Environmental Chemistry, Ninth Edition - Stanley Manahan, Stanley E. Manahan

Environmental Chemistry, Ninth Edition

Buch | Hardcover
783 Seiten
2009 | 9th New edition
Crc Press Inc (Verlag)
978-1-4200-5920-5 (ISBN)
107,20 inkl. MwSt
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Chronicles emerging issues such as organochloride pesticides, detergent phosphates, stratospheric ozone depletion, the banning of chlorofluorocarbons, and greenhouse warming. This book emphasizes the importance of the anthrosphere - that part of the environment made and operated by humans and their technologies.
The field of environmental chemistry has evolved significantly since the publication of the first edition of Environmental Chemistry. Throughout the book’s long life, it has chronicled emerging issues such as organochloride pesticides, detergent phosphates, stratospheric ozone depletion, the banning of chlorofluorocarbons, and greenhouse warming. During this time the first Nobel Prize for environmental chemistry was awarded. Written by environmental chemist Stanley Manahan, each edition has reflected the field’s shift of emphasis from pollution and its effects to its current emphasis on sustainability.





What makes this book so enduring? Completely revised, this ninth edition retains the organizational structure that has made past editions so popular with students and professors while updating coverage of principles, tools, and techniques to provide fundamental understanding of environmental chemistry and its applications. It includes end-of chapter questions and problems, and a solutions manual is available upon qualifying course adoptions. Rather than immediately discussing specific environmental problems, Manahan systematically develops the concept of environmental chemistry so that when he covers specific pollutions problems the background necessary to understand the problem has already been developed.


New in the Ninth Edition:








revised discussion of sustainability and environmental science
updates information on chemical fate and transport, cycles of matter
examination of the connection between environmental chemistry and green chemistry
coverage of transgenic crops
the role of energy in sustainability
potential use of toxic substances in terrorist attacks








Manahan emphasizes the importance of the anthrosphere – that part of the environment made and operated by humans and their technologies. Acknowledging technology will be used to support humankind on the planet, it is important that the anthrosphere be designed and operated in a manner that is compatible with sustainability and that it interacts constructively with the other environmental spheres. With clear explanations, real-world examples, and updated questions and answers, the book emphases the concepts essential to the practice of environmental science, technology, and chemistry while introducing the newest innovations in the field. Readily adapted for classroom use, a solutions manual is available with qualifying course adoption.

Stanley E. Manahan is professor emeritus of chemistry at the University of Missouri–Columbia, where he has been on the faculty since 1965. He received his AB in chemistry from Emporia State University in 1960 and his PhD in analytical chemistry from the University of Kansas in 1965. Since 1968 his primary research and professional activities have been in environmental chemistry, toxicological chemistry, and waste treatment. His classic textbook, Environmental Chemistry, has been in print continuously in various editions since 1972 and is the longest standing title on this subject in the world. His other books are Fundamentals of Environmental Chemistry, 3rd ed. (Taylor & Francis/CRC Press, 2009), Fundamentals of Sustainable Chemical Science (Taylor & Francis/CRC Press, 2009), Environmental Science and Technology, 2nd ed. (Taylor & Francis, 2006), Green Chemistry and the Ten Commandments of Sustainability, 2nd ed. (ChemChar Research, Inc, 2006), Toxicological Chemistry and Biochemistry, 3rd ed. (CRC Press/Lewis Publishers, 2001), Industrial Ecology: Environmental Chemistry and Hazardous Waste (CRC Press/Lewis Publishers, 1999), Environmental Science and Technology (CRC Press/ Lewis Publishers, 1997), Hazardous Waste Chemistry, Toxicology and Treatment (Lewis Publishers, 1992), Quantitative Chemical Analysis (Brooks/Cole, 1986), and General Applied Chemistry, 2nd ed. (Willard Grant Press, 1982). Dr. Manahan has lectured on the topics of environmental chemistry, toxicological chemistry, waste treatment, and green chemistry throughout the United States as an American Chemical Society Local Section Tour Speaker and has presented plenary lectures on these topics in international meetings in Puerto Rico; the University of the Andes in Merida, Venezuela; Hokkaido University in Japan; the National Autonomous University in Mexico City; France; and Italy. He was the recipient of the Year 2000 Award of the Environmental Chemistry Division of the Italian Chemical Society. His research specialty is gasification of hazardous wastes.

The Environment and Sustainability Science


From the Sun to Fossil Fuels and Back Again


The Science of Sustainability


Chemistry and the Environment


Water, Air, Earth, Life, and Technology


Ecology, Ecotoxicology, and the Biosphere


Energy and Cycles of Energy


Human Impact and Pollution


Chemical Fate and Transport


Chemical Fate and Transport in the Atmosphere, Hydrosphere, and Geosphere


Environmental Mischief and Terrorism


Environmental Forensics


Literature Cited


Supplementary References


Questions and Problems


Chemistry and the Anthrosphere: Environmental Chemistry and Green Chemistry


Environmental Chemistry


Matter and Cycles of Matter


Anthrosphere and Environmental Chemistry


Technology and the Anthrosphere


Infrastructure


Components of the Anthrosphere That Infl uence the Environment


Effects of the Anthrosphere on Earth


Integration of the Anthrosphere into the Total Environment


Green Chemistry


Literature Cited


Supplementary References


Questions and Problems


Fundamentals of Aquatic Chemistry


Importance of Water


Water from Molecules to Oceans


Characteristics of Bodies of Water


Aquatic Life


Introduction to Aquatic Chemistry


Gases in Water


Water Acidity and Carbon Dioxide in Water


Alkalinity


Calcium and other Metals in Water


Complexation and Chelation


Bonding and Structure of Metal Complexes


Calculations of Species Concentrations


Complexation by Deprotonated Ligands


Complexation by Protonated Ligands


Solubilization of Lead Ion from Solids by NTA


Polyphosphates and Phosphonates in Water


Complexation by Humic Substances


Complexation and Redox Processes


Literature Cited


Supplementary References


Questions and Problems


Oxidation–Reduction in Aquatic Chemistry


The Signifi cance of Oxidation–Reduction


Electron and Redox Reactions


Electron Activity and pE


The Nernst Equation


Reaction Tendency: Whole Reaction from Half-Reactions


The Nernst Equation and Chemical Equilibrium


The Relationship of pE to Free Energy


Reactions in Terms of One Electron-Mole


The Limits of pE in Water


pE Values in Natural Water Systems


pE–pH Diagrams


Humic Substances as Natural Reductants


Photochemical Processes in Oxidation–Reduction


Corrosion


Literature Cited


Supplementary References


Questions and Problems


Phase Interactions in Aquatic Chemistry


Chemical Interactions Involving Solids, Gases, and Water


Importance and Formation of Sediments


Solubilities


Colloidal Particles in Water


Colloidal Properties of Clays


Aggregation of Particles


Surface Sorption by Solids


Solute Exchange with Bottom Sediments


Interstitial Water


Phase Interactions in Chemical Fate and Transport


Literature Cited


Supplementary References


Questions and Problems


Aquatic Microbial Biochemistry


Aquatic Biochemical Processes


Algae


Fungi


Protozoa


Bacteria


The Prokaryotic Bacterial Cell


Kinetics of Bacterial Growth


Bacterial Metabolism


Microbial Transformations of Carbon


Biodegradation of Organic Matter


Microbial Transformations of Nitrogen


Microbial Transformations of Phosphorus and Sulfur


Microbial Transformations of Halogens and Organohalides


Microbial Transformations of Metals and Metalloids


Literature Cited


Supplementary References


Questions and Problems


Water Pollution


Nature and Types of Water Pollutants


Elemental Pollutants


Heavy Metals


Metalloids


Organically Bound Metals and Metalloids


Inorganic Species


Algal Nutrients and Eutrophication


Acidity, Alkalinity, and Salinity


Oxygen, Oxidants, and Reductants


Organic Pollutants


Pesticides in Water


Polychlorinated Biphenyls


Emerging Water Pollutants, Pharmaceuticals, and Household Wastes


Radionuclides in the Aquatic Environment


Literature Cited


Supplementary References


Questions and Problems


Water Treatment


Water Treatment and Water Use


Municipal Water Treatment


Treatment of Water for Industrial Use


Sewage Treatment


Industrial Wastewater Treatment


Removal of Solids


Removal of Calcium and Other Metals


Removal of Dissolved Organics


Removal of Dissolved Inorganics


Sludge


Water Disinfection


Natural Water Purifi cation Processes


Green Water


Water Conservation


Protecting Water Supplies from Attack


Literature Cited


Supplementary References


Questions and Problems


The Atmosphere and Atmospheric Chemistry


The Atmosphere and Atmospheric Chemistry


Importance of the Atmosphere


Physical Characteristics of the Atmosphere


Energy Transfer in the Atmosphere


Atmospheric Mass Transfer, Meteorology, and Weather


Inversions and Air Pollution


Global Climate and Microclimate


Chemical and Photochemical Reactions in the Atmosphere


Acid–Base Reactions in the Atmosphere


Reactions of Atmospheric Oxygen


Reactions of Atmospheric Nitrogen


Atmospheric Water


Influence of the Anthrosphere


Chemical Fate and Transport in the Atmosphere


Literature Cited


Supplementary References


Questions and Problems


Particles in the Atmosphere


Particles in the Atmosphere


Physical Behavior of Particles in the Atmosphere


Physical Processes for Particle Formation


Chemical Processes for Particle Formation


The Composition of Inorganic Particles


Toxic Metals in the Atmosphere


Radioactive Particles


The Composition of Organic Particles


Effects of Particles


Water as Particulate Matter


Atmospheric Chemical Reactions Involving Particles


Control of Particulate Emissions


Literature Cited


Supplementary References


Questions and Problems


Gaseous Inorganic Air Pollutants


Inorganic Pollutant Gases


Production and Control of Carbon Monoxide


Fate of Atmospheric CO


Sulfur Dioxide Sources and the Sulfur Cycle


Sulfur Dioxide Reactions in the Atmosphere


Nitrogen Oxides in the Atmosphere


Acid Rain


Ammonia in the Atmosphere


Fluorine, Chlorine, and their Gaseous Compounds


Reduced Sulfur Gases


Literature Cited


Supplementary References


Questions And Problems


Organic Air Pollutants


Organic Compounds in the Atmosphere


Biogenic Organic Compounds


Pollutant Hydrocarbons


Carbonyl Compounds: Aldehydes and Ketones


Miscellaneous Oxygen-Containing Compounds


Organonitrogen Compounds


Organohalide Compounds


Organosulfur Compounds


Organic Particulate Matter


Hazardous Air Pollutants Organic Compounds


Literature Cited


Supplementary References


Questions and Problems


Photochemical Smog


Introduction


Smog-Forming Emissions


Smog-Forming Reactions of Organic Compounds in the Atmosphere


Overview of Smog Formation


Mechanisms of Smog Formation


Reactivity of Hydrocarbons


Inorganic Products from Smog


Effects of Smog


Literature Cited


Supplementary References


Questions and Problems


The Endangered Global Atmosphere


Climate Change and Anthropogenic Effects


Global Warming


Green Science and Technology to Alleviate Global Warming


Acid Rain


Stratospheric Ozone Destruction


Atmospheric Brown Clouds


Atmospheric Damage by Photochemical Smog


Nuclear Winter


What Is to Be Done?


Literature Cited


Supplementary References


Questions and Problems


The Geosphere and Geochemistry


Introduction


The Nature of Solids in the Geosphere


Physical Form of the Geosphere


Internal Processes


Sediments


Clays


Geochemistry


Groundwater in the Geosphere


Environmental Aspects of the Geosphere


Earthquakes


Volcanoes


Surface Earth Movement


Stream and River Phenomena


Phenomena at the Land/Ocean Interface


Phenomena at the Land/Atmosphere Interface


Effects of Ice


Effects of Human Activities


Air Pollution and the Geosphere


Water Pollution and the Geosphere


Waste Disposal and the Geosphere


Literature Cited


Supplementary References


Questions and Problems


Soil and Agricultural Environmental Chemistry


Soil and Agriculture


Nature and Composition of Soil


Acid−Base and Ion-Exchange Reactions in Soils


Macronutrients in Soil


Nitrogen, Phosphorus, and Potassium in Soil


Fertilizers


Pollutants from Livestock Production


Pesticides and their Residues in Soil


Wastes and Pollutants in Soil


Soil Loss and Degradation


Saving the Land


Genetic Engineering and Agriculture


Green Chemistry and Sustainable Agriculture


Agriculture and Health


Protecting the Food Supply from Attack


Literature Cited


Supplementary References


Questions and Problems


Green Chemistry and Industrial Ecology


Changing the Bad Old Ways


Green Chemistry


Reduction of Risk: Hazard and Exposure


Waste Prevention and Green Chemistry


Green Chemistry and Synthetic Chemistry


Feedstocks


Reagents


Stoichiometric and Catalytic Reagents


Media and Solvents


Enhancing Reactions


Industrial Ecology


The Five Major Components of an Industrial Ecosystem


Industrial Metabolism


Materials Flow and Recycling in an Industrial Ecosystem


The Kalundborg Industrial Ecosystem


Consideration of Environmental Impacts in Industrial Ecology


Life Cycles: Expanding and Closing the Materials Loop


Life-Cycle Assessment


Consumable, Recyclable, and Service (Durable) Products


Design for Environment


Inherent Safety


Industrial Ecology and Ecological Engineering


Literature Cited


Supplementary References


Questions and Problems


Resources and Sustainable Materials


Where to Get the Stuff We Need?


Minerals in the Geosphere


Extraction and Mining


Metals


Metal Resources and Industrial Ecology


Nonmetal Mineral Resources


Phosphates


Sulfur


Wood: A Major Renewable Resource


Extending Resources through the Practice of Industrial Ecology


Literature Cited


Supplementary References


Questions and Problems


Sustainable Energy: The Key to Everything


Energy Problem


Nature of Energy


Sources of Energy Used in the Anthrosphere


Energy Devices and Conversions


Green Technology and Energy Conversion Efficiency


Energy Conservation and Renewable Energy Sources


Petroleum and Natural Gas


Coal


Carbon Sequestration for Fossil Fuel Utilization


Industrial Ecology for Energy and Chemicals


Nuclear Energy


Geothermal Energy


The Sun: An Ideal, Renewable Energy Source


Energy from Moving Air and Moving Water


Biomass Energy


Hydrogen as a Means to Store and Utilize Energy


Combined Power Cycles


A System of Industrial Ecology for Methane Production


Literature Cited


Supplementary References


Questions and Problems


Nature, Sources, and Environmental Chemistry of Hazardous Wastes


Introduction


Classifi cation of Hazardous Substances and Wastes


Sources of Wastes


Flammable and Combustible Substances


Reactive Substances


Corrosive Substances


Toxic Substances


Physical Forms and Segregation of Wastes


Environmental Chemistry of Hazardous Wastes


Physical and Chemical Properties of Hazardous Wastes


Transport, Effects, and Fates of Hazardous Wastes


Hazardous Wastes and the Anthrosphere


Hazardous Wastes in the Geosphere


Hazardous Wastes in the Hydrosphere


Hazardous Wastes in the Atmosphere


Hazardous Wastes in the Biosphere


Hazardous Substances in Terrorism


Literature Cited


Supplementary References


Questions and Problems


Industrial Ecology for Waste Minimization, Utilization, and Treatment


Introduction


Waste Reduction and Minimization


Recycling


Physical Methods of Waste Treatment


Chemical Treatment: An Overview


Green Waste Treatment by Photolyis and Sonolysis


Thermal Treatment Methods


Biodegradation of Wastes


Phytoremediation


Land Treatment and Composting


Preparation of Wastes for Disposal


Ultimate Disposal of Wastes


Leachate and Gas Emissions


In Situ Treatment


Literature Cited


Supplementary References


Questions and Problems


Environmental Biochemistry


Biochemistry


Biochemistry and the Cell


Proteins


Carbohydrates


Lipids


Enzymes


Nucleic Acids


Recombinant DNA and Genetic Engineering


Metabolic Processes


Metabolism of Xenobiotic Compounds


Literature Cited


Supplementary References


Questions and Problems


Toxicological Chemistry


Introduction to Toxicology and Toxicological Chemistry


Dose–Response Relationships


Relative Toxicities


Reversibility and Sensitivity


Xenobiotic and Endogenous Substances


Toxicological Chemistry


Kinetic Phase and Dynamic Phase


Teratogenesis, Mutagenesis, Carcinogenesis, and Effects On the Immune and Reproductive Systems


Health Hazards


Literature Cited


Supplementary References


Questions and Problems


Toxicological Chemistry of Chemical Substances


Introduction


Toxic Elements and Elemental Forms


Toxic Inorganic Compounds


Toxicology of Organic Compounds


Toxic Natural Products


Literature Cited


Supplementary References


Questions and Problems


Chemical Analysis of Water and Wastewater


General Aspects of Environmental Chemical Analysis


Classical Methods


Spectrophotometric Methods


Electrochemical Methods of Analysis


Chromatography


Mass Spectrometry


Analysis of Water Samples


Automated Water Analyses


Speciation


Emerging Contaminants in Water Analysis


Chiral Contaminants


Literature Cited


Supplementary References


Questions and Problems


Analysis of Wastes and Solids


Introduction


Sample Digestion for Elemental Analysis


Analyte Isolation for Organics Analysis


Sample Cleanup


Sample Preparation for VOCs


Bioassay and Immunoassay Screening of Wastes


Determination of Chelating Agents


Toxicity Characteristic Leaching Procedure


Literature Cited


Supplementary References


Questions and Problems


Analysis of the Atmosphere and Air Pollutants


Atmospheric Monitoring


Sampling


Methods of Analysis


Determination of Sulfur Dioxide


Nitrogen Oxides


Analysis of Oxidants


Analysis of Carbon Monoxide


Determination of Hydrocarbons and Organics


Analysis of Particulate Matter


Direct Spectrophotometric Analysis of Gaseous Air Pollutants


Literature Cited


Supplementary References


Questions and Problems


Analysis of Biological Materials and Xenobiotics


Introduction


Indicators of Exposure to Xenobiotics


Determination of Metals


Determination of Nonmetals and Inorganic Compounds


Determination of Parent Organic Compounds


Measurement of Phase I And Phase II Reaction Products


Determination of Adducts


The Promise of Immunological Methods


Literature Cited


Supplementary References


Questions and Problems


Index

Erscheint lt. Verlag 14.12.2009
Zusatzinfo approx 769 equations; 43 Tables, black and white; 256 Illustrations, black and white
Verlagsort Bosa Roca
Sprache englisch
Maße 178 x 254 mm
Gewicht 1565 g
Themenwelt Technik Umwelttechnik / Biotechnologie
ISBN-10 1-4200-5920-3 / 1420059203
ISBN-13 978-1-4200-5920-5 / 9781420059205
Zustand Neuware
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