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Environmental Mineralogy and Bio-Geochemistry of Arsenic PDF

669 Pages·2014·159.51 MB·English
by  Alpers
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REVIEWS in MINERALOGY and GEOCHEMISTRY Volume 79 2015 Arsenic Environmental Geochemistry, Mineralogy, and Microbiology EDITORS Robert J. Bowell SRK Consulting, Cardiff, United Kingdom Charles N. Alpers USGS, California, U.S.A. Heather E. Jamieson Queen's University, Ontario, Canada D. Kirk Nordstrom USGS, Colorado, U.S.A. Juraj Majzlan Friedrich-Schiller-Universitat, Jena, Germany Front Cover: Mimetite, 17-23 Floors, 9th Level, Jersey Vein, Bunker Hill Mine, Kellogg, Idaho, U.S.A. Field of view 3 cm. Crystal drawing of mimetite crystal structure. Back Cover: (top left) Erythrite crystals, Bou Azer District, Tazenakht, Ouarzazate Province, Souss-Massa-Draâ Region, Morocco. Field of view 2 cm. (top right) Arthurite, scorodite and pharmacosiderite, 150 level Copper Stope, Majuba Mine, Pershing County, Nevada, U.S.A. Field of view 1.2 cm. (bottom left) Shultenite (white) in matrix of Cuprian adamite (emerald green) and olivenite (dark green) nest of crystals in tennantite matrix, Tsumeb Mine, Tsumeb, Otjikoto region, Namibia. Field of view 2.5 cm (bottom right) Liroconite, Wheal Gorland, St Day, Cornwall, United Kingdom. Field of view 3 cm. Series Editor: Jodi J. Rosso MINERALOGICAL SOCIETY of AMERICA GEOCHEMICAL SOCIETY Reviews in Mineralogy and Geochemistry, Volume 79 Arsenic: Environmental Geochemistry, Mineralogy, and Microbiology ISSN 1529-6466 ISBN 978-0-939950-94-2 Copyright 2015 The MINERALOGICAL SOCIETY of AMERICA 3635 Concorde Parkway, Suite 500 Chantilly, Virginia, 20151-1125, U.S.A. www.degruyter.com The appearance of the code at the bottom of the first page of each chapter in this volume indicates the copyright owner’s consent that copies of the article can be made for personal use or internal use or for the personal use or internal use of specific clients, provided the original publication is cited. The consent is given on the condition, however, that the copier pay the stated per-copy fee through the Copyright Clearance Center, Inc. for copying beyond that permitted by Sections 107 or 108 of the U.S. Copyright Law. This consent does not extend to other types of copying for general distribution, for advertising or promotional purposes, for creating new collective works, or for resale. For permission to reprint entire articles in these cases and the like, consult the Administrator of the Mineralogical Society of America as to the royalty due to the Society. Arsenic Environmental Geochemistry, Mineralogy, and Microbiology 79 Reviews in Mineralogy and Geochemistry 79 FROM THE SERIES EDITOR This volume, edited by Rob Bowell, Charlie Alpers, Heather Jamieson, Kirk Nordstrom, and Juro Majzlan, presents a comprehensive review of the topics covered at the “Environmental Geochemistry, Mineralogy, and Microbiology of Arsenic” short course that followed the 24th Annual V.M. Goldschmidt Conference and held at the Miners Foundry, Nevada City, CA (June 15-16, 2014). This project has been a labor of love for the organizers. Changing short-course venues, changing chapter authorship, and other unexpected obstacles, challenged the organizers and threatened to undermine the completion of this volume. It may have taken several years to bring to fulfillment, but Rob and the other editors overcame the obstacles and successfully compiled the volume that you are now reading. L. Frank Baum, in The Marvelous Land of Oz, wrote “Everything has to come to an end, sometime.” With the completion of this volume, I will be stepping down from my position as the Series Editor of RiMG. It has been a wonderful experience to shep- herd this series and work with the Mineralogical Society of America, the Geochemical Society, and so many editors and authors over the past 14 years. Thank you! All supplemental materials associated with this volume can be found at the MSA website. Errata will be posted there as well. Jodi J. Rosso, Series Editor Richland, Washington August 2014 PREFACE “Put this in any liquid thing you will And drink it off; and, if you had the strength Of twenty men, it would dispatch you straight.” Apothecary. Act V Scene 1 (Romeo and Juliet, by William Shakespeare) Arsenic is perhaps history’s favorite poison, often termed the “King of Poisons” and the “Poison of Kings” and thought to be the demise of fiction’s most famous ill-fated lovers. The toxic nature of arsenic has been known for millennia with the mineral realgar (AsS), originally named “arsenikon” by Theophrastus in 300 B.C.E. meaning literally “potent.” For centuries it has been used as rat poison and as an important component of bactericides and wood preservatives. Arsenic is believed to be the cause of death to Napoleon Bonaparte who 1529-6466/14/0079-0000$00.00 http://dx.doi.org/10.2138/rmg.2014.79.0 Arsenic ‒ Preface was exposed to wallpaper colored green from aceto-arsenite of copper (Aldersey-Williams 2011). The use of arsenic as a poison has been featured widely in literature, film, theatre, and television. Its use as a pesticide made it well known in the nineteenth century and it was exploited by Sir Arthur Conan Doyle in the Sherlock Holmes novel The Golden Pince-Nez (Conan-Doyle 1903). The dark comedy Arsenic and Old Lace is a prime example of arsenic in popular culture, being first a play but becoming famous as a movie. Arsenic has figured prominently not only in fiction but in historical crimes as well (Kumar 2010). A high profile case of the mid-nineteenth century involved a hydrotherapist, Dr. Thomas Smethurst, who was accused of using arsenic to poison a woman he had befriended (Wharton 2010). Based on analytical evidence from a renowned toxicologist, Alfred Swaine Taylor, a death sentence was imposed, however Taylor had to confess that his apparatus was contaminated. The verdict was overturned after public opinion was voiced against it and a plea for clemency was made to Queen Victoria. In recent years, arsenic has been recognized as a widespread, low-level, natural ground- water contaminant in many parts of the world, particularly in places such as West Bengal and Bangladesh, where it has given rise to chronic human-health issues. Long-term exposure to arsenic has been shown to cause skin lesions, blackfoot disease, and cancer of the skin, bladder, and lungs, and is also associated with developmental effects, cardiovascular disease, neurotoxicity, and diabetes (WHO 2012). Arsenate's toxicity is caused by its close chemical similarities to phosphate; it uses a phosphate transport system to enter cells. Arsenic occurs in many geological environments including sedimentary basins, and is particularly associated with geothermal waters and hydrothermal ore deposits. It is often a useful indicator of prox- imity to economic concentrations of metals such as gold, copper, and tin, where it occurs in hydrothermally altered wall rocks surrounding the zones of economic mineralization. Arsenic is commonly a persistent problem in metal mining and there has been significant effort to man- age and treat mine waste to mitigate its environmental impacts. This volume compiles and reviews current information on arsenic from a variety of perspectives, including mineralogy, geochemistry, microbiology, toxicology, and environmental engineering. The first chapter (Bowell et al. 2014) presents an overview of arsenic geochemical cycles and is followed by a chapter on the paragenesis and crystal chemistry of arsenic minerals (chapter 2; Majzlan et al. 2014). The next chapters deal with an assessment of arsenic in natural waters (chapter 3; Campbell and Nordstrom 2014) and a review of thermodynamics of arsenic species (chapter 4; Nordstrom et al. 2014). The next two chapters deal with analytical measurement and assessment starting with measuring arsenic speciation in solids using x-ray absorption spectroscopy (chapter 5; Foster and Kim 2014). Chapter 6 (Leybourne and Johannesson 2014) presents a review on the measurement of arsenic speciation in environmental media: sampling, preservation, and analysis. In chapter 7 (Amend et al. 2014) there is a review of microbial arsenic metabolism and reaction energetics. This is followed by an overview of arsenic toxicity and human health issues (chapter 8; Mitchell 2014) and an assessment of methods used to characterize arsenic bioavailability and bioaccessibility (chapter 9; Basta and Jurasz 2014). This leads into chapter 10 (Craw and Bowell 2014), which describes the characterization of arsenic in mine waste with some examples from New Zealand, followed by a chapter on the management and treatment of arsenic in mining environments (chapter 11; Bowell and Craw 2014). The final three chapters are in-depth case studies of the geochemistry and mineralogy of legacy arsenic contamination in different historical mining environments: the Giant gold mine in Canada (chapter 12; Jamieson 2014), the Sierra Nevada Foothills gold belt of California (chapter 13; Alpers et al. 2014), and finally, the hydrogeochemistry of arsenic in the Tsumeb polymetallic mine in Namibia (chapter 14; Bowell 2014). iv Arsenic ‒ Preface Arsenic ‒ Preface was exposed to wallpaper colored green from aceto-arsenite of copper (Aldersey-Williams We thank all the authors for their comprehensive and timely efforts and for their cooperation 2011). The use of arsenic as a poison has been featured widely in literature, film, theatre, with our requests for scheduling, consistency of format, and nomenclature. Special thanks are and television. Its use as a pesticide made it well known in the nineteenth century and it was due to the numerous colleagues who provided peer reviews that substantially improved all exploited by Sir Arthur Conan Doyle in the Sherlock Holmes novel The Golden Pince-Nez chapters. This volume would not have been possible without the wisdom and patience of the (Conan-Doyle 1903). The dark comedy Arsenic and Old Lace is a prime example of arsenic in series editor, Dr. Jodi Rosso. Finally we thank our families for their support and understanding popular culture, being first a play but becoming famous as a movie. during the last several months. Arsenic has figured prominently not only in fiction but in historical crimes as well R.J. Bowell, SRK Consulting, Churchill House, Cardiff, U.K. (Kumar 2010). A high profile case of the mid-nineteenth century involved a hydrotherapist, Dr. C.N. Alpers, U.S. Geological Survey, Sacramento, California, U.S.A. Thomas Smethurst, who was accused of using arsenic to poison a woman he had befriended H.E. Jamieson, Queen’s University, Kingston, Ontario, Canada (Wharton 2010). Based on analytical evidence from a renowned toxicologist, Alfred Swaine D.K. Nordstrom, U.S. Geological Survey, Boulder, Colorado, U.S.A. Taylor, a death sentence was imposed, however Taylor had to confess that his apparatus was J. Majzlan, Friedrich-Schiller-Universität, Jena, Germany contaminated. The verdict was overturned after public opinion was voiced against it and a plea for clemency was made to Queen Victoria. REFERENCES In recent years, arsenic has been recognized as a widespread, low-level, natural ground- Aldersey-Williams H (2011) Periodic Tales: The curious lives of the elements. Penguin Books, London 428 p water contaminant in many parts of the world, particularly in places such as West Bengal Alpers CN, Myers PA, Millsap D, Regnier TB (2014) Arsenic associated with historical gold mining in the and Bangladesh, where it has given rise to chronic human-health issues. Long-term exposure Sierra Nevada foothills: case study and field trip guide for Empire Mine State Historic Park, California. to arsenic has been shown to cause skin lesions, blackfoot disease, and cancer of the skin, Rev Mineral Geochem 79:553-587 bladder, and lungs, and is also associated with developmental effects, cardiovascular disease, Amend JP, Saltikov C, Lu G-S, Hernandez J (2014) Microbial arsenic metabolism and reaction energetics. Rev neurotoxicity, and diabetes (WHO 2012). Arsenate's toxicity is caused by its close chemical Mineral Geochem 79:391-433 Basta NT, Juhasz A (2014) Using in vivo bioavailability and/or in vitro gastrointestinal bioaccessibility testing similarities to phosphate; it uses a phosphate transport system to enter cells. Arsenic occurs to adjust human exposure to arsenic from soil ingestion. Rev Mineral Geochem 79:451-472 in many geological environments including sedimentary basins, and is particularly associated Bowell RJ (2014) Hydrogeochemistry of the Tsumeb deposit: implications for arsenate mineral stability. Rev with geothermal waters and hydrothermal ore deposits. It is often a useful indicator of prox- Mineral Geochem 79:589-627 imity to economic concentrations of metals such as gold, copper, and tin, where it occurs in Bowell RJ, Alpers CN, Jamieson HE, Nordstrom DK, Majzlan J (2014) The environmental geochemistry of hydrothermally altered wall rocks surrounding the zones of economic mineralization. Arsenic arsenic: an overview. Rev Mineral Geochem 79:1-16 Bowell RJ, Craw D (2014) The management of arsenic in the mining industry. Rev Mineral Geochem 79:507- is commonly a persistent problem in metal mining and there has been significant effort to man- 532 age and treat mine waste to mitigate its environmental impacts. Campbell KM, Nordstrom DK (2014) Arsenic speciation and sorption in natural environments. Rev Mineral This volume compiles and reviews current information on arsenic from a variety Geochem 79:185-216 Conan-Doyle A (1903) The adventure of the golden pince-nez. In: The Return of Sherlock Holmes, Strand of perspectives, including mineralogy, geochemistry, microbiology, toxicology, and Magazine, London. October 1903-December 1904:597-615. environmental engineering. The first chapter (Bowell et al. 2014) presents an overview of Craw D, Bowell RJ (2014) The characterization of arsenic in mine waste. Rev Mineral Geochem 79:473-506 arsenic geochemical cycles and is followed by a chapter on the paragenesis and crystal Foster AL, Kim CS (2014) Arsenic speciation in solids using X-ray absorption spectroscopy. Rev Mineral chemistry of arsenic minerals (chapter 2; Majzlan et al. 2014). The next chapters deal with Geochem 79:257-369 an assessment of arsenic in natural waters (chapter 3; Campbell and Nordstrom 2014) and a Jamieson HE (2014) The legacy of arsenic contamination from mining and processing refractory gold ore at Giant Mine, Yellowknife, Northwest Territories, Canada. Rev Mineral Geochem 79:533-551 review of thermodynamics of arsenic species (chapter 4; Nordstrom et al. 2014). The next two Kumar NSA (2010) The science of Sherlock Holmes. Science Reporter, March 2010, 8-14 http://nopr.niscair. chapters deal with analytical measurement and assessment starting with measuring arsenic res.in/bitstream/123456789/7512/1/SR%2047(3)%208-14.pdf speciation in solids using x-ray absorption spectroscopy (chapter 5; Foster and Kim 2014). Leybourne MI, Johannesson KH, Asfaw A (2014) Measuring arsenic speciation in environmental media: Chapter 6 (Leybourne and Johannesson 2014) presents a review on the measurement of sampling, preservation, and analysis. Rev Mineral Geochem 79:371-390 arsenic speciation in environmental media: sampling, preservation, and analysis. In chapter 7 Majzlan J, Drahota P, Filippi M (2014) Parageneses and crystal chemistry of arsenic minerals. Rev Mineral Geochem 79:17-184 (Amend et al. 2014) there is a review of microbial arsenic metabolism and reaction energetics. Mitchell VL (2014) Health risks associated with chronic exposures to arsenic in the environment. Rev Mineral This is followed by an overview of arsenic toxicity and human health issues (chapter 8; Geochem 79:435-449 Mitchell 2014) and an assessment of methods used to characterize arsenic bioavailability Nordstrom DK, Majzlan J, Königsberger E (2014) Thermodynamic properties for arsenic minerals and aqueous and bioaccessibility (chapter 9; Basta and Jurasz 2014). This leads into chapter 10 (Craw species. Rev Mineral Geochem 79:217-255 and Bowell 2014), which describes the characterization of arsenic in mine waste with some Wharton JC (2010) The Arsenic Century: How Victorian Britain Was Poisoned at Home, Work, & Play, Oxford University Press, 412 p examples from New Zealand, followed by a chapter on the management and treatment of WHO (2012) Arsenic. World Health Organization, Fact Sheet 372. http://www.who.int/mediacentre/factsheets/ arsenic in mining environments (chapter 11; Bowell and Craw 2014). The final three chapters fs372/en/ are in-depth case studies of the geochemistry and mineralogy of legacy arsenic contamination in different historical mining environments: the Giant gold mine in Canada (chapter 12; Jamieson 2014), the Sierra Nevada Foothills gold belt of California (chapter 13; Alpers et al. 2014), and finally, the hydrogeochemistry of arsenic in the Tsumeb polymetallic mine in Namibia (chapter 14; Bowell 2014). iv v Arsenic Environmental Geochemistry, Mineralogy, and Microbiology 79 Reviews in Mineralogy and Geochemistry 79 TABLE OF CONTENTS 1 The Environmental Geochemistry of Arsenic: An Overview Robert J. Bowell, Charles N. Alpers, Heather E. Jamieson, D. Kirk Nordstrom, Juraj Majzlan INTRODUCTION ....................................................................................................................1 ARSENIC TOXICITY IN DRINKING WATER ......................................................................2 ARSENIC MINERALOGY AND PRIMARY OCCURRENCE .............................................2 ARSENIC IN THE WEATHERING ENVIRONMENT ..........................................................4 Arsenic in secondary minerals and soils .......................................................................4 Arsenic in water .............................................................................................................4 ANTHROPOGENIC ARSENIC CONTAMINATION .............................................................7 ARSENIC IN THE BIOSPHERE .............................................................................................8 BIOGEOCHEMICAL CYCLING OF ARSENIC ....................................................................9 SUMMARY ............................................................................................................................11 ACKNOWLEDGMENTS .......................................................................................................12 REFERENCES .......................................................................................................................13 2 Parageneses and Crystal Chemistry of Arsenic Minerals Juraj Majzlan, Petr Drahota, Michal Filippi INTRODUCTION ..................................................................................................................17 PARAGENESES OF MINERALS OF ARSENIC .................................................................18 Definitions ...................................................................................................................19 Magmatic-hydrothermal arsenic minerals ...................................................................20 Metamorphic-hydrothermal arsenic minerals..............................................................22 Arsenic minerals in hot springs and fumarolic gases ..................................................26 Arsenic minerals in coal ..............................................................................................26 Arsenic minerals as products of coal combustion .......................................................28 Arsenic minerals in soil and fluvial systems ...............................................................30 Arsenic minerals in mine wastes .................................................................................44 Arsenic minerals in underground spaces .....................................................................70 vii Arsenic ‒ Table of Contents CRYSTAL CHEMISTRY OF ARSENIC MINERALS ..........................................................78 Hierarchical organization of crystal structures ............................................................79 Crystal chemistry of arsenates .....................................................................................79 Crystal chemistry of arsenites and arsenites-arsenates ..............................................131 Uranyl arsenates and arsenate-arsenites ....................................................................144 Arsenates and arsenites with unknown structure .......................................................144 Arsenides, sulfarsenides, and sulfides with arsenic, including sulfosalts ..................147 ACKNOWLEDGMENTS .....................................................................................................148 REFERENCES .....................................................................................................................150 APPENDIX 1: Index of arsenic minerals .............................................................................174 APPENDIX 2: Index of arsenic-bearing minerals ................................................................184 3 Arsenic Speciation and Sorption in Natural Environments Kate M. Campbell, D. Kirk Nordstrom INTRODUCTION ................................................................................................................185 AQUEOUS INORGANIC ARSENIC SPECIES ..................................................................186 Complexation ............................................................................................................186 Polymerization ..........................................................................................................189 ORGANIC ARSENIC COMPOUNDS AND INTERACTIONS WITH ORGANIC MATTER .............................................................189 Organic arsenical compounds ...................................................................................189 Arsenic complexation and reaction with natural organic matter ..............................190 SURFACE COMPLEXATION AND COMPETITIVE SORPTION ...................................195 Characterization and chemistry of arsenic surface species ......................................197 Effect of competitively adsorbing ions .....................................................................198 Effect of mineral transformations on arsenic speciation and vice-versa ..................200 ARSENIC OXIDATION-REDUCTION REACTIONS AND SPECIATION EFFECTS .......................................................................................201 Biogenic redox reactions of arsenic .........................................................................201 Abiotic redox reactions of arsenic ............................................................................201 ARSENIC SPECIATION CALCULATIONS FOR SEVERAL NATURAL WATER COMPOSITIONS .......................................................204 ACKNOWLEDGMENTS .....................................................................................................205 REFERENCES .....................................................................................................................210 viii Arsenic ‒ Table of Contents Arsenic ‒ Table of Contents CRYSTAL CHEMISTRY OF ARSENIC MINERALS ..........................................................78 4 Thermodynamic Properties for Hierarchical organization of crystal structures ............................................................79 Crystal chemistry of arsenates .....................................................................................79 Arsenic Minerals and Aqueous Species Crystal chemistry of arsenites and arsenites-arsenates ..............................................131 D. Kirk Nordstrom, Juraj Majzlan, Uranyl arsenates and arsenate-arsenites ....................................................................144 Erich Königsberger Arsenates and arsenites with unknown structure .......................................................144 Arsenides, sulfarsenides, and sulfides with arsenic, including sulfosalts ..................147 INTRODUCTION ................................................................................................................217 ACKNOWLEDGMENTS .....................................................................................................148 METHODOLOGICAL APPROACH TO REFERENCES .....................................................................................................................150 INTERNALLY CONSISTENT DATA ............................................................................218 APPENDIX 1: Index of arsenic minerals .............................................................................174 FINDING AN ANCHOR FOR STANDARD STATE APPENDIX 2: Index of arsenic-bearing minerals ................................................................184 PROPERTIES AT 298.15 K, 1 BAR ................................................................................219 Standard state thermodynamic properties of arsenolite, AsO (cubic) ....................219 2 3 Arsenolite solubility ..................................................................................................220 3 Arsenic Speciation and Sorption in Natural Environments Aqueous arsenite and arsenate species ......................................................................221 Standard state thermodynamic properties of claudetite, AsO (monoclinic) ..........223 Kate M. Campbell, D. Kirk Nordstrom 2 3 Hydrolysis constants for arsenous and arsenic acids .................................................224 SOLUBILITY EQUILIBRIA IN THE Fe(III)-As(V)-HO SYSTEM .................................228 2 INTRODUCTION ................................................................................................................185 Results and discussion ...............................................................................................230 AQUEOUS INORGANIC ARSENIC SPECIES ..................................................................186 A note on solubility constants ...................................................................................231 Complexation ............................................................................................................186 AQUEOUS METAL ARSENATE COMPLEXES ...............................................................233 Polymerization ..........................................................................................................189 SUMMARY OF THERMODYNAMIC DATA FOR ARSENATE MINERALS ORGANIC ARSENIC COMPOUNDS AND AND RELATED PHASES ..............................................................................................233 INTERACTIONS WITH ORGANIC MATTER .............................................................189 Ca arsenates ...............................................................................................................237 Organic arsenical compounds ...................................................................................189 Ba arsenates ...............................................................................................................239 Arsenic complexation and reaction with natural organic matter ..............................190 Cu arsenates ...............................................................................................................239 SURFACE COMPLEXATION AND COMPETITIVE SORPTION ...................................195 Fe arsenates ...............................................................................................................239 Characterization and chemistry of arsenic surface species ......................................197 Mg arsenates ..............................................................................................................239 Effect of competitively adsorbing ions .....................................................................198 Pb arsenates ...............................................................................................................240 Effect of mineral transformations on arsenic speciation and vice-versa ..................200 Zn arsenates ...............................................................................................................240 ARSENIC OXIDATION-REDUCTION REACTIONS Arsenates with multiple cations.................................................................................240 AND SPECIATION EFFECTS .......................................................................................201 ARSENIDES AND SULFIDES ...........................................................................................245 Biogenic redox reactions of arsenic .........................................................................201 GASEOUS SPECIES............................................................................................................245 Abiotic redox reactions of arsenic ............................................................................201 CONCLUDING REMARKS ................................................................................................245 ARSENIC SPECIATION CALCULATIONS FOR ACKNOWLEDGMENTS .....................................................................................................249 SEVERAL NATURAL WATER COMPOSITIONS .......................................................204 REFERENCES .....................................................................................................................249 ACKNOWLEDGMENTS .....................................................................................................205 REFERENCES .....................................................................................................................210 Color Plates CP1-CP16 viii ix

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Environmental Mineralogy and Bio-Geochemistry of Arsenic provides a comprehensive understanding of arsenic geochemistry in the near-surface environment
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Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.