Arsenic: Environmental Chemistry, Health Threats and Waste Treatment / Edition 1 available in Hardcover
- Pub. Date:
Although the environmental regulations of different nations varyand change over time, prominent International, North American, andEuropean guidelines and regulations on arsenic will bereviewed.
- Includes information on recent environmental catastrophes (e.g.Bangladesh and China)
- A thorough discussion of the arsenic cycle, including thecosmological origin of arsenic
- Includes Appendices providing extensive glossary andmeasurement conversion tables
|Product dimensions:||7.50(w) x 9.90(h) x 1.50(d)|
About the Author
Kevin Henke is a research scientist at the Centre for Applied Energy Research at the University of Kentucky. He has a M.S. and? Ph.D. in Geology from the University of North Dakota. His research includes investigating water and air quality issues related to coal combustion, studying the impact of mercury and other heavy metals on water quality, and investigating the leaching of inorganics from coal combustion by-products. He is also visiting Assistant Professor of Geology, Department of Geological Sciences, University of Kentucky, Lexington (1998, 2000-2002) and has taught geochemistry, mineralogy, teaching methods courses, and undergraduate introductory courses in environmental geology, natural resources and physical geology.
Professor David A. Atwood, is based in the Chemistry Department of the University of Kentucky. He obtained his B.S. from the University of Alabama and his Ph.D. from the University of Texas in 1992. Research in the Atwood group is designed to address both fundamental and applied aspects of the main group metals. Professor Atwood's teaching includes courses in solid-state materials including biomineralization.
Dr Lisa Blue is a graduate student based in the chemistry department of the University of Kentucky.
Table of ContentsList of Contributors.
1.0. Introduction (Kevin R. Henke).
1.1 Arsenic Origin, Chemistry, and Use.
1.2 Arsenic Environmental Impacts.
1.3 Arsenic Toxicity.
1.4 Arsenic Treatment and Remediation.
2.0. Arsenic Chemistry (Kevin R. Henke and AaronHutchison).
2.2 Atomic Structure and Isotopes of Arsenic.
2.3 Arsenic Valence State and Bonding.
2.4 Chemistry of Arsenic Solids.
2.5 Introduction to Arsenic Oxidation and Reduction.
2.6 Introduction to Arsenic Methylation and Demethylation.
2.7 Arsenic in water.
2.8 Chemistry of Gaseous Arsenic Emissions.
3.0. Arsenic in Natural Environments (Kevin R.Henke).
3.2 Nucleosynthesis: The Origin of Arsenic.
3.3 Arsenic in the Universe as a Whole.
3.4 Arsenic Chemistry of the Solar System.
3.5 Arsenic in the Bulk Earth, Crusts, and Interior.
3.6 Arsenic in Hydrothermal and Geothermal Fluids and theirDeposits.
3.7 Oxidation of Arsenic-Bearing Sulfides in Geologic Materialsand Mining Wastes.
3.8 Interactions between Arsenic and Natural Organic Matter(NOM).
3.9 Sorption and Coprecipitation of Arsenic with Iron and Other(Oxy)(hydr)oxides.
3.10 Arsenate (As(V)) Precipitation.
3.11 Reductive Dissolution of Iron and Manganese(Oxy)(hydr)oxides.
3.12 Arsenic and Sulfide at < 50oC.
3.13 Arsenic and its Chemistry in Mined Materials.
3.14 Marine Waters and Sediments.
3.16 Rivers and Other Streams.
3.20 Glacial Ice and Related Sediments.
3.21 Arsenic in Air and Wind-blown Sediments.
3.24 Sedimentary Rocks.
3.25 Metamorphic Rocks.
4.0. Toxicology and Epidemiology of Arsenic and its Compounds(Michael F. Hughes, David J. Thomas, and Elaina M. Kenyon).
4.2 Physical and Chemical Properties of Arsenic.
4.3 Exposure to Arsenic.
4.4 Arsenic Disposition and Biotransformation in Mammals.
4.5 Systemic Clearance of Arsenic and Binding to BloodComponents.
4.6 Tissue Distribution.
4.7 Placental Transfer and Distribution in the Fetus.
4.8 Arsenic Biotransformation.
4.9 Arsenic Excretion.
4.10 Effects of Arsenic Exposure.
4.17 Other Organ Systems.
4.19 Animal Models for Arsenic-induced Cancer.
4.20 Mechanism of Action.
4.21 Regulation of Arsenic.
5.0. Arsenic in Human History and Modern Societies (Kevin R.Henke and David A. Atwood).
5.2. Early Recognition and Uses of Arsenic by Humans.
5.3 Alchemy, Development of Methods to Recover ElementalArsenic, and the Synthesis of Arsenic Compounds.
5.4 Applications with Arsenic.
5.5 Increasing Health, Safety, and Environmental Concerns.
5.6 Arsenic in Crime.
5.7 Poisoning Controversies: Napoleon Bonaparte.
5.8 Arsenic in Prospecting, Mining, and Markets.
5.9 Arsenic in Coal and Oil Shale Utilization and theirByproducts.
6.0. Major Occurrences of Elevated Arsenic in Groundwater andOther Natural Waters (Abhijit Mukherjee, Alan E. Fryar, and BethanyM. O’Shea).
6.2 Arsenic Speciation and Mobility in Natural Waters.
6.3 Immobilization of Arsenic in Hydrologic Systems.
6.4 Mobilization of Arsenic in Water.
6.5 Natural Occurrences of Elevated Arsenic around theWorld.
7.0. Waste Treatment and Remediation Technologies for Arsenic(Kevin R. Henke).
7.2 Treatment Technologies for Arsenic in Water.
7.3 Treatment Technologies for Arsenic in Solids.
7.4 Treatment Technologies for Arsenic in Gases.
A: Common Physical and Chemical Constants and Conversions forUnits of Measure.
B: Glossary of Terms.
C: Arsenic Thermodynamic Data.
C.2 Modeling Applications with Thermodynamic Data.
C.3 Thermodynamic Data.
D: Locations of Significant Arsenic Contamination.
E: Regulation of Arsenic: A Brief Survey and Bibliography.
E.2 Regulation of Arsenic in Water.
E.3 Regulation of Arsenic in Solid and Liquid Wastes.
E.4 Sediment and Soil Guidelines and Standards for Arsenic.
E.5 Regulation of Arsenic in Food and Drugs.
E.6 Regulation of Arsenic in Air.
E.7 Other References.