Overview

With the continuing increase in population, more people are sharing the finite resources of the urban watershed, resulting in new and increasingly complex interactions between humans and the environment. Environmental contamination is a chronic problem--and an expensive one. In urban areas, water and soil contamination poses a threat to public health and has implications for future development. Taking an interdisciplinary approach, Urban Watersheds: Geology, Contamination, and Sustainable Development offers a framework for those working to improve the urban environment and create sustainable urban watersheds. The book presents over 20 years of research and professional practice on urban watersheds from the fields of environmental geology, geochemistry, risk analysis, hydrology, and urban planning. The geological characteristics of urbanized watersheds along with the properties of their common contaminants are integrated to assess risk factors for soil, groundwater, and air. With a framework rooted in scientific knowledge, the authors demonstrate the benefits of scientifically informed planning and decision making, offering guidelines to improve watershed management practices as well as urban development and redevelopment practices. Suitable for use as a textbook and as a professional practice reference, the book includes case studies on successful and unsuccessful approaches to contaminant remediation as well as practical methods for environmental risk assessment. PowerPoint(R) presentations of selected portions of the book are available with qualifying course adoption.

Full Product Details

Author:   Martin M. Kaufman ,  David T. Rogers ,  Kent S. Murray
Publisher:   Taylor & Francis Inc
Imprint:   CRC Press Inc
Dimensions:   Width: 17.80cm , Height: 3.30cm , Length: 25.40cm
Weight:   1.225kg
ISBN:  

9781439852743

ISBN 10:   143985274
Pages:   583
Publication Date:   25 April 2011
Audience:   Professional and scholarly ,  College/higher education ,  Professional & Vocational ,  Tertiary & Higher Education
Replaced By:   9780367133740
Format:   Hardback
Publisher's Status:   Out of Stock Indefinitely
Availability:   In Print  
Limited stock is available. It will be ordered for you and shipped pending supplier's limited stock.

Table of Contents

The Watershed Approach Historical Transformation of Urbanized Watersheds by Industrial Development The Evolution of Industry and the Rouge Watershed Major Themes of the Watershed Approach Used in This Book Organization of This Book PART I: GEOLOGY Geology of Urban Watersheds Geological Processes Affecting Urban Watersheds Sedimentary Processes: From Removal to Rock Formation Identification and Classification of Sedimentary Deposits Sedimentary Depositional Environments Disturbance Water and the Hydrogeology of Watersheds Water Basics Surface Water in Watersheds Groundwater in Watersheds Fundamental Concepts of Groundwater Surface Water–Groundwater Interaction Anthropogenic Influences on Surface Water and Groundwater Conducting Subsurface Environmental Investigations in Urban Watersheds Types and Description of Subsurface Environmental Investigations, Studies, Plans, or Reports Common Environmental Sampling Methods Urban Geologic Mapping Geologic Mapping in an Urban Environment Geologic Vulnerability Subsurface Vulnerability and Vulnerability Map Development Methods Map-Building Example Demonstrating the Significance of Vulnerability Mapping PART II: CONTAMINATION Common Contaminants in Urban Watersheds Contaminant Toxicity Volatile Organic Compounds Polynuclear Aromatic Hydrocarbons Polychlorinated Biphenyls Semivolatile Organic Compounds Heavy Metals Other Contaminants Contaminant Fate and Transport Contaminant Releases into the Environment Principles of Contaminant Fate and Transport Fate and Transport of Contaminants Metal Contamination in Urban Watersheds Heavy Metals in Soil Case Study: Metals in Soil, Rouge River Watershed Case Study: Dissolved Metals in Shallow Groundwater, Rouge River Watershed Contaminant Risk Factors Surface Risk Factor Groundwater Contaminant Risk Factor Soil Contaminant Risk Factor Air Contaminant Risk Factor Discussion and Implications Remediation: Techniques and Cost Remediation Overview Common Soil Remediation Technologies Summary of Soil Remediation Technologies Common Groundwater Remediation Technologies Summary of Groundwater Remediation Technologies Sediment Remediation Surface Water Remediation Air Remediation Cost of Remediation PART III: SUSTAINABLE DEVELOPMENT Urbanization and the Disruption of Matter and Energy Flows within Watersheds Watershed Structure Watershed Function Urbanization and Watersheds: Disruption of Matter and Energy Flows Pollution Prevention Pollution Prevention in the United States Implementing Pollution Prevention Techniques: Industrial Point Sources Implementing Pollution Prevention Techniques for Nonpoint Sources in Urbanized Watersheds Case Studies: Successful and Unsuccessful Redevelopment of Contaminated Sites Case Study 1: Michigan Case Study 2: Illinois Case Study 3: Indiana Case Study 4: Wisconsin Case Study 5: California Case Study 6: New Jersey Science-Based Landscape Planning in Urban Watersheds The Science: Policy Gap Science-Based Landscape Planning Watershed Management Attaining Sustainable Urban Watersheds Sustainability and Sustainable Development A Framework for Beginning Urban Watershed Management Linking the First Step to the Big Picture Glossary of Terms Index

Reviews

... a very timely book. As the world population increasingly shifts from rural to urban areas, people need to understand how to use and protect the watersheds on which cities are built. These urban watersheds have their own set of concerns and problems. This volume is divided into three main sections as described in the subtitle: Geology, Contamination, and Sustainable Development, with five main themes uniting the approach of the three sections (near-surface geology, water resources planning, industrial contamination, industrial remediation, and landscape planning). The first two sections occupy most of the book. This content tends to follow that of a typical contaminant hydrogeology textbook. However, it contains some interesting, unique chapters not typically found in such textbooks, including Urban Geologic Mapping, Metal Contamination in Urban Watersheds, and Contaminant Risk Factors. The last section looks at the general impacts of urbanization and the disruptions of matter and energy flows due to human-generated and urban-related processes. This section also includes a useful chapter of case studies on contaminated sites that have undergone both successful and unsuccessful redevelopment. Summing Up: Highly recommended. Upper-division undergraduates, graduate students, faculty, and professionals. -- E. Gomezdelcampo, Bowling Green State University, in CHOICE, Vol. 49(2), Oct 2011 ... a very timely book. As the world population increasingly shifts from rural to urban areas, people need to understand how to use and protect the watersheds on which cities are built. These urban watersheds have their own set of concerns and problems. This volume is divided into three main sections as described in the subtitle: Geology, Contamination, and Sustainable Development, with five main themes uniting the approach of the three sections (near-surface geology, water resources planning, industrial contamination, industrial remediation, and landscape planning). The first two sections occupy most of the book. This content tends to follow that of a typical contaminant hydrogeology textbook. However, it contains some interesting, unique chapters not typically found in such textbooks, including Urban Geologic Mapping, Metal Contamination in Urban Watersheds, and Contaminant Risk Factors. The last section looks at the general impacts of urbanization and the disruptions of matter and energy flows due to human-generated and urban-related processes. This section also includes a useful chapter of case studies on contaminated sites that have undergone both successful and unsuccessful redevelopment. Summing Up: Highly recommended. Upper-division undergraduates, graduate students, faculty, and professionals. -- E. Gomezdelcampo, Bowling Green State University, in CHOICE, Vol. 49(2), Oct 2011Long overdue, Urban Watersheds addresses a socially relevant issue where geology provides a leadership role in coordinating extensive interdisciplinary studies. It is hard to impress upon the global populace how important water resources are especially in the urban environment. This volume does an admirable job in raising the awareness of the subject. Especially significant is the ability of the authors to actually address sustainable development within the context of water as an essential resource. Kaufman, Rogers and Murray should be congratulated for championing the effort. The topic of watersheds is usually discussed in the perspective of the rural landscape and this volume makes a positive but quantum leap towards linking the management of water within the urban environment. From mapping and quantifying vulnerability to contaminant identification and remediation techniques, this single volume does an admirable job in addressing all aspects for this fascinating subject. The collective expertise and knowledge of Kaufman, Rogers and Murray ensured a professional standard of output was achieved in this technically accurate and scientifically interesting treatise. A must have book for engineers, geologists, hydrologists, and all others concerned with water. --Peter Bobrowsky, PhD, Secretary General of the International Union of Geological Sciences Urban Watersheds: Geology, Contamination, and Sustainable Development serves as a comprehensive reference for anyone working in, or studying the field of urban stormwater runoff management. The book addresses the multi-faceted nature of urban stormwater issues, and offers insightful well organized solutions to watershed contamination problems caused by runoff. The multidisciplinary nature of the book is a welcomed strength. The book logically follows the various and important aspects of the stormwater problem -- hydrology, ecology, pollution prevention and low impact development. The authors capitalize on this interdisciplinary approach by demonstrating the links between science and planning, in hopes that urban land use decisions can be made with a sound scientific backing. The book also aims to increase the effectiveness of watershed restoration by highlighting successful and unsuccessful approaches to contaminant remediation. Government officials, municipal regulators, stormwater utility personnel, watershed groups, researchers and students of a variety of courses from urban planning to environmental studies will find this book very useful. --Hale W. Thurston, PhD, U.S. Environmental Protection Agency, Cincinnati, Ohio, USA With the heightened risk of human exposure to a multitude of urban-sourced pollutants, ensuring healthy living conditions in heavily populated environments has become a daunting challenge. Contaminants that accumulate and migrate in the shallow subsurface represent one of the greatest threats to urban sustainability, but this concern is frequently ignored by an urban planning process that tends to be two-dimensional and ignores the critical role that groundwater plays in an urban setting. In this book on the sustainable development of urban watersheds, authors Kaufman, Rogers and Murray introduce a fundamentally new framework for planning and achieving sustainable urban watersheds, a framework that is rooted in the principles of hydrogeology, is soundly based in science and considers the watershed as a dynamic, fully integrated system. The book will strongly interest all students and professionals who are concerned with the urban water cycle or have an interest in contaminant migration, risk assessment or site remediation. It should be obligatory reading for all who contribute to the urban planning process. --Prof. Ken W.F. Howard, Vice-President of the International Association of Hydrogeologists (IAH), Chair of the IAH Commission on Groundwater in Urban Areas, and Professor of Hydrogeology at the University of Toronto, Canada Urban Watersheds is a comprehensive study of the hydrogeology, pollutant behaviors, investigation methods and remedial approaches in our most populated regions. The authors provide technical depth across this wide range of topics with a writing style that makes the topics very accessible, even to non-technical readers. This book will be a valuable resource for the technical, regulatory and policy-making communities. --Fred Payne, PhD, Vice President and Technical Director, ARCADIS, Novi, Michigan, USA

Long overdue, Urban Watersheds addresses a socially relevant issue where geology provides a leadership role in coordinating extensive interdisciplinary studies. It is hard to impress upon the global populace how important water resources are especially in the urban environment. This volume does an admirable job in raising the awareness of the subject. Especially significant is the ability of the authors to actually address sustainable development within the context of water as an essential resource. Kaufman, Rogers and Murray should be congratulated for championing the effort. The topic of watersheds is usually discussed in the perspective of the rural landscape and this volume makes a positive but quantum leap towards linking the management of water within the urban environment. From mapping and quantifying vulnerability to contaminant identification and remediation techniques, this single volume does an admirable job in addressing all aspects for this fascinating subject. The collective expertise and knowledge of Kaufman, Rogers and Murray ensured a professional standard of output was achieved in this technically accurate and scientifically interesting treatise. A must have book for engineers, geologists, hydrologists, and all others concerned with water. --Peter Bobrowsky, PhD, Secretary General of the International Union of Geological Sciences Urban Watersheds: Geology, Contamination, and Sustainable Development serves as a comprehensive reference for anyone working in, or studying the field of urban stormwater runoff management. The book addresses the multi-faceted nature of urban stormwater issues, and offers insightful well organized solutions to watershed contamination problems caused by runoff. The multidisciplinary nature of the book is a welcomed strength. The book logically follows the various and important aspects of the stormwater problem -- hydrology, ecology, pollution prevention and low impact development. The authors capitalize on this interdisciplinary approach by demonstrating the links between science and planning, in hopes that urban land use decisions can be made with a sound scientific backing. The book also aims to increase the effectiveness of watershed restoration by highlighting successful and unsuccessful approaches to contaminant remediation. Government officials, municipal regulators, stormwater utility personnel, watershed groups, researchers and students of a variety of courses from urban planning to environmental studies will find this book very useful. --Hale W. Thurston, PhD, U.S. Environmental Protection Agency, Cincinnati, Ohio, USA With the heightened risk of human exposure to a multitude of urban-sourced pollutants, ensuring healthy living conditions in heavily populated environments has become a daunting challenge. Contaminants that accumulate and migrate in the shallow subsurface represent one of the greatest threats to urban sustainability, but this concern is frequently ignored by an urban planning process that tends to be two-dimensional and ignores the critical role that groundwater plays in an urban setting. In this book on the sustainable development of urban watersheds, authors Kaufman, Rogers and Murray introduce a fundamentally new framework for planning and achieving sustainable urban watersheds, a framework that is rooted in the principles of hydrogeology, is soundly based in science and considers the watershed as a dynamic, fully integrated system. The book will strongly interest all students and professionals who are concerned with the urban water cycle or have an interest in contaminant migration, risk assessment or site remediation. It should be obligatory reading for all who contribute to the urban planning process. -- Prof. Ken W.F. Howard, Vice-President of the International Association of Hydrogeologists (IAH), Chair of the IAH Commission on Groundwater in Urban Areas, and Professor of Hydrogeology at the University of Toronto, Canada Urban Watersheds is a comprehensive study of the hydrogeology, pollutant behaviors, investigation methods and remedial approaches in our most populated regions. The authors provide technical depth across this wide range of topics with a writing style that makes the topics very accessible, even to non-technical readers. This book will be a valuable resource for the technical, regulatory and policy-making communities. --Fred Payne, PhD, Vice President and Technical Director, Arcadis

Long overdue, Urban Watersheds addresses a socially relevant issue where geology provides a leadership role in coordinating extensive interdisciplinary studies. It is hard to impress upon the global populace how important water resources are especially in the urban environment. This volume does an admirable job in raising the awareness of the subject. Especially significant is the ability of the authors to actually address sustainable development within the context of water as an essential resource. Kaufman, Rogers and Murray should be congratulated for championing the effort. The topic of watersheds is usually discussed in the perspective of the rural landscape and this volume makes a positive but quantum leap towards linking the management of water within the urban environment. From mapping and quantifying vulnerability to contaminant identification and remediation techniques, this single volume does an admirable job in addressing all aspects for this fascinating subject. The collective expertise and knowledge of Kaufman, Rogers and Murray ensured a professional standard of output was achieved in this technically accurate and scientifically interesting treatise. A must have book for engineers, geologists, hydrologists, and all others concerned with water. --Peter Bobrowsky, PhD, Secretary General of the International Union of Geological Sciences Urban Watersheds: Geology, Contamination, and Sustainable Development serves as a comprehensive reference for anyone working in, or studying the field of urban stormwater runoff management. The book addresses the multi-faceted nature of urban stormwater issues, and offers insightful well organized solutions to watershed contamination problems caused by runoff. The multidisciplinary nature of the book is a welcomed strength. The book logically follows the various and important aspects of the stormwater problem -- hydrology, ecology, pollution prevention and low impact development. The authors capitalize on this interdisciplinary approach by demonstrating the links between science and planning, in hopes that urban land use decisions can be made with a sound scientific backing. The book also aims to increase the effectiveness of watershed restoration by highlighting successful and unsuccessful approaches to contaminant remediation. Government officials, municipal regulators, stormwater utility personnel, watershed groups, researchers and students of a variety of courses from urban planning to environmental studies will find this book very useful. --Hale W. Thurston, PhD, U.S. Environmental Protection Agency, Cincinnati, Ohio, USA With the heightened risk of human exposure to a multitude of urban-sourced pollutants, ensuring healthy living conditions in heavily populated environments has become a daunting challenge. Contaminants that accumulate and migrate in the shallow subsurface represent one of the greatest threats to urban sustainability, but this concern is frequently ignored by an urban planning process that tends to be two-dimensional and ignores the critical role that groundwater plays in an urban setting. In this book on the sustainable development of urban watersheds, authors Kaufman, Rogers and Murray introduce a fundamentally new framework for planning and achieving sustainable urban watersheds, a framework that is rooted in the principles of hydrogeology, is soundly based in science and considers the watershed as a dynamic, fully integrated system. The book will strongly interest all students and professionals who are concerned with the urban water cycle or have an interest in contaminant migration, risk assessment or site remediation. It should be obligatory reading for all who contribute to the urban planning process. -- Prof. Ken W.F. Howard, Vice-President of the International Association of Hydrogeologists (IAH), Chair of the IAH Commission on Groundwater in Urban Areas, and Professor of Hydrogeology at the University of Toronto, Canada Urban Watersheds is a comprehensive study of the hydrogeology, pollutant behaviors, investigation methods and remedial approaches in our most populated regions. The authors provide technical depth across this wide range of topics with a writing style that makes the topics very accessible, even to non-technical readers. This book will be a valuable resource for the technical, regulatory and policy-making communities. --Fred Payne, PhD, Vice President and Technical Director, ARCADIS, Novi, Michigan, USA

Author Information

Martin M. Kaufman is a professor of earth science at the University of Michigan-Flint. He has over 25 years of experience in geographic information systems, hydrologic investigations, and watershed management. Daniel T. Rogers is currently the director of environmental affairs at Amsted Industries Incorporated. Throughout his career, Rogers has managed and conducted hundreds of geologic and hydrogeologic investigations and remediated and successfully closed industrial sites in the United States and internationally. Kent S. Murray is a professor of geology at the University of Michigan-Dearborn. He has over 35 years experience in environmental geology, groundwater hydrology, and low-temperature geochemistry.

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