of-range values. The drill hole database was determined to be of suitable quality to support the 2022 Mineral Resource estimate.
| 11.2.3 | Geological Interpretation |
For the 3D geological modeling at the Esther zone, the Leapfrog EDGE
version 2021.2 program was used, using only the geological information from the surface diamond drill holes and the surface geological
mapping conducted by the MPR team. Figure 11.21 is a 3D view of the Esther Vein.
The vein was modeled as a vein cutting into pre-existing rocks, which
were modeled as deposit surfaces.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 11.21: 3D View of Esther Modeled Vein and the
Drill Holes Used for Geological Interpretation
| 11.2.4 | Exploratory Data Analysis |
Samples with assays equal to the detection limit or zero were adjusted
to half of the minimum detection limit.
| 11.2.4.2 | Sample Length and Assay Compositing |
Considering that the sample database shows a majority of 2.0 m samples,
the block size and the average vein width, it was decided that the composite length should be 2.0 m.
The database was composited at 2.0 m, and the methodology used breaks
in the compositing process where there was a change in the underlying estimation domain. Therefore, only samples from the same estimation
domain are composited together, while the lengths of remaining samples are merged into the last composite.
| 11.2.4.3 | Estimation Domain Definition |
Estimation Domains (EDs) have been defined based on the current geology
- the vein defines an independent estimation domain (ED 1) and the material lying outside the vein defines the low-grade domain (ED 2).
The results of the contact analysis show abrupt changes in the grade
at the contact between the modeled veins. Therefore, it was decided to use hard boundaries between all ED and variables to avoid sharing
composites between veins.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 11.2.4.5 | Evaluation of Outlier Grades, Cut-offs, and Grade Capping |
Values defined as outliers have been controlled in the estimation using
High Yield Restriction (HYR) within a block distance (10.0 m x 5.0 m x 5.0 m). Outliers were defined according to probability distribution
curves, depending on population, or continuity breaks.
Due to the number of samples available it was not possible to model
a robust variogram for the majority of the EDs. For this reason, the variograms modeled for Los Gatos were used in the estimation process
of Esther.
| 11.2.5 | Block Model Parameters, Specific Gravity, and Grade Estimation |
| 11.2.5.1 | Block Model Parameters and Domaining |
Table 11.8 shows the definition for the block model built in Vulcan
using the local coordinate system.
Table 11.8: Block Model Dimensions (Esther)
Orientation |
East |
North |
Elevation |
Origin |
366,600 |
3,043,900 |
1,000 |
Rotation (°) |
110 |
- |
- |
Parent Block Size (m) |
10.0 |
5.0 |
5.0 |
Sub-Block Size (m) |
5.0 |
1.0 |
1.0 |
No. of Blocks |
340 |
600 |
800 |
Range (m) |
1,700 |
600 |
800 |
| 11.2.5.2 | Interpolation and Extrapolation Parameters |
The estimation of Ag, Pb, and Zn grades for Esther was conducted using
OK with three nested passes for each ED. Local varying anisotropy methodology was used to handle the geological variability of the dip
and azimuth of each vein.
Specific gravity was estimated using a similar approach to that employed
for the estimation of metal grades. Three kriging passes were defined for each ED with hard contacts between all EDs.
The model was subjected to a detailed and comprehensive validation process
to assess the performance of the OK and the conformity of input values. The validation included local and global statistical validations
as well as visual validations. The validation of the model indicates that the model is consistent with the geological controls on mineralization
and has a concordance with the data used in its model construction.
| 11.3 | Mineral Resource Classification |
This sub-section contains forward-looking information related to Mineral
Resource classification for the CLG deposit. Material factors that could cause actual results to differ materially from the conclusions,
estimates, designs, forecasts, or projections in the forward-looking information include any significant differences from one or more
of the material factors or assumptions that were set forth in this sub-section including geological and grade continuity analysis and
assumptions.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The Mineral Resource classification in this disclosure is based on several
factors including drill hole spacing grids, proximity to mine infrastructure (production drifts) and the level of geological confidence
for the continuity and grade of each vein.
In order to apply the resource classification criteria an equivalent
grid definition methodology was used. This methodology was based on the distance of the drill holes relative to an estimated block. Based
on the distance, an equivalent (theoretical) grid was calculated assuming that the distances of the drill hole to the center of the evaluated
block are equidistant (see Figure 11.22). Figure 11.23 illustrates the final resource classification in a 3D view for blocks
inside veins.
Source: WSP
Figure 11.22: Formula for Theoretical Grid Definition
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: WSP
Figure 11.23: Resource Classification, Showing Blocks
Inside Veins, 3D View
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The Mineral Resource Classification for Los Gatos is as follows:
| n | Measured Resources: Material lying inside a buffer of 30 m from mine development and limited to veins already in production (ED 301
to 309, 201, 202, 205, 206, 207, 208, 401, and 402), and veins where the level of geological knowledge and confidence is high and there
is a low uncertainty of grade and vein continuity. |
| n | Indicated Resources: Blocks with a theoretical grid between 0 and 50 m. Material lying outside veins and with an equivalent distance
between 0-25 m was also defined as Indicated. This condition only applied to the Central zone of the deposit where there is a known stockwork
mineralization style present, between the main veins. |
| n | Inferred Resources: Blocks with a theoretical grid greater than 50 m, and specific veins where the geological knowledge is low (ED
101, 102, 103, 104, 203, and 204). The Inferred category was further limited by an external polygon of geological confidence, interpreted
in long section. Mineralized material estimated within the vein but outside this polygon is not reported. |
| 11.4 | Basis for Establishing the Prospects of Economic Extraction for Mineral Resources |
This subsection contains forward-looking information related to establishing
Reasonable Prospects for Economic Extraction (RPEE) of Mineral Resources. Factors that may cause actual results to differ materially from
the conclusions, estimates, designs, forecasts, or projections in the forward-looking information include any significant differences
from one or more of the material factors or assumptions set forth in this subsection, including NSR cut-off assumptions, metallurgical
recovery, cost forecasts, and product price forecasts. The Mineral Resource estimate was reported from within a constrained stope optimization
developed using criteria to establish RPEE.
The CLG deposit is polymetallic. Therefore, a NSR calculation was used
to determine a NSR cut-off value to define Mineral Resources. The parameters used in the calculation of NSR in the block model (including
metal values, recovery factors, transportation costs, etc.) were provided by CLG and reviewed by WSP. For cut-off estimation purposes,
the NSR value of the mineralized material that MPR expects to receive at the mine gate must first be established and expressed in terms
of value per tonne mined and processed, commonly referred to as ROM tonnes.
Table 11.9 lists key parameters used to calculate the NSR value
to establish RPEE. Commodity price assumptions were supplied by MPR based on long-term prices and, in the opinion of the QP, the prices
are reasonable and consistent with market research provided by MPR. See Section 12.3 for basis of metal price assumptions. Concentrate
sales terms were provided by MPR and consider standard industry terms, consistent with those experienced to date, for payable values and
treatment and refining charges.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 11.9: Parameters for Calculating Block Net Smelter
Return for Values for CLG Mineral Resource Reporting
|
|
|
Silver |
Zinc |
Lead |
Gold |
Copper |
Metal Prices |
|
$23.00/oz |
$1/25/lb |
$0.95/lb |
$1850/oz |
$4.00/lb |
Plant Recovery (%) |
Pb/Cu >7 |
to Zn CCT |
10.20% |
63.40% |
|
|
|
to Pb CCT |
78.00% |
|
89.40% |
54.20% |
82.00% |
Pyrite Leach |
4.96% |
|
|
6.92% |
|
Pb/Cu <7 |
to Zn CCT |
10.20% |
63.40% |
|
|
|
to Pb CCT |
23.00% |
|
87.20% |
11.20% |
15.50% |
to Cu CCT |
55.00% |
|
|
43.00% |
66.50% |
Pyrite Leach |
4.96% |
|
|
6.92% |
|
Concentrate Grades (%) |
Pb/Cu >7 |
|
|
56.28% |
53.42% |
|
|
Pb/Cu <7 |
|
|
56.28% |
71.52% |
|
23.02% |
Concentrate Moisture (%) |
|
|
|
8.00% |
7.50% |
|
7.50% |
Concentrate Transport ($/wmt) |
|
|
|
$197.80 |
$112.80 |
|
$112.80 |
Table 11.10 summarizes operating costs used to establish the NSR
cut-off to establish reasonable prospects for economic extraction. Operating costs were provided by MPR based on historical operating
data and were considered reasonable based on QP experience from other operations. Costs include estimates of general and administration
costs.
Table 11.10: Costs Used for Resource NSR Cut-Offs
Item |
Cost Type |
Unit |
Cost |
Mining Underground |
Fixed / Indirect |
US$/t |
27.83 |
Processing |
Fixed / Indirect |
US$/t |
9.35 |
Processing |
Variable / Direct |
US$/t |
17.86 |
General & Admin. |
Fixed / Indirect |
US$/t |
15.91 |
Total Cost (NSR Cut-off) |
|
US$/t |
70.94 |
| 11.5 | Mineral Resource Uncertainty Discussion |
Mineral Resources are not Mineral Reserves and do not necessarily demonstrate
economic viability. There is no certainty that all or any part of this Mineral Resource will be converted into a Mineral Reserve.
Mineral resource estimates can be materially impacted by data quality,
natural geological variability of mineralization and/or metallurgical recovery and the adequacy of economic assumptions supporting reasonable
prospects for economic extraction, including metal prices and mining and processing costs. Mineral resources may also be affected by the
estimation methodology and the parameters and assumptions used in the grade estimate, including data limitations or search and estimation
strategies, although, in the opinion of the QP, this is unlikely to have a significant impact on the mineral resource estimate.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Mineral Resources
are reported within stope shapes using a $70.94/tonne net smelter return (“NSR”) cut-off calculated using an Ag price of
$23/oz, Zn price of $1.25/lb, Pb price of $0.95/lb, Au price of $1,850/oz, and Cu price of $4.00/lb.
Most of the Inferred Mineral Resource is in the SE zone and extends
approximately 550 meters below the current level of development. The Inferred Mineral Resource in the SE zone is based on drill spacing
of approximately 100 m by 200 m and, therefore, information is currently limited with respect to the geological continuity of mineralization
and geotechnical and hydrogeological conditions.
Further infill drilling may confirm the continuity of mineralization
and upgrade the mineral resource categories and associated quantities.
| 11.6 | Qualified Person’s Opinion on Factors that are Likely to Influence the Prospect of Economic Extraction |
In the opinion of the QP, the relative accuracy and, consequently, the
confidence of the Mineral Resource estimates are deemed to be appropriate for their intended purpose of reporting Mineral Resources.
The 2024 Mineral Resource estimate may be materially impacted by any
future changes in the breakeven NSR cut-off, potentially resulting from changes in mining costs, processing recoveries, metal prices or
from changes in geological knowledge as a result of new exploration data.
| 11.7 | Mineral Resource Estimate |
This sub-section contains forward-looking information related to Mineral
Resource estimates for the Mine. Material factors that could cause actual results to differ materially from the conclusions, estimates,
designs, forecasts, or projections in the forward-looking information include any significant differences from one or more of the material
factors or assumptions that were set forth in this sub-section including geological and grade interpretations and the controls, assumptions
and forecasts associated with establishing the prospects for economic extraction.
The Mineral Resource estimate for the project is reported here in accordance
with S-K 1300 regulations. For estimating the Mineral Resources of Los Gatos, the following definition, as set forth in the S-K 1300 Definition
Standards adopted December 26, 2018, was applied.
Under S-K 1300, a Mineral Resource is defined as:
“… a concentration
or occurrence of material of economic interest in or on the Earth’s crust in such form, grade or quality, and quantity that there
are reasonable prospects for economic extraction. A mineral resource is a reasonable estimate of mineralization, taking into account relevant
factors such as cut-off grade, likely mining dimensions, location or continuity, that, with the assumed and justifiable technical and
economic conditions, is likely to, in whole or in part, become economically extractable. It is not merely an inventory of all mineralization
drilled or sampled.”
Note to readers: The Mineral Resources presented in this section
are not Mineral Reserves and do not reflect demonstrated economic viability. The reported Inferred Mineral Resources are considered too
speculative geologically to have the economic considerations applied to them that would enable them to be categorized as Mineral Reserves.
There is no certainty that all or any part of this Mineral Resource will be converted into Mineral Reserve. All figures are rounded to
reflect the relative accuracy of the estimates and totals may not sum precisely.
The estimated Mineral Resources reported exclusive of Mineral Reserves
are summarized in Table 11.11 on a 100% LGJV basis and on a 70% GSI attributable basis.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Mineral Resources presented in the tables are in accordance with the
definitions adopted by S-K 1300. The effective date of the Mineral Resource estimate is July 1, 2024.
Table 11.11: CLG Mineral Resource Estimate Exclusive
of Mineral Reserves
100% LGJV Basis |
Mt |
Ag
(g/t) |
Zn
(%) |
Pb
(%) |
Au
(g/t) |
Cu
(%) |
Ag
(Moz) |
Zn
(Mlbs) |
Pb (Mlbs) |
Au
(koz) |
Cu
(Mlbs) |
Measured |
0.24 |
222 |
2.78 |
1.51 |
0.36 |
0.07 |
1.7 |
14.7 |
8.0 |
2.8 |
0.3 |
Indicated |
0.55 |
75 |
3.71 |
2.00 |
0.21 |
0.25 |
1.3 |
44.8 |
24.1 |
3.7 |
3.1 |
Measured and Indicated |
0.79 |
120 |
3.43 |
1.85 |
0.26 |
0.20 |
3.0 |
59.5 |
32.0 |
6.5 |
3.4 |
Inferred |
1.51 |
80 |
4.22 |
2.01 |
0.22 |
0.29 |
3.9 |
140.2 |
66.9 |
10.5 |
9.5 |
70% GSI Attributable Basis |
Mt |
Ag
(g/t) |
Zn
(%) |
Pb
(%) |
Au
(g/t) |
Cu
(%) |
Ag
(Moz) |
Zn
(Mlbs) |
Pb (Mlbs) |
Au
(koz) |
Cu
(Mlbs) |
Measured |
0.17 |
222 |
2.78 |
1.51 |
0.36 |
0.07 |
1.2 |
10.3 |
5.6 |
2.0 |
0.2 |
Indicated |
0.38 |
75 |
3.71 |
2.00 |
0.21 |
0.25 |
0.9 |
31.4 |
16.9 |
2.6 |
2.1 |
Measured and Indicated |
0.55 |
120 |
3.43 |
1.85 |
0.26 |
0.20 |
2.1 |
41.6 |
22.4 |
4.6 |
2.4 |
Inferred |
1.06 |
80 |
4.22 |
2.01 |
0.22 |
0.29 |
2.7 |
98.2 |
46.8 |
7.4 |
6.7 |
Table 11.12: CLG Mineral Resource Estimate Inclusive
of Mineral Reserves
100% LGJV Basis |
Mt |
Ag |
Zn |
Pb |
Au |
Cu |
Ag |
Zn |
Pb |
Au |
Cu |
(g/t) |
(%) |
(%) |
(g/t) |
(%) |
(Moz) |
(Mlbs) |
(Mlbs) |
(koz) |
(Mlbs) |
Measured |
3.12 |
380 |
5.39 |
2.60 |
0.37 |
0.11 |
38.1 |
371.2 |
179.1 |
37.5 |
7.7 |
Indicated |
5.87 |
131 |
4.65 |
2.62 |
0.23 |
0.33 |
24.7 |
601.6 |
339.2 |
43.1 |
42.9 |
Measured and Indicated |
8.99 |
217 |
4.91 |
2.61 |
0.28 |
0.25 |
62.8 |
972.8 |
518.3 |
80.5 |
50.5 |
Inferred |
1.52 |
81 |
4.22 |
2.02 |
0.22 |
0.29 |
4.0 |
141.7 |
67.7 |
10.6 |
9.7 |
70% GSI Attributable Basis |
Mt |
Ag |
Zn |
Pb |
Au |
Cu |
Ag |
Zn |
Pb |
Au |
Cu |
(g/t) |
(%) |
(%) |
(g/t) |
(%) |
(Moz) |
(Mlbs) |
(Mlbs) |
(koz) |
(Mlbs) |
Measured |
2.18 |
380 |
5.39 |
2.60 |
0.37 |
0.11 |
26.7 |
259.8 |
125.4 |
26.2 |
5.4 |
Indicated |
4.11 |
131 |
4.65 |
2.62 |
0.23 |
0.33 |
17.3 |
421.2 |
237.4 |
30.1 |
30.0 |
Measured and Indicated |
6.29 |
217 |
4.91 |
2.61 |
0.28 |
0.25 |
43.9 |
681.0 |
362.8 |
56.4 |
35.4 |
Inferred |
1.07 |
81 |
4.22 |
2.02 |
0.22 |
0.29 |
2.8 |
99.2 |
47.4 |
7.5 |
6.8 |
Notes:
| 1. | Mineral Resources are reported on a 100% LGJV basis and 70% GSI attributable basis and exclusive and inclusive of Mineral Reserves. |
| 2. | Under SEC Regulation S-K 1300, a Mineral resource is a concentration or occurrence of material of economic interest in or on the Earth's
crust in such form, grade or quality, and quantity that there are reasonable prospects for economic extraction. A mineral resource is
a reasonable estimate of mineralization, taking into account relevant factors such as cut-off grade, likely mining dimensions, location
or continuity, that, with the assumed and justifiable technical and economic conditions, is likely to, in whole or in part, become economically
extractable. It is not merely an inventory of all mineralization drilled or sampled. |
| 3. | Mineral Resources which are not Mineral Reserves do not have demonstrated economic viability. The estimate of Mineral Resources may
be materially affected by environmental, permitting, legal, marketing, or other relevant issues. |
| 4. | The SEC definitions for Mineral Resources in S-K 1300 were used for Mineral Resource classification which are consistent with Canadian
Institute of Mining, Metallurgy and Petroleum (CIM) Definition Standards for Mineral Resources and Mineral Reserves (CIM (2014) definitions). |
| 5. | The quantity and grade of reported Inferred Mineral Resources in this estimation are uncertain in nature and there has been insufficient
exploration to define these Inferred Mineral Resources as an Indicated or Measured Mineral Resource. It is uncertain if further exploration
will result in upgrading Inferred Mineral Resources to an Indicated or Measured Mineral Resource category. |
| 6. | Specific gravity has been assumed on a dry basis. |
| 7. | Tonnage and contained metal have been rounded to reflect the accuracy of the estimate and numbers may not sum exactly. |
| 8. | Mineral Resources exclude all Mineral Resource material mined prior to July 1, 2024. |
| 9. | Mineral Resources are reported within stope shapes using a $70.94/tonne net smelter return (“NSR”) cut-off calculated
using an Ag price of US$23/oz, Zn price of US$1.25/lb, Pb price of US$0.95/lb, Au price of US$1,850/oz and Cu price of US$4.00/lb. The
NSR cutoff includes mill recoveries and payable metal factors appropriate to the existing CLG processing circuit augmented with a pyrite
leach circuit and copper separation circuit. The milling recoveries for these additional projects is based on existing metallurgical testwork.
The metallurgical recoveries that are used as inputs to the resource NSR are 93.2% Ag, 63.4% Zn, 61.1% Au and range between 87.2%-89.4%
Pb and between 66.5%-82.0% Cu. |
| 10. | No dilution was applied to the Mineral Resource which are reported on an in-situ basis (point of reference). |
| 11. | Contained Metal (CM) is calculated as follows: |
| a. | Zn, Pb and Cu CM (Mlb) = Tonnage (Mt) * Grade (%) / 100 * 2204.6 |
| b. | Ag and Au, CM (Moz) = Tonnage (Mt) * Grade (g/t) / 31.1035; multiply Au CM (Moz) by 1000 to obtain Au CM (koz) |
| 12. | The Mineral Resource estimates were prepared under the supervision of Ronald Turner, MAusIMM(CP) an employee of WSP who is the independent
Qualified Person for these Mineral Resource estimates. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The mineral resource estimate for the Esther deposit remains unchanged
from that published in the 2022 and 2023 TRS. It is re-produced in Table 11.13.
Table 11.13: Esther Mineral Resource Estimate
100% LGJV Basis |
Mt |
Ag (g/t) |
Zn
(%)
|
Pb
(%)
|
Au (g/t) |
Ag (Moz) |
Zn (Mlbs) |
Pb (Mlbs) |
Au (koz) |
Indicated |
0.28 |
122 |
4.30 |
2.17 |
0.14 |
1.1 |
26.8 |
13.6 |
1.2 |
Inferred |
1.20 |
133 |
3.69 |
1.53 |
0.09 |
5.1 |
98.0 |
40.6 |
3.3 |
70% GSI Attributable Basis |
Mt |
Ag (g/t) |
Zn |
Pb |
Au (g/t) |
Ag (Moz) |
Zn (Mlbs) |
Pb (Mlbs) |
Au (koz) |
(%) |
(%) |
Indicated |
0.20 |
122 |
4.30 |
2.17 |
0.14 |
0.8 |
18.8 |
9.5 |
0.8 |
Inferred |
0.84 |
133 |
3.69 |
1.53 |
0.09 |
3.6 |
68.6 |
28.4 |
2.3 |
Notes:
| 1. | Mineral Resources are reported on a 100% LGJV basis and 70% GSI attributable basis and are exclusive of Mineral Reserves (there are
no Mineral Reserves at Esther). |
| 2. | Under SEC Regulation S-K 1300, a Mineral resource is a concentration or occurrence of material of economic interest in or on the Earth's
crust in such form, grade or quality, and quantity that there are reasonable prospects for economic extraction. A mineral resource is
a reasonable estimate of mineralization, taking into account relevant factors such as cut-off grade, likely mining dimensions, location
or continuity, that, with the assumed and justifiable technical and economic conditions, is likely to, in whole or in part, become economically
extractable. It is not merely an inventory of all mineralization drilled or sampled. |
| 3. | Mineral Resources which are not Mineral Reserves do not have demonstrated economic viability. The estimate of Mineral Resources may
be materially affected by environmental, permitting, legal, marketing, or other relevant issues. |
| 4. | The SEC definitions for Mineral Resources in S-K 1300 were used for Mineral Resource classification which are consistent with Canadian
Institute of Mining, Metallurgy and Petroleum (CIM) Definition Standards for Mineral Resources and Mineral Reserves (CIM (2014) definitions). |
| 5. | The quantity and grade of reported Inferred Mineral Resources in this estimation are uncertain in nature and there has been insufficient
exploration to define these Inferred Mineral Resources as an Indicated or Measured Mineral Resource. It is uncertain if further exploration
will result in upgrading Inferred Mineral Resources to an Indicated or Measured Mineral Resource category. |
| 6. | Specific gravity has been assumed on a dry basis. |
| 7. | Tonnage and contained metal have been rounded to reflect the accuracy of the estimate and numbers may not sum exactly. |
| 8. | Mineral Resources are reported within stope shapes using a $52/tonne net smelter return (“NSR”) cut-off assuming processing
recoveries equivalent to CLG with a silver price of $22/oz, zinc price of $1.20/lb, lead price of $0.90/lb and gold price of $1,700/oz.
There is a portion of the Esther deposit that is oxidized and additional metallurgical test work is required to define processing
recoveries. |
| 9. | No dilution was applied to the Mineral Resource which are reported on an insitu basis (point of reference). |
| 10. | Contained Metal (CM) is calculated as follows: |
| a. | Zn, Pb and Cu CM (Mlb) = Tonnage (Mt) * Grade (%) / 100 * 2204.6 |
| b. | Ag and Au, CM (Moz) = Tonnage (Mt) * Grade (g/t) / 31.1035; multiply Au CM (Moz) by 1000 to obtain Au CM (koz) |
| 11. | The Mineral Resource estimates were prepared under the supervision of Ronald Turner, MAusIMM(CP) an employee of Golder Associates
S.A. who is the independent Qualified Person for these Mineral Resource estimates. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 12.0 | Mineral Reserve Estimates |
This section presents the Mineral Reserve estimate for the Cerro Los
Gatos Mine (CLG), effective July 1, 2024, and outlines the key assumptions, parameters, and methods employed in the estimation process.
Regulation S-K 1300 defines a Mineral Reserve as follows:
“Mineral reserve is an estimate of tonnage and grade or quality
of indicated and measured mineral resources that, in the opinion of the qualified person, can be the basis of an economically viable project.
More specifically, it is the economically mineable part of a measured or indicated mineral resource, which includes diluting materials
and allowances for losses that may occur when the material is mined or extracted.” (Regulation S-K 1300, 17 CFR Part 229, 229.1300
(Item 1300) Definitions)
The conversion of Measured and Indicated Mineral Resources to Proven
and Probable Mineral Reserves involves applying modifying factors while adhering to geometrical constraints dictated by the selected mining
method. These factors include, but are not restricted to, mining; processing; metallurgical; infrastructure; economic; marketing; legal;
environmental compliance; plans, negotiations, or agreements with local individuals or groups; and governmental factors.
| 12.2 | Methodology for Estimating Mineral Reserves |
The methodology applied by CLG for the 2024 Mineral Reserve estimate
follows industry-standard practices and remains consistent with the approach used for the 2023 update. It adheres industry best practices
for converting Measured and Indicated Resources into Proven and Probable Reserves by applying relevant Modifying Factors. These Modifying
Factors encompass economic, mining, metallurgical, legal, environmental, and social considerations.
The reserve estimation process includes the following key steps:
| n | Review the geological block model of the resource received from geology. |
| n | Review the long-term metal price assumptions to ensure they are reasonable. |
| n | Estimate the on-site production costs according to the mining method and mining situation. |
| n | Estimate the economic modifying factors: NSR cut-offs and the parameters for NSR values. |
| n | Apply economic modifying factors to the block model and exclude Inferred Mineral Resources. |
| n | Analyze resource characteristics to select viable mining methods for each geological domain. |
| n | Estimate mining modifying factors: dilution and mining recovery. |
| n | Determine mine design parameters, such as stope dimensions, minimum mining width, and minimum footwall angle for LHS. |
| n | Outline potentially mineable shapes in the block model based on the resource value exceeding the NSR cut-off. |
| n | Screen potentially mineable shapes with the Mineable Shape Optimizer application in Deswik software. |
| n | Refine potentially mineable shapes by removing un-mineable resource material. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| n | Design mine development and mine infrastructure in mine design software. |
| n | Carry out economic analysis of the mineable shapes, removing areas that are not viable. |
| n | Determine production sequencing with Scheduler software. |
| n | Prepare a life-of-mine plan for development and production. |
| n | Estimate capital, operating, and sustaining capital costs associated with the LOM plan. |
| n | Verify the economic viability of the proposed reserve. |
| n | Prepare the Mineral Reserve statement. |
| 12.3 | Metal Prices and Exchange Rate |
Table 12.1 presents the metal prices and exchange rate that CLG used
in estimating the Mineral Reserve, including the data utilized to determine these values. They were established based on the three-year
trailing monthly averages from June 2021 to June 2024 and long-term consensus estimates from industry analysts.
The QP has reviewed the long-term metal prices and exchange rate and
is of the opinion that they are reasonable and appropriate for the estimating of the Mineral Reserve.
Table 12.1: Metal Prices and Exchange Rate Used in the Mineral
Reserve Estimate
|
Silver |
Zinc |
Lead |
Gold |
Copper |
MXN |
|
US$/oz |
US$/lb |
US$/lb |
US$/oz |
US$/lb |
MXN/ $1 USD |
3-Year Trailing Average |
23.37 |
1.37 |
0.98 |
1,915 |
4.03 |
18.87 |
Long-term Consensus |
24.00 |
1.20 |
0.94 |
1,875 |
4.00 |
21.59 |
2024 R&R Assumptions |
23.00 |
1.25 |
0.95 |
1,850 |
4.00 |
20.00 |
Source: CLG, 2024
CLG is a polymetallic deposit, and the viability of mining the resource
is assessed in terms of monetary unit values rather than grades or equivalent grades, as is typically the case at mines with a single
predominant metal. This value is estimated as the Net Smelter Return (NSR) CLG expects to receive at the mine gate for each tonne of run-of-mine
(ROM) ore mined and processed. The NSR value relates to the expected net value received for metal in saleable concentrate, net of costs
for transportation, and associated smelting and refining charges. This establishes a common metric for the economic threshold required
to be exceeded by material designated as mineralized material (or ore) as well as for an assignment of value of the tonnes to be mined
from any one block and the entirety of the deposit.
Table 12.2 presents key parameters used to calculate the NSR value of
a tonne of potentially mineable material. The NSR for each block in the resource block model was calculated based on the block head grade,
plant recoveries for each metal, concentrate grades, moisture and transportation costs, concentrate sales terms, and metal prices.
Economic assumptions for the determination of the NSR for each block
used for stope optimization and the generation of stope solids vary based on the ratio of Pb:Cu in each block. For a Pb:Cu ratio of greater
than 15, zinc and lead concentrates are considered, and copper is assumed to not be payable in the lead concentrate. For a Pb:Cu ratio
of less than 15 but greater than 7, zinc and lead concentrates are considered, and copper is assumed to be payable in the lead concentrate.
Lastly, for a Pb:Cu ratio of less than 7, zinc, lead and copper
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
concentrates are considered. For concentrate sales terms, standard industry
terms, consistent with those experienced to date, were considered for payable values, with management’s expectations for long-term
rates considered for treatment and refining charges.
For clarity, these economic assumptions applied on a block basis are
not the final metallurgical and cost parameters that were used for the economic analysis of the Mineral Reserve. Specifically, the plant
production profile is calculated based on the blended plant feed grades after mine scheduling. Material that has an NSR calculated as
not receiving payable copper can still receive payable copper in the economic analysis if the average Pb Concentrate grade is above the
payable threshold. See Section14 for the metallurgical assumptions and chapter 19 for the economic analysis that present the payable concentrate
quantities.
Table 12.2: Parameters for Calculating NSR Values
|
|
|
Silver |
Zinc |
Lead |
Gold |
Copper |
Metal Prices |
|
$23.00/oz |
$1/25/lb |
$0.95/lb |
$1850/oz |
$4.00/lb |
Plant Recovery (%) |
Pb/Cu >15 |
to Zn CCT |
10.20% |
63.40% |
|
|
|
to Pb CCT |
78.00% |
|
89.40% |
54.20% |
|
Pb/Cu >7,<15 |
to Zn CCT |
10.20% |
63.40% |
|
|
|
to Pb CCT |
78.00% |
|
89.40% |
54.20% |
82.00% |
Pb/Cu <7 |
to Zn CCT |
10.20% |
63.40% |
|
|
|
to Pb CCT |
23.00% |
|
87.20% |
11.20% |
15.50% |
to Cu CCT |
55.00% |
|
|
43.00% |
66.50% |
Concentrate Grades (%) |
Pb/Cu >15 |
|
|
56.28% |
53.42% |
|
|
Pb/Cu >7, <15 |
|
|
56.28% |
53.42% |
|
|
Pb/Cu <7 |
|
|
56.28% |
71.52% |
|
23.02% |
Concentrate Moisture (%) |
|
|
|
8.00% |
7.50% |
|
7.50% |
Concentrate Transport ($/wmt) |
|
|
|
$197.80 |
$112.80 |
|
$112.80 |
CLG utilized NSR cut-offs in the process of estimating the Mineral Reserve.
The viability of mining a tonne of diluted measured or indicated resource material (mineralized material) is determined by comparing its
NSR value to its NSR cut-off. An NSR cut-off represents the onsite costs to mine and process a tonne of the mineralized material, including
general and administration costs. If the material’s NSR value exceeds the NSR cut-off threshold, it may be profitable to mine and
process it, and it can be considered as a candidate for inclusion in the Mineral Reserve.
Table 12.3 presents the calculations
for the NSR cut-offs used in the Mineral Reserve estimate. The estimates of NSR cut-offs are based on actual costs, with certain adjustments
to ensure they are representative of expected life-of-mine costs. The NSR cut-offs include mining, processing, and G&A costs, which
are divided into
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
variable/direct and fixed/indirect categories. Six NSR cut-offs were
applied, based on three mining methods and two cost allocation approaches
Mining Methods
| 1. | Cut-and-Fill (CAF): Includes both the longitudinal and transverse approaches for mining with this method. |
| 2. | Sill: Refers to the drift(s) driven through the mineralized material of a longhole stope. |
| 3. | Longhole Stoping (LHS): Includes both the longitudinal and transverse approaches. Applies to the mineralized material within
the LHS stope shape but excludes the material accounted for as Sill. |
Although both Sill and LHS apply to longhole stopes, Sill is more expensive
as it involves drift development.
Cost Allocation Approaches
| 1. | Full-Cost NSR Cut-Off: Applies to mineralized material with sufficient value to fully support its on-site production cost. |
| 2. | Incremental NSR Cut-Off: Applies to mineralized material grading below the full-cost NSR cut-off that could still be considered
for inclusion in the Mineral Reserve if certain costs to mine and process it can be assumed to be zero. |
CLG's methodology for estimating NSR cut-offs aligns with the 2023 Mineral
Reserve estimate and is consistent with the practices of many other mines, where the calculation is typically limited to operating costs.
For future Mineral Reserve estimates, WSP recommends investigating whether specific mine closure and sustaining capital expenditures related
to both the mine and the processing plant should be incorporated as relevant costs in determining the NSR cut-offs. It is noted, however,
that sustaining capital, including essential mine development and infrastructure, is already considered during mine planning evaluations
to assess the economic viability of developing new areas.
Table 12.3: Calculations of NSR Cut-Offs
Cost |
Cost |
Unit |
Full Cost |
Incremental Cost |
Center |
Type |
|
Cut-and-fill |
Sill |
Longhole |
Cut-and-fill |
Sill |
Longhole |
Mining |
Fixed / Indirect |
$US/t |
29.97 |
29.97 |
19.72 |
0.00 |
0.00 |
0.00 |
Variable / Direct |
$US/t |
27.83 |
28.89 |
16.28 |
27.83 |
28.89 |
16.28 |
Processing |
Fixed / Indirect |
$US/t |
9.35 |
9.35 |
9.35 |
9.35 |
9.35 |
9.35 |
Variable / Direct |
$US/t |
15.89 |
15.89 |
15.89 |
15.89 |
15.89 |
15.89 |
General & Admin. |
Fixed / Indirect |
$US/t |
15.91 |
15.91 |
15.91 |
15.91 |
15.91 |
15.91 |
Total Operating Cost (NSR Cut-off) |
|
$US/t |
98.94 |
100.01 |
77.14 |
68.97 |
70.04 |
57.43 |
Source: CLG, 2024
| 12.6 | Mining Recovery and Dilution |
Estimates for mining recovery and unplanned dilution are derived from
recent operational data, validated through cavity monitoring system (CMS) surveys, production data reconciliation, and geotechnical evaluations.
These assumptions are applied based on the mining method, stope width, zone inclination and proximity to hanging-wall faults.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Mining recovery represents the proportion of stope material that is
extracted and delivered to the processing plant, accounting for losses caused by various factors, including under-excavation of stope
boundaries and incomplete extraction of broken ore within stopes.
Unplanned dilution occurs when material below the cut-off grade is unintentionally
extracted alongside the targeted mineralized material within stope boundaries. The two main sources of unplanned dilution are: (1) overbreak,
where host rock is excavated beyond the designed stope limits, and (2) the inadvertent extraction of backfill material, consisting of
either cemented rockfill or paste backfill. In the estimation of Mineral Reserves, all unplanned dilution is treated as waste material,
with an assumed metal grade of zero.
CLG estimates mining recovery and host-rock dilution by considering
several factors, including mining method, stoping approach, zone, vein dip, vein width, and geotechnical conditions, including whether
the stope is influenced by the Los Gatos fault.
Mining recovery is expressed as a percentage of the diluted stope material,
while host-rock dilution is estimated as a percentage of the undiluted stope material. For LHS, dilution percentages are converted to
Equivalent Linear Overbreak Slough (ELOS), which measures overbreak in meters beyond the footwall (FW) and hanging wall (HW) of the undiluted
stope boundaries. The ELOS increases with vein width and is higher in stopes dipping less than 70° in the NW and SE zones. Table 12.4
and Table 12.5 present the factors for mining recovery and unplanned host-rock dilution for LHS and CAF, respectively.
In addition to host-rock dilution, CLG estimates backfill dilution as
a percentage of the undiluted stope shape (see Table 12.6). This estimate takes into account backfill type, mining method, stoping approach,
and stope type (primary and secondary stopes).
ELOS dilution factors for LHS are utilized as input parameters in the
stope optimization analysis using the Mineable Shape Optimizer. On the other hand, the percentage factors for mining recovery, CAF host-rock
dilution, and backfill dilution are applied during the scheduling phase of the Mineral Reserve estimation.
For future analyses of host-rock dilution with LHS, WSP recommends verifying
whether ELOS increases with vein width and whether footwall ELOS is indeed greater for shallower-dipping veins of the same width. The
underlying reasons for these relationships are unclear and warrant further investigation.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 12.4: Mining Recovery and Host-Rock Dilution – Longhole
Stoping
Width |
Dilution |
ELOS Dilution |
Recovery |
Longitudinal Longhole Stoping |
Dip > 70˚ |
2 m |
40% |
0.40 m HW + 0.40 m FW |
95% |
2 to 3 m |
30% |
0.45 m HW + 0.45 m FW |
95% |
3 to 5 m |
30% |
0.75 m HW + 0.75 m FW |
95% |
5 to 8 m |
20% |
0.80 m HW + 0.80 m FW |
95% |
> 8 m |
20% |
1.20 m HW + 1.20 m FW |
95% |
NW and SE Zones - Dip 55˚ to 70˚ |
2 m |
45% |
0.45 m HW + 0.45 m FW |
95% |
2 to 3 m |
35% |
0.525 m HW + 0.525 m FW |
95% |
3 to 5 m |
35% |
0.875 m HW + 0.875 m FW |
95% |
5 to 8 m |
25% |
1.00 m HW + 1.00 m FW |
93% |
> 8 m |
25% |
1.50 m HW + 1.50 m FW |
93% |
CZ Zone - Dip 55˚ to 70˚ |
2 m |
40% |
0.40 m HW + 0.40 m FW |
95% |
2 to 3 m |
30% |
0.45 m HW + 0.45 m FW |
95% |
3 to 5 m |
30% |
0.75 m HW + 0.75 m FW |
95% |
5 to 8 m |
20% |
0.80 m HW + 0.80 m FW |
95% |
> 8 m |
20% |
1.20 m HW + 1.20 m FW |
95% |
Transverse Longhole Stoping |
NW Zone |
15% |
0.6 m HW + 0.6 m FW |
91% |
CZ Zone |
15% |
0.6 m HW + 0.6 m FW |
85% |
Source: CLG, 2024
Table 12.5: Mining Recovery and Host-Rock Dilution– Cut-and-Fill
Stopes
Width |
Los Gatos Fault |
Dilution |
Recovery |
|
|
|
|
Longitudinal cut-and-fill |
Min. 4 m |
No influence of the fault |
7% |
95% |
Min. 4 m |
Under influence of the fault |
12% |
93% |
Transverse cut-and-fill |
Max. 8 m |
No influence of the fault |
5% |
97% |
Max. 8 m |
Under influence of the fault |
7% |
95% |
Source: CLG, 2024
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 12.6: Backfill Dilution
Backfill Type and Mining Method |
Dilution |
Cemented Rockfill |
|
Transverse longhole stoping - Primaries |
0% |
Transverse longhole stoping - Secondaries |
6% |
Primaries & secondaries together |
3% |
Longitudinal longhole stoping |
3% |
Paste Backfill |
|
Transverse longhole stoping - Primaries |
0% |
Transverse longhole stoping - Secondaries |
10% |
Primaries & secondaries together |
5% |
Longitudinal longhole stoping |
3% |
Cut-and-fill mining |
3% |
Source: CLG, 2024
The Mineable Shape Optimizer (MSO) algorithm, integrated into the Deswik
mine design software, was used to determine the preliminary stope solids. This stope optimization analysis identifies the potentially
mineable portions of the Mineral Resource that can be considered for inclusion in the Mineral Reserve. MSO works through an iterative
process, generating and evaluating potentially mineable shapes within the geological block model to define optimal stope designs that
maximize the economic value of the orebody.
This process considers several factors, including, deposit geometry,
mining methods, geological and geotechnical constraints, modifying factors and mine design parameters.
| 12.8 | Mineral Reserve Estimate |
Table 12.7 presents the Mineral Reserve estimate for the CLG mine as
of July 1, 2024, reported on both a 100% LGJV basis and 70% GSI attributable basis.
The estimate consists of Proven and Probable in-situ ore plus 5 kt of
Proven ore stockpiled on surface as of the effective date of the estimate. Approximately 89.4% of the Mineral Reserve was determined using
full-cost NSR cut-offs, while the remaining 10.6% was estimated with incremental-cost NSR cut-offs.
The Mineral Reserves are disclosed with a “mill feed” reference
point; consequently, they are reported as ROM ore delivered to the processing plant and do not include reductions attributed to anticipated
plant recovery and losses. The Mineral Reserves are inclusive of mining recovery and dilution, as described in Section 12.6.
Figure 12.1 illustrates the Mineral Reserves in a long section
view.
The mine design, mine plan, and Mineral Reserve estimate were prepared
by the CLG Technical Services Department under the supervision of the QP responsible for the estimate. The QP is of the opinion that the
Mineral Reserve estimate for the CLG Mine has been prepared in accordance with the following guidelines and standards:
| n | The Canadian Institute of Mining, Metallurgy and Petroleum (CIM) “Estimation of Mineral Resources and Mineral Reserves Best
Practice Guidelines” (November 29, 2019) |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| n | CIM Definition Standards for Mineral Resources and Mineral Reserves (May 10, 2014) |
| n | National Instrument 43-101 Disclosure Standards (June 24, 2011) |
| n | Securities and Exchange Commission (SEC) Subpart 229.1300 of Regulation S-K, Disclosure by Registrants Engaged in Mining Operations
(December 26, 2018) |
The QP is not aware of any mining, metallurgical, infrastructure, permitting,
or other relevant factors that could materially affect the Mineral Reserve estimate.
Table 12.7: CLG Mineral Reserves as of July 1, 2024, Reported on
a 100% and 70% Basis
100% LGJV Basis |
Mt |
Ag |
Zn |
Pb |
Au |
Cu |
Ag |
Zn |
Pb |
Au |
Cu |
(g/t) |
(%) |
(%) |
(g/t) |
(%) |
(Moz) |
(Mlbs) |
(Mlbs) |
(koz) |
(Mlbs) |
Proven |
3.49 |
300 |
4.35 |
2.09 |
0.29 |
0.09 |
33.6 |
334.4 |
160.6 |
32.6 |
7.0 |
Probable |
6.85 |
107 |
3.66 |
2.06 |
0.18 |
0.26 |
23.6 |
552.3 |
310.9 |
40.5 |
40.0 |
Proven and Probable |
10.33 |
172 |
3.89 |
2.07 |
0.22 |
0.21 |
57.3 |
886.7 |
471.4 |
73.1 |
46.9 |
|
|
|
|
|
|
|
|
|
|
|
|
70% GSI Attributable Basis |
Mt |
Ag |
Zn |
Pb |
Au |
Cu |
Ag |
Zn |
Pb |
Au |
Cu |
(g/t) |
(%) |
(%) |
(g/t) |
(%) |
(Moz) |
(Mlbs) |
(Mlbs) |
(koz) |
(Mlbs) |
Proven |
2.44 |
300 |
4.35 |
2.09 |
0.29 |
0.09 |
23.5 |
234.1 |
112.4 |
22.8 |
4.9 |
Probable |
4.80 |
107 |
3.66 |
2.06 |
0.18 |
0.26 |
16.5 |
386.6 |
217.6 |
28.4 |
28.0 |
Proven and Probable |
7.23 |
172 |
3.89 |
2.07 |
0.22 |
0.21 |
40.1 |
620.7 |
330.0 |
51.2 |
32.8 |
Notes:
| 1. | Mineral Reserves are reported on a 100% basis and 70% GSI attributable basis and exclude all mineral reserve material mined prior
to July 1, 2024. |
| 2. | Specific gravity has been assumed on a dry basis. |
| 3. | Tonnage and contained metal have been rounded to reflect the accuracy of the estimate and numbers may not sum exactly. |
| 4. | Values are inclusive of mining recovery and dilution. Values are determined as of delivery to the mill (point of reference) and therefore
not inclusive of milling recoveries. |
| 5. | Mineral Reserves are reported within stope shapes using a variable cut-off basis with a Ag price of US$23/oz, Zn price of US$1.25/lb,
Pb price of US$0.95/lb, Au price of US$1,850/oz and Cu price of US$4.00/lb. Metallurgical recoveries used in the NSR calculation for generation
of the stope solids vary based on the block Pb:Cu ratio. For a Pb:Cu ratio >15 the NSR metallurgical recovery parameters were 88.2%
Ag, 63.4% Zn, 89.4% Pb, 54.2% Au and 0% Cu, for Pb:Cu of >7 and <15, the NSR metallurgical recovery parameters were 88.2% Ag, 63.4%
Zn, 89.4% Pb, 54.2% Au and 60% Cu and for Pb:Cu ratio of <7 the NSR metallurgical recovery parameters used were 88.2% Ag, 63.4% Zn,
87.2% Pb, 54.2% Au and 82% Cu. The metallurgical recovery parameters in the economic analysis, after plant production modeling, average
88.2% Ag, 63.1% Zn, 88.5% Pb, 54.2% Au and 71.5% Cu to concentrates where the metal is payable. |
| 6. | The Mineral Reserve is reported on a fully diluted basis defined by mining method, stope geometry and ground conditions. |
| 7. | Contained Metal (CM) is calculated as follows: |
| • | Zn, Pb and Cu, CM (Mlb) = Tonnage (Mt) * Grade (%) / 100 * 2204.6 |
| • | Ag and Au, CM (Moz) = Tonnage (Mt) * Grade (g/t) / 31.1035; multiply Au CM (Moz) by 1000 to obtain Au CM (koz) |
| 8. | The SEC definitions for Mineral Reserves in Regulation S-K 1300 were used for Mineral Reserve classification and are consistent with
Canadian Institute of Mining, Metallurgy and Petroleum (CIM) Definition Standards for Mineral Resources and Mineral Reserves (CIM (2014)
definitions). |
| 9. | Under SEC Regulation S-K 1300, a Mineral Reserve is defined as an estimate of tonnage and grade or quality of indicated and measured
mineral resources that, in the opinion of the qualified person, can be the basis of an economically viable project. More specifically,
it is the economically mineable part of a measured or indicated mineral resource, which includes diluting materials and allowances for
losses that may occur when the material is mined or extracted. The Mineral Reserve estimates were prepared under the supervision of Mr.
Stephan Blaho, P.Eng., an employee of WSP Canada Inc. who is the independent Qualified Person for these Mineral Reserve estimates. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 12.1: Long Section of Mine Illustrating 2024 Mineral
Reserves and 2023 Mineral Reserves
| 12.9 | Factors Potentially Affecting the Mineral Reserve Estimate |
The Mineral Reserve estimate could be materially affected by the following
risk factors:
| n | Elevated temperatures in the underground work environment affecting productivity |
| n | Geotechnical conditions, especially in proximity to the Los Gatos Fault |
| n | Dewatering capacity to manage groundwater inflows as the mine deepens |
| n | Dilution exceeding estimates |
| n | Mining recovery falling short of estimates |
| n | Metal grades falling short of estimates. |
| n | Equipment productivities |
| n | Metallurgical recoveries |
| n | Mill throughput capacity |
| n | Operating costs exceeding estimates |
| n | Capital costs exceeding estimates |
| n | Changes to the permitting and regulatory environment |
| n | Changes in the taxation conditions |
| n | Ability to maintain mining concessions and/or surface rights |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 13.1 | Description of the Mine and Deposit |
CLG is an underground mine producing about 2,900 tonnes per day of ore.
The orebody is an epithermal vein-type deposit containing polymetallic mineralization. The portion of the deposit of economic interest
occurs roughly 170 m to 900 m below the surface elevation at the portal and extends approximately 1,800 m along strike. The exploited
veins vary in thickness, ranging from 1 m to 30 m and averaging 5 m to 12 m in true width.
The ground conditions in parts of the deposit are adversely affected
by a major fault in the hanging wall called the Los Gatos Fault. It extends sub-parallel to the deposit and ranges in thickness from 5
m to 30 m. Its distance from the veins varies from immediately adjacent to their contacts to up to 100 meters. The Los Gatos fault and
the mineralized zones are offset by two crosscutting sub-vertical faults called Antigatos-1 and Antigatos-2.
As illustrated in Figure 13.1, the deposit consists of four zones called
the Northwest (NW), Central (CZ), Southeast Upper (SEU), and Southeast (SE) zones. Figure 13.2 illustrates the four zones in cross-section,
and Table 13.1 summarizes their key characteristics that determine the mining method or methods that CLG has selected for each zone.
CLG effectively addresses challenges with groundwater, elevated temperatures,
and ground conditions in developing and operating the underground mine:
| n | Groundwater Management: CLG controls groundwater conditions with a system of dewatering wells collared underground. CLG has allocated
capital for establishing additional underground wells as the mine deepens. The mine has an independent dewatering system to pump the non-contact
water from the wells out of the mine. |
| n | Temperature Control: CLG has two cooling plants to manages the temperatures of the underground work environment. The capacity of the
ventilation system exceeds the diesel equipment requirement to improve the underground working environment. The dewatering wells collared
on surface and underground manage groundwater inflows, which are the principal source of heat in the mine. |
| n | Ground Conditions: Cable bolts are installed in longhole stopes as required to enhance ground stability. Mined-out stopes are generally
backfilled with cemented paste fill or cemented rockfill. The mining approach is adapted to the specific geotechnical conditions encountered
in each area of the deposit. Additional ground support will be installed in areas with the potential for high compressive stresses. |
The QP is of the opinion that CLG has implemented effective measures
and provided appropriate equipment and infrastructure to manage ground conditions, groundwater inflows, and underground temperatures.
However, it is anticipated that dewatering and temperature control challenges may increase as mining operations advance deeper.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG, 2024
Figure 13.1: Long Section of the CLG Deposit Showing the Four Zones
NW Zone |
CZ Zone |
SEU Zone |
SE Zone |
Source: CLG, 2024
Figure 13.2: Typical Cross-Sections of the Zones at CLG
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 13.1: Characteristics of the Zones at CLG
Zone |
Dip |
True Thickness |
Ground Conditions |
Configuration of Mineralization |
NW Zone |
75˚ to 90˚ |
5 to 12 m |
The top of zone (previously mined) was affected by the Los Gatos fault, but current reserves are distant from this structure. |
Single vein |
CZ Zone |
Hanging wall 80˚ flattening to 55˚ at depth, footwall vein is steeper |
Up to 30 m |
Ground conditions in parts of the zone are affected by proximity to the Los Gatos Fault. |
Two or three veins of varying thickness and dip |
SEU Zone |
60˚-70˚ flattening to 55˚ at lower levels |
3.5 to 8 m |
Ground conditions in parts of the zone are affected by the Los Gatos Fault. |
Single vein |
SE Zone |
About 70˚ |
4 to 12 m |
Fair to good ground conditions as the hanging wall is situated 10 to 20 m from Los Gatos fault. |
Two veins but generally only one has sufficient grade to mine. |
Source: CLG, 2024
The rock mass strength, quality and behaviour are controlled by the
major faults, the hydrothermal alteration and in particular the argillic alteration and groundwater inflows.
The rock mass quality is blocky to very blocky and generally characterized
as fair to poor, with the RMR89 (Bieniawski, 1989) in the range of 60 to 30, with an average of 50. Proximity to the major
faults, including their intersections, tend to present poor ground conditions.
The host rhyolite, dacite tuff and andesite rock mass strengths are
moderately strong to strong. These rock mass strengths reduce to weak to very weak in the hanging wall of the stopes and when in close
proximity to the Los Gatos Fault or other faults, as shown in Table 13.2, which contains the laboratory test results carried out by Stantec
for Tetra Tech, 2020.
Table 13.2: Rock Strength Laboratory Test Results (MPa)
Laboratory testing |
Hanging Wall Andesite (Los Gatos Fault) |
Host Andesite (between ore vein) |
Mineralization |
Footwall Andesite |
Tuff Dacite |
Average UCS |
14.7 |
68.4 |
74.6 |
101 |
50 |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The rock strength is also impacted by the hydrothermal alteration, in
particular, the argillic alteration, which is associated with the epithermal mineralization of the deposit. Argillic alteration is prominent
in the vein contacts and in the proximity of faults.
Groundwater seepage occurs from basically two sources: one related to
precipitation and recharge from the alluvium and epiclastic rock mass located in the hanging wall, producing water of normal temperature.
The other source is heat-driven upward flow that produces water with relatively high groundwater temperatures (e.g., up to 70°
C). Areas with high groundwater flow, primarily in the lower levels of the primary ramps, exhibit reduced rock mass quality causing significant
delays in advancing the ramp or other excavations and, due to heat introduced by the groundwater inflow, creates a challenging environment
for mine workers. To counteract that, the mine has installed deep dewatering wells inside the mine and plans to add deeper wells as mining
progresses to depth.
The typical potential mode of failure for the rock mass is associated
with gravity failure (unravelling) due to a loss of confinement, which allows blocks or wedges to move freely along existing weakness
planes such as joints and faults. In weak, very blocky and poor rock masses, where the blocks of rock are less than about 10 cm in size,
the back of the drift or ramp may collapse within a short stand-up time, requiring the use of shotcrete and installation of light frame
metal arches.
With the deepening of the mineralized zones, the magnitude of the induced
stresses will increase which could bring rock mass damage initiation to potentially rock mass failure due to the high compressive induced
stresses. In-situ stress tensors obtained from the Acoustic Emission Method (Villaescusa and Hogan, 2016) indicate the principal stress
orientations, shown on Table 13.3 (from Tetra Tech, 2020).
Table 13.3: In-situ Stress Tensors
Stress Tensor Component |
Value |
Orientation |
Plunge |
(MPa) |
Major Principal Stress |
3 + 0.0532*D |
116° |
9° |
Intermediate Principal Stress |
1 + 0.0422*D |
25.5° |
1° |
Minor Principal Stress |
0.0273*D |
298° |
82° |
For illustration purposes, assuming an average intact rock strength
(UCS) of 75 MPa, surface elevation of 1,590 m, the planned lowest levels of 1,113 m (NW zone), 1,135 m (CZ zone) and 865 m (SE zone),
an in situ major horizontal stress of 1.8 times the vertical stress, Figure 13.3 indicates potential for rock mass failure caused by high
compressive induced stresses to occur for depths greater than about 500 m. This figure also indicates the current operating 1,225 level
might only have seen rock mass damage initiation (or fracturing). The observed excavations on this level confirm that the compressive
stresses are still not high at this elevation (depth of 365 m). In-situ stress measurement tests are recommended to investigate the magnitude
and orientation of these principal stresses to anticipate the magnitude of induced stresses for the SE zone.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 13.3: Illustration of Possible Rock Mass Damage and Failure
Due to High Compressive Induced Stresses for Different Mining Depths
| 13.2.1.1 | Ground Support - Tunnels |
The ground support designs are based on a commonly used empirical Ground
Support Design Graph (Grimstad and Barton, 1993 and revised NGI, 2015), kinematic analyses using the major and minor discontinuities sets,
and numerical analysis. The Ground Support Design Graph relates the rock mass quality obtained by the Q-system (Barton et al., 1974) and
the span of the proposed excavation to ground support requirements, using an equivalent dimension, which is defined as the width of the
underground opening, divided by the Excavation Support Ratio (ESR), as depicted on Figure 13.4.
For the CLG mine, a ground support specification was developed by CLG
geotechnical engineers to provide guidance for a total of six support classes (CS1 to CS5) which are correlated with the rock mass quality
varying from Very Good to Extremely Poor (Figure 13.4).
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: NGI, 2015
Figure 13.4: Ground Support Design Graph, based on Rock Mass Quality,
Q
Based on Figure 13.4 and the kinematic and numerical analysis results
(Stantec for Tetra Tech, 2020), Table 13.4 and Table 13.5 provide, for example, the Ground Support Specification in tabular format for
temporary and permanent 5.0 m x 5.5 m excavation, respectively.
For tunnel intersections, the effective span equates to the diameter
of the largest circle that can be inscribed within the open intersection area (i.e., mined dimensions, not planned dimensions). Cable
bolts will be installed at intersections as a secondary ground support, as described in Table 13.6, These cables will be installed using
a cable bolter equipment.
| 13.2.1.2 | Ground Support – Stopes |
For the cut-and-fill method, stope dimensions are based on the Stand-up
Time Curve and the Span Design Curve. The Stability Graph Empirical Method was used to determine longhole stope dimensions. The stope
design dimension will describe the methodology used, the results obtained, and the recommendations for stope dimensions from a geotechnical
perspective.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 13.4: Ground Support Specification for Temporary 5 m x 5.5
m Excavation
Support Class |
Ground Condition |
GSI (Q) |
Bolt Type |
Bolting |
Bolt Spacing |
Mesh |
Poly fiber Shotcrete -
compressive strength of 250
kg/cm2 |
Steel Arches |
CS1 |
Very Good |
80 – 100
(Q > 40)
|
Split Set: 2.4 m L x 39 mm Φ |
Spot bolting of back |
As required |
|
|
|
CS2 |
Good |
61 - 80
(6 < Q < 40)
|
Split Set: 2.4 m L x 39 mm Φ |
Pattern bolting of back + walls to 2.8m above floor |
1.5 m x 1.0 m
Rhombic distribution
|
As required |
|
|
CS3 |
Fair |
41 – 60
(0.6 < Q < 6)
|
Split Set: 2.4 m L x 39 mm Φ |
Pattern bolting of back + walls to 2.8 m above floor |
1.5 m x 1.0 m
Rhombic distribution
|
Mesh back and to 2.8 m above floor |
|
|
CS4A |
Poor |
31 – 40
(0.2 < Q < 0.6)
|
Super Swellex: 2.4m L x 39 mm Φ |
Pattern bolting of back + walls to 1.7 m above floor |
1.5 m x 1.0 m
Rhombic distribution
|
|
50 mm on back and walls |
|
CS4B |
Poor |
21 – 30
(0.1 < Q < 0.2)
|
Super Swellex: 2.4m L x 39 mm Φ |
Pattern bolting of back + walls to 1.5 m above floor |
1.2 m x 1.2 m |
|
75 mm on back; 100 mm on walls; |
Light frame arches at 1.5 m spacing |
CS5 |
Very to Extremely Poor |
< 20
(Q<0.1)
|
Super Swellex: 2.4m L x 39 mm Φ |
Pattern bolting of back + walls to 1.5 m of floor |
1.2 m x 1.2 m |
|
100 mm (50 mm + 50 mm) on back; 150 mm on walls, encapsulating steel frames; |
Light frame arches at 1.0 m spacing |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 13.5: Ground Support Specification for Permanent 5 m x 5.5
m Excavation
Support Class |
Ground Condition |
GSI (Q) |
Bolt Type |
Bolting |
Bolt Spacing |
Mesh |
Poly fiber Shotcrete - compressive strength of 250 kg/cm2 |
Steel Arches |
CS1 |
Very Good |
80 – 100
(Q > 40)
|
Super Swellex: 2.4 m L x 39 mm Φ |
Spot bolting of back |
As required |
If required |
|
|
CS2 |
Good |
61 - 80
(6 < Q < 40)
|
Super Swellex: 2.4 m L x 39 mm Φ |
Pattern bolting of back + walls to 3.8m above floor |
1.5 m x 1.5 m
Rhombic distribution
|
|
50 mm on back and walls |
|
CS3 |
Fair |
41 – 60
(0.6 < Q < 6)
|
Super Swellex: 2.4 m L x 39 mm Φ |
Pattern bolting of back + walls to 2.8 m above floor |
1.5 m x 1.0 m
Rhombic distribution
|
|
50 mm on back and walls |
|
CS4A |
Poor |
31 – 40
(0.2 < Q < 0.6
|
Super Swellex: 2.4m L x 39 mm Φ |
Pattern bolting of back + walls to 1.5 m above floor |
1.5 m x 1.0 m
Rhombic distribution
|
Mesh back and 1.5 m above floor |
75 mm on back and walls |
|
CS4B |
Poor |
21 – 30
(0.1 < Q < 0.2)
|
Super Swellex: 2.4m L x 39 mm Φ |
Pattern bolting of back + walls to 1.5 m above floor (invert) |
1.2 m x 1.2 m |
Mesh back and 1.5 m above floor |
75 mm on back; 150 mm on walls, encapsulating steel frames; |
Light frame arches at 1.5 m spacing |
CS5 |
Very to Extremely
Poor
|
< 20
(Q<0.1)
|
Super Swellex: 2.4m L x 39 mm Φ |
Pattern bolting of back + walls to 1.5 m of floor (invert); |
1.0 m x 1.0 m |
|
100 mm (50 mm + 50 mm) on back; 200 mm on walls, encapsulating steel frames; |
Light frame arches at 0.75 m spacing |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 13.6: Ground Support Specification at Intersections
Excavation type |
Span (m) |
Primary Support (m) |
Secondary Support with Cables (m) |
Quantity of Secondary Support |
Type of Cable bolt |
Temporary |
6 - 7 |
2.4 |
3.4 |
6 |
Cable Bolt |
7 - 8 |
2.4 |
3.6 |
9 |
8 - 9 |
2.4 |
6.0 |
13 |
9 - 12 |
2.4 |
10.0 |
24 |
Permanent |
6 - 7 |
2.4 |
6.0 |
6 |
Bulbed Cable Bolt |
7 - 8 |
2.4 |
6.0 |
11 |
8 - 9 |
2.4 |
6.0 |
15 |
9 - 10 |
2.4 |
10.0 |
28 |
| 13.2.1.3 | Cut-and-fill Rock Assessment and Ground Support |
From the rock mass classifications using RMR89 (Bieniawski,
1989), the empirical unsupported Span Design Curve was used to determine the span of excavations per domains (Unstable, Potentially Unstable,
or Stable) with respect to the RMR range of 40 to 60 (Figure 13.5).
For the host rock mass at CLG, an RMR of 40 to 60 was used, which is
one standard deviation (10) above and below the average RMR value of 50 for the mineralized andesite. As graphically demonstrated, the
figures show the following.
| n | At a minimum RMR of 40, only spans up to 8.3-m fall within the Potentially Unstable domain (below the Unstable
domain). |
| n | For the average RMR of 50, spans of less than 13-m fall within the Potentially Unstable domain, and spans
of less than 5-m fall within the Stable domain. |
| n | For an RMR of 60, spans less than 19-m fall within the Potentially Unstable domain, and spans less than
9-m fall within the Stable domain. |
The values illustrated in Figure 13.5 are for unsupported spans. Since
ground support will be used, the maximum recommended span will be the Stable limit of 9 m for an RMR of 60, bearing in mind that encountering
rock of a lower RMR may result in ground problems, and ground support requirements may have to be increased.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 13.5: Design Span for CLG Cut-and-Fill Stopes
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Considering the maximum span of 9 m with an ESR of 3.0 and Q varying
from 0.4 to 10, Figure 13.4 recommends the support Class CS-1 to Class CS-3. Class CS-1 consists of no ground support or just spot bolting,
while Class CS-3 includes systematic bolting with five to six cm of fiber-reinforced shotcrete. Due to the temporary nature of the cut-and-fill
openings, welded wire mesh is recommended instead of shotcrete.
| 13.2.1.3.1 | Longhole Stopes |
The empirical Stability Graph Method (Potvin, 1988) was used to evaluate
long-hole stope dimensions. This method consists of comparing the hydraulic radius (HR) of a stope surface (back, end wall, footwall,
or hanging wall) to a stability number (N’). Table 13.7 lists the values used to determine N and HR.
Table 13.7: Parameters Used to Establish HR and N
Surface |
Stope Width or Strike Length (m) |
Strike Length
or Height (m)
|
Hydraulic Radius (m) |
Q' Average |
A |
B |
C |
N’ |
NW – HW |
15 |
30 |
5.0 |
1.3 |
0.6 |
0.5 |
8.0 |
3.0 |
NW – Back |
8 |
15 |
2.6 |
7.4 |
0.4 |
0.9 |
2.0 |
5.3 |
CZ – LHS - HW |
25 |
20 |
5.6 |
2.2 |
0.7 |
0.5 |
5 |
3.85 |
CZ – LHS - Back |
8 |
25 |
3.0 |
7.4 |
0.6 |
0.9 |
2.0 |
8.0 |
CZ – THS - HW |
30 |
20 |
6.8 |
2.2 |
0.7 |
0.5 |
8 |
6.2 |
CZ – THS - Back |
15 |
30 |
5.0 |
7.4 |
0.6 |
0.9 |
2.0 |
8.0 |
SE – HW |
12 |
25 |
4.0 |
1.4 |
0.6 |
0.5 |
5.0 |
2.0 |
SE – Back |
8 |
12 |
2.4 |
7.4 |
0.1 |
0.9 |
2.0 |
1.3 |
Figure 13.6 illustrates the results obtained for the three mineralized
zones. Stope backs fall within the Stable Zone. The hanging wall stopes fall approximately in the middle of the Unsupported Transition
Zone to the Hadjigeorgious’ curve, which is considered acceptable.
Source: CLG
Figure 13.6: Stability Graph for Transverse and Longitudinal Stopes
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Top and bottom drill drifts for bulk mining techniques are subjected
to blast damage and large mine-induced stress change. Therefore, the ground support must be able to sustain the additional stresses caused
by the mining method. Furthermore, the drill drifts are usually open for more than six months, especially with a bottom-up sequence where
the drill drift on the upper sublevel will eventually become a mucking drift on the next lift. A stiff support will be used, such as fully
grouted cable bolts.
Table 13.4 provides the reference for the ground support for the top
drill drift, assuming 5 m span with an ESR of 1.6 to consider vibration and CS-3 fair rock mass quality (Q in the range of 0.6 to 6).
Given the uncertainties with respect to the behavior of the ore, the rock mass deterioration due to blasting, and the mine-induced stress
change, systematic bolting has been recommended and is used. The drill drifts are relatively temporary, so welded wire mesh is the recommended
support, rather than shotcrete.
The crown pillar constitutes the rock mass not mined at the top of the
underground mine. The pillar is left to avoid creating a permanent void between the mine workings and surface. To determine the height
of the pillar, which must remain undisturbed, the geotechnical engineer considers the topography, geology, rock mass quality, hydrogeology,
mining method, and consequences of pillar failure.
A stability assessment of the Los Gatos crown pillar has been undertaken
by Dr. Luiz Castro and reported to Gatos Silver in a Technical Memorandum (L. Castro, 2022). Both a Scaled Span Analysis and long-term
void migration assessment were completed.
The rugged topography at CLG results in crown pillar thicknesses ranging
from 98 m to 206 m, shown in Figure 13.7, for stope spans between 5 m and 9 m.
Source: CLG
Figure 13.7: Crown Pillar Thickness Along Deposit Strike (2022
Reserve Analysis)
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Details of the locations noted in the above figure are provided on Table
13.8.
Table 13.8: Estimation of Crown Pillar Thickness and Stope Dimensions
Mining Area |
Crown Thickness (m) |
Stope span (m) |
Stope Inclination (°) |
Stope Height (m) |
SEZ |
206 |
8 |
60 |
25 + 25 |
SEZ to CZ |
182 |
8 |
65 |
25 |
CZ |
98 |
5 to 9 |
65 |
25 + 25 |
NWZ |
116 |
7 |
75 |
27 |
NWZ |
116 |
6 |
75 |
25 |
For the planned stope spans, described in Table 13.8, the crown pillar
is considered stable in the short and long term for all the geometries and rock mass conditions evaluated. In addition, void migration
to surface is unlikely to occur for the planned upper stope dimensions for the different mineralized zones. This means that the volume
of the bulked rock will tend to fill the available underlying voids, and the upwards progression of failure will be halted for the planned
25 m high stopes. It must be noted that all of the stopes will be backfilled, which will further preclude any failure propagation to surface.
| 13.3.1 | Regional Hydrogeological Setting |
The mine area is located entirely within the area defined by CONAGUA
(2020) as the San Felipe de Jesus Aquifer. The closest adjacent aquifer areas are the Upper Rio San Pedro to the north and the Valley
de Zaragoza to the east. The San Felipe de Jesus Aquifer as defined by CONAGUA is a groundwater basin or management area rather than an
aquifer in the strict sense. Within its boundaries the San Felipe de Jesus Aquifer area contains multiple aquifer and aquitard units within
several hydrographic basins along the upper part of the Rio Conchos, an important river of northern Mexico and a major tributary of the
Rio Grande. The Cerro Los Gatos mine itself is located in the upper drainage of Arroyo de Santo Toribio, an ephemeral tributary of the
Rio Conchos.
| 13.3.2 | Hydrogeologic Units |
The principal water-bearing formations (Hydrogeologic Units - HGUs)
present at surface and in the underground mine are:
| n | Alluvium (restricted to Arroyo Santo Toribio) |
| n | Partially consolidated sandstone and conglomerate epiclastics (restricted to the NE side of the Los Gatos Fault) |
| n | Volcanic formations (fractured and brecciated dacite, rhyolite, andesite) |
| n | Los Gatos Fault gouge zones |
| n | Los Gatos Fault damage zones |
| n | NNW-striking and ENE-striking faults damage zones |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
These HGUs are cut by several sets of faults that further compartmentalize
the groundwater system and commonly produce zones of increased or reduced hydraulic conductivity compared to adjacent un-faulted rock.
The process of fault displacement forms zones of closely spaced fracturing
or brecciation (damage zones) which, with increasing displacement, can develop a zone of fine-grained fault rock or gouge (the fault core)
flanked by damage zones. Fault damage zones can form areas of higher fracture porosity and permeability immediately adjacent to low permeability
fault cores and lower permeability undamaged rock. This close association of different hydraulic properties means that large displacement
fault zones can have complex hydraulic behavior and can variously behave as barriers to flow, flow conduits or combined barrier-conduits,
dependent on scale of displacement and displacement history.
The Los Gatos Fault has up to several meters thickness of fault gouge
over long distances along strike and up and down dip. This low-permeability material is interpreted to act as an aquitard (groundwater
flow barrier) based on the observed low inflow rates in stopes where thick clay zones are found on the footwall side of the Los Gatos
Fault. The Los Gatos Fault gouge HGU is an important control on groundwater movement at the mine.
The low-K gouge zone of the Los Gatos Fault HGU is flanked by damage
zones of variably heavily fractured rock, formed in the Sandstone and Conglomerate epiclastics HGU on the NE side and the Volcanic HGU
on the SW side. These have higher groundwater storage and hydraulic conductivity parallel to the Gatos fault than the relatively less
fractured rock at a greater distance from the fault and form distinct HGUs that are interpreted as allowing local groundwater movement
parallel to the Los Gatos Fault gouge HGU, where infiltration of groundwater from surface or inflow across the Los Gatos Fault occurs.
Fault damage zones are associated with some of the NNW-striking and
ENE-striking cross-faults that cut the Los Gatos Fault. Some structures of these orientations, such as the “Falla Aportadora NW”
which cuts the Los Gatos Fault in the NWZ are major water-bearing structures in the underground mine at Cerro Los Gatos and are interpreted
as distinct HGUs that have the potential to allow groundwater flow across the Los Gatos and associated parallel faults.
Packer testing is currently in progress to quantify the hydraulic properties
of the hydrogeologic units in the mine, focusing on characterization of the deeper SE zones.
Within the Los Gatos Mine, the water table was first encountered in
2018 at an elevation of approximately 1,400 masl. The water table appears to have been essentially flat at this time, which is consistent
with good lateral hydraulic connectivity within the higher K volcanic formations that host the ore body where the stopes were mined.
The subdued water table topography within the underground workings has
been sustained during drawdown caused by dewatering pumping at progressively higher rates since 2019. In May 2022 (MCLG, 2020b) the water
table surface within the mine dipped towards the NW, declining from the SE end of the Central Zone (at about 1,310 masl) to the NW end
of the Northwest Zone (at 1,290 masl), indicating a gradient of about 0.02. This gradient towards the NW is towards the area of highest
dewatering pumping rates and the lowest elevation workings.
In June 2024, the water table surface within the mine dipped towards
the NW, declining from approximately 1,260 masl in the SE zone to approximately 1,200 masl at the northwest end of the NW zone. In
the NW zone, the water table had been lowered from 1,247 masl to approximately 1,200 masl, representing a maximum localized
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
reduction of approximately 47 meters over the preceding 11-month period
in the NW zone and 50 to 90 meters drawdown throughout the mine since May 2022.
Static water levels are currently measured at a total of eight piezometers,
five collared in underground monitoring wells and three piezometers collared from surface. An additional two underground piezometers are
being installed in the NW zone to expand this monitoring network. Deep wells that allow monitoring of groundwater levels and gradients
are currently restricted to the immediate area of the underground mine. The lack of deep monitoring wells in the area to the NE and SW
of the mine away from the Gatos Fault prevents the general shape of the water table or phreatic surfaces from being mapped and the radial
extent of drawdown impacts from being assessed.
The relatively impermeable Los Gatos Fault Gouge HGU in the core of
the Gatos Fault is interpreted as having greatly restricted groundwater inflow from the saturated sandstone HGU, which is presumed to
have a much higher elevation water table (comparable to pre-mining elevation).
Recharge to the groundwater system is from infiltration of rainfall,
infiltration of flow in the Arroyo Santo Toribio and groundwater inflow from the upgradient area of the Rio Conchos Graben and adjacent
mountains. In the mine area, flow in the Arroyo Santo Toribio includes intermittent response to precipitation events and perennial flow
over a short distance downstream of the discharge of underground dewatering water from the sedimentation and cooling pond. Infiltration
of precipitation is expected to preferentially recharge the epiclastic HGU with lower rates of recharge reaching the volcanic HGU.
Geothermal water inflow to the underground workings occurs at elevations
below 1,450 masl. The water temperature of the inflow ranges from 41° C to 72.1° C, with the highest temperatures found at greatest
depth in the Central zone. The highest temperature groundwater inflow is associated with the Gatos Inferior fault. The geothermal inflow
is inferred to represent upwelling of buoyant water from depth along conductive fault and fracture zones. Elevated groundwater temperatures
were noted in early field mapping (Geologic Mapping, 2013) to the SE of the underground mine, so further areas of geothermal inflow may
be encountered associated with Anti-Gatos Fault parallel structures in currently undeveloped areas.
Under pre-mining conditions, groundwater discharge is likely to have
occurred through evapotranspiration from the alluvial aquifer along Arroyo Santo Toribio and through outflow SE toward the Rio Concho.
At present, the major groundwater discharge is through pumping from dewatering wells and underground sumps. A water balance was developed
before the start of mining; however, a new model is required to incorporate the current understanding of water flows gained through mine
development and monitoring activities.
| 13.3.6 | Conceptual Hydrogeologic Model |
The key elements of the conceptual hydrogeologic model are summarized
in Figure 13.8.
During the initial years of mine operations, all non-contact water dewatering
was accomplished through surface wells. In total, 18 wells have been drilled from surface locations at the mine site, with 11 operating
simultaneously in 2020. These wells have depths ranging from 350 to 530 m, with hole-bottom elevations ranging from 1,118.0 masl to 1,246.5
masl.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
However, as the mine deepened, surface wells became less effective at
controlling groundwater inflows and drawing down the phreatic surface. In response, CLG began establishing wells drilled from underground
locations in 2021.
Source: adapted from Rowearth, 2016
Figure 13.8: Conceptual Hydrogeologic Model
| 13.4 | Groundwater Management |
The CLG deposit is situated in the San Felipe de Jesus Aquifer, presenting
challenges for controlling groundwater inflows into the underground workings. Additionally, some of the groundwater is affected by geothermal
heating, resulting in hot water inflows in certain areas of the that complicate temperature control in some of the underground work environment.
(Refer to the Mine Infrastructure section of this chapter for a detailed description of the infrastructure associated with the mine air
cooling system.)
Since the initiation of underground development in 2018 and commercial
production in 2019, CLG has employed two dewatering approaches to manage the groundwater:
| 1. | Contact water dewatering infrastructure: This system pumps groundwater that has entered the underground workings out of the
mine, discharging it at surface. Due to its exposure to the underground workings, contact water must be treated to remove suspended solids
before being released into the environment. |
| 2. | Non-contact water dewatering wells: These wells pump non-contact water from the aquifer to draw down the phreatic surface below
the pre-mining water-table elevation of about 1,400 masl, reducing the |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
volume of groundwater inflows to the mine. As non-contact
water has not been exposed to mine workings, it does not require treatment before being discharged on the surface.
While functioning separately, the dewatering systems are interdependent
in that extracting more non-contact water from the aquifer results in lower groundwater inflows to the mine and, hence, less contact water.
As illustrated in Figure 13.9, the pumping rates for contact and non-contact water have remained stable at approximately 200-300 L/s and
600-700 L/s, respectively, since the initiation of mining operations. As the mine has deepened, the surface dewatering wells have been
decommissioned and replaced by more effective underground dewatering well.
Source: CLG, 2024
Figure 13.9: Dewatering Rates from March 2021 to June 2024
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The highest capacity underground wells have been established in the
NW zone in the area surrounding the main ramp, where they intersect and draw water from a transmissive water-bearing structure called
Falla Aportadora NW. This fault, striking approximately SW-NE and cutting across the Los Gatos fault, is the predominant conduit for groundwater
inflow to the rock mass in the NW. Drawdown of the groundwater level in this structure through well dewatering significantly reduces potential
inflows to the mine workings of the lower levels of the NW zone.
Mining the NW zone will require drawing down the groundwater to its
lowest elevation for the zone in the life of mine (LOM) plan, the 1075 level. Therefore, the groundwater in the NW must be drawn down
approximately 325 m relative to the pre-mining water-table elevation and 125 m below the current water level in the zone. As the principal
source of groundwater inflow occurs through cross-faults cutting the Los Gatos Fault in the NW, CLG expects that dewatering of the NW
will also reduce potential groundwater inflows to the CZ and SE. The SE zone has the deepest Mineral Reserve, extending to the 865 level.
The surface wells were gradually phased out from 2022 to 2024 as their
effectiveness in reducing groundwater inflows to the mine diminished. The last surface well was removed from operation in June 2024. Now,
all non-contact water dewatering is accomplished with underground wells, a practice that will continue for the mine's remaining life.
Figure 13.10 lists the underground dewatering wells in operation as
of June 2024. Currently, four high-capacity wells are active in the NW zone, with two located on the 1370 level and two on the 1277 level.
These wells extract groundwater from the Falla Aportadora NW water-bearing structure. Additionally, two new wells are under construction
on the 1230 level of the NW zone, also targeting extraction from this structure. A high capacity well in the NW zone (well #3 NWZ 1277)
and four smaller wells in the NW and CZ zones, which were operational as of the previous year's Mineral Reserve update, have been decommissioned
as mining has progressed and water levels have been lowered.
CLG anticipates total dewatering flows, including both contact and non-contact
water, to range between 800 and 900 L/s until 2026. The flow is projected to increase to approximately 1,000 L/s in 2027 and remain at
this rate until the end of the mine's life. The increasing rate is primarily attributed to the deepening of the SE Zone, contributing
an additional 300 to 500 L/s to the total dewatering volume, while inflows in the NW and Central zones decrease. To support this additional
inflow, CLG has allocated budgetary provisions for upgrading and maintaining the dewatering systems for contact and non-contact water
in the NW and SE zones, ensuring sustainable operations as mining progresses to the SE and greater depths.
The mine’s strategy for groundwater management aims to attain
an optimal balance between contact water and non-contact water dewatering. CLG continues to shift its focus towards non-contact water
dewatering in the NW and away from contact water. Monitoring and experience have shown that the deep underground wells targeting the main
water-bearing structure in the NW are an effective way of dewatering the lower levels of the mine and reducing contact water inflows in
the primary ramps, including in the CZ.
The groundwater management strategy depends on the capacity of the pumping
infrastructure to discharge contact and non-contact water from the mine. The non-contact water pumping station on the 1390 level has a
700 L/s capacity and currently pumps approximately 500-550 L/s to the surface. The contact water pumping station on the 1384 level has
a 375 L/s capacity and currently pumps 275 to 325 L/s to the surface, of which approximately 90% comes from the deepest parts of the primary
ramps.
For a description of the infrastructure associated with the contact
and non-contact dewatering systems, refer to the Mine Infrastructure subsection of this Section 13.0.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 13.9: Underground Dewatering Wells (June 2024)
Location |
Water level (masl) |
Flow (L/s) |
UG Well #1 NWZ 1370 |
1,230.00 |
171 |
UG Well #2 NWZ 1370 |
1,231.00 |
153 |
UG Well #3 NWZ 1277 |
1,203.00 |
Inactive |
UG Well #4 NWZ 1277 |
1,199.00 |
56.5 |
UG Well #5 NWZ 1277 |
1,217.00 |
108 |
UG Well #6 NWZ 1230 |
n/a |
Under construction |
UG Well #7 NWZ 1230 |
n/a |
Under construction |
Source: CLG, 2024
The QP is of the opinion that the dewatering strategy employed by CLG,
combining conventional contact-water dewatering infrastructure with dewatering wells, is an effective approach for managing groundwater
inflows into the mine.
The CLG Mineral Reserve estimate was derived from a detailed mine design
and LOM schedule, developed using Deswik software. A key initial step in this process was establishing the specific criteria for stope
production and mine development.
Table 13.10 and Table 13.11 summarize the
development and stope production criteria utilized in the mine design and scheduling process. The development criteria address critical
design elements such as the cross-sectional dimensions of drifts and ramps, ventilation-raise diameters, and advance rates for various
development headings. The production criteria include mining method selection, stope dimensions, and production rates.
The application of these criteria was guided by the following priorities,
ranked by importance:
| 2. | Maximizing productivity |
| 3. | Minimizing mining costs |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 13.10: Mine Design Criteria - Development
Item |
Description |
Ramps |
|
Dimensions |
5.0 x 5.5 m |
Grade |
-15%, -13% in turns, -7% at intersections |
Curves |
Minimum 25 m radius |
Footwall drifts |
5.0 x 5.0 m |
Crosscuts and ore drives |
5.0 x 5.0 m |
Future surface ventilation raises |
2.4 and 4.1 m diameter |
Interior ventilation raises |
3.1 and 4.1 m diameter |
Development advance rates |
|
Lateral single heading in ore |
3.4 d/day |
Lateral multi-headings in ore |
6.8 m/day |
Lateral single heading in waste |
3.4 m/day |
Lateral multi-headings in waste |
13.6 m/day |
Vertical in waste |
0.83 m/day |
Source: CLG, 2024
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 13.11: Mine Design Criteria – Stope Production
Item |
Description |
Longitudinal longhole stoping |
|
Unplanned dilution – host rock |
Table 12.4 |
Backfill dilution |
Table 12.6 |
Mining recovery |
Table 12.4 |
Deposit dip |
≥ 55˚ |
Drill/mucking drift width |
3.5 to 5.0 m |
Minimum mining width |
2.0 m |
Maximum mining width |
8.0 m |
Production rate |
2,800 t/day |
Transverse longhole stoping |
|
Unplanned dilution – host rock |
Table 12.4 |
Backfill dilution |
Table 12.6 |
Mining recovery |
Table 12.4 |
Deposit dip |
Not applicable |
Minimum mining width |
8.0 m |
Stope width |
9.0-15.0 m parallel to strike |
Production rate |
2,800 t/day |
Cut-and-fill mining |
|
Unplanned dilution – host rock |
Table 12.5 |
Backfill dilution |
Table 12.6 |
Mining Recovery |
Table 12.5 |
Deposit dip |
< 55˚ |
Minimum mining width |
3.5 m (FW to HW) |
Maximum mining width |
8.0 m |
Cut height |
5.0 m |
Production rate |
700 t/day |
Longhole stope dimensions - NW Zone |
|
Height |
25 m |
Length |
15 m |
Longhole stope dimensions - CZ Zone |
|
Height |
15 m |
Length |
25 m |
Longhole stope dimensions - SE Zone |
|
Height |
20 m |
Length |
12 m |
Pillar between veins |
5.0 m |
Source: CLG, 2024
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The estimated production productivities were based on typical stope
cycle times. For longhole stoping, the cycle components include cable bolting, slot raising, longhole drilling, production blasting, remote-control
mucking, fill fence construction, backfilling, and backfill curing time. Stope sequencing and the overall production schedule are heavily
influenced by the progress of primary ramp development. The estimated advance rates for these headings range from 20 m/month to 75 m/month,
depending on several factors, including ramp location, geotechnical conditions, and expected requirements for groundwater control.
| 13.6.1 | Description of Mining Methods |
CLG employs two primary mining methods to extract ore from the deposit:
cut-and-fill (CAF) and longhole stoping (LHS). Each method is used in two variations, longitudinal or transverse, depending on the orientation
of the principal mining direction relative to the strike of the vein
Table 13.12 provides an overview on the methods and versions used in
different zones at CLG.
Table 13.12: Mining Methods by Zone
Zone |
Cut-and-Fill |
Longitudinal Longhole |
Transverse Longhole |
NW Zone |
- |
✔ |
✔ |
Central Zone |
✔ |
✔ |
✔ |
SE Upper Zone |
✔ |
- |
- |
SE Zone |
✔ |
✔ |
- |
Source: CLG, 2024
| 13.6.2 | Criteria for Mining Method
Selection |
Table 13.13 summarizes the criteria that CLG evaluates when selecting
a mining method for a vein.
The QP is of the opinion that CLG’s mining methods are well-suited
to the specific zones and prevailing mining conditions where they are applied. During the site visit, the QP inspected active CAF and
LHS stopes, confirming the appropriate application of these methods.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 13.13: Criteria for Mining Method Selection
Criteria |
Description |
Cost and Productivity |
CLG prioritizes LHS over CAF wherever possible due to its higher productivity and lower cost. |
Width of Vein |
Veins up to 8 m wide are mined longitudinally, whereas veins wider than 8 m are mined transversely to limit the span of the stope opening. |
Dip of vein |
CLG prefers longitudinal CAF over longitudinal LHS for those sections of the deposit with dips less than 55°. However, for wider sections of the CZ dipping at less than 55°, transverse LHS is used successfully. |
Ground Conditions |
CLG prefers transverse CAF over transverse LHS in areas with unfavorable ground conditions, such as stopes influenced by the Los Gatos fault. |
Source: CLG, 2024
| 13.6.3 | Mining Methods Used in the
Zones |
Table 13.14 provides an overview of the mining methods employed at the
zones of CLG.
Table 13.14: Overview of Mining Methods by Zone
Zone |
Description |
NW |
Longitudinal LHS is the predominant mining method due to the vein being steeply dipping and reasonably narrow. Transverse LHS is used in wider parts of the vein. Ground conditions influenced by the Los Gatos fault in higher parts do not necessitate CAF. |
CZ |
All mining methods are employed in the CZ. It is the widest zone and most affected by the Los Gatos fault. The strategy involves using CAF to stabilize ground at the hangingwall where required, with cemented backfill providing a shield for adjacent stopes. Most remaining mineralization is mined with transverse LHS. Each transverse stope mines two veins together; consequently, the rib of waste separating the veins contributes some dilution to the ore. Longitudinal LHS is used for a thin, steeply dipping vein at the footwall and other narrow deposits. |
SEU |
The zone is mined with longitudinal CAF due to unfavorable ground conditions from the Los Gatos fault and the shallow dip at the lower levels. The narrow vein is mined longitudinally, taking the full width of mineralization in a single pass. |
SE |
The zone is primarily mined using longitudinal LHS, with CAF applied to a limited portion of the reserve. The vein is generally steeply dipping and relatively narrow, with the Los Gatos fault located approximately 10 to 20 meters from the hanging wall." |
Source: CLG, 2024
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 13.6.4 | Cut-and-Fill Method |
The CAF mining method involves extracting ore in a series of ascending
horizontal slices, known as cuts, starting from the bottom of the vein and progressing upwards. Each mined cut is replaced with backfill,
which provides a floor for mining the next cut and supports the footwall and hangingwall by filling the void left by the removed ore.
At CLG, the CAF method is employed in two variations depending on the
vein width. For veins less than 8 m wide, longitudinal CAF is used, while transverse CAF is applied for mining veins wider than 8 m.
Each cut has a height of 5 m, and typically four or five cuts can be
mined from each sublevel, depending on the sublevel interval. Access to the stoping area is provided by an attack ramp located in the
footwall of the sublevel. The ramp’s inclination varies to accommodate the cut being mined. To access the lowest cut, the ramp is
initially driven at a -15% grade. As mining progresses to higher cuts, the ramp’s grade increases, reaching a maximum of +15% to
access the uppermost cut. Once the highest cut is completed, a new negatively inclined attack ramp is driven from the next sublevel to
access the next sequence of cuts.
The attack ramp's inclination from one cut to the next is increased
by slashing its back with a jumbo and leaving a sufficient amount of blasted waste on the floor to achieve the required grade for accessing
the targeted cut. From the entry point of the ramp in the vein, the ore in the cut is mined by advancing left and right using a jumbo.
| 13.6.5 | Longitudinal Cut-and-Fill |
At CLG, when the vein width is 8 m or less, the ore is mined using longitudinal
CAF. In this approach, the ore in the cut is mined by advancing jumbo rounds and slashes parallel to the strike of the vein, taking the
full face from footwall to hanging wall. Once the lift is fully mined out, it is backfilled with paste fill, cemented rockfill (CRF),
or uncemented rockfill (URF). Figure 13.10 illustrates the longitudinal CAF method at CLG.
Source: CLG, 2024
Figure 13.10: As-Built Isometric View of Longitudinal Cut-and-fill
Mining at CLG
| 13.6.6 | Transverse Cut-and-Fill |
Figure 13.11 illustrates transverse CAF mining at CLG. The method is
employed for mining veins exceeding 8 m in width, where longitudinal mining would produce stope openings with excessive spans. The method
involves advancing a drift through the ore adjacent to the footwall contact and, from that heading, driving parallel drifts toward the
hanging-wall contact called primary drifts. The primary drifts are spaced on 10-m centers, leaving 5-m-wide ribs of ore between them,
which are later mined as secondary drifts.
After the primary drifts are mined out and backfilled with paste fill
or CRF, the secondary drifts can be mined. The backfilled primary drifts serve as engineered pillars for mining the secondary drifts between
or adjacent to them.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The mined-out secondary stopes can be backfilled with uncemented rockfill
(URF), although paste fill is often used instead. The backfilled primary and secondary drifts provide a floor for mining the next cut
above. This method limits the span of the stope openings to the width of a drift and, additionally, minimizes the exposure of the hangingwall
at any given time. Once all primary and secondary drifts in a cut are mined and backfilled, mining progresses to the next cut in the ascending
sequence.
Source: CLG, 2024
Figure 13.11: As-built Isometric View of Transverse Cut-and-fill
Mining at CLG
| 13.6.7 | Longhole Stoping (LHS) Method |
LHS involves extracting ore between two sublevels
by drilling and blasting longholes. At CLG, two approaches are used depending on the vein width. Longitudinal LHS is used for veins 8
meters or less in width, whereas transverse LHS is employed for wider veins. Stope heights at CLG range from 20 to 25 meters, depending
on the sublevel interval of the zone.
This method requires developing ore drives on the upper and lower sublevels
of each stope. The upper ore drive serves as a drilling drift, while the lower one acts as an extraction drift. These drifts are driven
to dimensions of 5 m wide by 5 m high with arched backs. Longholes, with a diameter of 89 mm, are generally drilled as downhole rings
from the ore drive of the upper sublevel. Production in each stope begins by blasting longholes into a slot created as a drop raise between
the two sublevels.
Following a longhole blast, an LHD mucks the broken ore from the lower
sublevel. Although some broken ore can be mucked with the operator seated on the machine, most of it must be extracted using radio remote
control, with the operator controlling the LHD from a safe position in the extraction drift. The broken ore is hauled out of the stope
and either stockpiled in a muck bay on the sublevel or loaded directly into mine trucks for haulage to the ROM (Run-of-Mine) pad on the
surface.
After the stope is mined out and backfilled, production mining can proceed
to the next higher stope in the sequence. The ore drive that served as the drilling drift in the lower stope now becomes the extraction
drift of the upper stope.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 13.6.8 | Longitudinal Longhole Stoping |
CLG employs longitudinal LHS when the vein width is 8 m or less. In
this method, the deposit between two sublevels is mined along the strike of the vein. At CLG, the lengths of longitudinal LHS stopes vary
but are typically limited to approximately 20 to 30 meters due to geotechnical constraints on the dimensions of underground openings.
Figure 13.12 illustrates the application of this mining method at CLG.
The stopes are aligned in series along the vein and are generally sequenced in a retreating fashion, advancing one after another towards
the central crosscut access. Once mined out, a stope is usually backfilled with paste fill, although CRF may also be used.
Source: CLG, 2024
Figure 13.12: As-Built Isometric View of Longitudinal Longhole
Stoping at CLG
13.6.9
Transverse Longhole Stoping
When the width of the vein is greater than 8 m, CLG employs transverse
LHS as the span of the stope opening would be excessive if the vein were mined longitudinally. This approach involves dividing the ore
between two sublevels into alternating primary and secondary stopes extending from the footwall to the hanging wall at a right angle to
the strike. The width of these stopes ranges from 12 m to 15 m wide, measured parallel to the strike.
Figure 13.13 illustrates the application of this mining method at CLG.
The stopes are accessed by driving crosscuts to the orebody from footwall drives on the upper and lower sublevels. These crosscuts extend
across the vein to the hanging wall, providing a drilling drift on the upper sublevel and an extraction drift on the lower sublevel. Production
in each stope is initiated by blasting into a slot raise situated adjacent to the hanging wall, with longhole blasting then proceeding
in a retreating fashion towards the footwall.
The primary stopes are mined first and then backfilled with paste fill.
The backfilled primaries serve as pillars that permit mining the secondary stopes situated between or adjacent to them. The mined-out
secondaries can be backfilled with paste fill, CRF, or URF.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The lengths of the stope openings between the footwall and hanging wall
vary with vein widths but are generally limited to approximately 21 meters due to geotechnical constraints. If the transverse stope length
exceeds this limit, the stope will be mined with two separate blasting and backfilling sequences.
Source: CLG, 2024
Figure 13.13: Schematic of the Transverse Longhole Stoping Design
at CLG
13.6.10
Drilling
Drilling in CAF stopes consists of rounds and slashes drilled with development
jumbos, whereas LHS stopes require longholes drilled as downhole rings. Figure 13.14 and Figure 13.15 illustrate a typical drilling layout
for a longitudinal stope in plan and section views. The hole diameter is 89 mm, and the burden between rings is 1.8 m. CLG utilizes two
types of production rigs for longhole drilling: a top hammer drill and a down-the-hole drill (DTH).
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG, 2024
Figure 13.14: Drilling Layout for a Longitudinal Longhole Stope
– Plan View
Source: CLG, 2024
Figure 13.15: Drilling Layout for a Longitudinal Longhole Stope
– Section View
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
13.6.11
Explosives
The types of explosives employed at CLG are determined by factors such
as excavation type, the presence of water, and rock temperature. Table 13.15 provides an overview of the different explosives used under
various conditions at the mine.
Table 13.15: Explosives Used at CLG
Mining Method |
Without Water Present |
With Water Present |
T° < 50°C |
T° > 50°C |
T° < 50°C |
T° > 50°C |
Longhole Stoping |
|
|
|
|
Bulk Emulsion |
|
|
|
|
Cartridge Explosive |
✔ |
✔ |
✔ |
✔ |
ANFO |
✔ |
|
|
|
Cut & Fill Mining |
|
|
|
|
Bulk Emulsion |
✔ |
|
|
|
Cartridge Explosive |
✔ |
✔ |
✔ |
✔ |
ANFO |
✔ |
|
|
|
Mine Development |
|
|
|
|
Bulk Emulsion |
✔ |
|
|
|
Cartridge Explosive |
|
✔ |
✔ |
✔ |
ANFO |
✔ |
|
|
|
Source: CLG, 2024
ANFO is the primary explosive utilized at CLG due to its cost-effectiveness,
particularly under dry conditions. However, when water or high humidity is present, bulk emulsion and emulsion-based cartridge explosives
are employed due to their superior water resistance. ANFO is transported underground in 25 kg bags, while bulk emulsion is delivered from
the on-site storage facility to the stopes or headings by an emulsion container truck. CLG operates three Charmec explosive chargers:
two for loading ANFO and one for bulk emulsion.
Longhole stopes can be charged with either ANFO or emulsion cartridges.
Downholes are primed with a 10 g Stinger cast booster or a 1” x 8” emulsion cartridge placed at the toe end and loaded full
column with ANFO. Upholes may be loaded with ANFO or emulsion cartridges. In the latter case, the complete hole is charged with a pneumatic
cartridge loader.
Drift rounds are generally loaded with ANFO when conditions are dry,
which is typically the case in cut-and-fill stopes. However, bulk emulsion and emulsion cartridges are used to load drift rounds when
water is present, as often occurs in ramp development and deeper development headings.
Geothermal heating causes elevated temperatures in certain parts of
the mine. When rock temperatures exceed 50°C, CLG utilizes an emulsion-based cartridge explosive designed to resist deterioration
due to the heat.
Loaded longholes are initiated with i-Kon-II™ electronic detonators,
while Nonel™ non-electric blasting caps are employed for blasting rounds in development headings and cut-and-fill stopes. Blasts
are initiated from a central blasting system between shifts when no personnel are present underground. Following a blast, approximately
30 minutes are required to clear blasting fumes from the mine.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
CLG utilizes three types of backfill materials to fill stope voids:
| n | Uncemented rockfill (URF) |
Following the commissioning of the paste plant in Q4 2022, the use of
PF has steadily increased as a proportion of the total backfill material placed underground. PF is composed of filtered mill tailings
blended with cement or another binder. The material is pumped from the paste plant on surface to the paste bay, located adjacent to the
Central Ventilation Raise at the 1390 Level. From this location, the PF is distributed to various underground areas of the mine through
a network of 150-mm diameter pipes.
Before backfilling a longhole stope with PF, the stope entrance of the
mucking drift on the lower sublevel must be sealed off with a bulkhead. The PF is then poured into the open stope from the drill drift
on the upper sublevel. Once backfilling is completed, a 14-day curing period is required for the PF to set sufficiently before an adjacent
longitudinal or secondary stope can be blasted. In the adjacent stopes, other activities, such as development and drilling, may continue
during backfilling and curing. Initially, PF usage was limited to LHS, but since 2023, CLG has also been using it in CAF stopes. The LOM
plan projects a high cement content of PF at 10% for stopes and sills situated above mineralization planned for future mining. The high-strength
PF creates a stable back for future mining of the sill. For all other backfilling requirements, the cement content of the PF will be 4%.
CRF consists of development waste that has been crushed and blended
with cement and water. The material is prepared at a CRF facility located underground. The plant utilizes development waste from underground
development. The CRF is hauled to underground stopes by the same mine trucks that transport ore to the surface. These trucks are equipped
with ejector boxes, which facilitate dumping in the stopes where the back height would impede tipping a standard box. When backfilling
a CAF stope, the trucks deliver the CRF as close as possible to the required location, and an LHD equipped with a rammer-jammer attachment
then pushes it into place, tight to the back of the drift opening.
URF consists of blasted waste from mine development. It is hauled underground
from the waste stockpile on the surface or transported directly to the stopes being backfilled from the active development headings. URF
is suitable in situations where the backfill is not required to provide structural support, such as secondary drifts in CAF and secondary
stopes in LHS. In this case, the backfill serves as a floor for the next cut or lift above but does not provide geotechnical support.
When backfilling CAF stopes with URF, the procedure is the same as with CRF, whereby an LHD jams the material into place. Additionally,
a layer (approximately 1 m) of URF material is placed on top of PF pours to provide a suitable surface for operating rubber-tired equipment
in the next higher cut or lift.
| 13.6.13 | Ore and Waste Handling |
The ore and waste handling system at CLG consists of ramp haulage. The
mine has a single access to the surface via the main ramp and the portal. The mine operates seven trucks, each with a 40-t payload capacity.
These trucks haul ore and waste to the surface and, additionally, transport CRF and URF underground.
The mine also employs nine LHDs for mucking operations. Two of these
LHDs have a 7-t tramming capacity, while the remaining seven have a 14-t tramming capacity. These LHDs muck ore from the stopes and waste
from the development headings. The larger LHDs are also used for loading the mine trucks.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
In stope production, LHDs muck the blasted ore from the CAF and longhole
stopes and tram the material out of the stoping area. They either load the material directly into mine trucks or dump it in muck bays
on the sublevels for temporary storage. In the latter case, the stockpiled ore will later be rehandled by the LHDs and loaded onto trucks.
The loaded trucks haul the ore up the ramp to the surface and dump it
at the ROM pad stockpile. A wheeled loader rehandles the material, transferring it from the ROM pad stockpile to the chute of the ROM
bin. The primary jaw crusher reduces the ore to minus 125 mm, and a conveyor transports the material to the coarse ore stockpile in the
dome.
Mine development generates both ore and waste. After a drift round is
blasted, an LHD mucks the blasted material from the face and either loads it into mine trucks or dumps it in a muck bay for temporary
storage. If the blasted material is ore, the trucks haul it to the surface just like production ore. If it is waste, they haul it either
to the waste stockpile on the surface or directly to stopes in the process of being backfilled.
This subsection provides an overview of the infrastructure located within
or directly connected to the underground mine. For details on surface infrastructure, including the paste fill plant, CRF plant, compressor
house, and main maintenance shop, please refer to Section 15 of this report.
The QP is of the opinion that the underground infrastructure, mine services,
and fixed equipment are well-suited to the scale and conditions of the underground operations. During the site visit, the QP observed
that these installations are of high quality, fully operational, and functioning as intended. CLG has constructed or installed most of
the infrastructure necessary to sustain operations throughout the remaining LOM.
| 13.7.1 | Mine Access and Underground Facilities |
Table 13.16 presents the infrastructure for mine access and underground
facilities. CLG is a trackless mine and access to the underground workings is provided via a system of ramps. The ramps allow access to
the sublevels and stopes and provide the means for hauling ore and waste to surface.
The portal, situated at an elevation of 1,585 meters above sea level
(masl), serves as the sole access point to the underground mine for both equipment and personnel. The main ramp descends from the portal
to the 1,420 level, where it bifurcates into two separate ramps: one providing access to the NW Zone, and the other to the CZ. CLG has
commenced development of a new ramp system extending from the CZ ramp to provide access to the SE Zone.
As best possible, the ramps are designed to maximize straight runs for
safety and mining efficiency and minimize wear on mobile equipment. Headings have a 5.0 x 5.5 m cross-section and are driven at a maximum
grade of -15%. The grade is reduced to -13% on curves and -7% at main intersections. Curves are designed with a minimum 25
m radius. Passing bays are established where required, and safety bays are excavated at 30 m intervals.
CLG has established an underground maintenance shop within a mined-out
stope in the NW zone. It has four service bays and an office. It is utilized for performing light maintenance work, while pieces of equipment
requiring more intensive repairs are transported to the maintenance shop on surface. The LOM Plan includes the construction of an underground
fuel station, a lubrication bay, and an underground explosive magazine.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 13.16: Mine Infrastructure – Mine Access and Underground
Facilities
Infrastructure Item |
Characteristics |
Location |
Portal |
|
CZ Zone, 1,585 masl |
Main access decline |
5.0 x 5.5 m, -15% grade |
CZ Zone |
NW Ramp |
5.0 x 5.5 m, -15% grade |
NW Zone |
CZ Ramp |
5.0 x 5.5 m, -15% grade |
CZ Zone |
SE Ramp |
5.0 x 5.5 m, -15% grade |
SE Zone |
Underground maintenance shop |
4 service bays, 1 office |
NW Zone |
Source: CLG, 2024
| 13.7.2 | Ventilation Infrastructure |
The ventilation infrastructure operates on a pull-type system. Three
return-air raises equipped with exhaust fans at their collars draw spent air from the mine, while fresh air enters the mine through the
main ramp and two principal intake raises. Additionally, Escape Raise #1 also lightly downcasts fresh air.
Fresh air is distributed throughout the underground mine via ramps,
sublevels, and internal raises. Each ramp is equipped with both a fresh-air raise and a return-air raise, which are progressively extended
downward as ramp development advances. Where feasible, exhaust and intake raises are strategically positioned at the ends of the sublevels
to facilitate flow-through ventilation. Booster fans and regulators are employed to direct and control airflow to active mining areas,
ensuring adequate ventilation for ongoing operations.
Figure 13.16 illustrates the ventilation system at CLG. The ventilation
raises are raisebore raises. The main ventilation raises connecting to the surface have diameters ranging from 4.1 m to 5.1 m. The internal
raises are also raisebore raises, generally 2.1 m in diameter.
Table 13.17 provides detailed information about the principal ventilation
raises and the main ramp, including their airflow capacities. The NW zone intakes fresh air via the main ramp and Ventilation Raise (VR)
#1. It exhausts spent air via VR #3A and VR #5. The CZ zone intakes fresh air via the main ramp and VR #2, and exhausts spent air via
VR #4. The SEU and SE ventilation is currently drawn from the CZ system.
Table 13.18 presents estimates of the minimum permissible ventilation
flow based on the diesel equipment operating underground. According to Mexican regulations for underground mining, 2.13 cubic meters per
minute per horsepower is required for machinery powered by diesel engines (Article 8.4.4-a.2, NORMA Oficial Mexicana NOM-023-STPS-2012).
As shown by comparing the two tables, the ventilation system at CLG delivers significantly more airflow than required by legislation.
This excess airflow is beneficial for moderating temperatures in the underground work environment.
As of the effective date of this report, CLG has commenced the development
of the ventilation system required for mining activities in the SE Zone. A raisebore raise has been completed, extending from the Main
Ramp to Ramp-849, which will serve as part of the fresh-air intake system. A second raise is planned to connect Ramp-849 with
Ramp-630, directing the intake airflow to the SE Zone.
Additionally, a return-air raise will be bored between the surface and
the SE Zone. Two 400-hp exhaust fans will be installed at the collar of this return-air raise to facilitate the extraction of spent air
from the mine. The ramp system within the SE Zone will be ventilated through a network of internal fresh-air and return-air raises. The
ramps will downcast fresh air, maintaining adequate ventilation for mining operations.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG, 2024
Figure 13.16: Schematic Illustrating the Current and Planned Mine
Ventilation System at CLG
Table 13.17: Mine Infrastructure - Current and Planned Ventilation
System
Ventilation Raise |
Zone |
Diameter (m) |
Ventilation Fans |
Upcast Volume, (CFM) |
Downcast Volume (CFM) |
Direction |
Vent Raise #1 |
CZ |
5.1 |
1 ea. x 100 hp |
|
680,000 |
Downcast |
A/F R/E Emerg. #1 |
CZ |
2.4 |
|
|
4,102 |
Downcast |
Vent Raise #2 |
CZ |
4.1 |
1 ea. x 100 hp |
|
500,000 |
Downcast |
Vent Raise #3A |
NW |
4.1 |
1 ea. x 400 hp |
160,000 |
|
Upcast |
Vent Raise #4 |
CZ |
4.1 |
2 ea. x 400 hp |
520,000 |
|
Upcast |
Vent Raise #5 |
NW |
4.1 |
2 ea. x 500 hp |
560,000 |
|
Upcast |
Main Ramp Intake |
CZ |
|
|
|
580,000 |
Downcast |
Current Ventilation System |
|
|
|
1,240,000 |
1,764,102 |
|
Planned additions |
|
|
|
|
|
|
Vent Raise #7 |
SE |
4.1 |
2 ea. x 400 hp |
520,000 |
|
Upcast |
Ultimate Ventilation Capacity |
|
|
|
1,760,000 |
1,764,102 |
|
Source: CLG, 2024
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 13.18: Estimates of Ventilation Requirement
Mobile Equipment |
Units |
Unit Power |
Unit Air Flow |
Fleet Air Flow |
Utilization |
Req'd Air Flow |
Make, Model |
kW |
Hp |
CFM |
CFM |
% |
CFM |
Electric/hydraulic jumbo, DD321 |
6 |
110 |
148 |
11,100 |
66,600 |
20% |
13,320 |
Cable Bolter |
1 |
110 |
148 |
11,100 |
11,100 |
20% |
2,220 |
Electric/hydraulic bolter DD421 |
7 |
110 |
148 |
11,100 |
77,700 |
25% |
19,425 |
Sandvik LHD LH307 |
2 |
160 |
215 |
16,125 |
32,250 |
75% |
24,188 |
Sandvik LHD LH514 |
7 |
256 |
343 |
25,725 |
180,075 |
75% |
135,056 |
Sandvik Toro Truck, TH540 |
7 |
405 |
543 |
40,725 |
285,075 |
70% |
199,553 |
Spraymec MF050 NORMET |
2 |
120 |
161 |
12,075 |
24,150 |
50% |
12,075 |
Normet Transmixer LF600 |
3 |
104 |
139 |
10,425 |
31,275 |
40% |
12,510 |
Normet LF540 |
2 |
110 |
148 |
11,100 |
22,200 |
60% |
13,320 |
Normet Charmec SF Emulsion charger |
3 |
121 |
162 |
12,150 |
36,450 |
50% |
18,225 |
Sandvik Cubex ITH Production drill |
2 |
130 |
174 |
13,050 |
26,100 |
20% |
5,220 |
Sandvik Solo DL421 Production drill |
1 |
110 |
147 |
11,025 |
11,025 |
30% |
3,308 |
Multimec NORMET material handler |
4 |
121 |
161 |
12,075 |
48,300 |
50% |
24,150 |
Scamec 2000s Normet |
2 |
120 |
161 |
12,075 |
24,150 |
60% |
14,490 |
Scamec Lake Shore Cannon SV11 |
1 |
69 |
93 |
6,975 |
6,975 |
60% |
4,185 |
Telehandler |
9 |
75 |
101 |
7,575 |
68,175 |
50% |
34,088 |
Caterpillar 416E |
2 |
58 |
78 |
5,850 |
11,700 |
60% |
7,020 |
John Deere 310L Backhoe |
1 |
87 |
117 |
8,775 |
8,775 |
60% |
5,265 |
Caterpillar 120K Grader |
1 |
93 |
123 |
9,225 |
9,225 |
50% |
4,613 |
Utility vehicles/tractors |
35 |
100 |
134 |
10,050 |
351,750 |
40% |
140,700 |
Subtotal |
98 |
|
|
|
1,333,050 |
|
692,929 |
Personnel |
150 |
|
|
|
53 |
|
7,950 |
Airflow for explosives volume |
|
|
|
|
|
|
129,500 |
Airflow to cool rock & water temp. |
|
|
|
|
|
|
180,100 |
Total Ventilation Requirement |
|
|
|
|
|
|
1,010,479 |
Source: CLG, 2024
| 13.7.3 | Air-Cooling Infrastructure |
CLG operates two air-cooling plants to regulate underground temperatures.
The principal sources of heat are the rock mass and groundwater affected by geothermal heating. Groundwater inflows, for example, can
reach temperatures of up to 70°C. Additional heat sources include the operation of diesel equipment and the increasing auto-compression
of air as the mine deepens.
One air-cooling plant is located near the collar of intake raise AF-V/R
#1, which cools the fresh air supplied to the NW zone, while the other is situated adjacent to the collar of intake raise AF-V/R #2, which
cools the fresh air for the CZ zone. CLG plans to extend the piping system of the cooling plant at AF-V/R #2 to also provide cooling for
the fresh air of the intake raise serving the SE zone.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
As indicated in Table 13.19, each plant has a capacity of 4.5 MW
and is designed to achieve an average stope and development reject wet bulb temperature of 28.5°C. This is based on a surface intake
air temperature of the high monthly average of 24.5°C wet bulb and 33°C dry bulb. The cooling plants chill water and send it to
bulk air coolers at the collars of the intake ventilation raises.
Table 13.19: Air Cooling Infrastructure
Infrastructure Item |
Characteristics |
Location |
Cooling plant - vent raise #1 |
4.5 MW capacity + 1 Fan 100 Hp |
NW Zone |
Cooling plant - vent raise #2 |
4.5 MW capacity + 1 Fan 100 Hp |
CZ Zone |
Source: CLG, 2024
Air cooling is required during the part of the year when high outdoor
temperatures are experienced at the site. The cooling plants operate automatically 24 hours a day from June to September and during the
day only in April, May, and October.
| 13.7.4 | Mine Dewatering Infrastructure |
As detailed in the Groundwater Management subsection, the dewatering
infrastructure at CLG comprises two systems:
The contact water dewatering system employs sumps and pumps to collect
groundwater that enters the underground workings of the mine and discharge it on surface. The non-contact water dewatering system utilizes
dewatering wells to extract groundwater directly from the aquifer, which is then discharged at the surface.
While these two systems operate independently, they are interdependent.
Increasing the extraction of non-contact water from the aquifer reduces the inflow of groundwater into the mine, subsequently decreasing
the volume of contact water. Contact water refers to water which has come into contact with any mine site components. At CLG, non-contact
water comprises groundwater that is drawn directly from the aquifer by dewatering wells and discharged at the surface without any exposure
to the mining operations.
| 13.7.4.1 | Contact Water Dewatering Infrastructure |
Main Pumping Station: Table 13.20 provides details on the contact
water dewatering infrastructure at CLG. Except for small amounts discharged directly to the surface from two sumps in the main ramp, all
contact water is pumped out of the mine through the main pumping station located at the 1384 level via three borehole pipes. The main
pumping station is equipped with three 500-hp pumps and two 600-hp pumps, providing a combined capacity of 375 L/s. Currently, the system
operates at 180 to 200 L/s. The main pumping station receives contact water from two intermediate pumping stations, one serving the NW
Zone and the other serving the CZ.
NW Zone Dewatering System: Contact water from the NW Zone is
pumped to the main pumping station by the NW 1325 level pumping station. It is equipped with three 200-hp pumps with a total capacity
of 210 L/s. This pumping station receives water from three sublevel sumps within the NW Zone, including two located along NW Ramp-263.
As mine development progresses throughout the LOM, a new pumping station will be installed at the 1225 level to pump water to the NW 1325
pumping station. Additionally, new sublevel sumps will be established at 25 m vertical intervals as NW Ramp-263 deepens, with the lowest
sump planned for the 1075 level and sublevel sumps from higher levels decommissioned as mine development progresses to depth.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
CZ Dewatering System: Contact water from the CZ is pumped to
the main pumping station by the CZ 1330 level pumping station. It is equipped with three 200-hp pumps and has a total capacity of 210
L/s. The CZ 1330 station currently receives water from two sublevel sumps along CZ Ramp-361 and two more along CZ Ramp-406. As mine development
advances during the LOM, the dewatering infrastructure in the CZ will extend to lower levels. Three additional sublevel sumps will be
added at 20 m vertical intervals along CZ Ramp-361. Furthermore, a new pumping station will be constructed at the 1250 level of CZ Ramp-406,
with five additional sublevel sumps installed at 20 m vertical intervals as the ramp extends deeper and sublevel sumps from higher levels
decommissioned as mine development progresses to depth.
SE Zone Dewatering System: The development of the SE Zone will
require establishing a dedicated contact water dewatering system. For this part of the mine, this infrastructure will include an intermediate
pumping station that will discharge water directly to the dirty water sump of the main pumping station on the 1384 level. As the ramp
system of this zone progresses to lower levels, four additional sub-level pumping stations are planned, along with various sublevel sumps.
Sublevel sumps are typically only required on the lower levels of the mine so are decommissioned from higher levels as mine development
progresses to depth.
Table 13.20: Mine Infrastructure – Mine Dewatering System
for Contact Water
Infrastructure |
Characteristics |
Capacity (L/s) |
Actual (L/s) |
Main pumping station 1384 level |
Pumps: 3 X 500 hp & 2 X 600 hp |
375 |
~275-325 |
Pumping station 1325 level |
Pumps: 3 x 200 hp |
210 |
200 |
Sump NW Ramp 1300 level |
N/A |
N/A |
N/A |
Sump NW Ramp 263 (400-304) 1225 level |
Pumps: 4 x 60 HP |
240 |
200 |
Sump NW Ramp 263 154 1260 level |
Pumps: 3 x 150 HP +150 backup |
210 |
200 |
Pumping station 1330 level |
Pumps: 3 X 200 hp |
210 |
100 |
Sump CZ Ramp-361 1310 level |
Pumps: 2 x 60 HP |
120 |
50 |
Sump CZ Ramp-361 1290 level |
Pumps: 2 x 60 HP |
120 |
50 |
Sump CZ Ramp-361 1270 level |
N/A |
N/A |
N/A |
Sump CZ Ramp-361 1250 level |
N/A |
N/A |
N/A |
Sump CZ Ramp-406 1310 level |
Pumps: 2 x 60 HP |
120 |
50 |
Sump CZ Ramp-406 1290 level |
Pumps: 2 x 60 HP |
120 |
50 |
Sump CZ Ramp-406 1270 level |
N/A |
N/A |
N/A |
Source: CLG, 2024
| 13.7.4.2 | Non-Contact Water Dewatering Infrastructure |
Main Non-Contact Water Pumping Station: Table 13.21 details the
underground infrastructure for dewatering non-contact water. The water drawn from underground dewatering wells is pumped to surface via
three borehole pipes by the main pumping station located at the 1390 level. This pumping station is equipped with three 500-hp pumps and
three 600-hp pumps, with a combined capacity of 700 L/s. The current discharge rate of non-contact water from the mine is approximately
500-550 L/s.
NW 1370 Level Dewatering Wells: As described in the Groundwater
Management subsection, non-contact water dewatering operations target a water-bearing structure within the NW Zone. The 1390-level pumping
station receives non-contact water from two sources within this zone. A portion comes from two dewatering wells located at the 1370 level.
Each well extends to a depth of 180 m and has a pumping capacity of 170 L/s with current flow rates of approximately 310 L/s combined.
The remaining water comes from a pumping station situated at the 1330 level.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
NW 1277 Level Dewatering Wells: The NW 1330-level pumping station
is equipped with four 200-hp pumps, providing a total pumping capacity of 320 L/s. This pumping station receives water from two dewatering
wells located on the 1277 level in the NW Zone. The first well has a depth of 80 m and a current flow of 50 L/s, while the second well
is 180 m deep with a current flow of approximately 145 L/s.
NW 1230 Level Dewatering Wells: As of the effective date of this
report, CLG is in the process of constructing a new non-contact water pumping station on the 1272 level in the NW Zone, as well as two
new dewatering wells at the 1230 level. The new wells will have depths of 100 m and 120 m, respectively, and each will have a capacity
of 80 L/s. The new pumping station will transfer water from these wells to the NW 1330-level pumping station.
Table 13.21: Mine Infrastructure – Mine Dewatering System
for Non-Contact Water
Infrastructure Item |
Characteristics |
Water Level (masl) |
Capacity (L/s) |
Flow (L/s) |
Pumping station 1390 level |
Pumps: 3 ea. X 600 hp & 3 ea. X 600 hp |
|
700 |
525 |
Pumping station 1330 level |
Pumps: 4 ea. X 200 hp |
|
320 |
150 |
UG Well #1 NWZ 1370 |
180 m deep |
1,239.26 |
170 |
170 |
UG Well #2 NWZ 1370 |
180 m deep |
1,238.00 |
170 |
140 |
UG Well #3 NWZ 1277 |
80 m deep |
1,209.41 |
OFF |
N/A |
UG Well #4 NWZ 1277 |
80 m deep |
1,208.40 |
100 |
50 |
UG Well #5 NWZ 1277 |
180 m deep |
1,097.00 |
150-170 |
145 |
UG Well #6 NWZ 1230 |
100 m deep (Under construction) |
1,130.00 |
80 |
N/A |
UG Well #7 NWZ 1230 |
120 m deep (Under construction) |
1,110.00 |
80 |
N/A |
Source: CLG, 2024
| 13.7.5 | Mine Safety Infrastructure |
Table 13.22 lists the safety infrastructure at the mine, which includes
an escapeway raise to surface, a permanent refuge station, and three portable refuge chambers.
Table 13.22: Mine Infrastructure – Mine Safety
Infrastructure Item |
Characteristics |
Location |
Refuge Station |
50-person, 96-hour capacity |
1390 level |
Portable refuge chamber |
Dräger, 12-person, 96-hour capacity |
1275 level |
Portable refuge chamber |
Dräger, 16-person, 96-hour capacity |
1320 level - Ramp 630 |
Portable refuge chamber |
Dräger, 12-person, 96-hour capacity |
1320 level - Ramp 657 |
Escapeway raise #1 |
Truck-mounted mine rescue hoist |
CZ Zone: 1390 level to surface |
Source: CLG, 2024
Mexican mining legislation requires an operating underground mine to
have at least two independent exits to the surface (Articles 8.2.10-a and 17.3 page 56/122 NORMA Oficial Mexicana NOM-023-STPS-2012).
In compliance with this legislation, CLG has Escapeway Raise #1, which is a 2.4-m diameter open borehole providing an alternate means
of egress from the mine should the main ramp be impassable. In an emergency, personnel would be hoisted to surface via this raise in a
torpedo-type man cage by a truck-mounted portable mine rescue hoist system (Timberland PMRH45). This unit is parked at all times adjacent
to the raise collar. The ventilation of the escapeway raise is downcasting; consequently, it is designed to remain in fresh air during
a mine fire.
The bottom of Escapeway Raise #1 connects directly to the permanent
refuge station on the 1390 level of the CZ Zone. This refuge station is designed and built to high standards and is equipped with the
supplies and equipment required for this type of installation. Its entrance has double doors to prevent contaminated air from entering
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
during a mine fire. It also serves as a lunchroom and meeting room for
underground personnel. In addition, three container-type portable refuge chambers are located at strategic points in the mine.
The mine currently lacks a fully developed internal system of escapeways
connecting the sublevels; consequently, parts of the mine are not provided with two independent exits to the surface. However, CLG has
a program underway to develop an internal system of escapeways, consisting of raises equipped with ladderways, in the CZ and NW zones.
CLG is presently constructing a new permanent mine rescue station with a capacity of 50 persons, providing coverage for the CZ and SE
zones.
WSP offers the following recommendations concerning escapeways:
| n | Prioritize the development of internal escapeway raises to enhance mine safety. |
| n | Evaluate whether additional portable refuge chambers would be beneficial on a provisional basis until the internal escapeway system
can be fully developed. |
| n | Assess the potential for a second escapeway raise to surface, considering the distance of the SE Zone from Escapeway Raise #1. |
| n | Ensure that the design of the planned internal escapeways complies with Mexican mining regulations, particularly regarding ladderways
and manways (Articles 8.3.1-s and 17.3 pages 59&60/122 NORMA Oficial Mexicana NOM-023-STPS-2012). |
Electrical power is distributed at
13,800 V, 3-phase, 60 Hz. The mine is supplied by three feeder circuits:
| n | NW Zone: The zone is supplied by a 350-KCM power feeder cable. |
| n | CZ Zone: The zone is supplied by a 250-KCM power feeder cable. |
| n | Main Pumping Stations: 350-KCM power feeder cables supply the main pumping stations at levels 1370 and 1390. |
There are three fixed substations, each with a capacity
of 2,500 kVA. These substations operate at a primary voltage of 13,800 volts and supply a secondary voltage of 4,160 volts, 3-phase, 60
Hz. They provide power to the stationary pumping and ventilation systems.
The site utilizes 25 mobile electrical substations,
with varying capacities. These substations operate at a primary voltage of 13,800 volts and provide a secondary voltage of 480 volts,
3-phase, 60 Hz. These mobile units deliver power to operational and development areas (refer to Table 13.23 for details).
The mine is equipped with an emergency generation
system comprising six synchronized standby generators. These generators provide backup power in the event of an external power supply
interruption and are capable of maintaining a constant load of 7.5 MW. This capacity is sufficient to keep the critical pumping and ventilation
systems operational (refer to Table 13.24 for details).
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 13.23: Electrical Substations in the Underground Mine
Mobile Substations |
Quantity |
Capacity kVA |
Primary Voltage |
Secondary Voltage |
12 |
2,000 |
13.8 kV |
480 V |
6 |
1,500 |
13.8 kV |
480 V |
4 |
1,000 |
13.8 kV |
480 V |
3 |
500 |
13.8 kV |
480 V |
Fixed
Substations |
Quantity |
Capacity
kVA |
Primary
Voltage |
Secondary
Voltage |
3 |
2,500 |
13.8 kV |
4,160 V |
Source: CLG, 2024
Table 13.24: Standby Generators at the Mine Site
Quantity |
Capacity kVA |
Primary Voltage |
Secondary Voltage |
2 |
1,000 |
480 V |
13.8 kV |
1 |
1,250 |
480 V |
13.8 kV |
3 |
2,000 |
480 V |
13.8 kV |
Source: CLG, 2024
| 13.7.7 | Underground Communications |
The underground mine has the following systems and equipment for communication
and monitoring:
Voice Communication:
| n | A leaky feeder cable network operating in the UHF band, extending over 10 km. |
| n | NEXEDGE digital radios in the UHF band, with over 100 radios installed in various production equipment. |
Data Communication:
| n | A fiber-optic backbone supports data communication throughout the mine. |
| n | The mine is equipped with two fiber optic entry points to form a redundancy ring, ensuring continuous operation. |
| n | Internet coverage is available at 24 locations via Ethernet and/or Wi-Fi. |
Personnel Location:
| n | A location tracking system utilizing Wi-Fi-based antennas and tracking tags. |
| n | Currently, 35 location points are in operation, with an ongoing system upgrade to increase the detection points to 45. |
Video Surveillance Cameras:
| n | 16 IP cameras are installed throughout the mine. |
| n | Camera feeds are accessible at the surface Comm. Center, with a recording capacity exceeding 30 days. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Gas Monitoring System:
| n | 8 gas monitors for O₂, CO, and NO₂. |
| n | 4 additional gas monitors for O₂ and CO. |
| n | Real-time gas readings are displayed at the Communication Center for continuous monitoring. |
Table 13.25 lists the mine-service materials that are used underground
at CLG.
Table 13.25: Mine Services at CLG
Mine Service Item |
Characteristics |
Diameters |
Compressed Air Pipe |
HDPE RD 11 |
8”, 6”, 3” and 2” |
Service Water Pipe |
HDPE RD 11 |
6”, 3” and 2” |
Dewatering Pipe |
HDPE RD11 (85%) and Steel Schedule 40 (15%) |
8”, 10”, 12” and 14” |
Paste Fill Pipe |
Steel, Schedule 80, HDPE RD 11 |
5”and 6” |
Vent tubing |
Rip Stop Oval 540 gm/m2 |
54”, 42”, 36” and 20” |
Source: CLG, 2024
The CLG mine is a fully mechanized
operation that utilizes rubber-tired diesel equipment across all phases of its mining activities. The mobile equipment currently in operation
is detailed in Table 13.26. The fixed equipment installed underground is discussed in the Mine Infrastructure subsection.
CLG’s LOM plan includes a comprehensive program for overhauling
the existing fleet, with capital allocated for this purpose from H2 2024 to 2029. The mine also plans to acquire additional equipment,
as outlined in Table 13.27.
Further details regarding the equipment fleet are as follows:
| n | Load-Haul-Dump (LHD) Units: Most LHDs are equipped with radio-remote-control systems, enabling safe mucking operations within
open stopes. An operator using the system is positioned at a secure location in the stope access behind the brow. Certain units can also
be fitted with a rammer-jammer attachment for jamming CRF or URF in CAF stopes. |
| n | Jumbos: The mine utilizes two-boom electric-hydraulic development jumbos. One of the jumbos is equipped with an adapter for
cable bolting. |
| n | Bolters: The bolters are equipped for installing mesh and 2.4-meter Super Swellex bolts. |
| n | Mine Trucks: The Sandvik mine trucks are equipped with ejector boxes, facilitating the dumping of CRF and URF into stopes where
limited back heights would impede discharging with standard rear-tipping boxes. |
| n | Production Drill Rigs: CLG operates three production drill rigs for drilling longholes. One of these rigs is a top-hammer unit,
while the other two are in-the-hole (ITH) rigs. The ITH rigs drill holes with less deviation than the top-hammer rig, so they are ideal
for steeply dipping and wider veins, as well as for drilling holes greater than 20 m in length. The top-hammer rig is typically used in
shallow-dipping stopes (less than 60°) and for radial drilling in more irregular geometries. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 13.26: Mobile Mine Equipment
Equipment Type |
Make & Model |
Capacity |
kW Diesel |
Units |
Jumbo |
Sandvik DD321 |
Two boom |
110 |
6 |
Cable Bolter |
Sandvik DS421 |
Cable bolt length up to 25 m |
110 |
1 |
Bolter |
Sandvik DS411 |
135 kW power pack |
110 |
5 |
Bolter |
Sandvik DS311 |
135 kW power pack |
110 |
2 |
Underground loader (LHD) |
Sandvik LH307 |
7 t tramming capacity |
160 |
2 |
Underground loader (LHD) |
Sandvik LH514 |
14 t tramming capacity |
256 |
7 |
Mine truck with ejector box |
Sandvik TH540 |
40 t payload |
405 |
7 |
Transmixer |
Normet Utimec LF600 |
5.6 m3 |
104 |
3 |
Shotcrete sprayer |
Normet Spraymec LF050 |
19 m3/h |
120 |
2 |
Emulsion charger |
Normet Charmec SF |
|
121 |
3 |
ITH longhole drill rig |
Sandvik DU311 |
33 kW percussion |
130 |
2 |
Top hammer longhole drill rig |
Sandvik DL421 |
33 kW percussion |
110 |
1 |
Scaler |
Normet Scamec 2000S |
|
120 |
2 |
Scaler |
Lake Shore Cannon SV11 |
|
69 |
1 |
Telehandler |
Manitou MTX1440 |
4000 kg load capacity |
75 |
3 |
Telehandler |
Caterpillar TL943D |
4082 kg load capacity |
75 |
4 |
Grader |
Caterpillar 120K |
|
93 |
1 |
Fuel lube truck |
Normet Multimec LF100 |
140 L |
205 |
1 |
Personnel carrier |
Normet Multimec LF100 |
12 passengers |
205 |
1 |
Multi-functional carrier |
Normet Multimec LF100 |
N/A |
205 |
2 |
Wheel loader |
Komatsu WA470 |
4.1 m³ |
203 |
1 |
Scissor lift |
Normet LF540 |
4.5 t |
110 |
2 |
Pickup trucks |
Toyota Hilux / Mitsu |
|
|
79 |
Wheel loader |
LUIGONG 890H |
5.4 m³ |
262 |
1 |
Backhoe loader |
Caterpillar 416E |
.76 m³ |
58 |
2 |
Source: CLG, 2024
Table 13.27: Planned Equipment Acquisitions
Equipment |
2025 |
2026 |
2027 |
2028 |
Production drill rig Sandvik DL 431 |
✔ |
|
|
|
Telehandler |
|
✔ |
|
|
Scissor lift |
|
|
|
✔ |
Backhoe |
|
|
✔ |
|
Multi-functional carrier Multimec |
|
✔ |
|
|
Shotcrete sprayer Spraymec |
|
|
✔ |
|
ANFO Charger |
|
|
|
✔ |
Source: CLG, 2024
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The QP is of the opinion that the size and composition of the mining
fleet, including equipment types, makes, and models, are appropriate for the production rate, mining methods, and development requirements
at CLG. The QP reviewed the underground equipment fleet during the site visit and observed several machines in active operation.
As indicated in Table 13.28, the mine department employed a total of
483 individuals as of July 1, 2024. The underground mine operates on a two-shift schedule, with each shift working 10-hours per day. The
workforce is organized into three rotational crews, each working 14 days on followed by 7 days off. At any given time, two of the three
crews are present on-site, ensuring continuous operation. The majority of the mine personnel reside in the city of Chihuahua; however,
some commute from other communities in the state of Chihuahua or other parts of Mexico. CLG previously used a mining contractor in the
underground mine but currently performs all development and production with its own employees.
Table 13.28: Mine Personnel
Mine Labor |
Positions |
Training |
12 |
Mine Geology |
24 |
Engineering and Construction |
8 |
Maintenance - Fixed Equipment |
47 |
Maintenance - Mobile Equipment |
54 |
Mine Supervision |
9 |
Mine Operations |
290 |
Productivity |
9 |
Technical Services |
30 |
Total |
483 |
Source: CLG, 2024
The QP reviewed the organizational structure of the personnel and is
of the opinion that it is well-suited to the scale and characteristics of the underground mining operation.
The LOM plan for the 2024 Mineral Reserve incorporates the following
trends and plans for the CLG Mine:
| n | Resource conversion drilling resulting in an increase in Mineral Reserves. |
| n | A shift in mining focus as the stope production progressively shifts toward the southeast part of the deposit. |
| n | Increase in the mine and mill production targets to 3,500 tpd from mid-2025 onward |
| n | Prioritization of transverse longhole stoping, where its application is feasible. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 13.29 presents the LOM underground mine production schedule and
Table 13.30 presents the LOM mill production schedule developed in the reserve estimation process. Key trends in the schedule are as follows:
| n | The mine maintains a steady production output of approximately 1.3 Mtpa throughout the LOM. |
| n | With 10.33 Mt of Mineral Reserves, CLG has sufficient ore to sustain operations at the planned production rate until the end of 2032. |
| n | The 8.3-year mine life, extending to Q4 of 2032, represents a two-year extension compared to the 2023 LOM plan, which had projected
mining operations to continue until Q4 2030. |
| n | The average annual NSR values of the ore mined decrease progressively over the LOM, primarily due to lower silver and zinc grades
but remain well above the NSR cut-offs. |
Table 13.31 outlines the LOM production plan, broken down by zone and
mining method. The notable trends in this schedule include:
| n | Approximately 50% of the LOM production is derived from reserves in the SE zone. |
| n | Production from the CZ and NW zones peaks in 2026, contributing about 80% of that year's output but progressively declines in subsequent
years. |
| n | The reduction in output from the CZ and NW zones is offset by increased production from the SE zone, which accounts for 88% of the
total mine output in the final three years of the LOM. |
| n | The SEU zone accounts for only 6% of the Mineral Reserves, and its reserves will be fully depleted in 2029. |
Table 13.32 presents the LOM Plan broken down by mining method. The
following trends are observed in this schedule:
| n | Stope production transitions from a roughly equal emphasis on CAF and LHS during the first 1.5 years of the LOM, to approximately
94% reliance on LHS in the final three years. Across the entire LOM, approximately 65% of the ore is mined using LHS. |
| n | The reduced focus on CAF in the latter part of the LOM is primarily due to the depletion of reserves of the SEU and CZ zones. |
| n | The NW zone will be mined exclusively with LHS. |
Table 13.33 and Table 13.34 present LOM backfill placement and longhole
drilling, respectively. Key trends observed in these tables include:
| n | Paste fill is by far the predominant backfill material, comprising approximately 96% of the total backfill volume placed over the
LOM. The remaining backfill consists of CRF and URF. |
| n | The number of drilled meters for LHS and cable bolting increases progressively each year, in line with the growing reliance on the
LHS mining method. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 13.29: Life of Underground Mine Production Schedule, Excluding
Stockpile Material (100% LGJV Basis)
|
Units |
H2
2024 |
2025 |
2026 |
2027 |
2028 |
2029 |
2030 |
2031 |
2032 |
LOM |
Proven
& Probable |
Mt |
0.60 |
1.26 |
1.28 |
1.28 |
1.28 |
1.28 |
1.27 |
1.15 |
0.93 |
10.33 |
NSR
Value |
$/t |
225 |
208 |
194 |
173 |
167 |
174 |
168 |
163 |
157 |
179 |
Ag
Grade |
g/t |
260 |
221 |
193 |
166 |
154 |
156 |
150 |
146 |
141 |
172 |
Pb
Grade |
% |
1.89 |
2.05 |
2.13 |
2.11 |
2.12 |
2.12 |
2.00 |
2.04 |
2.09 |
2.07 |
Zn
Grade |
% |
4.02 |
4.30 |
4.42 |
4.05 |
3.97 |
4.23 |
3.34 |
3.30 |
3.24 |
3.89 |
Cu
Grade |
% |
0.09 |
0.12 |
0.12 |
0.14 |
0.16 |
0.21 |
0.38 |
0.34 |
0.27 |
0.21 |
Au
Grade |
g/t |
0.27 |
0.23 |
0.25 |
0.20 |
0.22 |
0.25 |
0.20 |
0.19 |
0.18 |
0.22 |
Table 13.30: Life-of-Mine Mill Production Schedule, Including Stockpile
Material (100% LGJV Basis)
|
Units |
H2
2024 |
2025 |
2026 |
2027 |
2028 |
2029 |
2030 |
2031 |
2032 |
LOM |
Proven
& Probable |
Mt |
0.60 |
1.26 |
1.28 |
1.28 |
1.28 |
1.28 |
1.27 |
1.15 |
0.93 |
10.33 |
Ag
Grade |
g/t |
260 |
221 |
193 |
167 |
154 |
153 |
153 |
146 |
141 |
172 |
Pb
Grade |
% |
1.89 |
2.04 |
2.13 |
2.10 |
2.12 |
2.13 |
1.99 |
2.05 |
2.09 |
2.07 |
Zn
Grade |
% |
4.02 |
4.30 |
4.42 |
4.05 |
3.98 |
4.22 |
3.35 |
3.30 |
3.24 |
3.89 |
Cu
Grade |
% |
0.09 |
0.12 |
0.12 |
0.14 |
0.16 |
0.21 |
0.37 |
0.33 |
0.27 |
0.21 |
Au
Grade |
g/t |
0.26 |
0.23 |
0.25 |
0.20 |
0.22 |
0.24 |
0.21 |
0.19 |
0.18 |
0.22 |
Source: CLG, 2024
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 13.31: Life-of-Mine Production Schedule by Zone - Mt (100%
LGJV Basis)
Zone |
Method |
H2
2024 |
2025 |
2026 |
2027 |
2028 |
2029 |
2030 |
2031 |
2032 |
LOM
Total |
CZ |
Cut-and-fill |
0.29 |
0.06 |
0.32 |
0.19 |
0.38 |
0.32 |
|
|
0.03 |
1.60 |
Longhole Stoping |
0.08 |
0.27 |
0.30 |
0.23 |
0.10 |
0.04 |
0.04 |
0.01 |
0.00 |
1.06 |
Development |
0.03 |
0.00 |
0.01 |
0.02 |
0.01 |
0.01 |
|
|
|
0.08 |
|
Total CZ |
0.39 |
0.33 |
0.63 |
0.44 |
0.49 |
0.36 |
0.04 |
0.01 |
0.04 |
2.74 |
NW |
LHS |
0.09 |
0.28 |
0.36 |
0.25 |
0.23 |
0.21 |
0.12 |
0.10 |
0.08 |
1.72 |
Development |
0.02 |
0.07 |
0.04 |
0.02 |
0.01 |
|
|
|
|
0.17 |
|
Total NW |
0.11 |
0.35 |
0.40 |
0.28 |
0.23 |
0.21 |
0.12 |
0.10 |
0.08 |
1.89 |
SE |
Cut-and-fill |
0.00 |
0.09 |
0.07 |
0.02 |
0.06 |
0.12 |
0.02 |
|
|
0.38 |
Longhole Stoping |
0.00 |
0.05 |
0.07 |
0.39 |
0.25 |
0.36 |
0.96 |
1.04 |
0.81 |
3.92 |
Development |
0.02 |
0.07 |
0.09 |
0.12 |
0.21 |
0.18 |
0.14 |
|
|
0.82 |
|
Total SE |
0.02 |
0.21 |
0.22 |
0.53 |
0.52 |
0.66 |
1.12 |
1.04 |
0.81 |
5.13 |
SEU |
Cut-and-fill |
0.06 |
0.35 |
0.03 |
0.02 |
0.03 |
0.01 |
|
|
|
0.51 |
Longhole Stoping |
|
|
|
|
0.02 |
0.03 |
|
|
|
0.05 |
Development |
0.01 |
0.01 |
0.00 |
0.00 |
0.00 |
|
|
|
|
0.02 |
|
Total SEU |
0.07 |
0.36 |
0.03 |
0.03 |
0.05 |
0.04 |
|
|
|
0.57 |
|
Total All
Zones |
0.59 |
1.26 |
1.28 |
1.28 |
1.28 |
1.28 |
1.27 |
1.15 |
0.93 |
10.33 |
Source: CLG, 2024
Table 13.32: Life-of-Mine Production Schedule by Mining Method
- Mt (100% LGJV Basis)
Mining Method |
H2
2024 |
2025 |
2026 |
2027 |
2028 |
2029 |
2030 |
2031 |
2032 |
LOM
Total |
Cut-and-fill |
0.35 |
0.50 |
0.42 |
0.24 |
0.46 |
0.45 |
0.02 |
|
0.03 |
2.49 |
Longhole
Stoping |
0.16 |
0.60 |
0.72 |
0.87 |
0.59 |
0.64 |
1.11 |
1.15 |
0.90 |
6.75 |
Development |
0.07 |
0.16 |
0.14 |
0.17 |
0.23 |
0.18 |
0.14 |
|
|
1.09 |
Total
Production |
0.59 |
1.26 |
1.28 |
1.28 |
1.28 |
1.28 |
1.27 |
1.15 |
0.93 |
10.33 |
Source: CLG, 2024
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 13.33: Life-of-Mine Backfill Placement, Cubic Meters
Backfill Type |
Mining
Method |
H2
2024 |
2025 |
2026 |
2027 |
2028 |
2029 |
2030 |
2031 |
2032 |
LOM
Total |
Pastefill |
Cut-and-fill |
69,866 |
174,471 |
69,377 |
71,923 |
126,883 |
193,527 |
7,543 |
|
27,719 |
741,309 |
Longhole
stoping |
62,990 |
193,387 |
250,880 |
295,387 |
203,089 |
208,971 |
376,872 |
407,600 |
386,537 |
2,385,713 |
Total
Pastefill |
132,856 |
367,858 |
320,257 |
367,310 |
329,972 |
402,498 |
384,414 |
407,600 |
414,256 |
3,127,022 |
Cemented
Rockfill |
Cut-and-fill |
18,766 |
4,007 |
21,716 |
4,326 |
11,149 |
13,076 |
|
|
|
73,040 |
Rockfill |
Cut-and-fill |
9,511 |
|
20,161 |
16,067 |
13,764 |
14,151 |
|
|
|
73,654 |
Total
Backfill |
161,133 |
371,865 |
362,134 |
387,703 |
354,885 |
429,725 |
384,414 |
407,600 |
414,256 |
3,273,716 |
Source: CLG, 2024
Table 13.34: Life-of-Mine Longhole Drilling, Meters Drilled
Meters Drilled |
H2
2024 |
2025 |
2026 |
2027 |
2028 |
2029 |
2030 |
2031 |
2032 |
LOM
Total |
Longhole
Drilling |
61,541 |
219,246 |
254,061 |
306,013 |
202,482 |
220,396 |
380,773 |
393,621 |
308,725 |
2,346,859 |
Cable
Bolting |
5,685 |
20,830 |
24,970 |
30,109 |
20,140 |
22,128 |
38,377 |
39,517 |
30,826 |
232,582 |
Total |
67,226 |
240,076 |
279,032 |
336,122 |
222,622 |
242,524 |
419,150 |
433,138 |
339,551 |
2,579,441 |
Source: CLG, 2024
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 13.35 outlines the LOM schedule for lateral development, including
both ramps and drifts. Table 13.36 presents the schedule for vertical development, comprising raises for ventilation and escapeways. LOM
mining rates are similar to current operational performance. It is anticipated that underground development for mining the current Mineral
Reserve will be materially complete by 2030.
Table 13.35: Life-of-Mine Schedule for Lateral Development (meters)
Meters of Advance |
H2 2024 |
2025 |
2026 |
2027 |
2028 |
2029 |
2030 |
2031 |
2032 |
LOM Total |
CZ |
Sublevel development |
130 |
192 |
670 |
371 |
2 |
|
|
|
|
1,366 |
Crosscut |
118 |
174 |
196 |
208 |
63 |
40 |
|
|
|
799 |
Ramp |
82 |
204 |
619 |
500 |
|
|
|
|
|
1,405 |
Ore drive |
702 |
195 |
185 |
437 |
218 |
68 |
|
|
|
1,805 |
|
Total CZ |
1,031 |
766 |
1,670 |
1,517 |
283 |
108 |
|
|
|
5,375 |
NW |
Sublevel development |
4 |
357 |
214 |
54 |
|
|
|
|
|
628 |
Crosscut |
153 |
385 |
158 |
29 |
|
|
|
|
|
725 |
Ramp |
177 |
442 |
326 |
71 |
|
|
|
|
|
1,016 |
Ore drive |
563 |
1,264 |
731 |
559 |
153 |
|
|
|
|
3,269 |
|
Total NW |
897 |
2,448 |
1,429 |
713 |
153 |
|
|
|
|
5,639 |
SE |
Sublevel development |
401 |
970 |
1,030 |
1,288 |
918 |
388 |
28 |
|
|
5,022 |
Crosscut |
399 |
397 |
428 |
337 |
514 |
181 |
|
|
|
2,256 |
Ramp |
448 |
898 |
718 |
714 |
757 |
156 |
|
|
|
3,691 |
Ore drive |
425 |
2,090 |
2,472 |
2,425 |
3,787 |
4,179 |
3,309 |
|
|
18,687 |
|
Total SE |
1,673 |
4,355 |
4,647 |
4,764 |
5,977 |
4,904 |
3,337 |
|
|
29,657 |
SEU |
Sublevel development |
419 |
69 |
|
|
|
|
|
|
|
488 |
Crosscut |
13 |
47 |
|
|
20 |
|
|
|
|
79 |
Ramp |
85 |
22 |
|
|
|
|
|
|
|
107 |
Ore drive |
204 |
|
231 |
105 |
81 |
5 |
|
|
|
625 |
|
Total SEU |
721 |
138 |
231 |
105 |
100 |
5 |
|
|
|
1,300 |
|
Total All Zones |
4,321 |
7,706 |
7,977 |
7,100 |
6,514 |
5,017 |
3,337 |
|
|
41,970 |
Source: CLG, 2024
Table 13.36: Life-of-Mine Schedule for Vertical Development (meters)
Zone |
H2 2024 |
2025 |
2026 |
2027 |
2028 |
2029 |
2030 |
2031 |
2032 |
LOM Total |
CZ |
52 |
97 |
74 |
68 |
37 |
|
|
|
|
327 |
NW |
34 |
171 |
27 |
|
|
|
|
|
|
232 |
SE |
|
695 |
248 |
113 |
331 |
112 |
|
|
|
1,498 |
Total |
86 |
963 |
349 |
181 |
368 |
112 |
|
|
|
2,058 |
Source: CLG, 2024
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 13.11 | Mining Risks and Opportunities |
The following are key challenges and risks associated with mining the
CLG orebody for the remaining LOM:
| n | Groundwater Management: Extraction of the Mineral Reserves in accordance with the LOM production schedule is dependent on effective
groundwater control. The challenges with mine dewatering and inflows may increase as the mine deepens. |
| n | Ground Conditions: Certain areas of the mine, particularly those influenced by the Los Gatos fault, exhibit unfavorable ground
conditions. These conditions could adversely affect production and development schedules, necessitating greater usage than planned of
the higher-cost transverse CAF mining method. |
| n | Geothermal Heat: Managing geothermal heat and controlling underground temperatures may become increasingly difficult as the
mine progresses to greater depths. Inadequate temperature control could cause production delays and disrupt development timelines. |
| n | Mine Development: The ability to adhere to the LOM plan is reliant on maintaining scheduled development rates, particularly
in ramp development. Any delays in development will likely have a direct impact on stope production and overall mine output. |
| n | Longhole Stoping (LHS): The plan to increase the proportion of ore mined using LHS depends on geotechnical conditions being
suitable for employing this mining method. Adverse ground stability could limit the effectiveness of this approach, potentially affecting
production targets. |
| n | Mineral Reserve Classification: Approximately 66% of the 2024 Mineral Reserve is classified as Probable, which has a lower
level of confidence compared to Proven reserves. |
The following factors represent opportunities to enhance mining operations
at CLG:
| n | Diamond Drilling: Ongoing diamond drilling in the SE zone and South-East Deeps offers potential for extending the mine’s
life. |
| n | Geotechnical Data Collection: Continued exploration drilling will provide core samples for geotechnical testing, offering improved
insights into rock mass characteristics at greater depths. |
| n | Conditions in the SE Zone: The anticipated drier conditions in the SE Zone would alleviate challenges related to temperature
control and groundwater management. Additionally, it could enable the increased use of more cost-effective ANFO explosives. |
| n | Production Rate: Future initiatives focused on increasing mill throughput and mine production have the potential to boost revenues
and improve profit margins for CLG. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 14.0 | Processing and Recovery Methods |
This section summarizes the process plant facilities treating lead,
zinc and silver ores at the Los Gatos mine in Chihuahua, Mexico. The plant was designed for 2,500 t/d (912,500 t/y) based on 365 operating
days at 92% utilization. Since start-up, throughput has increased, with the plant consistently processing over 3,400 t/d in 2024.
Plant operations align with the design, metallurgical testwork in Section
10, and performance predictions. Lead, silver, and zinc metallurgy are expected to remain consistent with current performance. However,
copper feed grade is projected to increase from about 0.1% Cu in 2024 to 0.35% Cu by end of mine life. Geometallurgical studies are underway
to characterize this change, with plans to implement copper-lead separation in 2025. Current copper grades have not negatively impacted
separation or concentrate quality.
Recovery assumptions for future mining are considered reasonable. The
plant uses conventional flotation technology, with equipment sized appropriately for projected throughput.
The key process parameters are outlined in Table 14.1 and predicted
process performance is shown in Table 14.2.
Table 14.1: Process Parameters
Parameter |
Units |
Value |
Plant Nominal Throughput |
t/d |
3,500 |
Plant Throughput Average |
t/d |
3,401 |
Crushing Availability |
% |
75 |
Concentrator Availability |
% |
93.4 |
Crushing Plant Product Size (P100) |
mm |
125 |
Flotation Feed Size (F80) |
µm |
45 |
Pb Rougher Regrind Product Size (P80) |
µm |
20 |
Zn Rougher Regrind Product Size (P80) |
µm |
20 |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 14.2: Predicted Process Performance
Parameter |
Units |
Value |
Pb Recovery in Pb Concentrate |
% |
89.4 |
Ag Recovery in Pb Concentrate |
% |
78.0 |
Au Recovery in Pb Concentrate |
% |
54.2 |
Cu Recovery in Pb Concentrate |
% |
60.0 |
Zn Recovery in Zn Concentrate |
% |
62.77 |
Ag Recovery in Zn Concentrate |
% |
10.2 |
Pb Concentrate Grade |
% Pb |
53 |
Zn Concentrate Grade |
% Zn |
56 |
Table 14.3 shows a list of major equipment installed in the plant.
Table 14.3: Major Equipment List
Equipment |
Size |
Primary jaw crusher |
870 mm x 1200 mm, 150 kW |
SAG mill |
6.1 m DIA x 2.8 m EGL, 1,750 kW |
Ball mill |
5.0 m DIA x 7.32 m EGL, 3,100 kW |
Pb rougher flotation |
5 x 70 m³ tank cells |
Pb cleaner flotation |
5 x 10 m³ tank cells
|
Pb Scalper flotation on column |
1 column cell 2.5 m Ø |
Zn rougher flotation |
5 x 10 m³ tank cells |
Zn cleaner flotation |
16 x 10 m³ tank cells |
Zn Scalper flotation |
2 column cells 2.5 m Ø |
Pb regrind mill |
150 kW vertical mill |
Zn regrind mill |
225 kW vertical mill |
Pb concentrate thickener |
10 m DIA, high rate |
Zn concentrate thickener |
10 m DIA, high rate |
Pb concentrate filter |
41 m² pressure filter |
Zn concentrate filter |
93 m² pressure filter |
Tailing thickener |
20 m DIA, high rate |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 14.4 | Performance Predictions |
The plant is anticipated to treat approximately 3,400 t/d ore in the
current plan, which is still limited to mine capacity rather than plant capacity.
The concentrate that will be produced in each period depends on the
relative grades of the metals, zinc, lead, copper, and silver, and the metallurgical process that is being used to produce two or three
concentrates. Therefore, there are no fixed predictions, but Table 14.4 shows the range of concentrate grades that have been projected
for the life of mine.
Table 14.4: Projected Concentrate Grades
Concentrate |
Grade |
|
Pb, % |
Zn, % |
Cu, % |
Ag, g/t |
Bulk Cu-Pb |
|
|
1 to 3 |
3,000 to 9,000 |
Zn |
|
54 to 58 |
|
300 to 800 |
Cu |
|
|
21 to 25 |
800 to 1,900 |
Pb |
50 to 54 |
|
2 to 4 |
2,300 to 3,700 |
Table 14.5 shows the recoveries obtained during the historical work
compared to that estimated in the LOM.
Table 14.5: Projected Recoveries
Element |
Historical |
LOM |
Ag recovery, % |
88.9 |
88.2 |
Pb recovery, % |
88.9 |
89.4 |
Zn recovery, % |
65.6 |
63.2 |
Au recovery, % |
52.0 |
54.2 |
Cu recovery, % |
61.8 |
60.0 |
The crushing plant is processing the run-of-mine (ROM) ore by using
a primary jaw crusher to reduce the ore to a P100 of minus 125 mm.
Crusher product is fed to a coarse ore stockpile with about 3,000 t
live capacity.
Material reclaimed from the coarse ore stockpile is fed to a semi-autogenous
(SAG) mill-ball-mill grinding circuit to liberate the economic minerals from gangue. The SAG mill operates in closed circuit with a vibrating
screen. The ball mill operates in closed circuit with hydrocyclones.
Figure 14.1 shows a simplified process diagram for the crushing and
grinding area.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 14.1: Crushing and Grinding Simplified Process Flowsheet
Cyclone overflow, the grinding circuit product, is fed to the flotation
plant. The flotation plant consists of lead-copper and zinc flotation circuits. The lead-copper flotation circuit consists of bulk rougher
flotation, regrind, bulk cleaner flotation, and a Cu-Pb separation circuit.
The planned Cu-Pb separation circuit will process the bulk concentrate
to produce separate lead and copper concentrates, as discussed in the projects section at the end of this chapter.
Figure 14.2 shows a simplified process diagram for the lead area.
The zinc flotation circuit consists of rougher flotation, regrind, and
five-stage cleaner flotation. Zinc cleaner stages 1 to 4 use mechanical tank cells, whereas the final stages of cleaning use column flotation
technology.
Figure 14.3 shows a simplified process diagram for the zinc area.
| 14.7 | Fluorine Leaching Plant |
High levels of fluorine (>1,300 ppm) had been encountered in the
zinc concentrate produced up to 2023. While this grade of fluorine has not inhibited concentrate sale, a principal concentrate buyer has
requested that Los Gatos reduce the fluorine level to below 500 ppm. A plant has been successfully commissioned in 2023 based on a hot
sulfuric acid and aluminum sulfate leaching process that reduces the fluorine grade in the zinc concentrate to within the buyer’s
target.
Figure 14.4 shows a simplified process diagram for the fluorine leaching
area.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 14.2: Lead Flotation Simplified Process Flowsheet
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 14.3: Zinc Flotation and Tailings Simplified Process Flowsheet
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 14.4: Fluorine Leaching Plant Process Flowsheet
Final lead, copper, and zinc concentrates are thickened, filtered, and
stored in concentrate storage facilities prior to loading in trucks for shipment. All three concentrates have low levels of deleterious
elements and are considered high-quality concentrates.
The existing bulk and zinc concentrates have low levels of deleterious
elements and are considered high quality concentrates. It is expected that the copper and lead concentrates will be similarly low in deleterious
elements, and high in silver credits.
Zinc flotation tailings become the final tailing stream. Tailings are
thickened, and thickener underflow is pumped to the lined tailings storage facility. A paste backfill was commissioned in early 2023 and
a portion of the sands fraction of the plant tailings are converted to paste for use as backfill in the underground mine. There is ample
surface tailings storage capacity demonstrated for the projected production.
The reagents area includes the flotation reagents and flocculants to
support the processes, including:
| n | Modified thionocarbamate collector |
| n | Sodium isopropyl xanthate collector |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| n | Copper sulfate activator |
| n | Sodium cyanide depressant |
| n | Orion 99 for oxidizing galena |
| n | Saponified starch for lead depression) |
| n | Activated carbon for improved reagent selectivity |
Each reagent has suitable mixing, storage and dosing equipment
The plant is fitted with the appropriate instrumentation, sampling equipment,
and online analyzers required for operation, historical data keeping, metal accounting, and process optimization.
The plant has an appropriate maintenance plan in place to keep the facility
running smoothly. The plan includes regular cleaning and inspection of all equipment, systems, and structures. In addition, plant management
follows a preventive maintenance program which helps to identify and correct potential problems before they cause disruptions. The maintenance
staff is trained and experienced, and work closely with the production team to ensure that the plant runs efficiently.
Bridge cranes are installed for maintenance over the equipment installations
of the primary crusher, grinding, flotation, and filtration circuits.
There is ample water supply on site for the plant operation. No plant
effluents are discharged to the environment.
About 0.66 cubic meters per tonne (m³/t) of raw water is supplied
from the mine dewatering operation to compensate for the water reporting to tailings, concentrates, and evaporation.
The lead process water tank receives overflow from the lead concentrate
thickener, tailings thickener and water reclaimed from the tailings dam. The lead process water is used as makeup water in the primary
cyclone feed sump. Fresh water can be added to the lead process water tank, if necessary.
Overflow from the zinc concentrate thickener and lead process water
excess overflow is recycled to the zinc process water tank and used as makeup water in the zinc flotation circuit. Fresh water can be
added to the zinc process water tank.
Additional water is also recovered from the surface tailings storage
facility. Water is reclaimed from the tailings dam using reclaim water pumps.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The plant area is also equipped with a gland water system, and a fire
water tank and pumps.
| 14.14 | Plant Utilities and Services |
Plant utilities and support services facilities include:
| n | Grinding media receiving and storage. |
| n | Spares and consumables warehouse. |
| n | Reagent mixing and storage facilities. |
| n | Raw and process water storage and distribution systems. |
| n | Crusher and reclaim dust collection systems. |
| n | Air blowers and compressors and air supply. |
| n | Assay and metallurgical laboratories. |
| n | Standby power generator. |
| n | Cranes and mobile equipment. |
| n | On stream analysers and sampling systems. |
| n | Process control room and systems. |
| n | Electrical distribution systems. |
| n | Concentrate storage and dispatch systems. |
| n | Plant offices, ablution facilities, and meeting rooms. |
Process plant labor includes plant management, technical staff, operations,
and maintenance personnel, and administrative staff.
Process plant staffing:
| n | 1 x Process Plant Sub-Manager |
| n | 1 x Plant Operation Superintendent |
| n | 18 x Leaching and Paste Backfilling |
| n | 23 x Assay laboratory staff |
| n | 1 x Tailings storage facility operator |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Mina Cerro Los Gatos is currently evaluating an expansion of the grinding
circuit capacity to 4,000 tonnes per day. A study conducted by Metso has provided recommendations to achieve this increase, which include:
| 1. | Increasing the T80 of the SAG to ball grinding |
| 2. | Enlarging the openings of the SAG grates and sieve panels |
| 3. | Adding a VTM-1250 (HP) as a tertiary grinding stage |
A comprehensive process study is expected to be completed to advance
this project. Evaluation of potential impacts on downstream processes and final product characteristics is necessary before implementing
these changes.
| 14.16.2 | Cu-Pb Separation Circuit |
Mina Cerro Los Gatos is implementing a Cu-Pb Separation Circuit project
to produce separate copper and lead concentrates. The project includes:
| n | Utilization of existing equipment where possible |
| n | Installation of new flotation cells and a copper thickener |
| n | Modifications to the existing flotation circuit |
The Cu-Pb separation process involves sequential selective flotation
to produce lead and copper concentrates. The process includes use of pH control, and selective depression of lead to maximize copper recovery.
The circuit is designed to process material with a Pb/Cu ratio of 7.5 or lower, which is accumulated on the ROM pad for campaigns of at
least 7 days.
The project has been studied to the PFS level and has an estimated capital
cost for the project is $5 M, with a commissioning period of 310 days. The project is expected to increase copper recovery to 80% and
produce a marketable copper concentrate.
Figure 14.5 shows a simplified process flowsheet for the proposed copper-lead
separation circuit.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 14.5: Proposed Cu-Pb separation plant process flowsheet
The circuit will include the following key components:
| 1. | Bulk Rougher Flotation: |
| n | One Bulk Rougher Conditioning Tank (existing) |
| n | Two Bulk Rougher Flotation Cells of 70 m³ each (existing) |
| n | Three Bulk Scavenger Flotation Cells of 70 m³ each (existing) |
| 2. | Bulk Cleaner Column Cell: |
| n | One Bulk Cleaner Column Cell (existing) |
| n | One Pb Cleaner Conditioning Tank (existing) |
| n | Three Pb Rougher Flotation Cells of 10 m³ each (existing) |
| n | Two Pb Scavenger Flotation Cells of 10 m³ each (existing) |
| 4. | Pb Cleaner Flotation and Cu Thickener: |
| n | Two Pb 1st Cleaner Flotation Cells of 3 m³ each (new) |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| n | Two Pb 2nd Cleaner Flotation Cells of 3 m³ each (new) |
| n | One Pb 3rd Cleaner Flotation Cell of 3 m³ (new) |
| n | One Pb Tailings Cleaner Conditioning Tank (new) |
One Cu Thickener, 6 m diameter (new)
Key long-lead items include:
| n | Flotation Cells: 42 weeks |
| n | CCM (Control Center Motor): 42 weeks |
The implementation of this project will enhance the mine's ability to
process ore with varying copper content and improve overall metal recovery.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
CLG is an operating mine. All required infrastructure for the current
operation is in place, with some additions required for the LOM Plan as described in this section.
Infrastructure constructed to support the mining and processing operations
at CLG Mine include offsite and onsite components. Offsite infrastructure comprises grid power distribution to the mine and a main access
road which was upgraded to facilitate heavy equipment transport during construction, material deliveries and concentrate shipments, in
addition to worker traffic. Onsite infrastructure is comprised of two camp facilities, office and general maintenance facilities, truck
maintenance shops, warehouses, a processing plant, a tailings storage facility, a backfill plant, two refrigeration plants, a mine ventilation
system, and dewatering ponds for sediment settling and water evaporative cooling.
A site visit was completed in May 2024 to examine the surface infrastructure
at the CLG mine.
Figure 15.1 depicts the general layout of the CLG site, in plan view,
showing major infrastructure and operating facilities. Figure 15.2 through Figure 15.4 show aerial views of the overall site and major
infrastructure areas in their as-built condition.
Source: CLG
Figure 15.1: Infrastructure Layout
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Figure 15.2: Aerial View of Overall Site with Infrastructure in
As-Built Conditions
Note: North is at the 11-o’clock position
Figure 15.3: Aerial View of Refrigeration Plant 1 (middle to bottom
right), Emergency Power Genset (middle), Mine Rescue (middle to bottom right), and Vent Raise (top left)
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Note: North is at the 1-o’clock position
Figure 15.4: Aerial View of Paste Backfill Plant (left), Refrigeration
Plant 2 (right), and Vent Raise (middle)
| 15.3 | Ventilation and Refrigeration Systems |
The underground mine operates three air extractive fans, totaling approximately
1.09 M CFM of capacity. As the mine experiences hot conditions, primarily due to geothermal water inflows, refrigeration is required.
Air intake for the mine is approximately 1.12 M CFM (MPR, 2024) and is provided through two refrigeration plants providing cooled air
to downcast fresh air raises, and the downcast decline ramp. The current installed capacity of the ventilation system is 1.30 M CFM and
plans are in place for an expansion to provide fresh air to the SE Zone.
The refrigeration plants process a combined 890k CFM of air, cooling
the surface ambient air by 10°C to 15°C (depending on season and ambient temperature). Major sources of heat are (Tetra Tech,
2020):
| n | Water from the rock fissures which could be as high as 70°C (experienced under current conditions) |
| n | Auxiliary mining equipment, such as auxiliary fans and pumps |
| n | Other loads such as backfilling, lighting, personnel activities |
| n | Auto-compression of air from surface to shaft bottom |
Actual air flow and temperature data collected during the month of June
2024 are 929,656 CFM air injection through the mine portal and forced air fans at refrigeration plants 1 and 2 at wet bulb temperatures
averaging approximately 15° C from refrigeration plants and approximately 21° C at the portal. Extracted air volumes were 985,730
CFM at an average wet bulb temperature of 29° C (CLG, 2024).
Figure 15.5 shows Refrigeration Plant 2. Each of the refrigeration
plants consist of a two-stage refrigeration system: an evaporative cooling tower located outdoors (Figure 15.6A) followed by chillers
located indoors
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
(Figure 15.6B). Cooled fluid is then delivered to heat exchangers
(bulk air coolers) located upstream of the injection air fans (Figure 15.7A and Figure 15.7B).
Air intake is through bulk air cooler fins, with air delivered to the
underground after being cooled through heat exchange with chilled water. Water is chilled (second stage of cooling) by mechanical refrigeration
which rejects the heat extracted from chilled water return to water cooled by evaporative cooling towers (first stage of cooling).
Figure 15.5: Refrigeration Plant 2
Figure 15.6: (A) Evaporative Cooling Towers as the First Stage
of Cooling (B) Mechanical Refrigeration Units at Refrigeration Plant 1 as Second Stage of Cooling
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Figure 15.7: (A) Air Intake through Bulk Air Cooler and Delivery
to Underground by Injection Fan (B) Injection Air Fan at Refrigeration Plant 1
| 15.4 | Mine Dewatering System |
Accomplishing the LOM Plan for mining the Mineral Reserve depends to
a significant extent on CLG’s ability to control groundwater inflows to the mine. Mine dewatering is largely managed by two different
systems (MPR, 2022):
| n | Pumping through borehole/well pumps installed on the 1370, 1277 and 1230 levels, which ultimately deliver to the 1390 pumping station
which has a capacity of 700 L/s and an average pumping rate of approximately 500-550 L/s. |
| n | Underground water collection system where water from different levels is channeled to a central pumping station on the 1384 level
with capacity for 375 L/s and is transported to the surface at a combined rate of approximately 275-325 L/s. |
In total, there are eleven surface boreholes located across the length
of the deposit which previously operated as surface well pumps. None of the eleven dewatering wells drilled from surface are currently
active, as the water table is now generally beneath the bottom of the effective well range. There are currently five main underground
wells in the NW zone, with a sixth and seventh under development. As the mine expands, capital has been allocated for the anticipated
additional dewatering infrastructure that will be required to manage the water underground.
The LOM Plan has made allowance for the installation of additional wells,
sumps and pumping infrastructure with sustaining capital included in the cash flow model.
A detailed discussion of the mine dewatering system is provided in Section
15.4.
The underground pumping stations are designed to deliver water to the
surface and the discharge header delivers water to surface cooling ponds, shown in Figure 15.8.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Figure 15.8: Underground Wellhead Pumps and Surface Discharge Header
Water classified as contact water is pumped to the surface Settlement
Pond where flocculants are added to assist with settlement and then to the evaporative Cooling Tower for tempering prior to discharge
to the environment. Water classified as non-contact is pumped to the Cascade System where natural evaporation resulting from overflow
in a wide and shallow channel pattern is sufficient to temper the water. Actual water flow values reported during the site visit were
328 and 561 litres per second (lps) for contact and non-contact water, respectively.
| 15.5.1 | Cemented Rockfill Plant |
Prior to 2023, CLG employed Cemented Rock Fill (CRF) as the primary
backfill material. With the transition to primarily paste backfill, CRF is now produced at an underground mixing facility; the previously
operating surface CRF plan has been de-commissioned Longhole stopes are filled via end dumping from the drill drift access at the top
of the stope, while the CRF backfill for cut-and-fill stopes is jammed in place at the mining horizon.
| 15.5.2 | CRF Underground Placement |
As a part of the general underground visit, locations of CRF placement
were reviewed. Care was taken by the backfill team to place fill tight to the back in the cut-and-fill stope using a “rammer-jammer,”
a push plate bolted to an LHD in place of its bucket. A close-up view of the CRF shows a well set up, homogeneous CRF.
As demonstrated in laboratory results, April 17 to May 22, 2022 (MPR,
2022), the CRF mix design consists of 65% coarse aggregate, 35% fines (although only one aggregate stockpile was observed on surface),
5% cement and 10 mL of retarder per kilogram of cement. Test samples are taken at 3-day, 7-day, 14-day, and 28-day curing ages for break
strength targets of 1 MPa, 2 MPa, 3 MPa, and 4 MPa, respectively. Of a total of 214 CRF test results, there were 18 failures, where the
tested CRF strength did not meet the targeted strength for the break period. The test results exceed a 90% pass rate, which is well within
the industry standard.
It was observed that CRF test samples are cast into steel molds in duplicate.
After a period of time, the steel molds are released and the CRF sample continues to cure on surface, adjacent to the CRF plant. Previously,
Minefill (2019) indicated that the CRF samples were cured underground. The author observes that this practice be continued to allow the
CRF to cure under the “as-placed” condition. Allowing the samples to cure on the surface will result in premature drying and
samples will be subjected to cyclical temperature swings during the curing period, which is unlike the conditions underground.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Paste backfill was introduced late in 2022 with the completion of the
paste backfill plant on surface. Towards the end of mine life, up to 95% of ore mining will be LHS for which paste backfill is ideal.
A pipeline system has been installed for delivery of paste backfill
to underground stopes, described in Section 15.5.4. Paste fill has replaced CRF as the primary backfill method.
| 15.5.4 | Paste Fill Plant Overview |
The paste fill (PF) plant has been operating since late 2022. The PF
plant is designed to process classified full mill tailings from the mill. A new cyclone was installed at the mill to remove ultrafine
material and only deliver the cyclone underflow (UF) to the existing cyanide destruction circuit before transport to the PF plant, located
remotely from the mill. Cyclone overflow is sent to the existing tailings thickener and pumped to the TSF. The thickener underflow can
also be diverted to the existing cyanide destruction circuit.
The PF plant is designed to capture as much of the cyclone underflow
as possible with two installed agitated filter feed tanks (Figure 15.9). As paste backfill plants operate intermittently, the filter feed
tanks allow for the storage of cyclone underflow during periods when paste is not poured. The filter feed tanks therefore, in effect,
de-couple the downstream paste backfill process from the upstream process. Downstream of the filter feed tanks, paste backfill can be
poured at a higher rate (85 t/h tailings solids) than cyclone UF tailings is produced (65.6 t/h tailings solids). Figure 15.10 (left)
shows the disc filter where thickened tailings pumped from the filter feed tanks is dewatered to cake consistency prior to addition of
binder and water for slump control in the paste mixer while Figure 15.10 (right) shows the positive displacement pump where cemented paste
is delivered to the paste reticulation system.
Source: CLG
Figure 15.9: Filter Feed Tanks (left), Vacuum Pump, and Binder
Silo (right) at the Paste Fill Plant
Table 15.1 provides a summary of the key PF plant design parameters.
With the PF plant taking only a portion of the mill tailings, as cyclone UF, it is important to understand the quantity of cyclone UF
that needs to be captured
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
to meet backfill demand. In this case, it is calculated that approximately
58% of all the cyclone UF tailings is needed to meet backfill demand. This value is primarily driven by paste backfill characteristics,
where to achieve a 170-mm slump a paste content of 71% by weight (wt%) solids is needed and of that, 65 wt% is cyclone UF tailings.
Table 15.1: Paste Backfill Plant Key Design Parameters
Parameter |
Units |
Design Values |
Operating Values |
Plant throughput |
tonnes/day |
2,500 |
3,500 |
ROM Specific Gravity |
|
2.78 |
2.78 |
Stope volume excavated |
m3/day |
899 |
1,259 |
Fraction of mine voids requiring paste backfill |
% |
75% |
75% |
Paste backfill required (volume) |
m3/day |
674 |
944 |
Paste backfill plant operational throughput |
m3/day |
1,738 |
1,738 |
Paste solids content |
% |
71 wt% |
71 wt% |
Paste Specific Gravity |
|
1.80 |
1.80 |
Paste required (mass) |
tonnes/day |
1,213 |
1,698 |
Cyclone UF tailings mass required |
tonnes/day |
790 |
1,106 |
Cyclone UF available |
tonnes/day |
1,361 |
1,905 |
Cyclone UF tailings available |
% |
58% |
58% |
Total mill tailings required |
% |
55% |
55% |
Table 15.1 illustrates that a sufficient quantity of cyclone UF is available
for paste backfill production purposes, as it is significantly greater than the cyclone UF tailings mass required, 1,579 tonnes/day compared
to 915 tonnes/day. This means that approximately 58% of the cyclone UF must be captured to fulfill paste backfill demand. It is important
to monitor the cyclone UF produced to ensure that the backfill operation remains unconstrained by the feed stock. Provisions for a third
filter feed tank are already in place should the paste backfill plant consistently fall short on the pour cycles, as piping changes underground
may necessitate paste backfill plant stoppages.
Source: CLG
Figure 15.10: Tailings Dewatering Disc Filter (left) and Positive
Displacement Pumps for Paste Fill (right)
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 15.5.5 | Paste Backfill Performance |
Paste strength requirements are described in Minefill (2021) for the
aforementioned mining methods (Section 15.5.3). Table 15.2, summarizes the UCS requirements for both the longitudinal and transverse
longhole stopes based on a factor of safety of 1.5 and 28-day cure time. In addition to the UCS strengths defined, a plug pour will be
required at the bottom of longhole stopes.
Table 15.2. Paste Backfill Fill Strength Requirements for Longhole
Stopes (Longitudinal and Transverse)
Max Stope Width |
UCS: 0 to 10m Lift (kPa) |
UCS: 10m to 20m lift (kPa) |
9 m |
180 |
140 |
15 m |
240 |
170 |
21 m |
290 |
190 |
Secondary Stopes |
100 |
100 |
UCS tests for cut-and-fill applications have also been summarized in
Minefill (2021). It is understood that cut-and-fill stopes will occur in panels, where a group of four to five drifts will be mined. The
orebody is no more than four drifts wide with a maximum drift width of nine meters (Tetra Tech, 2020). Across the width of the mineable
veins, primary and secondary drifts are also established. The subsequent panel is mined underneath the initial panel, therefore, for cut-and-fill
applications, paste backfill will need to act as:
| n | A wall to the adjacent drift |
| n | A working floor when mining bottom up within a panel |
| n | The back to the panel above |
Each of the above scenarios require different backfill strength considerations
and these are summarized in Table 15.3. Minefill (2021) recommended that for the wall and working floor scenarios a 200-kPa paste
UCS is suitable, allowing for a factor of safety of 3 and 2, respectively. A UCS of 200 kPa is the minimum strength to reach prior to
the resumption of mining activity on top of the paste backfill or adjacent to it.
Table 15.3: Paste Backfill Strength Requirements for Cut-and-fill
Applications
Max Drift Width |
UCS (kPa) |
5 m |
200 |
5 m, Lower Drift in Panel (Back for Panel Above) |
870 |
Electrical power is supplied to the CLG site via a 62 km, 115 kV overhead
utility transmission line which originates from the San Francisco de Borja substation in Satevo (Chihuahua). The San Francisco de Borja
substation is owned by the Federal Electricity Commission (CFE) and is connected into the national electrical grid.
The transmission line running to CLG is a dedicated line owned by MPR
which was installed during mine construction. The capacity of the transmission line connection to the San Francisco de Borja substation
is approximately 23.5 MW, which exceeds the current power requirement of approximately 20 MW.
The 115 kV transmission line connects into an onsite substation at CLG
located adjacent to the processing plant. The CLG substation consists of two transformers, each 24/32 MVA, which reduce the voltage from
115 kV to 13.8 kV. Electricity is distributed from the CLG substation to various surface and underground facilities, generally at 13.8
kV with local substations installed across the operation to step down the electricity further as required.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
A system of backup diesel generators is installed at CLG to maintain
power in the event of an interruption to power supply from the national electrical grid. Total installed backup generator capacity is
approximately 12.5 MW which is designed to provide emergency power to critical equipment both on surface and underground.
In March 2022, MPR signed a contract for the supply of 18 MW of renewable
energy, with the transition to the renewable energy source occurring in September 2022. Energy consumption in excess of the contracted
amount is purchased from the national electrical grid.
| 15.7 | Other Surface Infrastructure |
The CLG mine site is also serviced by facilities of a level of function
typical for mining operations. The QP observed the following during the site visit:
| n | Processing plant for grinding, regrinding, flotation, thickening, filtration, zinc concentrate leaching, reagent storage, concentrate
storage, and loading |
| n | Assay and metallurgical lab |
| n | Heavy mobile vehicle maintenance shop |
| n | Small vehicle maintenance shop |
| n | Administration and engineering building and medical clinic |
| n | Dry for underground personnel |
| n | Security guard house, fencing and gates |
| n | Employee and contractor camps and cafeterias |
The CLG TSF has been constructed and tailings have been deposited in
the facility since 2019. Regular downstream dam raises have been constructed to increase the volume of the TSF. This Section summarizes
the design premise of the facility and any changes in the design, particularly since the decision to divert a large portion of tailings
to the paste fill plant for use as mine backfill. The TSF design has been updated by the EOR, Tierra Group, to accommodate the increase
in Mineral Reserves reported in this TRS. Tierra Group produced a Technical Memorandum (TM) for MPR (August 30, 2024) documenting 2024
revisions to the TSF. Excerpts from the TM provide a summary description of the facility for this TRS. Table 15.4 identifies parameters
applied to the design of the TSF at CLG.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 15.4: Key Parameters of CLG TSF
Description |
2023 Parameters |
2024 Parameters |
Subaerial Tailings Beach Slope |
0.5 % |
0.5 % |
Subaqueous Tailings Surface Slope |
4% [1] |
2.5% [2] |
Tailings processed through June 2023 |
2.94 Mt |
-- |
Total Reserves (July 2023 through LOM) |
8.2 Mt |
-- |
Tailings deposited through June 2024 |
-- |
3.71 Mt |
Total Reserves (July 2024 through LOM) |
-- |
10.3 Mt |
Projected Total Tailings to TSF (from beginning of operations through LOM) |
7.47 Mt |
9.49 Mt |
Tailings Dam crest elevation |
1633.0 m |
1636.0 m |
Facility Life |
Q1 - 2031 |
Q3 - 2032 |
| Notes: | [1] Estimated based on May 2023 bathymetry.
[2] Estimated based on May 2024 bathymetry. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Per NOM-141-SEMARNAT-2003, Table 2, any slope grade steeper than approximately
18% is considered Mountainous Land. Therefore, the site topography can be classified as “Mountainous Land” as some of the
topographic slopes at the location of the TSF are between 18% and 23%.
The Mexican Seismological Service has divided the republic into four
seismic zones based on:
| n | The catalog of earthquakes that occurred during the last century |
| n | Great earthquakes mentioned in historical records |
| n | Ground motion records of some of the larger events of this century |
Mexico’s seismic hazard map places the Project site within Zone
B. In this intermediate zone, infrequent earthquakes have been recorded, and peak ground accelerations do not exceed 70% of the acceleration
of the soil. Zone B is called the “Penesísmica” region, with a peak ground acceleration (PGA) range of 0.8 to
1.6 m/s2 (approximately 0.08g to 0.16g) for 10% probability of exceedance in 50 years (equivalent to a return period of 475 years).
The site is on the border of Seismic Zones A and B; in order to be conservative, the TSF design assumes that the site is in Seismic Zone
B.
For structures, such as the TSF, which present a significant hazard
for damage to the environment, should be capable of tolerating displacements from a maximum credible earthquake (MCE) without catastrophic
loss of tailings or supernatant; however, limited damage to the structure may take place. This approach is consistent with current International
Commission of Large Dams (ICOLD) (Wieland, 2005) and Federal Emergency Management Agency (FEMA) (2005) guidelines for seismic stability,
which indicate that “significant structural damage is accepted” for maximum earthquake ground motions; however, no uncontrolled
release from the reservoir shall occur. The deterministic seismic hazard evaluation for the Project (Tierra Group, 2018a) indicates a
maximum site PGA of 0.18 g for stiff soil/soft rock conditions at the site for the assumed background event MCE of moment magnitude (Mw)
6.5 at a source-to-site distance of 12 km. Relative to published results of probabilistic ground motion estimates, this represents a conservative
level of ground motion with a recurrence interval much greater than 10,000 years, which was calculated to be 0.087g (Tierra Group, 2018a).
| 15.8.4 | Surface Water Hydrology |
Based on NOM-141-SEMARNAT-2003, the Project site is situated in the
Humid Hydrologic Zone and exhibits mountainous topography. For the design, the TSF area’s hydrology was evaluated using the Soil
Conservation Service (SCS) curve number method to model soil losses and specify unit hydrograph transformation. The SCS method relies
on basin characteristics, design storm rainfall depths, and temporal distribution to calculate volumetric flow rates.
| 15.8.5 | Site Investigation and Site Conditions |
Two geotechnical investigation programs were previously completed. The
first geotechnical investigation began in December 2015 and was completed by Tetra Tech for the feasibility study. The second geotechnical
investigation was performed by Tierra Group between 13 – 18 August, and 30 October and 7 December, 2017 (Tierra Group, 2018b).
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 15.8.5.1 | Surface and Subsurface Conditions |
In general, the soil profile underlying the TSF is described as shallow,
with weathered and/or fractured bedrock generally encountered within 2.0 meters (m) below ground surface. In areas where soil is present,
it typically consists of 0.5 to 2.0 m of silty sand (SM) and clayey sand with gravel (SC). Upstream of the TSF, silty gravel with
sand (GM) and sand with clayey sand (SP-SC and SW-SP) were encountered. At the north end of the TSF, approximately 100 m from the
embankment toe, silty sand (SM) with gravel was encountered up to 19 m in depth. This deeper soil deposit may be attributed to the proximity
of the Los Gatos fault line. In areas along the TSF foundation, areas of exposed, slightly weathered bedrock were visible with little
or no topsoil. Below the soil horizon, slightly weathered and highly fractured rock is encountered. Typically, this layer is approximately
1 m to 10 m thick, depending on the area. Below this layer, fresh bedrock was encountered. Bedrock is andesite and rhyolite. Per Tierra
Group’s investigation (Tierra Group, 2018b), the permeability of the bedrock ranged from 1.24×10- 6 to 6.67
x 10-8 cm/s. In addition, some boreholes northwest and southeast of the TSF encountered a potential shear zone consisting of
moderately weathered rock with clay infill.
MPR identified the borrow areas for investigation. They are located
north of the TSF embankment across the Santo Toribio River in areas of epiclastic sedimentary deposits. Test pits in the potential borrow
areas encountered silty gravel to clayey gravel to clayey sand with gravel (GC-GM & SC-GM). The typical soil depth in the
test pits was approximately 2 m. Weathered bedrock was encountered below the soil.
These borrow areas were used for Stage I Phase 1 (Tetra Tech, 2017).
Since then, all borrow material has come from excavating and blasting foundation material within the TSF footprint (Tetra Tech, 2017).
Design criteria were established based on the facility size and risk
using applicable dam safety and water quality regulations and industry best practice for the TSF embankment on a standalone basis. Table 15.5
lists the design criteria for the TSF.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 15.5: TSF Design Criteria
|
Parameter |
Criteria |
Source |
Comments |
TSF |
Dam
Slope Stability |
Static Factor of Safety (FOS)
|
≥ 1.5 |
CDA, 2014 |
The dam must provide sufficient
strength to withstand anticipated static loading conditions (i.e., no additional external forces). |
Pseudo static (Earthquake)
FOS |
≥ 1.0 |
CDA, 2014 |
If the pseudo-static FOS is
less than 1.0, a deformation analysis is required to guarantee that the possible deformations are less than the parameters specified
in the project. |
Design Earthquake |
Operating Basis Earthquake
(OBE) with a 475-year return period = 0.027g |
ICOLD Bulletin 98 (1995) |
Earthquake with 10% exceedance
in 50 years during normal operations. Calculated with PRODISIS v4.1 software. (Tierra Group, 2018a) |
Maximum Design Earthquake
(MDE) with a 10,000-year return period =0.087g or Maximum Credible Earthquake (MCE)= 0.18g |
ICOLD Bulletin 98 (1995)
CDA, 2014
|
ICOLD B98 (1995) and CDA (2014)
establish a maximum earthquake with a return period of 10,000 years or the MCE that does not have an associated return period. The
10,000-year earthquake was calculated with the PRODISIS v4.1 software. (Tierra Group, 2018a) |
Impoundment
and Surface Water Management |
Hydrologic |
Design Storm Event- TSF Operations |
24-hour PMP |
CDA, 2014 |
The TSF was designed to store
the Inflow Design Flood (IDF), in addition to a normal operating pool, without overflowing and maintaining the required freeboard.
SEMARNAT (2003) recommends rain with a return period of 50 years. CONAGUA (2011) recommends rain with a return period of 10,000 years
for the spillway. |
Freeboard |
2 m |
SEMARNAT (2003) |
Freeboard is defined as the
difference between the minimum dam crest and the maximum extraordinary water level. |
Spillway |
24-hour PMP |
CDA, 2014
CONAGUA, 2011
|
CONAGUA (2011) recommends
designing the spillway for rainfall with a return period of 10,000 years or the PMP. |
Diversion Channel |
10,000-year 24-hour Event
|
SEMARNAT (2003)
IFC, 2007; ICOLD 1996a; ICOLD 1996b
|
Diversion channels are designed
to convey certain storm events avoiding failure (erosion or bank overflow). Antecedents of average humidity conditions are assumed.
|
| Notes: | CDA – Canadian Dam Association
CONAGUA - Comisión Nacional del Agua
IFC – International Finance Corporation |
PMP –
Probable Maximum Precipitation
Table 15.6 summarizes the design storm events.
Table 15.6: Design Storm Events
Design Storm Event |
Value (mm) |
10,000-year 24-hour |
194.3 |
24-hour PMP |
375.4 |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 15.8.8 | Tailings Storage Facility Description |
All TSF dam stages are built using local borrow materials, primarily
rockfill initially excavated and blasted from foundation material within the TSF. The ultimate updated TSF will be constructed in three
stages using downstream construction methods (Figure 15.13). These stages will be constructed with upstream slopes of 2H:1V (horizontal
to vertical) and downstream of 2.5H:1V, a maximum crest width of 15 m with a maximum crest elevation of 1,636.0 m (Stage III). The
materials used in the dam construction are rockfill (Zone C), 1.5-m thick transition zone (Zone B), and a 3-m thick filter zone
(Zone A). The tailings dam has a composite liner consisting of geosynthetic clay liner (GCL) overlain by a 60-mil LLDPE geomembrane (Figure
15.13).
This lining system also covers the entire impoundment. The lining system
is placed on a 0.15-m thick bedding fill.
The original permitted TSF design consists of four Stages (I to IV).
The TSF has been permitted to an ultimate crest elevation of 1638.0 m (Stage IV), however, due to a change in the tailings delivered to
the TSF (paste plant commissioned in December 2022), the ultimate TSF will have a maximum crest elevation of 1636.0 m (Stage III)
adequate for the revised and reduced volume of tailings to be stored.
To date, four raises have been constructed and one more is anticipated
as follows:
| n | Stage I Phase 1 was built to a minimum crest elevation of 1618.6 m |
| n | Stage I Phase 2 was built to a minimum crest elevation of 1621.6 m |
| n | Stage II Phase 1 was built to a minimum crest elevation of 1625.0 m |
| n | Stage II Phase 2 was built to a minimum crest elevation of 1628.0 m (current stage built) |
| n | Stage II Phase 3 to be built to a minimum crest elevation of 1631.0 m |
| n | Stage III (Ultimate Stage) to be built to a maximum crest elevation of 1636.0 m |
Table 15.7 summarizes the TSF construction stages.
Table 15.7: TSF Construction Stages
Stage/Phase |
Crest Elevation
(m)
|
Start Of Construction |
End Of Construction |
Stage I Phase 1 |
1618.6 |
April 2018 |
August 2019 |
Stage I Phase 2 |
1621.6 |
June 2020 |
February 2021 |
Stage II Phase 1 |
1625.0 |
February 2021 |
April 2022 |
Stage II Phase 2 |
1628.0 |
April 2022 |
September 2022 |
Stage II Phase 3 |
1631.0 |
January 20251 |
September 2025 |
Stage III |
1636.0 |
May 20271 |
February 2028 |
Notes:
| 1. | Estimate based on construction time of previous stages |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Figure 15.11 shows the plan view for the current TSF stage (Stage II
Phase 2), Figure 15.12 shows the plan view of the ultimate TSF stage construction, and Figure 15.13 presents a section view with the TSF
As-Built Stages and future expansions.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 15.11: Stage II, Phase 2 Plan View (current elevation)
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 15. 12: TSF Stage III Plan View (ultimate elevation)
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 15. 13: TSF As-Built and Future Stages Section View
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 15.8.9 | Tailings Dam Design |
The TSF is designed to accommodate
tailings, mine water, IDF, with a 2-m residual freeboard incorporated to ensure operational safety. Figure 15.4 illustrates
the TSF’s volumetric storage capacity throughout each stage and Table 15.8 presents
the TSF Stage III storage capacity.
Table 15.8: TSF Capacity
Description |
Crest Elevation
(m) |
Total Capacity
(Mm³) |
TSF |
1,636.0 |
9.56 |
Source: CLG
Figure 15.14: TSF Capacity Curve
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 15.8.9.1 | Water Balance Update |
The TSF water balance was updated based on PF Plant operations starting
in October 2022, and the new LOM operating plan. The LOM TSF height assessment was projected using 10.3 Mt LOM reserves as of July
2024, which includes 0.72 Mt of concentrate and 9.58 Mt of tailings. It is projected that 40% of the tailings produced by the Process
Plant will be sent to the Paste Plant, for use as underground backfill, while the remaining 60% will be sent to the TSF. As a result,
tailings accumulated in the TSF are estimated at 9.49 Mt (3.71 Mt stored through June 2024 and 5.78 Mt from July 2024 until exhaustion
of current mineral reserves).
The water balance update includes a volumetric calculation of deposited
tailings, minimum operating pond, the Inflow Design Flood (IDF) storage volumes, and freeboard that must be maintained within the TSF.
Based on the evaluation, the TSF will provide the required storage through the end of the current LOM.
The water balance results estimate that the dam’s elevation required
to store 9.49 Mt (7.26 Mm³) is 1636.0 masl (Stage III), with a maximum operating water surface elevation of 1633.5 m. Table
15.9 details the volumes stored within the TSF for Stage III (1636.0 m).
Table 15.9: Stage III Storage Volume
Description |
Accumulated dry tailings
(Mm³) |
Tailings Pond
(Mm³) |
IDF
(Mm³) |
Freeboard
min. 2 m
(Mm³) |
Total Capacity
Mm³ |
Crest Elev.
masl |
TSF |
7.26 |
0.24 |
0.28 |
1.77 |
9.56 |
1,636.0 |
The TSF impoundment has been designed with a 1.5-mm (60-mil) LLDPE
geomembrane liner. The liner extends along the base of the impoundment and the embankment’s upstream slope and anchored along the
edges of each concurrent construction stage. GCL underlies the LLDPE geomembrane. See Figure 15.13 for details.
| 15.8.11 | Tailings Delivery System |
Tailings from the Process Plant are pumped to a tailings distribution
pipeline along the TSF crest through pressure-rated HDPE pipelines ranging in diameter from 15 to 20 cm, at a nominal solids content of
50% by weight. The tailings distribution system consists of a header and manifold system with the controlled tailings discharge through
multiple spigots connected to a peripheral tailings distribution header pipeline. The supernatant pond’s extent and location within
the impoundment will be controlled by selective operation of the spigots (rotating operating spigot locations) such that the pond location
is constrained to the impoundment’s south-central area away from the embankment at all times during operation.
A network of drains was installed underneath the geomembrane liner to
collect and convey groundwater emanating from seeps and springs within the TSF footprint. The underdrains were installed along predetermined
channels generated during the subgrade grading of the TSF footprint. The drainage network consists of 8-inch (200-mm) nominal
diameter solid and/or perforated pipe with drain gravel and geotextile wrap. Flows are collected in the underdrain collection pond located
on the TSF’s east side. The flow’s water quality, collected in the underdrain collection pond, is monitored regularly, and
the water is discharged directly to natural drainages.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 15.8.13 | Blanket Drain System |
The dam has a blanket drain in the foundation to control and reduce
the water level in the dam due to any infiltration that could occur. Incorporating the blanket drain improves the stability of the embankment
in the event of liner failure. The blanket drain consists of a 1.0 m thick layer of drain material.
| 15.8.14 | Surface Water Management |
The surface water management system consists of the South Diversion
Channel and an Emergency Spillway.
| 15.8.14.1 | South Diversion Channel |
The South Diversion Channel was designed in four discrete segments;
three of the four segments have an unlined trapezoidal cross-section with 2H:1V side slopes, and an average longitudinal slope of 0.5%.
The diversion channel’s fourth (downstream-most) segment has rockfill lining at the bottom of the channel. There are 5-m transition
structures between the segments, which is lined with rockfill and concrete. The channel intersections with existing watercourses have
catchment structures. These auxiliary structures prevent erosion on the projected channel.
| 15.8.14.2 | Emergency Spillway (Stage III) |
The Emergency Spillway has been designed as a trapezoidal channel with
2H:1V slopes and 0.3 m thick riprap lining, with an average slope of 1%, a bottom width of 6 m, and a depth of 1.8 m. The spillway
will be able to convey a flow of approximately 5.2 m3/s.
The TSF has an OMS Manual that describes operating and monitoring procedures
to confirm the condition of the embankment, foundation, and performance of the TSF dam and impoundment .
In order to monitor TSF performance during operations, 18 vibrating
wire piezometers (VWPs) two seismic accelerographs, three standpipe piezometers, and five inclinometers were installed to monitor phreatic
levels and displacements in and around the TSF. Additional VWPs, inclinometers, survey prisms, and accelerographs are recommended for
future TSF expansion stages.
Figure 15.15 shows the monitoring instrumentation locations TSF Stage
II Phase 3.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 15.15: Proposed Stage II Phase 3 Monitoring Plan (Preliminary)
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The CLG mine produces high quality lead and zinc concentrates with low
levels of deleterious products that can be processed by several different smelters around the world. The lead and zinc concentrates produced
by the CLG mine are transported by truck from the mine site to the port of Manzanillo. The CLG mine expects to install a copper-lead separation
circuit to produce a separate copper concentrate from higher copper grade mill feeds, which is expected to be operational in 2026.
The CLG mine currently has a short-term lead concentrate sales agreements
and a long-term zinc concentrate sales agreement in place. The concentrate terms used for the CLG reserve design inputs and the GSI financial
model are informed by existing agreements, together with historical, current, and expected future market terms.
In the LOM Plan, the CLG mine lead concentrate is expected to contain
between 3,200 and 8,800 grams per tonne of silver, which is considered a high silver bearing lead concentrate. Payable metals in CLG lead
concentrate include lead, silver, gold, and copper.
Sales of lead concentrate are currently tendered on a periodic basis
under contract terms of approximately six to twelve months, although this may change with future contracts. Based on the volume of lead
concentrate production, it is assumed that lead concentrate sales will continue to be tendered on a periodic basis. Consequently, CLG
sales of lead concentrates are expected to be influenced by the spot treatment charge for high silver lead concentrate more than by benchmark
terms. The economic analysis assumes a treatment charge of $60 per tonne, which reflects management expectation of long-term spot treatment
charges for CLG’s high silver lead concentrate considering long-term historical averages along with current and expected market
terms.
Other assumptions for terms lead concentrate are generally aligned with
current industry norms.
The Company has an agreement in place to sell all its zinc concentrate
to a joint venture partner at market-based prices and benchmark terms. The CLG operation leaches its zinc concentrate to reduce fluorine
to below an agreed level. The LOM Plan assumption is that all zinc concentrate will continue to meet the agreed upon quality specifications
and will, therefore, be sold to the joint venture partner at market terms.
Payable metals in CLG zinc concentrate include zinc and silver.
The economic analysis assumes a treatment charge of $220 per tonne of
zinc concentrate, which reflects management expectation of long-term zinc benchmark treatment charges considering long-term historical
averages along with current and expected zinc concentrate market dynamics.
Other assumptions for terms for zinc concentrate are aligned with current
industry norms.
The CLG mine expects to start producing a separate copper concentrate
product beginning in 2026. Payable metals in CLG copper concentrate include copper, silver, and gold.
The economic analysis assumes a copper concentrate treatment charge
of $80 per tonne and a refining charge of $0.08 per pound of payable copper, which reflects management expectation of long-term copper
treatment charges considering long-term historical averages along with current and expected copper concentrate market dynamics.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Other assumptions for terms for copper concentrate are aligned with
current industry norms.
The CLG mine has the required contracts in place to support ongoing
operations, which include contracts for the supply of power, key consumables, explosives, camp and catering services, security services,
personnel transportation, and concentrate transportation and handling. The individual contracts and agreements vary in duration and commercial
terms and are negotiated and renewed periodically to ensure their terms are competitive. Based on management experience, contracts are
aligned with typical industry terms.
The LGJV has an offtake agreement with its 30% shareholder, Dowa. Under
that agreement Dowa has the right to purchase 100% of the zinc concentrate produced by the CLG mine, at rates reflecting the then prevailing
market price based and industry benchmark terms. The LGJV also has a substantially fixed rate power supply agreement with a renewable
power supplier with a term ending in September 2025.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 17.0 | Environmental Studies, Permitting, and Social or Community Impact |
The following subsections outline the key environmental and social aspects
of the Cerro Los Gatos Mine operations. As per Mexican environmental impact regulations, baseline studies were carried out to characterize
the environmental and social impacts related to the mine operations. An overview of the environmental and social components is presented
herein. Key laws and regulations applicable to the operations are summarized in Section 17.2, including the key environmental permits
secured to date and pending permits required for the LOM Plan, as described in this TRS.
Highlights of the environmental, permitting and social or community
impact components are as follows:
| n | Mexico has established environmental laws and regulations that apply to the development, construction, operation and closure of mining
projects, and the Company has management systems in place to ensure ongoing regulatory compliance. Of particular importance are the air,
surface water and groundwater quality monitoring programs. An environmental compliance report is submitted annually to the Mexican environmental
authority. |
| n | Certain revisions have been made in 2023 to Mexican laws affecting the mining sector (see Section 3.0). This TRS reflects the Company’s
understanding of the laws that affect the Company in light of these revisions, including environmental permitting and compliance. It should
be noted that the current and revised laws are subject to ongoing interpretation and that in many instances the revised laws require implementing
regulations, which have not yet been promulgated, for their impact to be assessed. |
| n | The Company believes that it has, or has duly applied for, all material permits. The company further believes it is in material compliance
with all key obligations required by such permits. No material violations have been identified or fines have been received. |
| n | The Company has developed strong social programs and liaises with the communities and government. The Company has teamed with government
agencies on construction projects that support the health and welfare of the local population, such as the construction of a lined solid
waste landfill, multiple water treatment facilities for wastewater and drinking water, and pilot programs to introduce more productive
agricultural crops. There were 50 social programs conducted in 2023. |
| n | A conceptual closure strategy was presented in the closure plan (Tetra Tech, 2018) that was submitted to the Mexican environmental
authority. The closure cost estimate was revised at the end of 2023 based on updated disturbance areas and rates and was estimated at
$16.4 M. |
It is noted that information provided in the 2019 Technical Report (Tetra
Tech, 2019) and original supporting documents for the environmental permitting were used by the QP as a primary sources of environmental
baseline information. The QP also reviewed of 2023 environmental monitoring data, social information from 2023 and 2024, and the most
recent closure cost estimate.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 17.2 | Regulatory, Legal and Policy Framework |
The Mexican Constitution contains provisions for the regulation of natural
resources in Article 27, which is regulated by the Mexican Mining Law for mining activities, including exploration, mining, and processing
activities. The interpretation of the law, updated in 2023, into a regulation is pending.
The primary environmental law is the General Law on Ecological Equilibrium
and Environmental Protection (Ley General de Equilibrio Ecológico y Protección al Ambiente, “LGEEPA”),
which provides a general legal framework for environmental legislation. Key related Federal statutes include:
| n | General Law on Sustainable Forest Development (Ley General de Desarrollo Forestal Sustentable) |
| n | General Law on Wildlife (Ley General de Vida Silvestre) |
| n | National Waters Law (Ley de Aguas Nacionales) |
| n | General Law on Climate Change (Ley General de Cambio Climático) |
| n | General Law on the Prevention and Comprehensive Management of Waste (Ley General para la Prevención y Gestión Integral
de los Residuos) |
| n | General Law of Environmental Responsibility (Ley General de Responsabilidad Ambiental) |
The Secretariat of Environment and Natural Resources (Secretaría
de Medio Ambiente y Recursos Naturales, “SEMARNAT”) is the main regulatory body in charge of enacting and enforcing environmental
regulations throughout Mexico, including the issuance of environmental permits. SEMARNAT is comprised of multiple autonomous agencies
with administrative, technical, and advisory functions, which are summarized in Table 17.1.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 17.1: Overview of SEMARNAT Agencies
SEMARNAT Unit |
Function |
National Water Commission (Comisión Nacional del Agua, “CONAGUA”) |
Responsible for the management of national water, including issuing water concessions, water extraction permits (both surface water and groundwater), and wastewater discharge permits. |
National Forestry Commission (Comisión Nacional Forestal, “CONAFOR”) |
Mandate is to develop, support, and promote the conservation and restoration of Mexico’s forests. |
Attorney General for Environmental Protection (Procuraduría Federal de Protección al Ambiente, “PROFEPA”) |
Monitors compliance with environmental regulations and responsible for the enforcement of environmental law. |
National Commission for Natural Protected Areas (Comisión Nacional de Areas Naturales Protegidas, “CONANP”) |
Oversees the management and protection of 192 protected areas throughout Mexico. |
The Safety, Energy and Environment Agency (Agencia de Seguridad, Energía y Ambiental, “ASEA”) |
Regulates and oversees industrial safety and environmental protection, and integrated waste management specifically with respect to hydrocarbon-related activities. |
General Directorate of Environmental Impact and Risk (Subsecretaría de Gestión para la Protección Ambiental con la Dirección General de Impacto y Riesgo Ambiental, “DGIRA”) |
Responsible for issuing environmental permits and authorizations. |
SEMARNAT oversees the Official Mexican Standards (Normas Oficiales
Mexicanas, “NOMs”), which are mandatory technical regulations that establish the rules, specifications, and/or requirements.
Key NOMs relevant to the mining operations are listed in Table 17.2.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 17.2: List of Official Mexican Standards Applicable to the
Company’s Mining Operations
NOM |
Description |
NOM-001-SEMARNAT-2021 |
Wastewater discharge into national waters and national lands |
NOM-003-CONAGUA-1996 |
Water extraction and well construction |
NOM-011-CNA-2000 |
Water conservation and evaluation of water availability |
NOM-035-SEMARNAT-1993 |
Methodology to measure total suspended particles in air |
NOM-043-SEMARNAT-1993 |
Maximum permissible limits of solid particles from fixed source emissions |
NOM-045- SEMARNAT-1996 |
Maximum permissible limits for opacity of exhaust from vehicles |
NOM-052-SEMARNAT-2005 |
Identification, classification and lists of hazardous waste |
NOM-054-SEMARNAT-1993 |
Procedure to determine hazardous waste segregation |
NOM-059-SEMARNAT-2010 |
Flora and fauna protection, including at-risk species |
NOM-080-SEMARNAT-1994 |
Maximum permissible limits for noise from vehicle emissions |
NOM-081-SEMARNAT-1996 |
Noise emissions |
NOM-083-SEMARNAT-2003 |
Urban solid waste management |
NOM-087-SEMARNAT-1995 |
Medical (biological and infectious) hazardous waste management requirements |
NOM-120-SEMARNAT-2011 |
Environmental protection specifications for mining exploration activities |
NOM-138-SEMARNAT/SS-2003 |
Hazardous waste management requirements |
NOM-141-SEMARNAT-2003 |
Project, construction, operation, and post-operation of tailings dams |
NOM-147-SEMARNAT/SSA-2004 |
Soil metal contamination management and remediation |
NOM-157-SEMARNAT-2009 |
Mine waste management plans |
NOM-161-SEMARNAT-2011 |
Special handling waste and management plans |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The mining operations of CLG Mine are also regulated by the following
regulations and legal orders:
| n | Political Constitution of the Mexican United States |
| n | National Development Plan 2018-2024 |
| n | State Development Plan 2022-2027 |
| n | Satevó Municipality Development Plan 2021-2024 |
| n | General Territorial Ecology Program |
| n | Important Hydrological Regions designated by CONAGUA |
| 17.3 | Environmental Studies |
The environmental studies for CLG were based on a combination of publicly
accessible data from the Mexican government and from new baseline studies carried out by a consultant contracted by the Company. The government
data were primarily obtained from the National Institute of Statistics and Geography (Instituto Nacional de Estadística y Geografía
[INEGI]), which is responsible for collecting and disseminating information characterizing the nation’s territory, resources, population
and economy.
Environmental Impact and Safety Advisors (Asesores en Impacto Ambiental
y Seguridad, S.C. [ASI]), carried out the baseline studies to comply with the Mexican requirements to submit an Environmental Impact Statement
(Manifestación de Impacto Ambiental [MIA]) and to prepare a Risk Study to obtain environmental authorization of the proposed project.
The purpose of baseline analyses was to characterize the components, environmental impacts and mitigation measures, as well as to predict
future scenarios within the area of environmental influence (the Environmental System or ES). The ES was defined as the San José
River hydrologic microbasin, which covers an area of 20,225.98 ha (202.3 km2). The mine is located within the Sierra Madre
Occidental Physiographic Province, particularly within the Sub-provinces of the Great Plateau and Canyons of Chihuahua, and Sierras and
the Plains of Durango, which cover the greater part of the ES. The ES and the Project Area (PA) are shown in Figure 17.1. The hydrologic
region is shown in the green outline, the San José River microbasin in blue and the PA in red.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: Minera Plata Real, 2017, NI
43-101 Technical Report Feasibility Study of the Cerro Los Gatos Silver-Zinc-Lead Deposit, Los Gatos Project – Chihuahua, Mexico,
Volume 8: Environmental and Permitting: Document prepared by Tetra Tech, Document 114-910117-REP-R0008-00, January 6, 1191 p.
Figure 17.1: Mina Cerro Los Gatos and the San José River
Hydrologic Microbasin
| 17.3.1 | Climate and Precipitation |
Within the ES, the climate is classified as dry climate "B"
and semi-dry climate "BS1", and the climatic subtypes “semi-arid semi-warm and mild semidry.” The area has an average
temperature of 17.5°C and an average rainfall of 433.2 millimeters (mm), according to the nearby climatological stations.
The first weather station onsite was installed in 2013 and was operated
non-continuously through 2018, when it was replaced with a new weather station, which has operated continuously.
Geologically, the ES exhibits seven surficial lithological units plus
soils, with 92.05% of the total surface area covered by acidic rhyolite-tuff, conglomerates, andesite, and granodiorite; alluvial cover
of 7.06%; and two lithological units that cover 0.89% (marble and latite).
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
A variety of soil types are present in the ES, including Leptosols,
Chernozem, Luvisol, Fluvisol, Kastañozem and Regosol; however, the baseline studies indicated that the natural grassland has been
affected by the establishment of introduced grass for the extensive cattle raising industry.
Cattle grazing generates soil compaction and eventually soil erosion.
According to estimates, the ES has an average erosion of 10.06 t/ha/year, which is considered light, although there are areas with moderate
erosion. The PA has an estimated average soil erosion of 7 t/ha/year, which is considered light erosion.
| 17.3.4 | Regional and Site Hydrology |
| 17.3.4.1 | Surface Hydrology |
The Los Gatos mine is located in the hydrologic region 24 Rio Bravo
Conchos, with headwaters in the mountains west of the PA and has a discharge to the Atlantic Ocean (Figure 17.2). The hydrologic region
is shown in the blue outline and the basin in green.
Source: Minera Plata Real, undated pdf file, filename, Apendice A_CONAGUAG_Hidrologia.
Figure 17.2: Hydrologic Region Boundaries
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The hydrologic basin boundaries are closely tied to the area of influence
of the mining operations. The hydrologic limits include the Bravo-Conchos region, the Rio Conchos-Presa de la Boquilla basin, the Río
Conchos-Valle de Zaragoza subbasin, and the San Jose River microbasin (Figure 17.3). The hydrologic region is shown in the blue outline,
the basin in green, microbasin in light blue and the PA in red.
Source: MPR, 2017
Figure 17.3: Hydrologic Regional Map
The mine is within the sub-basin of Santo Toribio, which is within the
San Jose River microbasin. There is intermittent surface water that is associated with the Santo Toribio, El Yeso and El Salto arroyos,
which are indicated as permanent streams in the INEGI cartography; however, these arroyos are typically dry due to low precipitation rates
in the area and high infiltration rates of arroyo sediments, except during the rainy season of June to October. The evapotranspiration
rates exceed the precipitation rates. As shown in Figure 17.4, the Santo Toribio arroyo passes through the mine site with the direction
of surface water drainage is to the southeast. This arroyo receives only stormwater runoff in its reaches upgradient of the mine water
discharge point.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: MPR, 2024, pdf file: ITASCA-PPT-4022.019.16-Modelo conceptual
hidrogeológico-R1.pdf
Figure 17.4: Santo Toribio Sub-basin
The hydrologic parameters within the ES were estimated to be a precipitation
volume of 100.651 cubic hectometers per year (hm3/year, which is the equivalent of 1 M cubic meters per year), with an
evapotranspiration of 81.551 cubic hm3/year, and a drained volume of 13.531 hm3/year, which means an infiltration
of 5.564 hm3/year.
No existing discharges of industrial effluents that could contribute
to high levels of contaminants to surface water were identified within the ES. The ES is a rural area where irrigation agriculture is
very limited, and the discharge of municipal wastewater is limited to discharge from the town of San José del Sitio, located near
the limits of the San José River microbasin and downstream from Los Gatos mine operations.
The impacts of the mining operations to the surface hydrology were identified
as the TSF construction and alteration of runoff and infiltration patterns due to the TSF and other mining infrastructure. Applicable
mitigation measures were included in the mine design and approved by the environmental agency.
The ES is underlain by the Upper San Pedro River and San Felipe de Jesús
aquifers, as shown in Figure 17.5. The Upper San Pedro River aquifer has a deficit (that is, overdraft) of 14,391,280 m3/year
(CONAGUA, 2020a). The San Felipe de Jesús aquifer has an availability of 16,695,276 m3/year of groundwater (CONAGUA,
2020b).
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: MPR, 2017
Figure 17.5: Aquifer Designations Delineated by CONAGUA within
the Rio San Jose Microbasin
According to studies conducted on site, groundwater occurs in perched
zones, which are isolated and disconnected from the main aquifer, encountered 3 m below ground surface. In the area of the TSF, the alluvium
thickness ranges from 0 to 12.5 m, with thickness increasing to the north and southeast. In the deeper aquifer (the "San Felipe
de Jesús" aquifer) groundwater occurs at depths between 67 and 245 m. Part of the reasoning that the shallow and deeper groundwater
zones are disconnected hydraulically is that the deeper groundwater has a higher temperature than the shallow groundwater. The pre-mining
groundwater flow direction was northwest to southeast at a gradient of 0.025. The current groundwater gradient has been impacted by the
mine dewatering system, and with a depression along the Los Gatos Fault (Figure 17.6).
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: MPR, 2024, pdf file: ITASCA-PPT-4022.019.16-Modelo conceptual
hidrogeológico-R1.pdf
Figure 17.6: Groundwater Contour Map, March 2024
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The San Felipe de Jesús aquifer is not classified as vulnerable
to contamination, based on Annex 2 of NOM-141-SEMARNAT-2003, which describes the method used to evaluate the vulnerability of an aquifer
to pollution.
According to the "Public Register of Water Rights" (REPDA)
database of the National Water Commission (CONAGUA 2016), the nearest water source users identified within the microbasin are one groundwater
user located approximately 3 km from the PA and one surface water user located just upstream of the PA.
The mining operations include groundwater extraction (dewatering). About
2% of total groundwater extracted is recirculated in a closed circuit and is used in the mine camps and offices. Approximately 12% of
the excess water released to the environment goes through a sediment recovery process that removes sediments by settling and reduces the
temperature of the water to meet discharge standards.
A more detailed discussion of
the hydrogeology of the underground mine is provided in the Mining section of this report.
The biotic environment of the ES, based on INEGI data, consists of three
regimes: 93.93% of the area is covered by a primary natural pasture and secondary shrub vegetation; 4.48% is covered by agricultural and
livestock activities; and 1.59% of the total area is covered by a secondary shrub vegetation of oak forest.
According to the baseline studies, the presence of a microphytic (small-sized
plants) desert scrubland was found within the PA. The field surveys identified 95 species of flora within the ES and 84 species in the
PA. The microphyllous desert scrubland was similar in the ES and the PA. Only one species found in both areas was listed in the NOM-059-SEMARNAT-2010.
The species is a walnut tree (Juglans major), which is categorized as threatened.
Modifications to the vegetation is one of the environmental impacts
from the mining operations. An area of 390.37 hectares currently covered by microphyllous desert shrubs has, or will be, affected by mining
infrastructure, mining, mineral processing and/or other activities.
Within the PA, the vegetation generally does not correspond to pristine
ecosystems due to extensive livestock activity and the establishment of introduced grasses to support cattle production.
Baseline surveys of fauna within the ES indicated the presence of 14
species of herpetofauna; 99 species of avifauna; 36 species of mammal fauna; and 9 species of ichthyofauna. Twenty-one of these species
are listed under the Mexican regulation NOM-059-SEMARNAT-2010 as protected species, while in the PA 88 species were identified to include
10 of herpetofauna, 46 of avifauna, 26 of mammal fauna, and 6 of ichthyofauna. Although the protected species were not specifically identified
in the PA description of the environmental permit submission, it is assumed that protected species found in the ES are, or could, be present
in the PA.
The wildlife is another component of the ES that has some environmental
impacts. The surface disturbances by mining activities could cause loss of habitat and result in migration of fauna to outside of the
PA. To minimize this potential impact, mitigation efforts are part of the environmental activities carried out by the mine personnel.
The ES does not have a high biodiversity rating, nor are there protected
areas. The region has been impacted by overgrazing and by agricultural activities.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Mining wastes generated by the operations include tailings, sediments
removed from the dewatering system and waste rock, are managed under a plan approved by the Mexican environmental agency. The operations
also produce hazardous and regulated wastes that are managed in accordance with the applicable waste regulations. The Company is certified
as a large hazardous waste generator. The Company has updated its waste generator registration.
Analytical testing and characterization of wastes were carried out by
a laboratory certified by the Mexican authority.
| 17.4.1 | Hazardous and Regulated Wastes |
The mining operations generate hazardous wastes such as oily water,
used oils, grease and lubricants, batteries, aerosol cans, fluorescent and mercury vapor lights, and contaminated soils. A hazardous waste
management plan authorized by SEMARNAT is in place. There is a storage facility for the temporary storage of hazardous wastes pending
pickup and off-site disposal by a third-party. Quantities generated annually are reported to SEMARNAT.
Additional regulated, non-hazardous wastes generated by the mining
operations include wood, scrap metal, used tires, construction debris and organic domestic waste. The mining operations contract with
a recycling company for wood, plastics and scrap metal debris, and organic food wastes are composted onsite. There is no onsite landfill,
so any additional debris or trash is handled by a third party for off-site disposal.
| 17.4.2 | Sediment Removed from the Dewatering System |
The sediment removed from the mine dewatering system includes sediment
from mine water that has been in contact with the underground workings and is captured in the underground ponds. The mine water is conveyed
to the sedimentation pond at the surface where a flocculate is added to remove the sediments, which are subsequently pumped to the TSF.
The sediments are characterized annually per NOM-157-SEMARNAT-2009 as
a mining waste and have been determined to be nonhazardous and not acid-generating.
The metallurgical process produces tailings that are subsequently neutralized
to adjust the pH; to oxidize cyanide to a non-toxic form; and to precipitate metals. This process results in non-hazardous tailings
water. Neutralized tailings are stored in the TSF or diverted underground as cemented paste backfill.
The tailings have been characterized as hazardous per the Mexican environmental
authority classification system (NOM-141-SEMARNAT-2003). The tailings are acid-generating. None of the regulated metals were indicated
to exceed the static leach test. The Company also carried out a preliminary kinetic testing program that was not required by Mexican regulations
but would be considered an international industry standard practice. The kinetic testing results indicated that the tailings had a low
possibility of acid leaching or metals leaching.
In 2023, the paste tailings were characterized using Mexican regulatory
criteria. Paste tailings were characterized as hazardous for toxicity and corrosivity and as potentially acid-generating based on Mexican
environmental testing criteria. The cemented tailings samples did not exhibit hazardous or potentially acid-generating characteristics
after the cement solidified.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The tailings water was also tested in 2023. The water in the TSF exceeded
the permissible limit for copper for surface water discharge but as such water remains contained within the TSF and is not discharged,
the mine is in compliance with environmental discharge regulations.
The majority of waste rock generated from the mining operations is used
for CRF and placed in the underground mine. About 80% of the waste rock is used as fill, whereas the other 20% is placed in a surface
waste rock facility.
The waste rock was characterized as nonhazardous per NOM-157-SEMARNAT-2009.
The waste rock is non-acid-generating and the static leach test did not show any leached metals above the regulatory standard. The Company
also carried out a preliminary kinetic testing program that was not required by Mexican regulations but would be considered an industry
standard practice. The kinetic testing results indicated that some of the lithologies had the capacity for acid leaching, but the lithologies
were estimated to be of low proportion within the entire volume of waste rock to be generated over the LOM. The acid generation potential
appeared to be of limited duration. Thus, for closure the long-term production of acid was believed to be manageable and should be monitored
further to evaluate the need for special management. In particular, waste rock stored at the surface would require monitoring to detect
potential future acid drainage production.
In 2023 a composite waste rock sample was characterized as potentially
acid-generating. After the addition of cement, the CRF did not exhibit hazardous or potentially acid-generating characteristics after
the cement solidified.
| 17.5 | Environmental Monitoring |
Environmental monitoring and reporting to the environmental agency are
required in Mexico. Monitoring is conducted on a routine basis for the key environmental media: air, surface water, groundwater, noise
and wastes. Table 17.3 lists the various monitoring stations where the Company routinely collects samples. The frequency of sampling is
established in environmental permits (see Section 17.7). In addition to the monitoring of environmental media listed above, the site personnel
are trained to alert the environmental department for the presence of wildlife. During 2023, there were about 60 rescue and relocations
with the majority of the species being rattlesnakes.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 17.3: Monitoring Requirements at Cerro Los Gatos
Item |
Applicable Regulation |
Number of Monitoring
Locations |
Frequency per Year |
Comments |
Groundwater |
NOM-127-SSA1-1994 |
5 |
4 |
Grab samples from continuously pumping wells. Wells El Tule and La Cueva are upgradient of the mining operations and monitoring points Well San Jose, Arroyo Santo Toribio, La Laborcita, Boca del Rio and Los Veranos are downgradient. Analytical results from wells El Tule and San Jose are the only monitoring results that are required to be sent to SEMARNAT; all other results are for internal control |
Wastewater |
NOM-001-SEMARNAT-1996 |
11 |
4 |
Grab samples |
SIRALAB pond |
NOM-001-SEMARNAT-1996 |
2 |
4 |
24-hour samples |
Waste treatment plant ponds |
NOM-001-SEMARNAT-1996 |
1 |
12 |
Ponds associated with the four domestic wastewater treatment plants |
Groundwater |
NOM-001-SEMARNAT-1996 |
3 |
4 |
Wells 1, 2, and 3, which monitor upgradient and downgradient shallow groundwater around the TSF |
Wastewater |
NOM-003-CONAGUA-1996 |
4 |
4 |
Treatment plants 1, 2, 3 and 4 (domestic
wastewater) |
Perimeter noise |
NOM-081-SEMARNAT-1994 |
4 |
1 |
Daytime and nighttime monitoring |
Sludge from waste
treatment plants |
NOM-004-SEMARNAT-2022 |
4 |
1 |
Sludge associated with the four domestic wastewater treatment plants |
Perimeter air quality |
NOM-035-SEMARNAT-1993 |
4 |
4 |
PM-10 and PM-2.5 size total suspended
solids in air |
Mining wastes |
NOM-052-SEMARNAT-2005; NOM-141-SEMARNAT-2003;
NOM-157-SEMARNAT-2009 |
3 |
1 |
Sediments from dewatering system, tailings, and waste rock |
Emissions from fixed sources |
NOM-043-SEMARNAT-1993 |
5 |
1 |
Solid particulates in air emissions from fixed sources (laboratory) |
In addition to the reporting requirements for specific media, MPR submits
an annual summary of the volumes of fuel consumed and wastes generated, such as air emissions, hazardous wastes and contaminated soils.
| 17.5.1 | Air Quality Monitoring |
Air quality monitoring services are contracted by the Company and are
performed by a certified laboratory to help maintain compliance with Mexican regulations. There are four perimeter stations in the PA
where total suspended particles, PM10, and PM2.5 are sampled on a quarterly basis by the contractor (Figure 17.7). The second quarter
2023 test results for PM2.5 total suspended particles at all four monitoring stations around the TSF and the Punto 4 second quarter 2023
PM10 result exceeded Mexican environmental standards The third and fourth quarter monitoring events were cancelled, resulting in the PM2.5
annual average exceeding the permissible limit and one station exceeding the PM10 permissible limit in 2023. The exceedances are likely
related to the precipitation patterns, and the second quarter is the driest period of the year. The first quarter 2024 results had one
exceedance for PM2.5 at Punto 3; no other sampling event data were available for 2024 at the time of QPs review.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: Minera Plata Real, 2022, filename PLANO MONIT_PM10_PM2.5.pdf
Figure 17.7: Perimeter Air Quality Monitoring Locations
Only the onsite laboratory has fixed source emissions. The emissions
generated by the laboratory include dust and gases, which are controlled by dust collectors and gas scrubbers. Emissions are monitored
in five locations (Figure 17.8). The 2023 and 2024 test results complied with Mexican environmental standards.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: Minera Plata Real, 2022, filename PLANO EMISIONES ATMOEFERA.
Figure 17.8: Locations of Fixed Emission Sources
Baseline studies were carried out to characterize the water quality
in the region prior to operations and additional sampling is carried out to monitor whether the mining operations have impacted surface
water or groundwater.
| 17.5.2.1 | Surface Water Quality Monitoring |
Surface water quality is monitored at upstream and downstream locations
to the mining operations (see Figure 17.9). Regional surface water flow is from the northwest to the southeast; however, within the
PA the surface water flow direction is determined by the local topography and can vary widely from the regional direction. At the mine
site there are no permanent surface water bodies; stream flows are only temporary during the rainy season. The 2023 and 2024 test results
available at the time of this report were in compliance with Mexican surface water discharge standards except for one sample collected
at Boca del Rio that exceeded the standard for total suspended solids.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: MPR, 2022, filename, Mon_Agua_Superficial.pdf.
Figure 17.9: Surface Water Monitoring Locations
Additional sampling points, such as the TSF subdrain, are included in
the monitoring program for internal control purposes but are not surface water bodies subject to Mexican surface water discharge standards.
Additional sampling results are included as appendices in the annual report submitted to SEMARNAT.
| 17.5.2.2 | Groundwater Quality Monitoring |
The groundwater quality described in the 2019 Technical Report (Tetra
Tech, 2019), indicated that water samples from dewatering and monitoring wells in the area did not exceed any of the standards established
for water use or water discharge, with the exception of exceedances of total coliforms in samples from most wells, fecal coliforms in
samples from two wells, and total trihalomethanes in samples from three wells. The QP notes that total coliforms are not typically found
in groundwater and could be indicative of a migration of contamination due to a poor well seal at surface. Trihalomethanes are likely
related to water treatment, and, thus, are not a significant concern. The water was reported to have a neutral pH, low-to-moderate total
dissolved solids, and did not exceed any of the other regulated compounds.
Three groundwater monitor wells (Pozo 1 Aguas Abajo, Pozo 2 Aguas Abajo
and Pozo 3 Aguas Arriba) are used to monitor shallow groundwater around the TSF. The shallow groundwater monitor well results comply with
Mexican standards for surface water (NOM-001-SEMARNAT-2021) except multiple samples from all of the monitor wells had exceedances of total
suspended solids.
The Company currently monitors groundwater quality at the cooling tower
that receives mine water combined from the dewatering wells (wells 1 to 17); and supports the communities by monitoring the El Tule well,
the San
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
José well, the Laborcita well and the Boca del Rio well. The
well locations are shown in Figure 17.10. The 2023 results for the dewatering wells indicated exceedances of nitrates, arsenic, iron,
lead, zinc, fluoride, total and fecal coliform and pH based on the Mexican standards for drinking water (NOM-127-SSA1-2021). The 2023
groundwater quality test results for the community wells indicated exceedances for total and fecal coliform, fluoride, and nitrates based
on Mexican standards for drinking water (NOM-127-SSA1-2021). The results have been communicated it to the ejido leaders so that appropriate
mitigations may be undertaken. No monitoring results were available for 2024 at the time of the QP’s review.
Source: Minera Plata Real, 2022, filename Mon_Agua_Subterranea.pdf.
Figure 17.10: Groundwater Monitoring Well Locations
Mine water was sampled in 2023 from the 263 and 361 ramps in the underground
mine. One sample at the 361 ramp exceeded the permissible discharge limit for lead. The mine water is managed via the sedimentation pond
prior to discharge.
| 17.5.3 | Wastewater Treatment and Monitoring |
Four wastewater treatment plants are operated to treat domestic wastewater.
All of the treatment plants have had exceedances in 2023 samples compared to regulatory discharge standards. One or more samples showed
exceedances for arsenic, cyanide, fecal coliform, biological oxygen demand, chromium, oils and grease, lead, and total suspended solids.
The treated wastewater is used to irrigate green areas at the mine.The arsenic concentrations are related to naturally-occurring arsenic
in groundwater used as supply water for the mine camps. For the other constituents, mitigation measures have been taken to meet discharges
standards. Cyanide and lead were detected in the wastewater treatment plant at the process plant, which includes wash water from work
overalls and clothing. Steps are being taken to redirect the wastewater to the TSF. The dosage of chemicals added to treat fecal coliforms
has been increased to reduce the fecal coliform levels. Biological oxygen demand
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
analysis has been updated to chemical oxygen demand. Oil and grease
traps were installed to mitigate those constituents associated with the dining facilities. Total suspended solids, which are linked to
the presence of oil and grease, will be mitigated with the traps.
The QP notes that mitigation measures have been implemented to avoid
future exceedances associated with the wastewater treatment plants.
A noise monitoring program is conducted quarterly, and the mine site
perimeter noise complies with the Mexican regulation (NOM-081-SEMARNAT-1994).
Aspects of the site water management include the following:
| n | The mine dewatering system provides a water supply for the water demands, such as process makeup water, dust control, drill supply
and potable water. |
| n | Contact water includes groundwater recovered in the underground mine. The contact water is collected and treated in sedimentation
basins. Mine water temperature varies between 50 and 70°C. A cooling pond and lined channel with energy dissipators are used to lower
the water temperature prior to discharge to the environment. MPR has contracted with a specialist to evaluate the efficiency of the cooling
system and to develop options as needed to meet MPR’s internal water temperature surface water discharge standards. Mexican has
not established an applicable standard for the mine water temperature. |
| n | 12% of total excess water from the mine dewatering system is discharged to the environment after removing excess sediment and lowering
the temperature. |
| n | Process water is recovered and returned to the system with some losses to evaporation associated with the process water recirculation. |
| n | Impacted water from contact water and the process is captured and returned to the process after treatment. |
| n | Diversion channels are used to reduce the amount of contact water that requires management. Diverted non-contact water is conveyed
around the mining operations and discharged into the Santo Toribio arroyo. |
| n | Most wastewater from the mine site is treated in the four wastewater treatment plants and then used to irrigate green areas at the
mine site with the exception of wastewater from the laundry and the dining room of the processing plant discharged directly into the TSF. |
| n | Water quality is documented through monitoring programs. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The main environmental permits required in Mexico for mining and exploration
are the Resolución de Impacto Ambiental for Construction and Operation (“RIA”) and the Change in Land Use Permit
(“CUS”) that are issued by SEMARNAT. Four primary documents must be submitted for the approval and issuance of these permits
by SEMARNAT:
| n | Manifestación de Impacto Ambiental (“MIA”): Mexican Environmental Impact Assessment, including MIA Modifications
for any changes to project planning and operations. MIAs describe potential environmental and social impacts that may occur in all stages
of the operation as well as the measures to prevent, control, mitigate or compensate for these impacts |
| n | Estudio Técnico Justificativo (“ETJ”): Technical Justification Study for the Change in Land Use |
| n | Estudio de Riesgo Ambiental: Environmental Risk Assessment |
| n | Programa para la Prevención de Accidentes (“PPA”): Program to prevent accidents |
Federal environmental licenses (Licencia Ambiental Unica, “LAUs”)
are issued, which set out the acceptable limits for air emissions, hazardous waste, and water impacts, as well as the environmental impact
and risk of the proposed operation.
Figure 17.11 summarizes the environmental permitting process for the
authorization of mining operations in Mexico.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 17.11: Overview of Environmental Permitting Process for
Mining Operations in Mexico
The mine has authorization for its current operations with the exception
of the operation of the fluorine leach project and operation for the personnel camp sewage treatment plant.
The Company has submitted a modification of the environmental license
based on the addition of the fluorine leach process. The environmental agency requested that the Company submit additional information
to resolve discrepancies in the digital files related to the disturbance footprints. All required documentation in respect of the modification
was submitted in May 2024. While there is no certainty on when or if the amendment will be successful, the rejection of this project would
not be expected to materially impact economics of the CLG operation. This issue is not considered by the QP to be a material risk to the
operation of CLG Mine.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Los Gatos submitted a permit application in 2019 for
a sewage treatment plant that treats sewage from the personnel campsite. CONAGUA has acknowledged receipt of the application but has yet
to respond with actions regarding the permit. MPR filed a legal action (Juicio de Amparo) before a Federal Court requesting the Court
to order CONAGUA to resolve MPR's request, based on the time that has passed since the application was filed and the lack of response
from CONAGUA. CONAGUA acknowledged the facts with the Court and subsequently the Court ordered CONAGUA to issue a resolution on MPR's
application. A resolution is expected to be issued in the near future. There remains some risk that Los Gatos could face a fine related
to the operation of the sewage treatment plant without an approved permit. CONAGUA has indicated that depending on whether the water quality
of the treated water meets permissible limits, the mine could be fined or the treated water may be disallowed from use for irrigation.
In this case, Los Gatos has the mitigation option of diverting treated water to the TSF, which is a permitted option for the treated water.
This issue is not considered by the QP to be a material risk to the operation of CLG Mine.
CLG also awaits issuance of the permit associated
with the use of the CONAGUA federal zone within the TSF footprint area. The Los Gatos Joint Venture owns the surface lands for the TSF
and the mining concessions cover the TSF location. The TSF Federal land use application was submitted on time to CONAGUA and approved
pending payment by CLG. The payment was submitted on time by CLG in October 2022. It is typical for the permit document to be issued two
to three months following payment but the final, signed authorization has not yet been issued by CONAGUA. CLG legal personnel have indicated
that their interpretation is that the permit approval will not be subject to any new criteria given CONAGUA has accepted the application
and appropriate fees have been paid. The QP notes that there is a low risk associated with the authorization. If the regulator does not
ultimately issue the final permit documentation, this could be considered material to the TSF operation.
In 2023 the Company submitted updates to the hazardous
waste and the special waste plans to reflect increases in wastes generated by the mining operations.
The key existing permits are provided in Table 17.4.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 17.4: Environmental Permit Registry and Required Reports
Consecutive Number |
Permit Type and Identification Number |
Authorized Activity |
Active From - To/ Validity |
Reporting Requirements |
Report Due Dates |
ENVIRONMENTAL IMPACT ASSESSMENT AUTHORIZATIONS ISSUED BY SEMARNAT |
1 |
Regional Permit, Environmental Impact Statement (MIA-R) SGPA/DGIRA/DG/05121-2017 |
Implementation of site preparation activities, construction works, project management and exploitation activities, among others, on a surface of 211.084 Ha. |
July 17, 2017, to July 17, 2041 (24 years) |
Annual compliance and progress report; Environmental management program results |
Due July 17 annually until 2041 |
2 |
First modification to authorized project |
Expanded surface disturbance to permitted 268.84 Ha (increase: 57.76 Ha.) Five new infrastructure works. |
March 15, 2018, to July 17, 2041 |
Included in reporting requirements for the MIA-R |
|
3 |
Second modification to authorized project |
Increased surface disturbance of 325.84 (increase of 56.2408 Ha.) 34 new infrastructure works and extension of the surface disturbance. |
November 28, 2018, to July 17, 2041 |
Included in reporting requirements for the MIA-R |
|
4 |
Third modification to authorized project |
Increased surface disturbance of permitted 334.028 Ha. (increase of 8.942 Ha.) Five new infrastructure and extension of the surface disturbance. |
June 01, 2021, to July 17, 2041 |
Included in reporting requirements for the MIA-R |
|
5 |
Fourth modification to the authorized project |
Increase of surface disturbance and activities from 334.028 to 235.2178 Ha. To include the fluorine leach plant |
March 17, 2017 (authorization from SEMARNAT is pending) |
Included in reporting requirements for the MIA-R |
|
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Consecutive Number |
Permit Type and Identification Number |
Authorized Activity |
Active From - To/ Validity |
Reporting Requirements |
Report Due Dates |
6 |
Environmental Impact Assessment, Individual Permit Mode (MIA-P)
No. SG.IR.08-2017/251 |
Implementation of the surface disturbance and activities for construction, maintenance, and operation of the project named “Línea Eléctrica 115 KV Los Gatos” |
September 04, 2017, to September 04, 2037 (20 years). |
Activities reports |
Report at the start of construction activities (2018) and at the end of activities (2020) |
7 |
Environmental Impact Statement, Individual Mode (MIA-P) SG.IR.08-2018/097 |
Exemption from the submittal of the Environmental Impact Statement (MIA) for the expansion of the road from “San José del Sitio to Mina Los Gatos” |
No expiration date, starting on May 04, 2018 |
None |
|
FORESTRY PERMITS ISSUED BY SEMARNAT |
1 |
Technical Justification Study to change land use designation of Forestry Lands, surface area of 390.6972 ha
No. SG.CU.08-2017/310 |
Removal of forest vegetation and organic soil from the specified surface area. |
November 1, 2017, to November 1, 2020 (3 years) Extended to June 2022 |
Biannual advances and at mine closure |
November and May annually from 2017 to 2022 |
2 |
Forest Germplasm Collection Permit No. SG.SF.08-2020/060 |
Permit to collect seeds of forest species in the region for restoration and reforestation purposes on degraded land areas. |
No expiration date, starting March 11, 2020 |
None |
|
WATER PERMITS ISSUED BY CONAGUA |
1 |
Concession No.
06CHI141265/24FADL16 for the discharge of impacted water from the ramp, speed bumps and deepening works from the “Cerro Los Gatos" mine |
Discharge of mine water coming from the mine ramps for a volume of 8.0 l/s (note: discharge is based on a volume per time) |
August 31, 2018, to August 31, 2028. Termination of the concession was requested in 2020. The concession is not needed because the water is not classified as wastewater. |
Quarterly water quality report (SIRALAB) |
Quarterly since 2018 until concession expires |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Consecutive Number |
Permit Type and Identification Number |
Authorized Activity |
Active From - To/ Validity |
Reporting Requirements |
Report Due Dates |
2 |
Construction Permit No. 4494, Tailings Dam |
Activities related to the construction and operation of the tailings dam No.1, to be built in four stages with a total capacity of
7.47 Mm3 |
January 18, 2019, to January 18, 2028 (9 years) |
Notification for start and end of each stage. Monthly reports for the construction advances of the dam |
From 2019 until the end of construction of the tailings dam (2028) |
3 |
Application for the permit for discharge of wastewater from three treatment plants that have been installed. |
Permit to discharge treated water for irrigation of gardens and green areas. |
The application was submitted to CONAGUA on September 7, 2019. To date the authority has not replied. It is possible that CONAGUA will be ordered to respond via legal proceedings. |
None |
Reporting requirements will be established
in the approved concession document
|
AIR AND WASTE |
1 |
Approval of Individual Environmental License (LAU), No. LAU-CHIH-001-2019, which authorizes the installation and operation of the mining operations. |
Installation and operation of mining operations and mineral processing plant |
No expiration date, starting May 27, 2019, unless production is increased or beneficiation process changes or due to social reason |
Annual Operations Report (COA) |
Between April and July annually, starting 2019 |
1.1 |
Update of Individual Environmental License No. SG.CA.OB-2023/1 00. |
Updated the Individual Environmental License because there were changes in the process, and increases in the equipment, wastes and emissions. |
No expiration date, starting July 13, 2019, unless production is increased or beneficiation process changes or due to social reason. |
Annual Operations Report (COA) |
Between April and July annually |
2 |
Registry of Hazardous Waste Management Plan
No. 08-PMG-I-3405-2019 |
Registration with the General Direction of Integrated Management of Hazardous Materials and Activities (DGGIMAR- SEMARNAT). Updated in 2023 due to increased quantities of wastes. |
From March 26, 2019, no expiration. Permit
updated on September 18, 2023.
|
Annual Operations Report (COA) |
Between April and July annually, starting 2019 |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Consecutive Number |
Permit Type and Identification Number |
Authorized Activity |
Active From - To/ Validity |
Reporting Requirements |
Report Due Dates |
3 |
Environmental Risk Study (ERA), No. 08-PMG-I-3405-2019 |
Submitted simultaneously with the MIA-R, and approved simultaneously. Updated in 2023 due to the increased consumption of sodium cyanide in the mineral processing. |
From July 17, 2017. Updated August 4, 2023. No expiration however if there are changes a modification to the study is required. |
None |
|
4 |
Registry as generator and notification of Management Plan of Special Waste Handling (RME) No. MPR-2273-19; |
Registration as waste generator and authorization of the Special Waste Handling Management Plan (PRME) under the Department of Urban Development and Ecology (SEDUE) in the State of Chihuahua. Plan was updated |
From April 09, 2019, no expiration |
Annual waste generation report using the Emission Report Format (FRE) |
Annually each April starting in 2019 |
5 |
Mining Waste Management Plan Registration No. 08-PMM-20223-2021 |
The Mining Waste Management Plan includes the management of waste rock, mine water sedimentation sludge and mining tailings. |
"From June 21, 2021. No expiration.
|
None |
|
MUNICIPAL PERMITS |
1 |
Soil Use License, official document No. 607 |
Municipal permit for the construction and installation of mining infrastructure for industrial use |
Active from July 23, 2018, to July 23, 2023 (Five years). Expired. |
None |
Permit is expired; no additional construction is required at this time. |
2 |
Authorization of the start of construction, official document No. 237/2018 |
Authorization from municipality for mining infrastructure construction |
No expiration starting May 3, 2018 |
None |
|
3 |
Consent and official document No. 603 |
Consent related to mining infrastructure construction |
No expiration, starting June 23, 2018 |
None |
|
4 |
Start of operations, official document No. 606 |
Approval of facilities by Municipal Civil Security and approval of start of
operations. |
No expiration, starting July 23, 2018 |
None |
|
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 17.8 | Social Considerations |
The following subsections include the relevant social and community
aspects of the area of influence of the CLG Mine, located in the municipality of Satevó, Chihuahua. Various documents were reviewed,
including the preliminary and baseline studies conducted in 2016 and 2018, and follow up studies conducted in 2021 and 2023. The review
also included information regarding the identification of social risks, the mitigation measures that are part of the community relations
plan, and the main agreements with the local stakeholders.
MPR carried out studies in 2016, 2018, 2021 and 2023. The baseline studies
collected information from official statistical sources, as well as interviews and participatory workshops with stakeholders and the nine
local communities in the area of direct influence. The estimated population by community based on data collected in October and November
2023 is presented in Table 17.5. The information obtained has been used to identify social impacts in the communities, as well as social
risks for the mining operations. Prevention and mitigation plans were developed for the Community Social Management Plan.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 17.5: Estimated Population in the Area of Influence of Cerro
Los Gatos Mine, 2023
Within the Regional Environmental System (Area of Direct Influence) |
Locality |
Municipality |
Distance to the project (meters) |
Population |
La Esperanza |
Satevó |
7,280 |
49 |
El Tule |
4,655 |
75 |
El Carrizo |
4,735 |
47 |
La Guerrita |
4,728 |
8 |
San José del Sitio |
7,190 |
312 |
La Máquina |
8,046 |
32 |
Outside the Regional Environmental System (Area of Indirect Influence) |
Locality |
Municipality |
Population |
Los Veranos |
Satevó |
97 |
La Laborcita |
10 |
Boca del Río |
88 |
San José del Sitio is the municipal capital. The communities
in the San Jose hydrologic microbasin that are within the area of direct influence are shown in Figure 17.12.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 17.12: Location of Communities and Project
The area surrounding Cerro Los Gatos mine is predominantly rural, with
livestock and agriculture being the main activities. Livestock is an activity that has economic and cultural significance for the municipality.
However, since the opening of the Cerro Los Gatos mine, mining has become the predominant economic driver in the area. The 2023 social
survey indicated that the infrastructure improvements and increase in employment in the recent past are attributed primarily to MPR.
The level of education in the area of influence has increased since
the Company started operations.
Medical services in the region are concentrated in San José del
Sitio, which has a community health center that is administered by the Mexican Social Security Institute (IMSS). Almost half of the population
in the area of direct influence (44.6%) is not affiliated with any medical service and the other half has access to IMSS. About 20% of
the population has access to private health services, primarily due to employment at the mine.
There is a significant water shortage in the towns of La Esperanza,
El Carrizo, and El Tule. According to social perception derived from a survey of the populace, some of the main reasons for the shortage
are the drought that prevails in the region, as well as the consumption of water by mine operations, which the community perceives as
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
responsible for decreased flows in rivers and streams in the hydrologic
micro-basin. Even though hydrologic studies have shown that the mining operations and the towns are in separate hydrologic microbasins
and use different aquifers, this social perception has a reputational impact on operations.
San José del Sitio is the largest community and has the most
community infrastructure, such as basic and upper secondary schools, health centers, and businesses for goods and services. In this sense,
MPR, as part of its agreements with the ejido as well as initiatives of the Social Management Plan, has contributed to the maintenance
of roads and streets of the town; construction of a potable water retention basin and expansion of the water system; maintenance of schools;
and co-investment in the construction and renovation of the health center and the basic rehabilitation unit.
Social perception surveys were carried out in 2018, 2021 and 2023. In
all surveys most localities perceive the presence of the mine as a benefit due to the generation of jobs, and the social co-investment
that has been made in the community infrastructure within the area of influence. In the 2018 and 2021 surveys, the perception of impacts
by MPR operations on water and air quality remained an issue, especially the perception that mining operations impact water availability
in other hydrologic basins. The 2023 survey showed significant improvement in the community perception of water access and water quality.
At the time of the 2023 survey, the results indicated that no opposition
that poses a risk to operations exists. Cattle-raising was found to be a traditional economic activity that is in risk due to poor practices
such as overgrazing and impacts from climate change. The 2023 survey identified risks associated with the perception of mining activities
causing damages to homes and the presence of anti-mining organizations. MPR has collaborated with local and state governments in a program
that promotes agricultural products that have a higher land productivity value than cattle ranching, such as initiatives for production
of pomegranates and prickly pear cacti. MPR also collaborates on environmental awareness events for students, provides a community plastics
recycling program and organizes an event as part of World Water Day. The company actively seeks social programs that will be collaborative
efforts with government entities that will share responsibility for the success of the project.
| 17.8.2 | Social Management Plan |
The MPR community relations team has had a presence in the region since
the mineral exploration phase and has established communication and collaboration channels based on transparency of information dissemination.
The Community Social Management Plan was developed as part of the 2018 social baseline study, and subsequently implemented in 2019 and
2020. In 2021, the socioeconomic indicators survey was updated to include components of human rights, gender perspective, and United Nations
Sustainable Development Goals (SDGs). Comparison of the baseline 2018, 2021 and 2023 results identified the main risks and perceived impacts
of the mine and were used to prepare the Community Relationship Model.
The objective of the MPR Community Relations Policy is to establish
the guidelines for institutional work with the neighboring communities and for MPR social interaction projects. Projects are to promote
social development, either independently or through strategic alliances with various institutions (public or private), that are aimed
at addressing health, education, culture, and basic infrastructure, based on respect for human rights, beliefs, and local characteristics.
The Community Relations Model is based on methods to prevent and reduce
risks and socio-environmental impacts and is used to develop the social and environmental investment portfolio. The main social impact
risks and the mitigation measures that were in process in 2023 are presented in Table 17.6. It is noted that the table
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
refers to two trade unions that work at CLG; one union is local (Satevó)
and the other (Durán Mier-San Jose del Sitio) is a national union with a local section at CLG.
Table 17.6: Potential Social Impacts and Mitigation Measures,
2023
Interest / Potential Concern |
Priority |
Summary of Actions and/or Mitigation Measure |
Conflict with the Durán Mier union that cannot be resolved with dialog and could affect operations |
Very High |
Project implemented to strengthen the union organizations. Monitor and update the stakeholders and risks quarterly. |
Conflict with the Satevó union that cannot be resolved with dialog and could affect operations |
High |
Create dialog to communicate benefits for the union and communities due to mining. Demonstrate that the project to strengthen the union has organization tools that allow business improvements. Seek to emphasize the social investment for the community is not in conflict or affects union. Have accounting information on rates and payments to union. Create internal collaboration between areas in the mine for negotiations, and use it for rate negotiations to make positive impacts visible in the communities. Have sustainability reports, international standards compliance, etc. are available to stakeholders. |
Critical water scarcity in the area generates the misperception that the decrease in the water level is due to consumption of water by the operations, and results in discontent on the part of the population. |
High |
Integrated water management project and reclamation in the recharge zone. Environmental Promoters Project. Prepare sustainability reports and communication strategies that demonstrate impact management and successful management. Communication to communities so that the results of the hydrogeologic study are understood, including putting it in the mine magazine. |
The increased presence of criminal groups in the area has an influence on young people and causes security concerns. |
Very High |
Environmental Promoters Project. Entrepreneurship Project. Addiction Prevention Program, Youth Integration Centers (CIJ). Education projects. Community support project. |
Direct and indirect economic impacts due to migration of workers and insufficient work opportunities for all of the population. |
Low |
Entrepreneurship Project. Education projects. |
Dependency of livestock production on mine employment to supplement income could lead to impacts on livestock production and community relations. |
High |
Entrepreneurship Project. Integrated water management project. Environmental Promoters Project. |
Social investment is impacted by weak ejido and trade union organizations that are apathic to collective projects. |
High |
Project of organizational strengthening of the unions and the community. |
9Future incidents with the community of Valerio that will require the
mine to negotiate compensation or agreements.
|
High |
Community support project. Infrastructure projects. Health programs. Entrepreneurship Project. Monitor legal issues, bring the new governor to the mine and present the social management plan and compliance. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Interest / Potential Concern |
Priority |
Summary of Actions and/or Mitigation Measure |
Failure of revegetation and cultivation projects due to weakness of livestock organizations (particularly in El Tule and La Esperanza) that are apathic to collective projects and do not follow project requirements. |
High |
No specific mitigation actions have been implemented. |
Direct and indirect economic impacts due to community members moving out of area when geologic resources are reduced and the direct and indirect employment at the mine is insufficient for all of the population. |
Very High |
Entrepreneurship Project. Education projects. |
In addition to the measures listed above, common action and mitigation
measure across multiple risks cited above was in process during 2023:
| n | Create a communication strategy for periodic information about community relations management and achievements, seeking to integrate
stakeholders in the leadership of these communications. |
| n | Ensure due diligence for human rights and performance standards for social and environmental management. |
MPR carries out continuous monitoring of identified social risks, as
well as stakeholder mapping. The projects in the social and environmental investment portfolio have quantitative indicators of compliance
for project controls. It will be necessary to develop qualitative or mixed indicators for the social impact of each project to monitor
investment success.
The social and environmental investment portfolio is made up of programs
such as nature (environment), health, education, organization (human rights), community activities, infrastructure, economic support of
external programs, and union relations. Projects have included the construction of a lined landfill, a physical therapy center, a medical
center, a wastewater treatment facility, childcare facility, solar energy for a water supply system, water storage facility and distribution
improvement, drinking water treatment plant, and community center.
MPR seeks opportunities to share the financial investment and projects
are carried out in conjunction with government and community entities. For 2023, a budget of US$833,558 was allocated by MPR for social
programs.
MPR has established strategic alliances with stakeholders at the state,
municipal and local levels for the execution of its projects. The infrastructure projects, for example, have been carried out collaboratively,
using investments from government, communities, and MPR. Another area of collaboration is water management. Community committees have
been formed to monitor wells, rivers, and streams in the area of influence, and those results are shared with the authorities.
MPR has established a community relations office in San José
del Sitio, which allows for a permanent point of contact between the communities and the mine. A quarterly newsletter is distributed in
the area of influence and with collaborators to report on MPR social, environmental, and governance projects.
| 17.8.2.1 | Grievance Management |
MPR has developed a mechanism for dealing with questions, complaints,
and grievances for internal and external stakeholders using physical mailboxes and email. Information received is input into a database,
including request type, the issuer, case description, the actions carried out and status.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
In 2023 there were twenty-two complaints or suggestions received, with
the most common related to preferential hiring of local labor and the adult education program. The community relations office has been
responsible for resolving problems related to suppliers, in particular the two trade unions. The office provides a link between the Company’s
Human Resources department and is responsible for registering complaints and reporting on progress of results. Of the twenty-two submissions,
82 percent were resolved, and 18 percent were still open. In 2023 there were no problems with the community that would put the mine operations
at risk. There were no security incidents or accidents that made the zone a security risk.
MPR has an internal grievance mechanism that is managed by a third party,
and submittals can be made anonymously through a website and by telephone. The Human Resources office is in charge of internal issues.
As part of the Company’s commitment to sustainability and social
responsibility, MPR has a Social Responsibility Committee with subcommittees of Business Ethics, Quality of Life of the Company, Connection
with the Community, and Care and Preservation of the Environment. Among the main achievements are the following:
| n | Member of United Nations Global Compact since 2018, committing to disseminate and enforce 10 principles that focus on human rights,
labor standards, the environment, and fighting corruption. The compact also promotes the Sustainable Development Goals in their operations,
as well as in their community projects. |
| n | Socially Responsible Company Distinction, medium-sized company category, awarded by the Mexican Center for Philanthropy (CEMEFI) in
2019. |
| n | Socially Responsible Company Distinction, large company category, awarded by the Mexican Center for Philanthropy (CEMEFI) in 2020
and 2021. |
| n | In 2024 the State Human Rights Commission awarded MPR the distinction of “Corporation Committed to Human Rights” for the
first time. |
There is a worker job safety campaign that applies to all areas of the
mine. All personnel entering the site must wear personal protective equipment required by the work area. The occupational safety area
is responsible for providing inductions to all new personnel, as well as visitors. Two emergency drills are held annually.
The underground mining operations have a rigorous worker safety program
with first aid stations and mine refuge stations. One of the stations has a ventilation shaft with a rescue capsule that can fit four
persons and serves as a second means of emergency egress from the underground mine. Each station has capacity for 50 persons, including
food and oxygen tanks.
The underground mine has hydration points and a cold room for relief
from the high temperatures in the area as preventive measures from dehydration,
In the mine vicinity, there is a permanent presence of organized crime;
however, there have been no incidents within the operation. As part of the security measures, MPR has schedules for the transit of personnel
and services, as well as a surveillance system provided by a third party.
The property is fenced, so access is restricted to employees, suppliers,
licensed neighboring ranch owners and authorized visitors. The access point has rigorous screening protocols for vehicles entering or
leaving the site, a video surveillance system, and continuous surveillance rounds are conducted in all site areas.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
There is a military barrack inside the property which houses members
of the Secretary of National Defense (SEDENA). MPR has an agreement with SEDENA to safeguard explosives products stored for use in the
underground mine. The explosives are stored at surface in a fenced area that is patrolled 24 hours a day. MPR has donated the housing
for SEDENA members and considers the SEDENA presence on the mine site as a strategic security measure.
| 17.8.3 | Agreements with Stakeholders |
MPR has a detailed and organized stakeholder relationships program.
The mapping and analysis of stakeholders is continuously monitored and updated to identify and address possible social risks in a timely
fashion. MPR has identified 67 stakeholders that are classified into eight groups: state and national authorities; local authorities;
communities; institutions; government institutions; NGOs; trade unions, and other companies in the area of direct influence. MPR has carried
out a number of construction projects in alliance with government agencies as part of the Company’s social program.
The Cerro Los Gatos Mine is near the town of San José del Sitio,
municipality of Satevó. Most of the region is ejido lands, which are communally held lands that combine communal ownership with
individual use. Due to the proximity of the mine site with the San José del Sitio ejido, communication and collaboration channels
were established with local authorities and key stakeholders in the region starting with the exploration phase. Agreements established
with the local stakeholders are related to access to land associated with the 155 kV electrical transmission line, exploration areas and
the access road to the mine. No issues associated with the agreements were noted by the QP.
To guarantee legal certainty and compliance with the agreements with
the ejido of San José del Sitio, periodic meetings are held with the Agrarian Prosecutor's Office of the State of Chihuahua, in
which MPR reports the fulfillment or progress of its agreements with the ejido, and the ejido can make any request or externalize any
disagreement. The agreements are recorded in officially validated minutes by the Mexican authority and are shared with the ejido leadership
boards as a means of transparency.
| 17.8.4 | Commitments for Local Procurement and Hiring |
MPR has established various commitments for the hiring of local labor,
as well as in the acquisition of services during the life of the project, through agreements with stakeholders such as the ejidos San
José del Sitio and La Esperanza, as well as with the Durán Mier-San José del Sitio and Satevó trade unions.
MPR has agreed with the parties that priority will be given to hiring
non-specialized labor and services from the San José del Sitio and La Esperanza ejidos. Staff must be of legal working age and
fulfill the job profile requirements. Contracting is subject to the requirements of the project stage. Local procurement employees are
working in the underground mine, laundry, dining room, and offices.
The July 2024 employment statistics reported 951 direct employees. There
are 165 employees who live in local communities; 527 employees live elsewhere within the state of Chihuahua; 248 reside elsewhere in Mexico;
and 11 live outside of Mexico. Of the 165 local direct employees, 100 are male and 65 are female.
There have been participatory agreements since 2015 with the Durán
Mier-San José del Sitio and Satevó unions to provide services such as personnel transport services, non-specialized machinery,
and transport of aggregate materials. These agreements provide a source of employment for approximately 200 people. The community relations
office is the link between the unions and the MPR, and it manages applications, agreements, and payments.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
A mine closure plan was prepared in 2017 as part of the environmental
impact assessment and subsequently updated by Tetra Tech in 2018 as part of the feasibility plan. The last update of the mine closure
cost estimate was at the end of 2023. The updated closure cost estimate shows that permanent closure activities will be completed by 2034
and that post-closure monitoring will be conducted starting in 2031 and ending in 2045 (15 years).
Mexican regulations require that a detailed closure plan be developed
prior to the closure period for submittal to the environmental agency. The most recent closure plan update was submitted to the Mexican
environmental authority in 2019 and the authority requires that an update of the plan be submitted one year prior to closure for review
and approval.
The closure objectives established for the Los Gatos mine include the
following:
| n | Return the land to a stable condition that allows for beneficial reuse |
| n | Comply with applicable environmental rules and regulations |
| n | Ensure geochemical and physical stability of mining wastes that remain after closure |
| n | Reduce potential impacts to surface water and groundwater |
| n | Reduce long-term maintenance requirements |
| 17.9.2 | Mexican Closure and Reclamation Regulatory Framework |
Mine reclamation is addressed in Article 27 of the Mexican Constitution,
which sets two broad standards for reclamation:
| n | The Nation retains ownership of the mineral rights at all times and concession holders only have rights to mined materials. As such,
the Nation may establish the conditions of reclamation; and |
| n | The Nation has an obligation to take mitigation measures to protect natural resources and restore the ecological balance. |
Key regulations that apply to closure conditions are NOM-001-SEMARNAT-1996,
NOM-138-SEMARNAT/SS-2003, NOM-141-SEMARNAT-2003, NOM-147-SEMARNAT/SSA1-2004, NOM-155-SEMARNAT-2007 and NOM-157-SEMARNAT-2009. The focus
of each regulation is listed below.
| n | NOM-001-SEMARNAT-1996 establishes the maximum permissible limits of contaminants in wastewater discharges to surface water. This regulation
is currently under review by SEMARNAT for possible modification. |
| n | NOM-059-SEMARNAT-2001 establishes the criteria for inclusion, exclusion or change of risk category for species or populations of flora
and fauna, through a method of evaluating their extinction risk. |
| n | NOM-138-SEMARNAT/SS-2003 establishes maximum permissible limits for hydrocarbons in soil. Should limits be exceeded, an environmental
and human health risk assessment may be conducted to determine remediation options. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| n | NOM-141-SEMARNAT-2003 establishes the procedures to characterize the tailings materials, as well as the specifications and criteria
for characterization and preparation of the site, design, construction, operation and closure of the tailings facilities. The closed facility
should not generate dust or impact runoff, and physical stability must be ensured. |
| n | NOM-147-SEMARNAT/SSA1-2004 establishes soil remediation levels for concentrations of arsenic, barium, beryllium, cadmium, hexavalent
chromium, mercury, nickel, silver, lead, selenium, thallium and vanadium. The regulation includes specifications for site characterization
(such as the number of samples), a conceptual site model, and an alternative method to determine remediation levels based on a risk assessment. |
| n | NOM-157-SEMARNAT-2009 establishes the requirements for mine waste management plans. Section 5.6 of the regulation describes the criteria
for storage and final deposition of wastes. The criteria include identification of the site environment that could be impacted by operations;
the engineering and maintenance specifications to maintain physical stability; control measures to avoid wind and water erosion; and measures
to prevent acid drainage, leaching and runoff. Post-closure criteria include monitoring of water bodies that could be impacted and reforestation
using stockpiled soil and native species of the area. |
It is expected that the land use post-closure will be natural habitat
for wild flora and fauna, land for livestock grazing and areas of restricted access. The areas of restricted access will be the access
to the underground mine workings and the reclaimed TSF. The waste rock storage facility will also remain after closure. Almost all other
facilities and infrastructure are to be removed.
The plant nursery and the road improvements that would be useful to
the community are expected to remain after closure.
Closure activities described in the closure plan (TetraTech, 2018) include
the following:
| n | Closure, decontamination and demolition of the mine facilities, metallurgical plant, infrastructure, and ancillary facilities |
| n | Disposal of demolition materials |
| n | Construction of storm water conveyances |
| n | Placement of closure covers |
| n | Post-closure monitoring and maintenance |
Conceptual closure activities are presented in the closure plan (Tetra
Tech 2018) and key closure components are described below. The post-closure surface water runoff will be directed to the San Toribio arroyo.
| 17.9.4.1 | Tailings Storage Facility |
The TSF was designed based on the classification of the tailings as
potentially acid-generating, but with the probability of metals leaching being low. The slopes are designed to require no change for closure.
The tailings
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
will be covered with compacted fill of one meter thickness, then revegetated.
A system of surface water conveyances will be installed to promote drainage off the TSF. Channels will be protected with 15 cm of riprap.
| 17.9.4.2 | Waste Rock Storage Facility |
The waste rock storage facility is anticipated to be constructed with
a slope of 2H:1V, and will need to be reconfigured for a more stable overall slope of 3H:1V. The final configuration will include surface
water conveyances and a 0.3 m organic soil cover. The entire surface will be revegetated.
Buildings and installations contaminated with cyanide and other chemicals
will be decontaminated by rinsing. The rinseate will be sent to the TSF for evaporation.
The electrical infrastructure will be removed, and dewatering wells
will be decommissioned and permanently closed.
Pond sediments will be placed in the TSF or an offsite solid waste landfill,
depending on management requirements. Lined ponds will be perforated and filled, then regraded, covered and revegetated.
Equipment, combustibles, and other chemical products stored underground
will be removed prior to closure. Inert demolition debris will be used to fill the ramp for a distance of about 1080 m to 5 m above the
predicted final water level elevation. The ramp will be sealed at the portal using a minimum of 3 m thickness of expanding foam that solidifies
after emplacement. The portal will be reclaimed using organic soil and revegetation.
The ventilation shafts will be closed with reinforced concrete 0.45
m thick and a cap of at least three meters of fill. An organic soil cover of 0.15 m will be placed and revegetated.
It is anticipated that the seed mixes to be used will be composed of
native plants. Native seeds are collected and used in the production of rootstock. The plant nursery currently can produce about 14,000
rootstock in a three-year period. As of April 2024, there were about 10,700 plants composed of 15 species available at the nursery. No
areas have been reclaimed, but concurrent reclamation is an objective during operations.
| 17.9.4.6 | Water Management at Closure |
The mine water and/or a water supply well will be operated to provide
for rinse water to decontaminate equipment for up to one year. Domestic wastewater from the mine camp will be treated and discharged.
Forced evaporation will be used for two years at the TSF to reduce the volume of tailings water.
The subdrain tailings water and infiltration from the TSF will be recirculated
for evaporation and subdrain piping eventually sealed if possible. If water quality discharge standards are met, then the tailings water
can be discharged to the environment.
| 17.9.5 | Post-Closure Monitoring and Maintenance |
Post-closure monitoring and maintenance will be conducted for fifteen
years. Restriction of livestock will be critical, and it is anticipated that the reclaimed area will be fenced. Physical inspections will
be conducted to monitor reclamation success and stability of the closure designs. Success criteria will be developed for erosion, slope
stability, water quality, and vegetation.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The closure cost estimate is approximately MXN$328,300,000 or US$16.4
M (Table 17.7). The closure costs were updated in late 2023 based on rates provided by on-site contractors and inflation rates published
by the Mexican federal government. The closure cost estimate update was based on the same closure methods as the 2017 closure plan, but
the disturbance areas were updated based on new site photos, the quantities of demolition materials such as steel and concrete were updated
based on as-built designs, and the unit rates for demolition and remediation were based on 2023 construction pricing. The unit rates were
updated based on the haulage, demolition and removal rates in 2023 local contracts for construction projects.
Table 17.7: Closure Cost Estimate (December 2023)
WBS |
Closure Item Description |
Cost (MXN) |
100 |
ROM Pad & Waste Dump |
1,502,171 |
110 |
Warehouse (operation, scrap, hazard residues) |
3,245,328 |
120 |
Top Soil Storage & Nursery |
3,246,030 |
130 |
Access Road & Training Area |
6,011,548 |
140 |
Camp (#1 and #2) |
12,841,419 |
150 |
Main Gate & Core Shack Building |
567,320 |
160 |
Refrigeration System Underground (CV1 & CV2), Escape Station & Cooling Tower- Surface Infrastructures |
2,343,820 |
165 |
Underground Equipment (pumps, transformers and piping) |
11,545,000 |
170 |
Fuel Station |
430,994 |
180 |
Surface Infrastructures (parking area, gym, admin office, workshop for equipment and services, mine dry) |
5,592,257 |
190 |
Power Grid (San Francisco de Borja-Mine Site and Internal) |
2,269,433 |
200 |
Sediment Pond (liner and concrete) |
2,178,565 |
210 |
Sewage Water Treatment Plant & Sludge Drying |
244,080 |
220 |
Process Plant |
92,369,890 |
230 |
Paste Plant & CRF Plant |
28,369,982 |
240 |
Explosive Storage & Mine Portal |
1,006,716 |
250 |
Surface Well Pumps |
977,437 |
260 |
Tailings Storage Facility |
46,037,766 |
270 |
Water Pipeline & Water Tanks |
555,567 |
280 |
Exhaust Fan Underground - Surface Installation |
3,939,243 |
290 |
Engineering, QA/QC, Management, Camp & Food |
72,416,643 |
300 |
Monitoring Post-Operation (15 years) |
30,600,000 |
|
Total Estimate Cost Mining Closure (MXN) |
328,291,208 |
|
Total Estimate Cost Mining Closure (USD) |
USD16,414,560 |
Source: MPR, excel file: Estimate Cost Mining Closure - Cerro Los
Gatos Mine_Rev F 2023 (1).xlsx
The closure cost was prepared in Mexican pesos and converted to US dollars.
The Mexican authority does not require a closure cost financial mechanism.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The QP notes that the closure cost includes nine months of water treatment
for TSF pond water after the mill operations cease; however, a closure water balance has not been developed to support the estimated time
or volume of water that requires treatment. The closure costs are based on closure activities that are conceptual.
| 17.10 | Adequacy of Response to Environmental and Social Issues |
The QP observes that there are well established processes and procedures
for recording, acting upon and resolving environmental and social issues as they arise. Like any process, success lies in attention to
issues as they arise, accurate record keeping with assigned responsibilities and commitments to resolution dates wherever possible throughout
the life of any issue until appropriately addressed to the satisfaction of regulators and/or stakeholders. Although some issues were observed
with the sewage treatment plants 2023 monitoring data, MPR has implemented mitigation measures and has indicated that improvements will
be noted in 2024 data.
The social programs include initiatives that are collaborative efforts
between local and state government. Initiatives were developed to have significant improvements in long-term environmental management
in the nearby communities, such as changes in domestic waste management and agricultural practices. The QP observes that the collaborative
efforts were developed for stakeholders to share responsibility for the projects, which will support sustainability of the initiatives.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 18.0 | Capital and Operating Costs |
Operating cost estimates were developed based on recent actual costs
with minor specific adjustments for business improvement initiatives that
are currently being implemented. Operating costs are estimated in 2024 dollars with no inflation or escalation considered. Estimates
were prepared on an annual basis using a detailed build-up of individual cost centers and considering
specific mine site activity levels and cost drivers. The estimates consider current and expected labor headcount and salaries, major consumables
and unit prices, power costs, fixed and mobile equipment costs, and maintenance costs. The total operating
cost estimate includes all site costs related to mining, processing, and general and administrative activities, as well as regional office
costs and excludes joint venture management fees and administration costs as well as Gatos Silver corporate general and administration
cost allocations. Site operating costs exclude concentrate transportation costs, smelter and refining charges, royalties and mining and
income taxes; however, these are included in the economic analysis
presented in Section 19.0.
The LOM Plan operating costs consider estimated costs to fully deplete
the Mineral Reserve. Therefore, operating costs exclude any exploration and drilling costs related to potential future mine life extensions
which are not required to mine and process the Mineral Reserve.
Mining costs were developed separately for the LHS and CAF mining methods,
with the resulting unit cost estimates applied to the tonnages extracted using each mining method as defined in the LOM Plan. Mining costs
cover expected direct costs for the mining process including drilling, blasting, mucking, hauling, backfilling, mine dewatering and ground
support.
Processing costs include expected direct costs for ore processing: crushing
and conveying, grinding, flotation, tailings thickening and deposition, zinc concentrate leaching, and on-site concentrate handling.
General and administrative costs include costs associated with support
of the operation: administrative personnel and functions, administrative facilities, site services, accommodations, security, and other
support costs.
Operating costs at the CLG Mine have been reviewed by the mining QP
and found to be reasonable for a mechanized mine utilizing the longhole and cut-and-fill mining methods. The plant has demonstrated typical
operating costs for a facility of its size. The following tables summarize operating costs, segmented by major cost center: Mine, Processing
Plant (includes TSF operations), and General and Administrative (G&A).
Table 18.1 summarizes the total expected operating costs to mine and
process the defined Mineral Reserve. Numbers in tables may not necessarily add up due to rounding.
Table 18.1: Projected Operating Costs
Cost Center |
LOM Cost, $M |
Unit Cost, $/t milled |
Mining |
435.6 |
42.16 |
Processing |
256.0 |
24.77 |
G&A |
157.1 |
15.20 |
Total Operating Costs |
848.6 |
82.14 |
Operating costs of the underground mine are estimated to be $42.16/tonne
of processed material, itemized in Table 18.2.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 18.2: Mine Operating Cost Projection
Cost Center |
LOM Cost |
Unit Cost |
$M |
$/tonne milled |
Mine Support Area |
131.3 |
12.71 |
Operation Direct Costs |
151.7 |
14.68 |
Operation Indirect Costs |
152.6 |
14.77 |
Total Mining Costs |
435.6 |
42.16 |
Operating costs of the processing plant are estimated to be $24.77/tonne
of processed material, with major cost elements provided on Table 18.3.
Table 18.3: Processing Plant Operating Cost Projection
Cost Center |
LOM Cost |
Unit Cost |
$M |
$/tonne milled |
Plant Support Area |
42.1 |
4.08 |
Operation Direct Costs |
161.8 |
15.66 |
Operation Indirect Costs |
52.0 |
5.04 |
Total Plant Costs |
256.0 |
24.77 |
General and Administrative costs are comprised of general site and regional
office costs, safety and security, accommodations and camp operations, site services, environmental and social expenditures, community
relations, and other site administrative and support costs, as depicted on Table 18.4.
Table 18.4: General and Administrative Cost Projection
Cost Center |
LOM Cost |
Unit Cost |
$M |
$/tonne milled |
Site and Local Administration and Services |
91.2 |
8.83 |
Human Resources and Information Technology |
8.7 |
0.84 |
Supply Chain |
11.3 |
1.10 |
Community and Environment, Health and Safety |
32.7 |
3.17 |
Security and Legal |
13.1 |
1.27 |
Total G&A Costs |
157.1 |
15.20 |
| 18.2.1 | Development Capital |
There are no expansion plans requiring development capital in the LOM
Plan.
CLG will require sustaining capital for continuing underground mine
development, installation of a copper-lead separation circuit, and two additional raises of the TSF dam, as well as other miscellaneous
equipment and infrastructure projects.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 18.5 summarizes the capital expenditures planned for the balance
of the mine life. Sustaining capital is estimated in 2024 dollars with no inflation or escalation considered. The QPs have reviewed the
planned annual expenditures and agree that they are reasonable.
Underground development costs are directly correlated with development
meters and are estimated based on expected unit rates per meter, applied to the number of meters of mine development required each year.
Development capital is expected to be substantially complete by 2029 and totals $96.1 M for 17,583 meters of lateral development over
the LOM. Ventilation development and installations for mining the SE zone are included in the mine infrastructure totals.
Mine infrastructure and equipment includes ongoing equipment rebuilds
and replacements, investment in facilities and assets, and the installation of dewatering wells and pump stations as mine development
advances deeper and the SE zone is developed. Included are extension of the power infrastructure, ventilation installations, and facilities
to provide services across the mining areas.
The Process Plant infrastructure and equipment includes ongoing replacement
of plant assets and two tailings dam raises. The first dam raise begins in the 4th quarter of 2024 and carries through to mid-2025,
while the second is expected to be started in 2027 and completed in 2028. The Process Plant line of Table 18.5 also includes the addition
of a copper-lead separation circuit for $5.0 M with expected production of copper concentrate in 2026.
The Others line in Table 18.5 includes replacements and investments
in the mine’s general equipment assets, human resources, information technology, supply chain, environmental, health and safety,
and security.
Table 18.5: LOM Sustaining Capital, $M
Item |
Units |
2024 H2 |
2025 |
2026 |
2027 |
2028 |
2029 |
2030 |
2031 |
Total |
Mine Development |
|
|
|
|
|
|
|
|
|
|
Lateral Development |
m |
2,427 |
4,157 |
4,359 |
3,573 |
2,274 |
765 |
28 |
0 |
17,583 |
Mine Development |
$M |
11.8 |
21.8 |
22.9 |
21.2 |
13.5 |
4.7 |
0.1 |
0.0 |
96.1 |
Infrastructure & Equipment |
|
|
|
|
|
|
|
|
|
|
Mine |
$M |
14.5 |
14.3 |
11.4 |
9.0 |
7.0 |
3.3 |
1.3 |
0.7 |
61.4 |
Process Plant |
$M |
2.3 |
12.3 |
0.3 |
4.5 |
6.5 |
0.2 |
0.2 |
0.1 |
26.2 |
Others |
$M |
1.8 |
0.8 |
0.6 |
0.6 |
0.5 |
0.5 |
0.1 |
0.0 |
3.2 |
Infrastructure & Equipment |
$M |
17.6 |
27.0 |
12.1 |
13.9 |
13.9 |
3.8 |
1.7 |
0.8 |
90.8 |
Sustaining Capital |
$M |
29.4 |
48.8 |
35.0 |
35.2 |
27.5 |
8.6 |
1.7 |
0.8 |
186.9 |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 18.3 | Level Of Accuracy in the Estimates |
Operating costs are sensitive to several factors, primarily mining method,
backfill type, ventilation, refrigeration, mine dewatering, and labor in addition to fluctuations in the cost of consumables, including
diesel fuel, electrical power, ground support, and explosives, amongst others. Operating costs will also be impacted by fluctuations in
the USD/Mexican peso exchange rate and inflation of input costs including labor, consumables and contracts.
Mining costs have been based on actual costs realized to date, with
consideration for business improvement initiatives underway and established supply contracts.
Processing plant costs consist primarily of electrical power, labor,
grinding media (including crusher and grinding mill wear components), reagents, spares, and maintenance. The operation is in a steady
state and future cost estimates are considered reasonable and expected.
General and Administrative costs are based on historical costs projected
to the end of the mine life, with consideration for site activity levels and headcount over the remaining mine life.
Sustaining capital cost estimates have been developed from experience
with underground mine development over the past number of years. The cost to add a copper-lead separation circuit has been included in
the plant capital based on preliminary engineering estimates. The costs to raise the TSF dam have been established from past practice.
| 18.4 | Risks Associated with the Specific Engineering Estimation Methods Used to Arrive at The Estimates |
Volume and cost estimates are of a high level of confidence. Operating
volumes are well defined and understood, as are mining and processing productivities. Unit cost estimates are based on supply contracts
and operating history.
Actual capital and operating costs at the CLG Mine will nonetheless
depend upon changes in the availability and prices of labor, equipment, consumables and contractors, variances in mining rates and ore
recovery from those assumed in the LOM Plan, operational risks, exchange rates being adverse to those assumed (including the USD/Mexican
Peso exchange rate), changes in governmental regulation, including taxation, environmental permitting and other regulations (including
recent changes to the laws affecting the mining industry described herein) and other factors, many of which are beyond the control of
GSI. Due to any of these or other factors, the capital and operating costs at the CLG Mine may be higher than those set forth herein.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
For the purposes of this report, an economic analysis was performed
by GSI using the GSI financial model and the 2024 LOM Plan information for the CLG mine. The economic analysis supports the declaration
of Mineral Reserves. WSP reviewed in detail the 2024 LOM Plan and the GSI financial model components relevant to the 2024 LOM Plan. For
certainty, the economic analysis herein excludes stated Resources (which are stated exclusive of Reserves).
| 19.1 | Principal Assumptions |
Commodity prices and exchange rate assumptions used in the economic
analysis are summarized in Table 19.1. The commodity price and exchange rate assumptions were based on an approximately equal weighting
of three-year trailing averages and analyst long-term consensus and rounded down or up as appropriate.
Table 19.1: Commodity Prices and Exchange Rate Assumptions
Commodity Prices - 2024 LOM Plan |
Silver Price |
$/oz |
23.00 |
Gold Price |
$/oz |
1,850.00 |
Zinc Price |
$/lb |
1.25 |
Lead Price |
$/lb |
0.95 |
Copper Price |
$/lb |
4.00 |
Exchange Rate |
|
|
MXN per $1 USD |
- |
20.00 |
The 2024 LOM Plan considers periods from July 1, 2024, forward, with
operations continuing for 8.33 years through the end of October 2032 based on fully depleting the Mineral Reserve. Total ore processed
based on the 2024 LOM is 10.33 M tonnes at an average processing rate of 3,401 tonnes per calendar day.
The CLG processing plant produces a lead concentrate and a zinc concentrate.
Plans are underway to install a copper-lead separation circuit to produce a separate copper concentrate from higher copper grade mill
feeds, which is expected to be operational in 2026. Payable metals are evaluated using the recovery parameters described in Section 12.3
as well as estimates of smelter charges which are based on current and expected long-term concentrate market conditions, as described
in Section 16.0.
Operating and capital cost estimates are described in Section 18. Operating
costs are projected to average $82.14 per tonne milled over the LOM, with total planned sustaining capital expenditures of $186.9 M. Closure
costs of $16.4 M are forecasted for the period 2033-2036 and are described in Section 17.
The 2024 LOM Plan used in the financial model is in real 2024 dollars,
with no allowances made for future inflation. The financial model is on an unlevered basis. Corporate administration expenses, management
fees, exploration costs and working capital changes are excluded from the 2024 LOM Plan operating costs used to support the Mineral Reserve.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The differential between the undiscounted pre-tax and post-tax cash
flows is $155.0 M, representing the estimated cash taxes payable (mining taxes and income taxes) from July 1, 2024, onward. The economic
analysis applies current mining and corporate income tax rates of 7.5% and 30%, respectively.
| 19.2 | Demonstration of Economic Viability |
The 2024 LOM Plan and corresponding financial model includes the processing
of 10.33 Mt of ore at an average throughput rate of 3,401 tonnes per calendar day and average feed grades of 172 g/t silver, 3.89%
zinc, 2.07% lead, 0.22 g/t gold, and 0.21% copper over an 8.33-year period. The 2024 LOM Plan supports the Mineral Reserves as it demonstrates
economic viability via projected revenues exceeding projected operating, sustaining capital, and closure costs.
Figure 19.1 presents annual silver production, cash costs and all-in
sustaining costs on a by-product basis, while Figure 19.2 presents annual silver equivalent production,
cash costs and all-in sustaining costs on a co-product basis. Table 19.2 summarizes key LOM production metrics. Annual cash
flow and unit cost details are presented in Table 19.3 through Table 19.7.
Key highlights of the LOM Plan are:
| n | Mine life through to the end of October 2032 at steady-state mill throughput rates of 3,500 tonnes
per day |
| n | Average annual production over the LOM of 6.1 M ounces of silver, 67 M pounds of zinc, and 50 M pounds of lead, or 12.9 M ounces
of silver equivalent production |
| n | Average operating costs (mine, mill, G&A) of $82.14 per tonne milled and total sustaining capital
costs of $186.9 M |
| n | Average by-product cash costs of $0.83 per ounce of payable silver[2] |
| n | Average by-product all-in sustaining costs (“AISC”) of $4.94 per ounce of payable silver1 |
| n | Average annual after-tax free cash flow of $80 M |
| n | After-tax net present value (“NPV”) at a 5% discount rate of $538.8 M |
2 See Non-GAAP Financial Measures following
Table 19.7
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Figure 19.1 shows the annual silver production, cash costs, and all-in
sustaining costs (by-product basis). Figure 19.2 shows the annual silver equivalent production, cash costs, and all-in sustaining
costs (co-product basis).
Source: CLG
Figure 19.1: Annual Silver Production, Cash Costs and All-in
Sustaining Costs (By-Product Basis)
Source: CLG
Figure 19.2: Annual Silver
Equivalent Production, Cash Costs and All-in Sustaining Costs (Co-Product Basis)
Table 19.2 shows key production statistics for the 2024 LOM Plan.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 19.2: LOM Production Summary
LOM Operations Metrics |
Unit |
Value |
Mine life (Operations)1 |
Years |
8.33 |
Property life (to closure) |
Years |
12.33 |
Total mill feed tonnage |
Mt |
10.33 |
Average Mill Feed Grade |
Silver |
g/t |
172 |
Zinc |
% |
3.89% |
Lead |
% |
2.07% |
Copper |
% |
0.21% |
Gold |
g/t |
0.22 |
Mill Recoveries3 |
Zinc Concentrate |
|
|
Zn Recovery in Zn Conc |
% |
63.1% |
Ag Recovery in Zn Conc |
% |
10.2% |
Lead Concentrate |
|
|
Pb Recovery in Pb Conc |
% |
88.5% |
Cu Recovery in Pb Conc |
% |
33.1% |
Ag Recovery in Pb Conc |
% |
76.1% |
Au Recovery in Pb Conc |
% |
53.0% |
Copper Concentrate |
|
|
Cu Recovery in Cu Conc |
% |
38.4% |
Ag Recovery in Cu Conc |
% |
1.9% |
Au Recovery in Cu Conc |
% |
1.2% |
Production (contained in concentrates)3 |
LOM Silver Production |
Moz |
50.5 |
LOM Zinc Production |
Mlbs |
559.9 |
LOM Lead Production |
Mlbs |
417.0 |
LOM Copper Production |
Mlbs |
33.5 |
LOM Gold Production |
koz |
39.6 |
LOM Average Annual Silver Production |
Moz/year |
6.1 |
LOM Average Annual Zinc Production |
Mlbs/year |
67.2 |
LOM Average Annual Lead Production |
Mlbs/year |
50.0 |
LOM Silver Equivalent Production2 |
Moz |
107.2 |
LOM Average Silver Equivalent Production2 |
Moz/year |
12.9 |
Concentrate Production and Sales |
Zinc Concentrate Produced and Sold |
t |
450,860 |
Lead Concentrate Produced and Sold |
t |
343,003 |
Copper Concentrate Produced and Sold |
t |
33,895 |
LOM Payable Silver in Concentrate Sold |
Moz |
45.5 |
LOM Payable Silver Equivalent in Concentrate Sold |
Moz |
93.8 |
Notes:
| 1. | Mine Life includes the last 6 months of 2024 through the end of October 2032 (8.33 years). |
| 2. | Silver equivalent production is calculated using base case price assumptions to “convert” zinc, lead, copper, and gold
production contained in concentrate to “equivalent” silver ounces (contained metal, multiplied by price, divided by silver
price). Copper contained in lead concentrate is included in silver equivalent production when the copper grade in the lead concentrate
is above the payable threshold. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 3. | Metal recoveries and metal production is based on metals recovered into concentrates when grades are expected to be above payable
thresholds. |
Table 19.3 through Table 19.7 tabulate the annual and total
cashflow information.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 19.3: Commodity Prices and Production
|
|
Units |
|
|
LOM |
H2 2024 |
2025 |
2026 |
2027 |
2028 |
2029 |
2030 |
2031 |
2032 |
2033+ |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
COMMODITY PRICES & EXCHANGE RATES |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Ag Price - Spot (Period Average) |
USD/oz |
|
|
23.00 |
23.00 |
23.00 |
23.00 |
23.00 |
23.00 |
23.00 |
23.00 |
23.00 |
23.00 |
23.00 |
|
Au Price - Spot (Period Average) |
USD/oz |
|
|
1,850.00 |
1,850.00 |
1,850.00 |
1,850.00 |
1,850.00 |
1,850.00 |
1,850.00 |
1,850.00 |
1,850.00 |
1,850.00 |
1,850.00 |
|
Zn Price - Spot (Period Average) |
USD/lb |
|
|
1.25 |
1.25 |
1.25 |
1.25 |
1.25 |
1.25 |
1.25 |
1.25 |
1.25 |
1.25 |
1.25 |
|
Pb Price - Spot (Period Average) |
USD/lb |
|
|
0.95 |
0.95 |
0.95 |
0.95 |
0.95 |
0.95 |
0.95 |
0.95 |
0.95 |
0.95 |
0.95 |
|
Cu Price - Spot (Period Average) |
USD/lb |
|
|
4.00 |
4.00 |
4.00 |
4.00 |
4.00 |
4.00 |
4.00 |
4.00 |
4.00 |
4.00 |
4.00 |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
MXN per $1 US |
- |
|
|
20.00 |
20.00 |
20.00 |
20.00 |
20.00 |
20.00 |
20.00 |
20.00 |
20.00 |
20.00 |
20.00 |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
PRODUCTION |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Ore Milled - Weight |
t |
|
|
10,331,904 |
597,174 |
1,256,576 |
1,277,500 |
1,277,500 |
1,281,000 |
1,277,500 |
1,277,500 |
1,155,482 |
931,673 |
0 |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Ag Contained in Zn, Pb, & Cu Concentrate |
oz |
|
|
50,483,577 |
4,393,117 |
7,880,521 |
6,989,162 |
6,040,065 |
5,589,159 |
5,539,549 |
5,535,485 |
4,787,778 |
3,728,743 |
0 |
|
Au Contained in Pb & Cu Concentrate |
oz |
|
|
39,613 |
2,757 |
5,133 |
5,556 |
4,518 |
4,894 |
5,438 |
4,574 |
3,762 |
2,980 |
0 |
|
Zn Contained in Zn Concentrate |
M lbs |
|
|
559.9 |
33.4 |
75.2 |
78.7 |
72.0 |
71.0 |
75.1 |
59.5 |
53.1 |
42.0 |
0.0 |
|
Pb Contained in Pb Concentrate |
M lbs |
|
|
417.0 |
22.2 |
50.6 |
53.3 |
52.6 |
53.0 |
52.8 |
49.0 |
45.7 |
37.8 |
0.0 |
|
Cu Contained in Pb & Cu Concentrate |
M lbs |
|
|
33.5 |
0.7 |
2.0 |
0.9 |
2.8 |
3.4 |
4.5 |
8.4 |
6.7 |
4.2 |
0.0 |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Contained Silver Equivalent |
oz |
|
|
107,159,369 |
7,474,804 |
14,823,963 |
14,062,429 |
12,970,070 |
12,616,154 |
13,024,522 |
12,612,529 |
11,024,173 |
8,550,725 |
0 |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
PAYABLE METALS |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Ag Payable in Zn, Pb, & Cu Concentrate |
oz |
|
|
45,502,223 |
3,990,751 |
7,134,221 |
6,302,492 |
5,436,963 |
5,022,919 |
4,970,410 |
4,981,718 |
4,307,386 |
3,355,364 |
0 |
|
Au Payable in Pb & Cu Concentrate |
oz |
|
|
28,549 |
2,111 |
3,680 |
4,082 |
3,091 |
3,481 |
4,042 |
3,388 |
2,640 |
2,034 |
0 |
|
Zn Payable in Zn Concentrate |
M lbs |
|
|
476.0 |
28.4 |
63.9 |
66.9 |
61.2 |
60.3 |
63.8 |
50.6 |
45.1 |
35.7 |
0.0 |
|
Pb Payable in Pb Concentrate |
M lbs |
|
|
394.3 |
20.9 |
47.6 |
50.3 |
49.7 |
50.1 |
50.0 |
46.5 |
43.4 |
35.8 |
0.0 |
|
Cu Payable in Pb & Cu Concentrate |
M lbs |
|
|
21.9 |
0.2 |
0.6 |
0.8 |
1.6 |
2.1 |
3.0 |
6.0 |
4.7 |
2.9 |
0.0 |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 19.4: Annual Revenue Forecast
|
|
Units |
|
|
LOM |
H2 2024 |
2025 |
2026 |
2027 |
2028 |
2029 |
2030 |
2031 |
2032 |
2033+ |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Gross Revenues (Based on Payable Metals) |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Silver |
$k |
|
|
1,046,551 |
91,787 |
164,087 |
144,957 |
125,050 |
115,527 |
114,319 |
114,580 |
99,070 |
77,173 |
0 |
|
Gold |
$k |
|
|
52,816 |
3,906 |
6,807 |
7,552 |
5,717 |
6,440 |
7,477 |
6,268 |
4,884 |
3,764 |
0 |
|
Zinc |
$k |
|
|
594,940 |
35,513 |
79,922 |
83,576 |
76,490 |
75,388 |
79,784 |
63,215 |
56,401 |
44,651 |
0 |
|
Lead |
$k |
|
|
374,565 |
19,821 |
45,256 |
47,789 |
47,177 |
47,558 |
47,459 |
44,191 |
41,268 |
34,046 |
0 |
|
Copper |
$k |
|
|
87,585 |
754 |
2,424 |
3,260 |
6,382 |
8,472 |
11,961 |
24,035 |
18,773 |
11,523 |
0 |
|
Total Gross Revenues |
$k |
|
|
2,156,457 |
151,781 |
298,497 |
287,134 |
260,817 |
253,386 |
261,000 |
252,290 |
220,396 |
171,157 |
0 |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Treatment & Refining Charges, Penalties |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Third Party Smelting and Refining - Zn CCT |
$k |
|
|
(99,189) |
(5,870) |
(13,099) |
(13,644) |
(12,653) |
(12,515) |
(13,140) |
(10,858) |
(9,708) |
(7,701) |
0 |
|
Third Party Smelting and Refining - Pb CCT |
$k |
|
|
(41,690) |
(3,083) |
(6,079) |
(5,689) |
(5,183) |
(4,969) |
(4,915) |
(4,442) |
(4,033) |
(3,297) |
0 |
|
Third Party Smelting and Refining - Cu CCT |
$k |
|
|
(4,589) |
0 |
0 |
(259) |
(331) |
(449) |
(644) |
(1,309) |
(1,001) |
(597) |
0 |
|
Total TC/RC/PP |
$k |
|
|
(145,468) |
(8,954) |
(19,179) |
(19,592) |
(18,168) |
(17,933) |
(18,699) |
(16,608) |
(14,742) |
(11,594) |
0 |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Net Revenues |
$k |
|
|
2,010,989
|
142,828
|
279,318
|
267,542
|
242,649
|
235,453
|
242,301
|
235,681
|
205,654
|
159,563
|
0 |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 19.5: Annual Operating and Capital Cost Forecast
|
|
Units |
|
|
LOM |
H2 2024 |
2025 |
2026 |
2027 |
2028 |
2029 |
2030 |
2031 |
2032 |
2033+ |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Operating Costs |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Site Costs |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Mining Costs |
$k |
|
|
(435,585) |
(28,742) |
(54,878) |
(53,931) |
(52,951) |
(57,041) |
(56,776) |
(51,850) |
(45,072) |
(34,344) |
0 |
|
Plant Costs |
$k |
|
|
(255,959) |
(16,077) |
(32,005) |
(32,351) |
(32,116) |
(31,838) |
(31,925) |
(30,690) |
(28,313) |
(20,646) |
0 |
|
G&A |
$k |
|
|
(157,088) |
(10,569) |
(20,324) |
(20,324) |
(20,324) |
(20,324) |
(20,324) |
(18,292) |
(16,259) |
(10,347) |
0 |
|
Total Site Costs |
$k |
|
|
(848,632) |
(55,387) |
(107,207) |
(106,605) |
(105,391) |
(109,204) |
(109,025) |
(100,831) |
(89,645) |
(65,337) |
0 |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Other Offsite Costs |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Royalties & Duties |
$k |
|
|
(5,040) |
(907) |
(1,713) |
(764) |
(316) |
(301) |
(298) |
(297) |
(253) |
(190) |
0 |
|
Freight and Handling |
$k |
|
|
(148,659) |
(8,532) |
(19,012) |
(19,829) |
(18,739) |
(18,658) |
(19,399) |
(16,923) |
(15,279) |
(12,288) |
0 |
|
Total Other Offsite Costs |
$k |
|
|
(153,699) |
(9,439) |
(20,725) |
(20,593) |
(19,055) |
(18,960) |
(19,697) |
(17,220) |
(15,532) |
(12,478) |
0 |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Capital Expenditures |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Mine Development |
$k |
|
|
(96,086) |
(11,828) |
(21,835) |
(22,861) |
(21,204) |
(13,537) |
(4,745) |
(76) |
0 |
0 |
0 |
|
Infrastructure & Equipment |
$k |
|
|
(90,834) |
(17,574) |
(27,001) |
(12,117) |
(13,946) |
(13,928) |
(3,834) |
(1,669) |
(765) |
0 |
0 |
|
Total Capital Expenditures |
$k |
|
|
(186,920) |
(29,402) |
(48,836) |
(34,978) |
(35,150) |
(27,465) |
(8,578) |
(1,745) |
(765) |
0 |
0 |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Closure Costs |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
ARO Liability - Total Cash Expenditures |
$k |
|
|
(16,415) |
0 |
0 |
0 |
0 |
0 |
0 |
0 |
0 |
0 |
(16,415) |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Resources and Income Taxes |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Mining Taxes |
$k |
|
|
(23,105) |
0 |
(3,621) |
(2,967) |
(2,351) |
(2,387) |
(3,051) |
(3,472) |
(2,926) |
(2,330) |
0 |
|
Income Taxes |
$k |
|
|
(131,848) |
0 |
(10,314) |
(30,164) |
(15,296) |
(11,155) |
(11,245) |
(16,950) |
(19,364) |
(17,359) |
0 |
|
Total Resources and Income Taxes |
$k |
|
|
(154,953) |
0 |
(13,935) |
(33,132) |
(17,647) |
(13,542) |
(14,296) |
(20,423) |
(22,290) |
(19,688) |
0 |
Table 19.6: Annual Cash Flow Summary
|
|
Units |
|
|
LOM |
H2 2024 |
2025 |
2026 |
2027 |
2028 |
2029 |
2030 |
2031 |
2032 |
2033+ |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Cash Flows & Net Present Value |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Pre-Tax Cash Flow |
$k |
|
|
805,324 |
48,600 |
102,551 |
105,365 |
83,052 |
79,825 |
105,001 |
115,885 |
99,712 |
81,748 |
(16,415) |
|
Cumulative Pre-Tax Cash Flow |
$k |
|
|
|
48,600 |
151,151 |
256,516 |
339,568 |
419,393 |
524,393 |
640,279 |
739,991 |
821,739 |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Post-Tax Cash Flow |
$k |
|
|
650,372 |
48,600 |
88,616 |
72,233 |
65,405 |
66,283 |
90,705 |
95,463 |
77,422 |
62,059 |
(16,415) |
|
Cumulative Post-Tax Cash Flow |
$k |
|
|
|
48,600 |
137,216 |
209,449 |
274,854 |
341,137 |
431,842 |
527,305 |
604,727 |
666,786 |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Pre-Tax NPV (5%) |
$k |
|
|
5.00% |
664,109 |
|
|
|
|
|
|
|
|
|
|
Post Tax NPV (5%) |
$k |
|
|
5.00% |
538,793 |
|
|
|
|
|
|
|
|
|
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 19.7: LOM Unit Cost Details
Cash Cost and All-In Sustaining Costs (AISC) |
|
|
|
Mining Costs |
$k |
435,585 |
|
Plant Costs |
$k |
255,959 |
|
G&A |
$k |
157,088 |
|
Royalties and Duties |
$k |
5,040 |
|
Freight and Handling |
$k |
148,659 |
|
Third Party Smelting and Refining |
$k |
145,468 |
|
Cash Costs |
$k |
1,147,799 |
|
Total Capital Expenditures |
$k |
186,920 |
|
AISC |
$k |
1,334,718 |
By-Product Credits |
|
|
|
Zn Payable in Zn CCT |
$k |
594,940 |
|
Pb Payable in Pb CCT |
$k |
374,495 |
|
Cu Payable in Pb & Cu CCT |
$k |
87,585 |
|
Au Payable in Pb & Cu CCT |
$k |
52,816 |
|
Total By-Product Credits |
$k |
1,109,906 |
Payable Silver |
|
|
|
Payable Silver in Zn CCT |
oz |
3,129,113 |
|
Payable Silver in Pb CCT |
oz |
41,388,824 |
|
Payable Silver in Cu CCT |
oz |
984,287 |
|
Total Payable Silver |
oz |
45,502,223 |
By-Product Cash Costs |
|
|
|
Cash Costs before By-Product Credits |
$/oz Ag Pay. |
25.23 |
|
By-Product Credits |
$/oz Ag Pay. |
24.39 |
|
Cash Costs Net of By-Product Credits |
$/oz Ag Pay. |
0.83 |
By-Product AISC |
|
|
|
AISC before By-Product Credits |
$/oz Ag Pay. |
29.33 |
|
By-Product Credits |
$/oz Ag Pay. |
24.39 |
|
AISC Net of By-Product Credits |
$/oz Ag Pay. |
4.94 |
Payable Silver Equivalent |
|
|
|
Total Value of Payables - Zn CCT |
$k |
666,909 |
|
Total Value of Payables - Pb CCT |
$k |
1,396,232 |
|
Total Value of Payables - Cu CCT |
$k |
93,315 |
|
Total Value of Payables |
$k |
2,156,457 |
|
Ag Price |
$/oz |
23.00 |
|
Payable Silver Equivalent |
oz |
93,759,006 |
Co-Product Cash Costs |
|
|
|
Cash Costs |
$k |
1,147,799 |
|
Payable Silver Equivalent |
oz |
93,759,006 |
|
Co-Product Cash Costs |
$/oz AgEq Pay. |
12.24 |
Co-Product AISC |
|
|
|
AISC |
$k |
1,334,718 |
|
Payable Silver Equivalent |
oz |
93,759,006 |
|
Co-Product AISC |
$/oz AgEq Pay. |
14.24 |
Note: Please refer to Section 19.3 for additional details on cash costs
and AISC, including non-GAAP measures and reconciliations.
The post-tax NPV of the 2024 LOM Plan based on the Mineral Reserve is
$ 538.8 M at a discount rate of 5.0%. Payback and IRR estimates are not relevant for an operating mine as all previous costs are considered
sunk; they are not required to support reserve declaration. Average post-tax annual cash flows through 2032 for the LOM Plan are $80 M.
Figure 19.3 shows the annual and cumulative after-tax free cash flow over the LOM.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 19.3: Annual and Cumulative After-Tax Free Cash Flow
Grade declines in the later years of the mine life are offset by declining
unit costs and sustaining capital costs, resulting in annual after-tax free cash flows ranging
from $65 to $95 M per year throughout the LOM.
| 19.2.1 | Sensitivity Analysis |
Figure 19.4 illustrates the sensitivity of the post-tax NPV at a discount
rate of 5.0% to changes in key inputs to the economic analysis. Positive and negative variations were applied independently to each of
the following parameters: silver price, zinc price, lead price, operating costs, and capital costs. The operation is most sensitive to
variations in the price of silver followed closely by variations in the overall operating cost of CLG Mine.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Source: CLG
Figure 19.4: Sensitivity of Post-tax NPV at a 5% Discount Rate
to Changes in Key Inputs
Table 19.8 shows the sensitivity of CLG mine free cash flow (before
and after-tax) on a discounted (5%) and undiscounted basis and demonstrates the robust cash flow generation of the CLG mine over a range
of silver prices.
Table 19.8: Sensitivity of Undiscounted
LOM Free Cash Flow and NPV at a 5% Discount Rate to Changes in Silver Prices
|
|
$21/oz |
2024 LOM $23/oz |
$25/oz |
$30/oz |
$35/oz |
Total LOM Free Cash Flow (undiscounted) |
$M pre-tax |
714.4 |
805.3 |
896.2 |
1,123.5 |
1,350.8 |
$M post-tax |
584.2 |
650.4 |
722.5 |
911.3 |
1,118.9 |
Net Present Value (5% Discount Rate) |
$M pre-tax |
587.7 |
664.1 |
740.6 |
931.7 |
1,123.0 |
$M post-tax |
482.5 |
538.8 |
600.2 |
760.2 |
935.3 |
| 19.3 | Cash Cost and AISC Reconciliation |
| 19.3.1 | Non-GAAP Financial Measures |
The Company uses certain measures that are not defined by GAAP to evaluate
various aspects of their business. These non-GAAP financial measures are intended to provide additional information only and do not have
any standardized meaning prescribed by GAAP and should not be considered in isolation or as a substitute for measures of performance prepared
in accordance with GAAP. The measures are not necessarily indicative of operating profit or cash flow from operations as determined under
GAAP.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 19.3.2 | Cash Costs and All-In Sustaining Costs |
Cash costs and all-in sustaining costs (“AISC”) are non-GAAP
measures. AISC was calculated based on guidance provided by the World Gold Council (“WGC”). WGC is not a regulatory industry
organization and does not have the authority to develop accounting standards for disclosure requirements. Other mining companies may calculate
AISC differently as a result of differences in underlying accounting principles and policies applied, as well as definitional differences
of sustaining versus expansionary (i.e., non-sustaining) capital expenditures based upon each company’s internal policies. Current
GAAP measures used in the mining industry, such as cost of sales, do not capture all of the expenditures incurred to discover, develop
and sustain production. Therefore, the Company believes that cash costs and AISC are non-GAAP measures that provide additional information
to management, investors and analysts that aid in the understanding of the economics of the Company’s operations and performance
compared to other producers and provides investors visibility by better defining the total costs associated with production.
Cash costs include all direct and indirect operating cash costs related
directly to the physical activities of producing metals, including mining, processing and other plant costs, treatment and refining costs,
general and administrative costs, and royalties. AISC includes total production cash costs incurred at the LGJV’s mining operations
plus sustaining capital expenditures. The Company believes this measure represents the total sustainable costs of producing silver from
current operations and provides additional information of the LGJV’s operational performance and ability to generate cash flows.
As the measure seeks to reflect the full cost of silver production from current operations, new project and expansionary capital at current
operations are not included. Certain cash expenditures such as new project spending, tax payments, dividends, and financing costs are
not included.
| 19.3.3 | Reconciliation of GAAP to Non-GAAP Measures |
Table 19.9 presents a reconciliation between the most comparable GAAP
measure of the LGJV’s expenses to the non-GAAP measures of (i) cash costs, (ii) cash costs, net of by-product credits, (iii) co-product
AISC, and (iv) by-product AISC for the Company’s operations. The Company is unable to provide without unreasonable efforts a reconciliation
of forward-looking AISC and related measures on a per-year basis to cost of sales due to the inherent difficulty in forecasting and quantifying
certain amounts, some of which may be material, that are necessary for such reconciliation.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Table 19.9: Reconciliation of Cash Costs and AISC to Cost of Sales
(as defined under US GAAP)
Cash Costs and All-in Sustaining Costs |
Units |
2024 LOM |
Mining Costs |
$M |
$435.6 |
Milling Costs |
$M |
$256.0 |
Transportation Costs |
$M |
$148.7 |
Cost of Sales |
$M |
$840.2 |
Royalties |
$M |
$5.0 |
General and Administrative |
$M |
$157.1 |
Expenses |
$M |
$1,002.3 |
Treatment and Refining |
$M |
$145.5 |
Cash Costs |
$M |
$1,147.8 |
Sustaining Capital |
$M |
$186.9 |
All-in Sustaining Costs (AISC)(1)(2) |
$M |
$1,334.7 |
By-product Credits(3) |
$M |
($1,109.9) |
Payable Silver |
oz |
45.5 |
Cash Costs before By-Product Credits |
$/oz Ag Payable |
$25.23 |
AISC before By-Product Credits |
$/oz Ag Payable |
$29.33 |
By-product Credits(3) |
$/oz Ag Payable |
($24.39) |
Cash Cost Net of By-product |
$/oz Ag Payable |
$0.83 |
By-product AISC(1) |
$/oz Ag Payable |
$4.94 |
Payable Silver Equivalent(3)(4) |
Moz |
93.8 |
Co-product Cash Cost |
$/oz AgEq Payable |
$12.24 |
Co-product AISC(1) |
$/oz AgEq Payable |
$14.24 |
Management Fee and Admin. Costs |
$M |
$61.2 |
By-Product AISC(5) |
$/oz Ag Payable |
$6.29 |
Co-product AISC(5) |
$/oz AgEq Payable |
$14.89 |
Notes:
| 1. | Excludes LGJV management fee and administration costs of approximately $7 million per year, equivalent to $1.35 / oz Ag payable and
$0.65 / oz AgEq payable, respectively in the 2024 LOM Plan and $1.13 / oz Ag payable and $0.60 / oz AgEq payable, respectively, in the
2023 LOM Plan. |
| 2. | Excludes any exploration costs related to future resource expansion and conversion. |
| 3. | Assumes prices of $23.00/oz silver, $1.25/lb zinc, and $0.95/lb lead, $1,850/oz gold and $4.00/lb copper. |
| 4. | Payable silver equivalent ounces include payable copper aligned to current payable terms for copper in lead concentrate and expected
payable terms for copper concentrates. |
| 5. | Includes LGJV management fee and administration costs of approximately $7 million per year. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
There are no properties adjacent to the land holdings of MPR.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 21.0 | Other Relevant Data and Information |
There is no other relevant data pertaining to the Mineral Reserves of
CLG Mine.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 22.0 | Interpretation and Conclusions |
Throughout the exploration, development, and mining of the deposit there
has been acquired a sound knowledge and understanding of the geological controls on the mineralization, which are adequately expressed
in the Resource Model.
The deposit has logging data from subsurface workings and surface and
underground drilling that has been adequately reviewed and validated which allows it to be used with sufficient confidence in the construction
of a resource model.
Grade estimation is based on data that have been carefully validated
and have undergone a rigorous QA/QC program to assess their adequacy in terms of accuracy, precision and contamination.
The geological model of the deposit has been updated with new information
related to the 2024 drilling campaigns and an implicit 3D model. Based on this geological model an estimation of the main grades and density
of the deposit has been performed using OK interpolators. The results have been validated in detail by visual and statistical review and
against existing production data.
The Mineral Resource categorization uses methodologies and assumptions
that allow for adequate consideration of uncertainty and risk. The Mineral Resources reported in this TRS are reported above a NSR cut-off
value, supported by studies and considering the RPEE by optimizing stopes using assumptions and reliable data.
It is the opinion of the QP that the Mineral Resources presented herein
are appropriate for public disclosure and comply with the definitions of Mineral Resources as established by S-K 1300 and CIM Definition
Standards for Mineral Resources and Mineral Reserves (2014).
The estimate of Mineral Resources may be materially affected if mining,
metallurgical, or infrastructure factors change from those currently assumed at Los Gatos. Estimates of Inferred Mineral Resources have
significant geological uncertainty, and it should not be assumed that all or any part of an Inferred Mineral Resource will be converted
to the Measured or Indicated categories. Except where indicated, Mineral Resources reported in the TRS are stated exclusive of Mineral
Reserves. Mineral Resources that are not Mineral Reserves have not met the threshold for reserve modifying factors, such as estimated
economic viability, that would allow for conversion to Mineral Reserves. The Resource estimate is consistent with S-K 1300 Guidelines
and Definition Standards for Mineral Resources and Mineral Reserves (CIM 2014).
| 22.2 | Mineral Reserves and Mining Methods |
| n | The data used for estimating the CLG Mineral Reserve is considered adequate for this purpose, having undergone the verification processes
detailed in Section 9.0 of this TRS. The QP has identified no limitations on the data used for the Mineral Reserve estimate, nor any failure
to perform adequate data verification procedures. |
| n | The methodology applied by CLG for estimating the 2024 Mineral Reserve aligns with industry-standard practices and is consistent with
the approach used for the 2023 update. It complies with the requirements of both S-K 1300 and NI 43-101, which stipulate strict procedures
for converting Measured and Indicated Resources into Proven and Probable Reserves, using applicable Modifying Factors. |
| n | The long-term metal prices and exchange rates applied in estimating the Mineral Reserve are considered reasonable and appropriate.
These values were determined using the three-year trailing monthly averages |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
from June 2021 to June 2024, combined with long-term consensus
forecasts from reputable industry analysts.
| n | No mining, metallurgical, infrastructure, permitting, or other relevant factors have been identified that could materially affect
the Mineral Reserve estimate. |
| n | CLG has implemented effective measures and provided appropriate equipment and infrastructure to manage ground conditions, groundwater
inflows, and underground temperatures. However, it is anticipated that dewatering and temperature control challenges may increase as mining
operations advance to greater depths. |
| n | The dewatering strategy employed by CLG, which combines conventional contact-water dewatering infrastructure with dewatering wells,
is an effective approach for managing groundwater inflows into the mine. |
| n | CLG’s selected mining methods are well-suited to the specific zones and prevailing mining conditions where they are applied.
During the site visit, the QP inspected active CAF and LHS stopes, confirming the appropriate use of these methods. |
| n | The underground infrastructure, mine services, and fixed equipment are well-suited to the scale and conditions of the underground
operations. During the site visit, the QP observed that these installations are of high quality, fully operational, and functioning as
intended. CLG has constructed or installed most of the infrastructure required to sustain operations throughout the remaining life of
mine. |
| n | The size and composition of the mining fleet, including equipment types, makes, and models, are appropriate for the production rate,
mining methods, and development requirements at CLG. The QP reviewed the underground equipment fleet during the site visit and observed
several machines in active operation. |
| n | The organizational structure of the personnel is well-suited to the scale and characteristics of the underground mining operation. |
The Cerro Los Gatos mine has conducted substantial
metallurgical studies since 2012, including process optimization, mineralogical characterization and variability testing. The operation
currently produces high-quality lead and zinc concentrates with significant silver content. The conventional flotation plant, originally
designed for 2,500 t/d, now consistently processes over 3,400 t/d, including crushing, grinding, and separate lead-copper and zinc flotation
circuits.
Recent improvements include a fluorine leaching plant
commissioned in 2023 to reduce fluorine levels in zinc concentrate to below 500 ppm, meeting buyer specifications. The mine faces challenges
with increasing copper content in some areas, necessitating careful management and further testwork. Plans for 2025 include implementing
a $5 M copper-lead separation circuit to produce separate copper and lead concentrates, in response to the projected increase in copper
grades from about 0.1% Cu in 2024 to 0.35% Cu by end of mine life.
Other projects include increasing plant capacity to
4,000 t/d, and improving flotation of fine particles. The plant is well-equipped with necessary instrumentation, maintenance facilities,
and water management systems, ensuring efficient operation and environmental compliance. Ongoing geometallurgical studies continue to
drive process improvements and risk mitigation, adapting to the evolving mineral characteristics of the deposit.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
The site is equipped with adequate onsite and offsite
infrastructure to support its operations. This includes grid electrical power and access to road networks in addition to camp facilities,
offices, general maintenance facilities, truck maintenance shops, warehouses, a processing plant, a TSF, a backfill plant, two refrigeration
plants, a mine ventilation system, and mine dewatering system.
The mine dewatering system has achieved steady state
status – that is, adequate drainage, wells, pumping, sediment settling, and water tempering installations have been installed to
draw down the water table around active mining horizons. CLG has made plans and budgeted for additional underground wells to enable the
continued removal of groundwaters as the mine is deepened to the SE.
The underground ventilation system requires expansion
as the mine activity gravitates to the SE Zone and to depth. Plans, schedules, and budgets are in place to establish adequate air flow
to the future mine development areas. The paste backfill plant has been in operation since 2022 satisfying the demands for stope backfill
in a manner that meets the mining schedule and plan.
Grid electrical power supply has been reliable and
meeting the site demands. On-site electrical distribution system is built in compliance with local codes and to international quality
standards. The system is configured to meet the site functional needs in terms of flexibility, expandability and protection. On-site electrical
power infrastructure includes adequate emergency generation capacity.
The TSF is a mature structure operating under steady-state
conditions and monitored by permanent stations installed throughout the TSF dam structure. There are two more lifts scheduled for the
dam to complete its construction for acceptance of the LOM tailings volumes. The TSF is managed by an independent Engineer of Record,
Tierra Group International, Ltd., which conforms with Mexican and other industry accepted guidelines such as the International Committee
on Large Dams and the Canadian Dam Association.
| 22.5 | Environmental and Social |
The following observations and conclusions have been developed based
on the site visit and inquiries made by the environmental and permitting QP and review of available information.
| n | No material issues were noted. |
| n | The Company has all material permits for the current operations. The company is waiting on final resolution documents for three permits:
the modification of the environmental permit that added the fluorine leach plant to the metallurgical process; a permit for land occupied
by the tailings facility (permitting fees have been established with the regulator and have been paid); and a permit regarding the use
of treated water from the personnel camp sewage treatment facilities. The QP notes that none of these final resolution permit documents
are a high material risk for the current operations. |
| n | The environmental agency (SEMARNAT) has not issued any violations to Los Gatos Mine; It is noted that practices could be improved
at site to better align with international industry standards. In particular, the groundwater monitoring program does not meet international
industry standards for the monitor well number, placement, design or sampling methods. |
| n | The groundwater system, in particular the occurrence and quality of perched groundwater, is not well understood. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| n | Paste tailings were characterized as hazardous for toxicity and corrosivity and as potentially acid-generating based on Mexican environmental
testing criteria. A composite waste rock sample was characterized as potentially acid-generating. The cemented tailings and cemented waste
rock samples did not exhibit hazardous or potentially acid-generating characteristics after the cement solidified. |
| n | The closure plan presents a five-year post-closure period, which is the timeframe in the authorized environmental impact assessment;
however, the closure cost estimate update in 2023 included an updated post-closure monitoring period of 15 years. |
| n | Mine closure planning has not advanced since the original closure plan was prepared, and closure planning is at a preliminary stage.
Closure costs could increase as closure planning advances. |
The following conclusions are drawn regarding community and social aspects:
| n | Cerro Los Gatos Mine is an operation located in the municipality of Satevó in the state of Chihuahua. The presence of the mine
has contributed to a decrease in migration of community members, and a demographic increase in the communities of the area of influence.
The generation of direct and indirect employment has been the main reason for the return of the inhabitants. |
| n | The presence of a community relations facility in the town of San José del Sitio since the exploration work commenced has allowed
a continued relationship with the stakeholders of the area of influence, generating various collaboration agreements and community co-investment. |
| n | The socioeconomic baseline was updated in 2023. A detailed identification and characterization of stakeholders was prepared and analyzed.
The Company has identified the highest priority social risks and has developed mitigation measures. |
| n | The ejidos and the unions are the interest groups with the greatest relevance to the operation, since there are agreements for the
right of way, as well as transport services and machinery used in the operations. Periodic meetings for the follow-up of agreements between
the parties are held in the Agrarian Prosecutor's Office, giving greater credibility and legality to the fulfillment of agreements between
the parties. |
| n | One of the main mechanisms for disseminating social and environmental actions is the quarterly bulletin of Cerro Los Gatos Mine, which
is distributed in the communities of the area of influence, and among employees. |
| n | LGJV has completed the construction of a lined landfill that is used jointly by the mine and the local community for solid waste disposal.
Major social projects currently include a collaborative effort between local and state governments to test the viability of pomegranate
production. |
| n | Grievances received by the Company are managed effectively and the number of complaints received has decreased over time. In 2023,
there were twenty-two complaints or suggestions received, with the most common related to preferential hiring of local labor and the adult
education program. |
| n | CLG Mine has formalized its commitment to sustainability and social responsibility issues through adherence to the United Nations
Global Compact as a member and, at the national level, it has been awarded with the Socially Responsible Company Distinction granted by
the Mexican Center for Philanthropy (CEMEFI). |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 22.6 | Costs and Economic Analysis |
The cash flow model for the CLG Mine has been updated to include depletion
of mineral reserves to July 2024, the addition of mineral reserves from the successful exploration program and the higher throughput rate
of the processing plant. The LOM Plan has been developed to consume 10.33 Mt of Mineral Reserves over 8.33 years at an average throughput
rate of 1.22 Mt per year to the end of 2032, a 2-year extension compared to the 2023 Report.
From H2 2024 to the end of mine life, CLG Mine will produce concentrates
that contains 50.5 Moz silver, 559.9 Mlbs zinc, 417.0 Mlbs lead, 33.6 Mlbs copper and 39,600 ounces gold. Metal price estimations are
based on a combination of three-year trailing averages and consensus analyst forecasts with consideration for market developments: silver
$23.00/oz, zinc $1.25/lb, lead $0.95/lb, copper $4.00/lb and gold $1,850/oz. An average exchange rate of 20 Mexican Pesos to the US Dollar
has been maintained for the LOM.
The operation is at steady state with predictable costs for operations
and sustaining capital. Mining costs are trending lower with the higher proportion of LHS vs CAF mining method and are expected to average
$42.16/tonne milled. Processing costs have decreased slightly in comparison to the 2023 report, and are now estimated at $24.77/tonne.
General and Administrative costs also demonstrate a downward trend compared to the 2023 report and are now estimated at $15.20/tonne processed.
Total operating costs are estimated at $82.14/tonne, -7.4% versus the 2023 Report.
Capital spending is planned to sustain the operation. Underground mine
development will require $96.1 M of investment and an additional $90.8 M, including $5.0 M for a new copper circuit, will be invested
in equipment and infrastructure. Sustaining capital investments have been scheduled in the cash flow model.
Revenue has been estimated by calculating payable volumes of each metal,
less royalties, transportation costs exclusive of marketing and concentrate logistics, treatment and refining costs. Net Revenue is expressed
in terms of Net Smelting Return, the average LOM value of which is $180.27/tonne processed, generating an operating margin of 54%. LOM
Net Revenue is expected to be $1,862.5 M after the La Cuesta Royalty payment.
The GSI cash flow model indicates an average annual pre-tax cash flow
of $98.6 M for a LOM total of
$805.3 M and a discounted NPV5% of $664.1 M. Post-tax average annual cash flow will be $80 M for a LOM total of $650.4 M
generating a discounted NPV5% of $538.8 M.
The QP has reviewed the price and cost assumptions, contracts and cash
flow model in detail and is satisfied that the estimates of operating revenues and costs are within expectations.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Recommendations of Qualified Persons have been presented to Gatos Silver
and, where deemed beneficial, the costs of implementing the recommendations will be worked into operational budgets.
The following recommendations are made by the Geology QP:
| n | Continue with the surface and underground drilling campaigns to improve the Mineral Resource categorization (infill drilling) and
increase Mineral Resources (step-out drilling). |
| n | Further investigation on the impacts of alternative grade interpolation methods (i.e., surface normal, dynamic anisotropy). |
| n | Consider further interpretive controls on the Leapfrog lithological domain modeling to improve geological reasonableness of the domain
modeling. |
| n | Exploration drilling is recommended for the Esther deposit towards graduation of Mineral Resources to classifications of higher confidence. |
| 23.2 | Mineral Reserves and Mining Methods |
The QP for Mineral Reserves and Mining
Methods recommends the following action:
| n | For future Mineral Reserve estimates, evaluate whether specific mine closure and sustaining capital expenditures for both the mine
and the processing plant should be considered as relevant costs in determining the NSR cut-offs. CLG’s current methodology is consistent
with prior Mineral Reserve estimates and standard practices at many other mines, where cut-off calculations are typically limited to operating
costs. |
| n | In future analyses of unplanned dilution for LHS, verify whether ELOS does in fact increase with vein width and if footwall ELOS is
greater for shallower-dipping veins of the same width, as it is not clear what the underlying reasons are for these relationships. |
| n | Continue to update the alteration and fault models as additional geotechnical data is collected. |
| n | Conduct in-situ stress measurements to investigate the magnitude and orientation of the principal stresses. This data will be important
for assessing the potential induced compressive stresses, particularly, in the lower portion of the SE zone. |
| n | Base stope dimensions on the Stand-up Time Curve and the Span Design Curve for CAF and on the Stability Graph Empirical Method for
LHS. |
| n | Establish the maximum stope span as the Stable limit of 9 m for an RMR of 60, considering that ground support will be used. However,
the ground support requirements may have to be increased should rock of a lower RMR be encountered. |
| n | Utilize Class CS-1 to Class CS-3 ground support, considering a maximum span of 9 m, an ESR of 3.0, and a Q-value ranging from 0.4
to 10. Class CS-1 consists of no ground support or just spot bolting, while Class CS-3 includes systematic bolting with 5 to 6 cm of fiber-reinforced
shotcrete. |
| n | Use welded wire mesh instead of shotcrete for CAF due to the temporary nature of the openings. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| n | Continue employing systematic bolting to support temporary drill drifts, given the uncertainties associated with the behavior of the
ore, rock mass deterioration due to blasting, and the mine-induced stress changes. |
| n | Prefer welded wire mesh over shotcrete to support drill drifts, considering that these headings are relatively temporary. |
| n | Install cable bolts at intersections considering the span dimensions. |
| n | Prioritize the development of internal escapeway raises to enhance mine safety. |
| n | Evaluate whether additional portable refuge chambers would be beneficial on a provisional basis until the internal escapeway system
is fully developed. |
| n | Assess the potential for a second escapeway raise to surface, considering the distance of the SE Zone from Escapeway Raise #1. |
| n | Ensure that the design of the planned internal escapeways complies with Mexican mining regulations, particularly regarding ladderways
and manways. |
The following recommendations are made by the Mineral Processing QP:
| n | Conduct additional geometallurgical studies in the Southeast zone to better characterize the high soluble copper material. |
| n | Develop and implement a comprehensive sampling and testing program to control high soluble copper content in production. |
| n | Optimize the mine plan to manage the blending of high soluble copper material with other ore types. |
| n | Continue research and development efforts on ultrafine particle recovery technologies to improve overall metal recoveries. |
| n | Execute plans for the copper-lead separation circuit. |
| n | Conduct a thorough impact assessment of increasing plant throughput to 4,000 t/d on downstream processes and final product quality. |
| n | Continue to investigate opportunities for debottlenecking the grinding and flotation circuits. |
| n | Conduct a review of tailings management to maximize backfill and minimize TSF construction costs. |
The following recommendations are made by the Infrastructure QP.
| 23.4.1 | Underground Backfill |
Pertaining to the paste fill plant:
| n | Cure paste test samples underground to mimic actual “as placed” conditions as recommended in the Minefill (2019) report. |
| n | Review operational procedures and practice in terms of QA/QC; sampling and testing; data collection, analysis, and trending; and opportunities
to optimize. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| n | Review performance records for paste based on logs over the past operation periods. Review the paste recipe in terms of solids content,
binder content, slump, and water bleeding; pumping distance in terms of pipe length, horizontal and vertical distances; pressure drops
along pipeline and pressure at discharge of PD pump (in comparison to pump pressure capacity); binder content and strength developed over
different curing time periods (3, 7, 14, and 28 days). |
| n | Review plant instrumentation design and control schemes in general. Consistent and optimal paste recipe is achieved via control of
moisture addition to the filter cake. Moisture addition is either in the form of water or preferably in the form of filter feed slurry
bypass (controlled based on cake tonnage and moisture) followed by slump water (controlled based on paste viscosity measured by mixer
power). |
| n | Review paste underground distribution system design and construction; and operation crew training and readiness to predict issues
(like scaling, settlement, plugs, excessive wear) and recovery from them should they occur. |
Pertaining to the electrical power:
| n | Review future potential demands and the possibility to exceed the current feed capacity. Review options for upgrade ahead of time
should the need materialize. |
The QP recommends that a documented dewatering plan be developed by
the operator that:
| n | Describes the conceptual hydrogeologic model |
| n | Summarizes groundwater conditions and dewatering progress to date |
| n | Establishes dewatering pumping rate and drawdown performance targets |
| n | Defines dewatering well and monitoring well or piezometer installation plans for: |
| § | The following year in detail |
| § | Longer term (2-3 years) in overview |
| n | Reviews dewatering system performance and revises the dewatering plan, as needed |
CLG is advancing work on several components of the
dewatering plan to enable improved dewatering and water management in the operations and have included $14.0 M for capital projects relating
to mine dewatering within the LOM Plan, including the installation of additional wells, sumps and pumping infrastructure.
Tierra Group makes the following recommendations:
| n | Develop a closure plan based on current LOM. |
| n | Develop a detailed deposition plan to support closure strategy. |
| n | Continue quarterly bathymetric surveys to validate and update deposition plan and water balance. |
| n | Monitor tailings tonnage sent to paste plant to confirm assumptions used in the design. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| n | Additional vibrating wire piezometers, inclinometers, and survey prisms are recommended for future expansions. |
| n | Maintain a current tailings water and mass balance based bathymetric surveys and operational data to support TSF construction schedules. |
| n | Continue monitoring and inspections activities in accordance with the OMS manual. |
| 23.5 | Environmental and Social |
Based on the observations and conclusions, the Environmental and Social
QP makes the following recommendations:
| n | Although the environmental agency (SEMARNAT) has not issued any violations to Los Gatos Mine, there are opportunities for improvement
to better align with industry practices. |
| n | A written environmental monitoring plan should be developed that includes a description of all media monitoring requirements based
on Company and regulatory agency requirements, sampling procedures, protocol for the management of results and interpretation, action
levels, corrective action plan and documentation procedures. |
| n | Changes in the mine plan since the 2018 feasibility study trigger a need for evaluation of the potential changes in the geochemical
characteristics of the mining wastes. Any new development areas and representative samples from those areas should be considered. The
kinetic testing program should consider longer-term tests to ensure that results have stabilized and provide a high level of confidence
for the prediction of long-term environmental conditions. |
| n | Paste tailings, cemented paste tailings, waste rock and CRF should be characterized using kinetic geochemistry testing to evaluate
the long-term environmental impacts. |
| n | Incorporate surface water sampling at the surface waste rock storage facility and during storm events at ephemeral streams. |
| n | Water quality analysis should include sulfate and the major cations and anions, with an ion balance calculated for each sampling event. |
| n | Waste rock from the surface waste rock storage facility should be characterized and only used where problematic lithologies are properly
managed to prevent long-term environmental impacts. Assuming that the waste rock facility may remain after closure, an understanding of
the physical and chemical stability is necessary. |
| n | The existing conceptual closure plan is recommended to be updated and follow accepted industry standards. |
| n | Closure designs were based on 100-year storm water probability events. It is recommended that climate change be considered, as well
as an analysis of the storm water events to determine whether a 100-year, 24-hour storm water event is practical for long-term stability. |
| n | Additional technical studies to support the closure designs should be carried out, such as erosion, tailings water quality and closure
water balance models. The closure costs should be updated to provide more details as closure planning advances. |
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
General
Canadian Institute of Mining, Metallurgy and Petroleum (CIM), 2014,
CIM Definition Standards for Mineral Resources and Mineral Reserves, adopted by the CIM Council on May 10, 2014.
Canadian Institute of Mining, Metallurgy and Petroleum (CIM), 2019,
CIM Estimation of Mineral Resources & Mineral Reserves Best Practice Guidelines, adopted by CIM Council November 29, 2019.
Canadian Securities Administrators, Form 43-101F1, Technical Report.
Canadian Securities Administrators, Rules and Policies, National Instrument
43-101, Standards of Disclosure for Mineral Projects, Form 43-101F1 and Related Consequential Amendments, June 24, 2011.
Canadian Securities Administrators, Form 43-101F1, Technical Report,
CSA Staff Notice 43-307 – Mining Technical Reports – Preliminary Economic Assessments, August 16, 2012.
Committee for Mineral Reserves International Reporting Standards (CRIRSCO),
International Reporting Template for the Public Reporting of Exploration Results, Mineral Resources and Mineral Reserves, International
Council on Mining & Metals (ICMM), November 2013.
Securities and Exchange Commission (SEC) Subpart 229.1300 of Regulation
S-K, Disclosure by Registrants Engaged in Mining Operations, December 26, 2018.
Geology and Mineral Resources
Aguirre-Díaz, G. J., McDowell, F. W., 1991, The volcanic section
at Nazas, Durango, Mexico, and the possibility of widespread Eocene volcanism within the Sierra Madre Occidental: Journal of Geophysical
Research, 96, 13373-13388.
Atwater, T., Stock, J. M., 1998, Pacific-North America plate tectonics
of the Neogene southwestern United States: an update: International Geology Review, 40, 375-402
Buchanan, L. J., 1981, Precious metal deposits associated with volcanic
environments in the Southwest: Arizona Geological Society Digest, v. 14, 237- 262.
Campa, M. F., Coney, P. J., 1983, Tectono-stratigraphic terranes and
mineral resource distribution in Mexico: Canadian Journal of Earth Sciences 20, 1040–1051.
Ferrari L, Valencia-Moreno M, Bryan SE, 2007. Magmatism and tectonics
of the Sierra Madre Occidental and their relation to the evolution of the western margin of North America, Geological Society of America,
Special Papers, v. 442 (1-39)
McDowell, F. W., Clabaugh, S. E., 1979, Ignimbrites of the Sierra Madre
Occidental and their relation to the tectonic history of western Mexico: Geological Society of America Special Paper, 180, 113- 124.
Pratt, W., Paulsen, H., 2013, Structural Studies at Los Gatos Chihuahua,
México, Minera del Plata Real.
Telluris, 2010. Structural review of the Etna, Gatos and Zaragoza districts,
Chihuahua, Mexico. Unpublished report for Minera Plata Real S de RL de CV.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Mineral Processing and Metallurgy
Tetra Tech Mineral Resources Report, 2012. Phase I and Phase II studies
by RDi (May and July 2012, respectively) focused on metallurgical follow-up studies for Minera Plata Real Los Gatos.
SGS Canada Inc., Burnaby, British Columbia, 2016. Metallurgical
feasibility study for the Los Gatos PJ project, Project 14392-003 – Final report.
SGS Canada Inc., Lakefield, Ontario, 2017. Pilot plant flotation
tests on a mineral sample from Los Gatos, Project 14392-0005 – Final report.
Base Met Labs, Canada, February 2020 - April 2022. Mineralogical
assessment of concentrator performance at Mina Cerro Los Gatos.
Gatos Silver Internal Report, 2023. Fluorine leaching of zinc concentrate.
SGS Canada, 2022. Mineralogical assessment of Mina Cerro Los Gatos
for 38 variability samples.
Gatos Silver Internal Reports, 2023. Update on fluorine leaching
of zinc concentrate, recovery of Au-Ag in tails, and recovery of Pb-Cu.
Gatos Silver Internal Report, 2023. Throughput debottlenecking study.
Mineral Reserves, Geotechnical and Mining
Carter, T.G., 1992. A New Approach to Surface Crown Pillar Design. Proc.
16th Can. Rock Mechanics Symposium, Sudbury, pp. 75-83.
Carter, T.G., Cottrell, B.E., Carvalho, J.L. and Steed, C.M., 2008.
Logistic Regression improvements to the Scaled Span Method for dimensioning Surface Crown Pillars over civil or mining opening. 42nd
US Rock Mechanics Symposium and 2nd US Canada Rock Mechanics Symposium, Sao Francisco, paper ARM 08-282.
Carter, T.G., 2014. Guidelines for use of the Scaled Span Method for
Surface Crown Pillar Stability Assessment. Int. Conference on Applied Empirical Design Methods in Mining held in Peru.
Castro, L. A. M., 2022. Crown pillar stability assessment for the Los
Gatos mine. Internal report submitted to CLG in September 2022.
Piggott, R.J. and P. Eynon, 1978. Ground movement arising from the presence
of shallow abandoned mine workings. In Large ground movements and structures. J.D. Geddes (ed.) 749-80. London. Pentech.
Q451-02-010 Los Gatos Design Criteria
Definition of contact water. Decision Statement – Issued under
Section 54 of the Canadian Environmental Assessment Act, 2012 to Prodigy Gold Incorporated, Magino Gold Project, Impact Assessment Agency
of Canada, May 31, 2019.
Mexican Mining Legislation, NORMA Oficial Mexicana NOM-023-STPS-2012,
Minas subterráneas y minas a cielo abierto, Condiciones de seguridad y salud en el trabajo. Gobierno de México, October
11, 2012.
Infrastructure
Minefill Services Inc. (Minefill), “Los Gatos Cemented Rockfill
Audit Report”. Project No.: SSM-03. November 5, 2019.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Minera Plata Real (MPR), “Resumen CRF Produccion”. Ensaye
8642 A 8664, 17 de abril de 2022 – 22 de mayo de 2022.
Minera Cerro Los Gatos (Gatos), “2022 Resource and Reserve Mine
Engineering Kickoff”. April 2, 2022.
Minefill Services Inc. (Minefill, 2021a), “Cerro Los Gatos Laboratory
Report and Mix Design”. Report No.: 21013-RPT-0003-rA. November 12, 2021.
Tetra Tech, “Los Gatos Project Chihuahua, Mexico”. Project
No.: 117-8302008. July 1, 2020.
Tailings Storage
Canadian Dam Association (CDA), 2014. Technical Bulletin: Application
of Dam Safety Guidelines to Mining Dams. Edmonton, Alberta, Canada.
CONAGUA, 2011. Manual para el control de inundaciones, Febrero 2011.
Federal Emergency Management Agency (FEMA), 2005. Federal Guidelines
for Dam Safety – Earthquake Analysis and Design of Dams. U.S. Department of Homeland Security, May 2005.
International Committee on Large Dams (ICOLD), 1995. Tailings Dams
and Seismicity – Review and Recommendations, Bulletin 98. Paris, France.
International Committee on Large Dams (ICOLD), 1996a. Tailings Dams
and Environment – Review and Recommendations. Bulletin 103. Paris, France.
International Committee on Large Dams (ICOLD), 1996b. A Guide to
Tailings Dams and Impoundments. Bulletin 106. Paris, France.
International Committee on Large Dams (ICOLD), 2005.
International Finance Corporation (IFC), 2007. Environmental, Health,
and Safety Guidelines for Mining. Technical reference document, 10 December 2007.
SEMARNAT, 2003. NOM-141-SEMARNAT-2003.
Tetra Tech, 2017. NI 43-101 Feasibility Study of the Cerro Los Gatos
Silver-Zinc-Lead Deposit Technical Report. Los Gatos Project – Chihuahua, Mexico. Volume 05: Tailings Storage Facility, Appendix
C.
Tierra Group International, Ltd., 2018a. Evaluacion de Sismicidad y
Parametros de Diseno Sísmico, Memorando Tecnico, Enero 2018.
Tierra Group International, Ltd., 2018b. Reporte de Investigación
Geotécnica Depósito de Jales Minas Los Gatos, Preparado para Minera Plata Real, Enero 2018.
Wieland, Martin, 2005. Review of Seismic Design Criteria of Large Concrete
and Embankment Dams.” Presented at the 73rd Annual Meeting of ICOLD, Tehran, Iran, May 1-6, Paper No. 012-W4.
Environmental
Comisión Nacional del Agua, 2020a, Actualización de la
disponibilidad media anual de agua en el acuífero Alto Rio San Pedro (0838) estado de Chihuahua, December, 29 p.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
Comisión Nacional del Agua, 2020b, Actualización de la
disponibilidad media anual de agua en el acuífero San Felipe de Jesus (0845) estado de Chihuahua, December, 13 p.
Minera Plata Real, 2017, NI 43-101 Technical Report Feasibility Study
of the Cerro Los Gatos Silver-Zinc-Lead Deposit, Los Gatos Project – Chihuahua, Mexico, Volume 8: Environmental and Permitting:
Document prepared by Tetra Tech, Document 114-910117-REP-R0008-00, January 6, 1191 p.
Tetra Tech, 2018, Actualizacion del plan de cierre y restauración
ambiental Minera Plata Real, Proyecto Los Gatos – estado de Chihuahua: Report prepared for Minera Plata Real, March 15, 85 p.
Tetra Tech, 2019, NI 43-101 Technical Report, Cerro Los Gatos Deposit
Feasibility Study, December, 366 p.
Social
Aluna Sustainability. (2021). Actualización
de Línea Base Socioeconómica del área de influencia de Gatos Silver Inc. Chihuahua, México.
Aluna Sustainability. (2021). Fundamnetos
de nuestro plan de gestión social a corto, mediano y largo plazo. MINERA PLATA REAL , Chihuahua.
Aluna Sustainability. (2021). Modelo
de Relaciones Comunitarias. Chihuahua.
Aluna Sustainability. (2021). Plan de
Gestión Social . Minera Plata Real, Chihuahua.
Aluna Sustainability. (2022). Proceso
del Sistema de PQRs- Mecanismo de Quejas (Preguntas, Quejas y Reclamos). Chihuahua.
Asesores en Impacto Ambiental y Seguridad,
S.C. (2016). Diagnóstico socioeconómico de la Localidad de San José del Sitio. San José del Sitio, Satevó,
Chihuahua.
ASI S.C. Asesores en Impacto Ambiental
y Seguridad S.C. (2016). MIA-R Minera Plata Real S. de R.L. de C.V. Proyecto de Explotació Minera "Los Gatos". Satevó,
Chihuahua, México.
ASI S.C. Asesores en Impacto Ambiental
y Seguridad, S.C. (2016). Programa de Manejo Ambiental, Minera Plata Real S. de R.L de C.V. Proyecto de Explotación Minera "Los
Gatos", Satevó, Chihuahua.
Instituto Nacional de Estadística
y Geografía (INEGI). (2020). Censo de Población y Vivienda 2020. ITER Chihuahua. México.
Minera Plata Real. (Octubre de 2021).
PUNTO DE ENCUENTRO. Boletín trimestral de Minera Plata Real- Mina Cerro Los Gatos, 1, Año 1, Número 0. (M.
P. Real, Ed.) Mina Cerro Los Gatos, Chihuahua, México.
Minera Plata Real. (2022). Presentación
Ejecutiva Gestión de Relaciones Comunitarias. Cerro Los Gatos Mine, Chihuahua, México.
Minera Plata Real. (Marzo de 2022). Revista
Cerro Los Gatos. Publicación Trimestral de Minera Plata Real, 1. Año 1, Número 1. (M. P. Real, Ed.) Mina Cerro
Los Gatos, Chihuahua, México.
Minera Plata Real, S. de R.L. de C.V.
(2021). Política de Derechos Humanos y Mecanismo de Quejas. Cerro Los Gatos Mine.
Sincronía. (Marzo de 2018). Estudio
de línea base social. Caracterización de comunidades del área de influencia del proyecto "Los Gatos" de
Minera Plata Real. Chihuahua.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
United Nations Global Compact. (2022).
Company information. Obtenido de https://unglobalcompact.org/what-is-gc/participants/133920
Mineral Processing
Tetra Tech Mineral Resources Report
(December 21, 2012) Phase I and Phase II studies by RDi (May and July 2012, respectively) focused on metallurgical follow-up studies for
Minera Plata Real Los Gatos
SGS Canada Inc., Burnaby, British
Columbia (September 1, 2016): Metallurgical feasibility study for the Los Gatos PJ project, Project 14392-003 – Final report
SGS Canada Inc., Lakefield, Ontario
(March 24, 2017): Pilot plant flotation tests on a mineral sample from Los Gatos, Project 14392-0005 – Final report
Base Met Labs, Canada (February 2020
- April 2022): Mineralogical assessment of concentrator performance at Mina Cerro Los Gatos
Gatos Silver Internal Report (February
2023): Fluorine leaching of zinc concentrate
SGS Canada (August 2022): Mineralogical
assessment of Mina Cerro Los Gatos for 38 variability samples
Gatos Silver Internal Reports (August
2023): Update on fluorine leaching of zinc concentrate, recovery of Au-Ag in tails, and recovery of Pb-Cu
Gatos Silver Internal Report (December
2023)
Gatos Silver Internal Report (February
2024)
SGS Canada (May 2024)
Frisco Research and Development (June
2024)
Gatos Silver Internal Report (July
2024): Brownfield 3 Variability Samples (W-30 2024) program focused on the separation of lead (Pb) and copper (Cu) for 18 samples from
the SE zone of the deposit, where high copper contents have been identified. The mineralogical characterization of these samples is currently
underway.
Los Gatos S-K 1300 Technical Report Summary | Gatos Silver, Inc. |
| 25.0 | Reliance on Information Provided by the Registrant |
Regarding the mining concessions, MPR's legal counsel has stated that
all mineral concession claims are in full force and effect, and all the Los Gatos mining concessions are grouped, except for the Paula
Adorada and Ampliación Oeste de San Luis concessions. The author has relied on the statements by MPR that the claims and agreements
referenced in this TRS are in good standing.
v3.24.3
Cover
|
Oct. 22, 2024 |
Cover [Abstract] |
|
Document Type |
8-K
|
Amendment Flag |
false
|
Document Period End Date |
Oct. 22, 2024
|
Entity File Number |
001-39649
|
Entity Registrant Name |
GATOS SILVER, INC.
|
Entity Central Index Key |
0001517006
|
Entity Tax Identification Number |
27-2654848
|
Entity Incorporation, State or Country Code |
DE
|
Entity Address, Address Line One |
925 W Georgia Street
|
Entity Address, Address Line Two |
Suite
910
|
Entity Address, City or Town |
Vancouver
|
Entity Address, State or Province |
BC
|
Entity Address, Country |
CA
|
Entity Address, Postal Zip Code |
V6C 3L2
|
City Area Code |
604
|
Local Phone Number |
424-0984
|
Written Communications |
false
|
Soliciting Material |
false
|
Pre-commencement Tender Offer |
false
|
Pre-commencement Issuer Tender Offer |
false
|
Title of 12(b) Security |
Common Stock, par value $0.001 per share
|
Trading Symbol |
GATO
|
Security Exchange Name |
NYSE
|
Entity Emerging Growth Company |
true
|
Elected Not To Use the Extended Transition Period |
true
|
X |
- DefinitionBoolean flag that is true when the XBRL content amends previously-filed or accepted submission.
+ References
+ Details
Name: |
dei_AmendmentFlag |
Namespace Prefix: |
dei_ |
Data Type: |
xbrli:booleanItemType |
Balance Type: |
na |
Period Type: |
duration |
|
X |
- DefinitionFor the EDGAR submission types of Form 8-K: the date of the report, the date of the earliest event reported; for the EDGAR submission types of Form N-1A: the filing date; for all other submission types: the end of the reporting or transition period. The format of the date is YYYY-MM-DD.
+ References
+ Details
Name: |
dei_DocumentPeriodEndDate |
Namespace Prefix: |
dei_ |
Data Type: |
xbrli:dateItemType |
Balance Type: |
na |
Period Type: |
duration |
|
X |
- DefinitionThe type of document being provided (such as 10-K, 10-Q, 485BPOS, etc). The document type is limited to the same value as the supporting SEC submission type, or the word 'Other'.
+ References
+ Details
Name: |
dei_DocumentType |
Namespace Prefix: |
dei_ |
Data Type: |
dei:submissionTypeItemType |
Balance Type: |
na |
Period Type: |
duration |
|
X |
- DefinitionAddress Line 1 such as Attn, Building Name, Street Name
+ References
+ Details
Name: |
dei_EntityAddressAddressLine1 |
Namespace Prefix: |
dei_ |
Data Type: |
xbrli:normalizedStringItemType |
Balance Type: |
na |
Period Type: |
duration |
|
X |
- DefinitionAddress Line 2 such as Street or Suite number
+ References
+ Details
Name: |
dei_EntityAddressAddressLine2 |
Namespace Prefix: |
dei_ |
Data Type: |
xbrli:normalizedStringItemType |
Balance Type: |
na |
Period Type: |
duration |
|
X |
- Definition
+ References
+ Details
Name: |
dei_EntityAddressCityOrTown |
Namespace Prefix: |
dei_ |
Data Type: |
xbrli:normalizedStringItemType |
Balance Type: |
na |
Period Type: |
duration |
|
X |
- DefinitionISO 3166-1 alpha-2 country code.
+ References
+ Details
Name: |
dei_EntityAddressCountry |
Namespace Prefix: |
dei_ |
Data Type: |
dei:countryCodeItemType |
Balance Type: |
na |
Period Type: |
duration |
|
X |
- DefinitionCode for the postal or zip code
+ References
+ Details
Name: |
dei_EntityAddressPostalZipCode |
Namespace Prefix: |
dei_ |
Data Type: |
xbrli:normalizedStringItemType |
Balance Type: |
na |
Period Type: |
duration |
|
X |
- DefinitionName of the state or province.
+ References
+ Details
Name: |
dei_EntityAddressStateOrProvince |
Namespace Prefix: |
dei_ |
Data Type: |
dei:stateOrProvinceItemType |
Balance Type: |
na |
Period Type: |
duration |
|
X |
- DefinitionA unique 10-digit SEC-issued value to identify entities that have filed disclosures with the SEC. It is commonly abbreviated as CIK.
+ ReferencesReference 1: http://www.xbrl.org/2003/role/presentationRef -Publisher SEC -Name Exchange Act -Number 240 -Section 12 -Subsection b-2
+ Details
Name: |
dei_EntityCentralIndexKey |
Namespace Prefix: |
dei_ |
Data Type: |
dei:centralIndexKeyItemType |
Balance Type: |
na |
Period Type: |
duration |
|
X |
- DefinitionIndicate if registrant meets the emerging growth company criteria.
+ ReferencesReference 1: http://www.xbrl.org/2003/role/presentationRef -Publisher SEC -Name Exchange Act -Number 240 -Section 12 -Subsection b-2
+ Details
Name: |
dei_EntityEmergingGrowthCompany |
Namespace Prefix: |
dei_ |
Data Type: |
xbrli:booleanItemType |
Balance Type: |
na |
Period Type: |
duration |
|
X |
- DefinitionCommission file number. The field allows up to 17 characters. The prefix may contain 1-3 digits, the sequence number may contain 1-8 digits, the optional suffix may contain 1-4 characters, and the fields are separated with a hyphen.
+ References
+ Details
Name: |
dei_EntityFileNumber |
Namespace Prefix: |
dei_ |
Data Type: |
dei:fileNumberItemType |
Balance Type: |
na |
Period Type: |
duration |
|
X |
- DefinitionTwo-character EDGAR code representing the state or country of incorporation.
+ References
+ Details
Name: |
dei_EntityIncorporationStateCountryCode |
Namespace Prefix: |
dei_ |
Data Type: |
dei:edgarStateCountryItemType |
Balance Type: |
na |
Period Type: |
duration |
|
X |
- DefinitionThe exact name of the entity filing the report as specified in its charter, which is required by forms filed with the SEC.
+ ReferencesReference 1: http://www.xbrl.org/2003/role/presentationRef -Publisher SEC -Name Exchange Act -Number 240 -Section 12 -Subsection b-2
+ Details
Name: |
dei_EntityRegistrantName |
Namespace Prefix: |
dei_ |
Data Type: |
xbrli:normalizedStringItemType |
Balance Type: |
na |
Period Type: |
duration |
|
X |
- DefinitionThe Tax Identification Number (TIN), also known as an Employer Identification Number (EIN), is a unique 9-digit value assigned by the IRS.
+ ReferencesReference 1: http://www.xbrl.org/2003/role/presentationRef -Publisher SEC -Name Exchange Act -Number 240 -Section 12 -Subsection b-2
+ Details
Name: |
dei_EntityTaxIdentificationNumber |
Namespace Prefix: |
dei_ |
Data Type: |
dei:employerIdItemType |
Balance Type: |
na |
Period Type: |
duration |
|
X |
- DefinitionLocal phone number for entity.
+ References
+ Details
Name: |
dei_LocalPhoneNumber |
Namespace Prefix: |
dei_ |
Data Type: |
xbrli:normalizedStringItemType |
Balance Type: |
na |
Period Type: |
duration |
|
X |
- DefinitionBoolean flag that is true when the Form 8-K filing is intended to satisfy the filing obligation of the registrant as pre-commencement communications pursuant to Rule 13e-4(c) under the Exchange Act.
+ ReferencesReference 1: http://www.xbrl.org/2003/role/presentationRef -Publisher SEC -Name Exchange Act -Number 240 -Section 13e -Subsection 4c
+ Details
Name: |
dei_PreCommencementIssuerTenderOffer |
Namespace Prefix: |
dei_ |
Data Type: |
xbrli:booleanItemType |
Balance Type: |
na |
Period Type: |
duration |
|
X |
- DefinitionBoolean flag that is true when the Form 8-K filing is intended to satisfy the filing obligation of the registrant as pre-commencement communications pursuant to Rule 14d-2(b) under the Exchange Act.
+ ReferencesReference 1: http://www.xbrl.org/2003/role/presentationRef -Publisher SEC -Name Exchange Act -Number 240 -Section 14d -Subsection 2b
+ Details
Name: |
dei_PreCommencementTenderOffer |
Namespace Prefix: |
dei_ |
Data Type: |
xbrli:booleanItemType |
Balance Type: |
na |
Period Type: |
duration |
|
X |
- DefinitionTitle of a 12(b) registered security.
+ ReferencesReference 1: http://www.xbrl.org/2003/role/presentationRef -Publisher SEC -Name Exchange Act -Number 240 -Section 12 -Subsection b
+ Details
Name: |
dei_Security12bTitle |
Namespace Prefix: |
dei_ |
Data Type: |
dei:securityTitleItemType |
Balance Type: |
na |
Period Type: |
duration |
|
X |
- DefinitionName of the Exchange on which a security is registered.
+ ReferencesReference 1: http://www.xbrl.org/2003/role/presentationRef -Publisher SEC -Name Exchange Act -Number 240 -Section 12 -Subsection d1-1
+ Details
Name: |
dei_SecurityExchangeName |
Namespace Prefix: |
dei_ |
Data Type: |
dei:edgarExchangeCodeItemType |
Balance Type: |
na |
Period Type: |
duration |
|
X |
- DefinitionBoolean flag that is true when the Form 8-K filing is intended to satisfy the filing obligation of the registrant as soliciting material pursuant to Rule 14a-12 under the Exchange Act.
+ ReferencesReference 1: http://www.xbrl.org/2003/role/presentationRef -Publisher SEC -Name Exchange Act -Number 240 -Section 14a -Subsection 12
+ Details
Name: |
dei_SolicitingMaterial |
Namespace Prefix: |
dei_ |
Data Type: |
xbrli:booleanItemType |
Balance Type: |
na |
Period Type: |
duration |
|
X |
- DefinitionTrading symbol of an instrument as listed on an exchange.
+ References
+ Details
Name: |
dei_TradingSymbol |
Namespace Prefix: |
dei_ |
Data Type: |
dei:tradingSymbolItemType |
Balance Type: |
na |
Period Type: |
duration |
|
X |
- DefinitionBoolean flag that is true when the Form 8-K filing is intended to satisfy the filing obligation of the registrant as written communications pursuant to Rule 425 under the Securities Act.
+ ReferencesReference 1: http://www.xbrl.org/2003/role/presentationRef -Publisher SEC -Name Securities Act -Number 230 -Section 425
+ Details
Name: |
dei_WrittenCommunications |
Namespace Prefix: |
dei_ |
Data Type: |
xbrli:booleanItemType |
Balance Type: |
na |
Period Type: |
duration |
|
Gatos Silver (NYSE:GATO)
Graphique Historique de l'Action
De Oct 2024 à Nov 2024
Gatos Silver (NYSE:GATO)
Graphique Historique de l'Action
De Nov 2023 à Nov 2024