DOCSLIB.ORG

Noront Resources Ltd. Eagle's Nest Project Cumulative Effects Assessment

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Noront Resources Ltd. Eagle's Nest Project Cumulative Effects Assessment NORONT RESOURCES LTD. EAGLE’S NEST PROJECT TABLE OF CONTENTS PAGE EXECUTIVE SUMMARY ........................................................................................................................ I TABLE OF CONTENTS ......................................................................................................................... i 1 – INTRODUCTION ............................................................................................................................. 1 1.1 PROJECT OVERVIEW ......................................................................................................... 1 1.2 PROJECT COMPONENTS .................................................................................................. 3 1.2.4 Project Schedule and Phases .................................................................................. 4 2 – APPROACH .................................................................................................................................... 8 2.1 GENERAL ............................................................................................................................. 8 2.2 APPLICABLE GUIDANCE .................................................................................................... 8 2.3 ASSESSMENT METHODOLOGY ........................................................................................ 8 2.3.1 Assessment framework ............................................................................................ 8 2.3.2 Identification of other Actions That May Affect the Same VEC ............................... 9 2.3.3 Interaction with other Projects and Activities ......................................................... 11 3 – SCOPE 13 3.1 IDENTIFIED VECS ............................................................................................................. 13 3.2 SPATIAL BOUNDARIES .................................................................................................... 13 3.3 TEMPORAL BOUNDARIES ............................................................................................... 13 3.4 OTHER PROJECTS AND ACTIVITIES OF CONSIDERATION ......................................... 19 3.6.1 Summary of Cumulative Effects VECS .................................................................. 26 4 – ASSESSMENT OF EFFECTS ...................................................................................................... 32 5 – SUMMARY AND CONCLUSIONS ................................................................................................ 35 6 – REFERENCES .............................................................................................................................. 36 7 – CERTIFICATION ........................................................................................................................... 37 CUMULATIVE EFFECTS ASSESSMENT i of iii NB102-390/1-35 Rev A December 20, 2013 NORONT RESOURCES LTD. EAGLE’S NEST PROJECT TABLES Table 2.1 Example Cumulative Effects Interaction Matrix ............................................................ 12 Table 3.1 Summary of Residual Effects ....................................................................................... 14 Table 3.2 Summary of Other Projects and Activities .................................................................... 21 Table 3.3 Interactions Matrix ........................................................................................................ 25 Table 3.4 Potential Cumulative Effects ........................................................................................ 27 FIGURES Figure 1.1 Location of Project Activities .......................................................................................... 2 Figure 1.2 Mine Site Development Area .......................................................................................... 5 Figure 1.3 Transportation Corridor .................................................................................................. 6 Figure 1.4 Trans-Load Facility ......................................................................................................... 7 Figure 2.1 Cumulative Effects Assessment Framework ................................................................ 10 Figure 3.1 Cumulative Effects Study Area ..................................................................................... 18 CUMULATIVE EFFECTS ASSESSMENT ii of iii NB102-390/1-35 Rev A December 20, 2013 NORONT RESOURCES LTD. EAGLE’S NEST PROJECT ABBREVIATIONS *** Project ............................................................................................... the Eagle’s Nest project CEA ........................................................................................... Cumulative Effects Assessment CEAA ........................................................................ Canadian Environmental Assessment Act CEA Agency ....................................................... Canadian Environmental Assessment Agency EA ..................................................................................................... environmental assessment EIS ............................................................................................ environmental impact statement FMU ..................................................................................................... Forest Management Unit Noront ...................................................................................................... Noront Resources Ltd. VEC .............................................................................................. valued ecosystem component CUMULATIVE EFFECTS ASSESSMENT iii of iii NB102-390/1-35 Rev A December 20, 2013 NORONT RESOURCES LTD. EAGLE’S NEST PROJECT 1 – INTRODUCTION This cumulative effects assessment (CEA) has been developed as a stand-alone document to support the environmental impact statement/environment assessment report (EIS/EA report) for Noront Resources Ltd.’s (Noront’s) Eagle’s Nest Project (the Project). The report has been prepared to fulfill the assessment requirements outlined in the Project’s Draft Terms of Reference (Draft ToR) prepared by Noront (Knight Piésold, 2012). This report also addresses the aquatic assessment requirements outlined in the Environmental Impact Statement Guidelines (EIS Guidelines; CEA Agency, 2012) and the Addendum to the EIS Guidelines (CEA Agency, 2013) prepared for the Project by the Canadian Environmental Assessment Agency (CEA Agency). 1.1 PROJECT OVERVIEW The Eagle’s Nest Project is a proposed nickel, copper and platinum group deposit in the Ring of Fire region of northern Ontario (52˚ 44’ 29” N latitude and 86˚ 17’ 45” W longitude; Figure 1.1). The Project proponent is Noront, a Canadian mining company focused on mineral development in the Ring of Fire. Eagle's Nest deposit is a vertically-oriented ore body containing mineable quantities of nickel (Ni), copper (Cu), platinum (Pt), and palladium (Pd). The deposit contains approximately 11.1 million tonnes (Mt) of proven and probable reserves and nearly 9 Mt of inferred resources. The Project involves the construction, operation and closure of a proposed underground mine, processing facility and associated ore transportation and handling infrastructure. Based on the current Proven and Probable ore reserves, the proposed mine and associated infrastructure will operate for 11 years at an ore production rate of 2,960 tonnes per day (t/d). The processing facilities at the mine will produce a nickel-copper-platinum-palladium concentrate at a rate of 420 t/d. Tailings from the processing will be stored underground as cemented and un-cemented paste backfill. The concentrate will be transported by truck from the mine site to a rail transfer facility (trans-load facility) located near the community of Savant Lake, a distance of approximately 550 km. At the trans-load facility, the ore will be offloaded from the trucks and loaded onto rail cars for shipment to existing smelting/processing facilities located in eastern Canada via the existing Canadian National Railway (CNR). In addition to the 2,960 t/d of ore, the mine will produce 1,349 t/d of aggregate which will be used for mine site road construction and maintenance, as well as other infrastructure. The Project includes the following components (Figure 1.1): • A mine site • A transportation corridor • A trans-load facility CUMULATIVE EFFECTS ASSESSMENT 1 of 37 NB102-390/1-35 Rev A December 20, 2013 PEAWANUK FIRST NATION -400 249,600 499,600 749,600 999,600 > WEENUSK 6,000,000 "N SACHIGO LAKE FIRST NATION FIRST NATION ò BEARSKIN LAKE FIRST NATION KITCHENUHMAYKOOSIB FIRST NATION WAPEKEKA FIRST NATION KASABONIKA MUSKRAT DAM FIRST NATION FIRST NATION WAWAKAPEWIN FIRST NATION KEY-WAY-WIN FIRST NATION KINGFISHER NORTH CARIBOU LAKE ATTAWAPISKAT FIRST NATION VICTOR FIRST NATION WEBEQUIE FIRST NATION FIRST NATION DIAMOND MINE WUNNUMIN LAKE MUSSELWHITE FIRST NATION NIBINAMIK GOLD MINE FIRST NATION ^_ MINE SITE KASHECHEWAN FIRST NATION FORT ALBANY NESKANTAGA (LANSDOWNE HOUSE) FIRST NATION FIRST NATION 5,750,000 CAT LAKE FIRST NATION MARTEN FALLS Pickle Lake EABAMETOONG (FORT HOPE) FIRST NATION FIRST NATION Moosonee MOOSE CREE Red Lake SLATE FALLS MISHKEEGOGAMANG FIRST NATION FIRST NATION FIRST NATION HWY UV599 ONTARIO OJIBWAY NATION ENGLISH RIVER OF SAUGEEN FIRST NATION LAC SEUL FIRST NATION Savant Lake AROLAND FIRST NATION Sioux Lookout^_ Nakina TRANS-LOAD FACILITY GULL RIVER LONG LAKE #58 FIRST NATION CONSTANCE
Load more

Recommended publications
  • Use of Wetlands to Remediate Gold Mine Effluent
    Lakehead University Knowledge Commons,http://knowledgecommons.lakeheadu.ca Electronic Theses and Dissertations Retrospective theses 2000 Use of wetlands to remediate gold mine effluent Hayes, Tara M. E. http://knowledgecommons.lakeheadu.ca/handle/2453/1688 Downloaded from Lakehead University, KnowledgeCommons The Use of Wetlands To Remediate Gold Mine Effluent by Tara M.E. Hayes (S A thesis submitted to Lakehead University for the partial fulfillment of the degree of Master of Scienee in Biology LAKEHEAD UNIVERSITY DEPARTMENT OF BIOLOGY 2000 ProQuest Number: 10611932 All rights reserved INFORMATION TO ALL USERS The quality of this reproduction is dependent upon the quality of the copy submitted. In the unlikely event that the author did not send a complete manuscript and there are missing pages, these will be noted. Also, if material had to be removed, a note will indicate the deletion. Pro ProQuest 10611932 Published by ProQuest LLC (2017). Copyright of the Dissertation is held by the Author. All rights reserved. This work is protected against unauthorized copying under Title 17, United States Code Microform Edition © ProQuest LLC. ProQuest LLC. 789 East Eisenhower Parkway P.O. Box 1346 Ann Arbor, Ml 48106 - 1346 Declaration The research presented in this thesis was carried out by the author and has not been previously submitted for credit towards any degree or diploma. The work of others, where included, has been appropriately cited. Copyright 2000 Tara M.E. Hayes Acknowledgments The research conducted in this thesis was made possible through the financial support of Musselwhite Mine, Placer Dome N.A. Ltd.. I would like to thank the Environmental Department at Musselwhite Mine for all of the organizational assistance provided during the 1997 and 1998 field seasons.
    [Show full text]
  • Thickened Tailings Disposal at Musselwhite Mine
    Paste 2011 — R.J. Jewell and A.B. Fourie (eds) © 2011 Australian Centre for Geomechanics, Perth, ISBN 978-0-9806154-3-2 doi:10.36487/ACG_rep/1104_21_Kam Thickened tailings disposal at Musselwhite Mine S. Kam Golder Associates Ltd., Canada J. Girard Goldcorp Canada, Canada N. Hmidi Goldcorp Canada, Canada Y. Mao Golder Associates Ltd., Canada S. Longo Golder Paste Technology Ltd., Canada Abstract Musselwhite Mine in Northwestern Ontario, Canada began thickened tailings disposal in May 2010. Surface disposal of thickened tailings for the 4,000 tpd gold mine was chosen following a series of studies beginning in 2002 to investigate options to expand the capacity of the tailings management area. This technology was considered most cost effective in maximising storage capacity within the existing site footprint. The elimination of a pond for closure will reduce the risk of dam failure. Further, the non-segregating tailings are expected to be relatively impervious and saturated. These characteristics will help inhibit tailings oxidation and reduce the likelihood of acid generating and metals leaching in the long term. Musselwhite Mine is currently planning to remove the sulphide minerals from the tailings stream using a flotation plant. This paper discusses the design of the thickened tailings disposal system and presents preliminary observations on tailings deposition to date. In preparation for thickened tailings disposal the tailings management area was partitioned by an internal dyke in 2008. This has allowed tailings to be ‘stacked’ using the upstream method of construction in the west cell and the east cell to serve as a water management pond. The cold climate presents a special challenge to operating the thickened tailings system as there is very little precedent experience.
    [Show full text]
  • Musselwhite Mine
    PARTNERSHIP AGREEMENTS The Minerals and Metals Sector of Natural Resources Canada promotes the participation of Indigenous communities in minerals and metals activities across Canada by sharing information on Indigenous industry leading practices. Musselwhite Mine The Project The Musselwhite gold mine in northwestern Ontario is a fly-in, fly-out operation on the southern shore of Opapimiskan Lake, about 480 kilometres (km) north of Thunder Bay in North West Ontario. An all-weather road connects the mine to the community of Pickle Lake, about 200 km to the south. The Musselwhite property is 17,548 hectares, entirely on First Nations land. Since its first commercial production in April 1997, the mine has produced more than 4 million ounces of gold. Signed Agreements Musselwhite was one of the first mines in Ontario to enter into a comprehensive agreement with local First Nations communities, called the Musselwhite Agreement. In September 2001, the Musselwhite mine, the First Nation communities of North Caribou Lake, Cat Lake, Kingfisher Lake and Wunnumin Lake, the Shibogama First Nations Council, and the Windigo First Nations Council renewed the The agreement also establishes an Environmental Musselwhite Agreement originally signed in Working Committee and a Musselwhite Working 1996. The agreement sets targets for First Nations Committee to monitor socio-economic matters. Each employment, opportunities for business development committee includes community representatives, and and environmental protection. Under a separate the chiefs and mine management meet regularly to agreement, local trappers are compensated for the monitor implementation of the agreement and resolve loss of harvesting rights within a designated area disputes. In 2014, through the agreement, signatory around the mine.
    [Show full text]
  • AMENDED CERTIFICATE of APPROVAL Goldcorp Canada Ltd
    CONTENT COPY OF ORIGINAL Ministry of the Environment Ministère de l’Environnement AMENDED CERTIFICATE OF APPROVAL INDUSTRIAL SEWAGE WORKS NUMBER 7853-7RHPUM Issue Date: September 22, 2009 Goldcorp Canada Ltd. Musselwhite Mine Post Office Box, No. 7500 Thunder Bay, Ontario P7B 6S8 Site Location: Musselwhite Mine - Patricia Mining District Unsurveyed Territory (Kenora Area Office) Unorganized Area, District of Kenora You have applied in accordance with Section 53 of the Ontario Water Resources Act for approval of: establishment of sewage works for the collection, transmission, treatment and disposal of mill slurry water, surface runoff, mine dewatering, and sanitary sewage, serving a gold mining and mill complex processing gold ore using the carbon-in- pulp (CIP) gold recovery process, located at Opapimiskan Lake, approximately 130 km north of Pickle Lake, as follows: Proposed Works A. TAILINGS MANAGEMENT AREA (TMA) Tailings Impoundment Area A Discharge Dyke for the thickened tailings up to elevation 312 m along the northwest, west and southwest boundaries of the TMA to facilitate initial thickened tailings deposition. Proposed increase to the storage capacity of the TMA from 17.3 to 32 million tonnes. This is to be achieved by implementing a thickened tailings disposal system together with a de-sulphurized process, which will render the tailings non-acid generating. Deposition Strategy The tailings will be stacked and a vegetative cover provided for closure. The tailings pond will be partially drained. The overall tailings deposition strategy is described in Golder (2009a) and summarized below: Partition TMA with a Separation Dyke to maintain a clear water pond downstream of the dyke for water management purposes Construct starter Discharge Dyke to elevation 312 m on competent ground on west end of TMA and commence thickened tailings deposition from the dyke in 2010.
    [Show full text]
  • Ho1 Wlf Web Wea Wbn Wdv Wch Vbw Upg Tri Thu Ter Tag Sxn
    .! Station ID Station Name Base Responsible NORTHWEST REGION DRY Dryden Dryden GLP Camp 603 Dryden IGN Ignace Dryden MAR Martin Dryden SAN Sandy Point Dryden WEATHER STATION LOCATIONS 2013 STU Sturgeon Lake Dryden SWW Silver Water Wheel Dryden VBW Vermillion Bay West A Dryden ATI Atikokan Fort Frances BEA Beaverhouse Fort Frances BPW BearPaw Tower Fort Frances W01 CAC Cache Bay Fort Frances CAL Caliper Lake Fort Frances FLK French Lake Fort Frances FOR Fort Frances Fort Frances GRY Grey Trout Fort Frances KSH Khashahpiwi Tower Fort Frances LLC Lac La Croix Fort Frances Bearskin Lake MIC Mine Centre Fort Frances .!BKN )" Angling Lake PAT Patullo Fort Frances Sachigo Lake SAC Bearskin Lake Big Trout Lake .! )".! .! BTL PRA Prairie Portage Fort Frances Sachigo Lake )" TAG Fort Frances A Fort Frances WCH Atikokan Fort Frances Big Trout Lake E01 ANA Anaconda Greenstone Shibogama Lake AUD Auden Greenstone .!KAS DOR Dorion Fish Hatchery Greenstone Long Dog Lake )" DVL Devious Lake Greenstone Long Dog FTH Fort Hope A Greenstone MSK .! GRE Greenstone Greenstone Muskrat D)"am JEA Jellicoe Airfield Greenstone .! KAS Kasabonika A Greenstone KLO Klotz Lake Greenstone MAC Macdiarmid Greenstone NAK Nakina Greenstone Finger Lake Kingfisher Lake NIB Summer Beaver A Greenstone Webequie Koocheching .! WEB NON Nonwatin Greenstone Sandy Lake .! Kingfisher Lake Winisk L)"ake .! SDY .!KNG OGI Ogoki Camp Greenstone )" Kee-Way-Win )" Wapikopa Lake Sandy Lake .! Wunnumin Lake OGP Ogoki Post A Greenstone Weagamow Lake .! Wunnumin Lake .! WEA PTL Portage Lake Greenstone
    [Show full text]
  • PRODUCTION and CHARACTERIZATION of POLYSTYRENE RESINS CONTAINING FINE ACTIVATED CARBON PARTICLES by NURI HMIDI Thesis Submitted
    PRODUCTION AND CHARACTERIZATION OF POLYSTYRENE RESINS CONTAINING FINE ACTIVATED CARBON PARTICLES by NURI HMIDI Thesis submitted in partial fulfillment of the requirements for the degree of Doctor of Philosophy (PhD) in Natural Resources Engineering Faculty of Graduate Studies Laurentian University Sudbury, Ontario © Nuri Hmidi, 2017 THESIS DEFENCE COMMITTEE/COMITÉ DE SOUTENANCE DE THÈSE Laurentian Université/Université Laurentienne Faculty of Graduate Studies/Faculté des études supérieures Title of Thesis Titre de la thèse Production and Characterization of Polystyrene Resins Containing Fine Activated Carbon Particles Name of Candidate Nom du candidat Hmidi, Nuri Degree Diplôme Doctor of Philosophy Department/Program Date of Defence Département/Programme Natural Resources Engineering Date de la soutenance November 20, 2017 APPROVED/APPROUVÉ Thesis Examiners/Examinateurs de thèse: Dr. Eduard Guerra (Co-Supervisor/Co-directeur de thèse) Dr. Pedram Fatehi (Co-supervisor/Co-directeur de thèse) Dr. Turgut Yalcin (Committee member/Membre du comité) Dr. Ramesh Subramanian (Committee member/Membre du comité) Approved for the Faculty of Graduate Studies Approuvé pour la Faculté des études supérieures Dr. David Lesbarrères Monsieur David Lesbarrères Dr. James Vaughn Dean, Faculty of Graduate Studies (External Examiner/Examinateur externe) Doyen, Faculté des études supérieures Dr. Louis Mercier (Internal Examiner/Examinateur interne) ACCESSIBILITY CLAUSE AND PERMISSION TO USE I, Nuri Hmidi, hereby grant to Laurentian University and/or its agents the non-exclusive license to archive and make accessible my thesis, dissertation, or project report in whole or in part in all forms of media, now or for the duration of my copyright ownership. I retain all other ownership rights to the copyright of the thesis, dissertation or project report.
    [Show full text]
  • GOLDCORP in CANADA Environment at a Glance Red Lake Gold Mines
    J78B;E<9EDJ;DJI &>cigdYjXi^dc ?IIK;I0 '8dbbjc^inHigj\\aZh (LViZgGZhdjgXZh )6X^YB^cZ9gV^cV\Z )BZgXjgn *8nVc^YZIV^a^c\h +B^c^c\GZ\jaVi^dc^c8VcVYV 97I;IJK:?;I0 -6ajbWgZgVB^cZ!6g\Zci^cV &%BVga^cB^cZ!<jViZbVaV &&HVcBVgi^cB^cZ!=dcYjgVh &'B6E/<daYXdge^ci]Z6bZg^XVh &)Adh;^adhB^cZ!BZm^Xd &*Cj`VnB^cZ!BZm^Xd &+BVg^\daYB^cZ!JH6 &+L]Vg[B^cZ!JH6 &,>beZg^VaEgd_ZXi!JH6 ?DJ>;F?F;B?D;0 &-EZVhfj^id!BZm^Xd &.EjZWadK^Z_d!9db^c^XVcGZejWa^X CEH;?IIK;I0 '%AVWdjg '&L]d7ZcZÒih4BZZii]ZZmZXji^kZh ''>ckZhi^c\^c8dcÓ^Xi 79J?ED0 '(L]ViidYd ');ddicdiZh '+8gZY^ih ?D9JHEKDE:K9J?J;H?D=J>;?DED:KIJHOIF?D The nexus of mining companies, the mainstream media, of close to a billion dollars in Goldcorp alone. Meanwhile, the Canadian government, International Finance Institu- NGOs like World Vision use mining company money to tions and bought off NGOs work hard to keep the reality carry out projects in affected communities, and groups like of large-scale, open pit mines out of picture, keep commu- the Canadian Foundation for the Americas (FOCAL) nity resistance marginalized, and no matter what, to keep work to convince people in resistance that they should dia- talking about “development.” This report is about bringing logue with the mining sector. hard facts and community perspectives together to help Finally, groups like the World Bank, International Mon- North Americans become more informed about the nature etary Fund and the Inter-American Development Bank of the mining industry. fund mining companies, and promote mining as a motor >C9JHIGNHE>C/B::II=:EA6N:GH for development.
    [Show full text]
  • Süreli Yayinlar
    SÜRELİ YAYINLAR CİM BULLETIN Sampling and assaying of coarse gold at La SEPTEMBER Herradura - Minera Penmont S. de R.L. de C.V., Mexico Monitoring whole body vibration effects on S. Cossio, J.-L. Noyola, P. Gonzalez, R. ultra-class haulers Espinosa J. Berezan, T.G. Joseph and V. del Valle Process design considerations for the fluidized The safety imperative—transforming the bed technology applications in the nickel workplace to protect people industry G. Winkel K. Adham and C. Lee • Monitoring whole body vibration effects on Towards AG/SAG/ball mill on-line ultra-class haulers performance monitoring J. Berezan, T.G. Joseph and V. del Valle P. Radziszewski and S. Caron The safety imperative—transforming the Desulphurization of Placer Dome's workplace to protect people Musselwhite mine gold cyanidation tailings G. Winkel T. Yalcin, M. Papadakis, N. Hmidi, B. Hilscher Corporate commitment and sound engineering Borehole seismic survey for mineral practice to ensure safety in the workplace at exploration: Case histories from Norman West Quinsam coal mine and Halfmile Lake by K. Galovich and P. Krivokuca G. Bellefleur, C. Miiller, D. Snyder, G. Perron, E. Adam, K. Stevens, L. Matthews Enhancing the safety of remnant pillar recovery in lignite numerical modelling Mine ventilation fan specification and CO. Aksoy, H. Kose, E. Yalcin, K. Heasley evaluation and C. Mark Evidence for the occurrence of Gondwana Effect of process variables in rotary degassing coals in North America as indicated by of aluminum comparisons of similar deposits in the world S.G. Shabestari, P. Mokarian and S. Saeidinia P.A. Hacquebard and M.P.
    [Show full text]
  • Energy -North of Dryden Plan
    North of Dryden Draft Reference Integrated Regional Plan Response from the Common Voice Northwest Energy Task Force Authored By: CVNW Energy Task Force October 28, 2013 TABLE OF CONTENTS Forward……………………………………………………………………………………………………………...Page 4 Introduction………………………………………………………………………………………………………..Page 6 The Northwest System………………………………………………………………………………………..Page 7 Distribution……………………………………………………………………………………………..Page 8 Transmission…………………………………………………………………………………………...Page 9 Distribution System Structure………………………………………………………………….Page 10 Dryden‐Kenora/Manitoba Border Sub‐System……………………………..Page 10 Fort Frances‐Emo Sub‐System……………………………………………………...Page 10 Ear Falls‐Red Lake Sub‐System……………………………………………………..Page 11 Atikokan Sub‐System…………………………………………………………………...Page 12 Thunder Bay Sub‐System……………………………………………………………..Page 13 Nipigon River Sub‐System…………………………………………………………….Page 14 North Shore Sub‐System………………………………………………………………Page 15 Greenstone Sub‐System……………………………………………………………….Page 16 System Operations…………………………………………………………………………………..Page 17 Role of the Thunder Bay Generating Station…………………………………………...Page 18 Role of Atikokan Generating Station………………………………………………………..Page 20 Page 2 Common Voice Northwest Response to the North of Dryden Plan TABLE OF CONTENTS (Continued) Detailed Analysis of the North of Dryden Plan…………………………………………………….Page 24 Support for Components of the Plan………………………………………………………..Page 24 Northwestern Ontario Needs Ignored for Too Long…………………………………Page 24 Focus of the Plan……………………………………………………………………………………..Page 27 Gaps in the
    [Show full text]
  • The Big Hole: Environmental Assessment and Mining in Ontario
    THE BIG HOLE Environmental Assessment and Mining in Ontario Report prepared by MiningWatch Canada For the Canary Research Institute December 2014 With financial support from Mountain Equipment Co-op and the Salamander Foundation Introduction The history of large-scale industrial mining and refining in Ontario goes back nearly 200 years. Major mining camps have been developed at Sudbury, Timmins and Red Lake, and many small mines exploit more modest local resources. Mining’s historic legacy is one of dispossessing Indigenous peoples of their territories, of economic booms and busts and of substantial environmental degradation, perhaps most significantly, the extensive impacts of smelting in the area surrounding Sudbury. In 2013, Ontario produced $9.8-billion worth of minerals, with gold, copper and nickel making up 29%, 16% and 15% of the total value respectively.1 In 2011, 24,000 people worked in the mining sector, which, along with oil and gas, represented 1.4% of provincial GDP for that year.2 Recently there has been renewed interest in the sector from political leaders seeking a way out of the economic doldrums that have followed the 2008 recession and a decline in the manufacturing sector. Chromite, nickel and copper deposits discovered in the so-called Ring of Fire area of northern Ontario have helped fuel this attention. Industry and the provincial government portray the modern mining industry as a leading-edge actor that responsibly addresses health, safety and environmental challenges inherent in the sector. For example the Ontario Mining Association website states: With a clear focus on the future, Ontario’s dynamic mining industry is continually evolving to meet society’s changing needs and expectations.
    [Show full text]
  • Annual Information Form for the Financial Year Ended December 31, 2016
    ANNUAL INFORMATION FORM FOR THE FINANCIAL YEAR ENDED DECEMBER 31, 2016 March 16, 2017 Suite 3400, 666 Burrard Street Vancouver, British Columbia V6C 2X8 GOLDCORP INC. ANNUAL INFORMATION FORM FOR THE FINANCIAL YEAR ENDED DECEMBER 31, 2016 TABLE OF CONTENTS DESCRIPTION PAGE NO. INTRODUCTORY NOTES ............................................................................................................................ 1 CORPORATE STRUCTURE ........................................................................................................................ 4 GENERAL DEVELOPMENT OF THE BUSINESS ....................................................................................... 5 RECENT DEVELOPMENTS ......................................................................................................................... 9 DESCRIPTION OF THE BUSINESS .......................................................................................................... 10 Principal Products ....................................................................................................................................... 10 Competitive Conditions ............................................................................................................................... 10 Operations ................................................................................................................................................... 10 Sustainability ..............................................................................................................................................
    [Show full text]
  • Lightening the Lode: a Guide to Responsible Large-Scale Mining
    CONSERVATION INTERNATIONAL Lightening the Lode A Guide to Responsible Large-scale Mining Amy Rosenfeld Sweeting Andrea P. Clark CI POLICY PAPERS CONSERVATION INTERNATIONAL ACKNOWLEDGMENTS Many people at Conservation International (CI) contributed This report has also benefited greatly from the com- their time and expertise to making this project happen. We ments and suggestions of reviewers from many fields and would like to thank CI staff members Okyeame Ampadu- organizations. While the views expressed in this paper are Adjei, Brent Bailey, Ian Bowles, Aaron Bruner, Chuck Burg, strictly those of the authors, we are grateful to the follow- Burke Burnett, Samantha Conrad, Regina DeSouza, Lisa ing individuals for their time, comments and advice: Craig Famolare, Chuck Hutchinson, Nedra Johnstone, Stan Andrews, Francis Botchway, Joe Browder, Tom Burke, Malone, Kojo Mbir, Marianne Guerin-McManus, Mari Bruce Clark, Desmond Connor, Jim Cooney, Krista Omland, Paulo Prado, Glenn Prickett, Chris Stone, Cheri Dahlberg, Carlos Da Rosa, Steve D’Esposito, Indu Sugal, Jamie Sweeting, Wendy Tan, Jorgen Thomsen, and Hewawasam, Rick Killam, Robert Moran, Gary Nash, Jim Sterling Zumbrunn for their valuable comments, advice Rader, Chris Sheldon, Ian Thomson, and Mark Thorpe. and assistance. Research interns Dan Holm, Dan Traum Finally, Conservation International would like to and Sara Wheeler-Smith contributed important research to thank The Tinker Foundation for its generous support of this project. The authors would also like to extend a special this initiative. thanks to John Pollack, the Pun King. MISSION STATEMENT With the explosion of our planet’s population and the radi- Conservation International (CI) believes that the cal conversion of natural lands for living space, farming earth’s natural heritage must be maintained if future gen- land, and waste disposal, the ecosystems that have tradi- erations are to thrive spiritually, culturally, and economi- tionally supported human societies are severely stressed.
    [Show full text]