Economic models are used to show the extent of the difficulties involved in monitoring and enforcing pollution control laws on a continual basis. The authors make several recommendations for policy change. They also show that high rates of compliance can be achieved within tight budget constraints.Originally published in 1986

One of the most challenging environmental threats to the ten countries of the Association of Southeast Asian Nations (ASEAN) has been the haze, the sickening and deadly cloud of smoky pollution caused by widespread burning of land and forests in Indonesia. This book examines both the threat and response to it by analysing environmental cooperation in Southeast Asia from an international regime perspective. Tracing the development of regional cooperation on the haze and evaluating the effectiveness of the cooperation, the author argues that the haze crisis, combined with the economic crisis of 1997, has profoundly challenged the ASEAN modus operandi, and resulted in ASEAN's efforts to establish an environmental regime to cope with environmental challenges. The emerging ASEAN haze regime is a unique case study of a regional environmental institution in multi-levelled global environmental governance. Based on in-depth original research, this case study is integrated into international relations, political science, and comparative political analysis literatures and contributes to a better understanding of processes within the regional organisation.

Although the field of radioactive air sampling has matured and evolved over decades, it has lacked a single resource that assimilates technical and background information on its many facets. Edited by experts and with contributions from top practitioners and researchers, Radioactive Air Sampling Methods provides authoritative guidance on measuring airborne radioactivity from industrial, research, and nuclear power operations, as well as naturally occuring radioactivity in the environment.
Designed for industrial hygienists, air quality experts, and heath physicists, the book delves into the applied research advancing and transforming practice with improvements to measurement equipment, human dose modeling of inhaled radioactivity, and radiation safety regulations. To present a wide picture of the field, it covers the international and national standards that guide the quality of air sampling measurements and equipment. It discusses emergency response issues, including radioactive fallout and the assets used to assess airborne radioactive emergencies.

The book includes a comprehensive series of air sampling methods for commonly encountered radioactive isotopes in the industrial environment that detail the steps to conducting a proper air sampling study. With coverage of fundamental air sampling techniques and practical knowledge, the book provides insight into the contemporary thinking of experts, the maturity of the field, and its deep literature base. Building a bridge between the science behind air sampling and its practice, it supplies the know-how required to achieve technically rigorous air sampling data.

This book provides a comprehensive overview of ionic liquid based separation techniques. The glimpse of thermodynamic predictive models along with global optimization techniques will help readers understand the separation techniques at molecular and macroscopic levels. Experimental and characterization techniques are coupled with model based predictions so as to provide multicomponent data for the scientific community. The models will focus more on the a-priori based predictions which gives higher emphasis on hydrogen-bonded systems. Particle Swarm Optimization (PSO) technique will also eventually help the readers to apply optimization technique to an extraction process. The overriding goal of this work is to provide pathways for leading engineers and researchers toward a clear understanding and firm grasp of the phase equilibria of Ionic Liquid systems.

Identifying efficient solutions to protect coastal regions from marine pollution requires expertise from a range of specialties and strategic approaches. This book gathers information on the impact of oil spills at a coastal level from different experts' points of view, identifying synergies between domains such as mathematics, numerical modeling, mechanics, biology, economics and law. The collaborative research presented here is based on the 4th International Workshop on Anti-Pollution and Marine Coastal Water Pollution, held in La Rochelle, France at the Engineering School EIGSI, in April 2012. The areas addressed include: materials and structures (fluid-structure and capture interaction, cable and membrane equations, optimization); coastal hydrodynamics (computational fluid dynamics, numerical analysis of shallow water equations, analytical and numerical derivatives); biological impacts (biology, multivariate analysis, indicators); and economics and law (compensation costs, insurance coverage, coastal vulnerability).

Climate change policy and the reduction of greenhouse gas emissions are currently discussed at all scales, ranging from the Kyoto Protocol to the increasingly frequent advertisement of ''carbon neutrality'' in consumer products. However, the only policy option usually considered is the reduction of direct emissions. Another potential policy tool, currently neglected, is the reduction of indirect emissions, i.e., the emissions embodied in goods and services, or the payments thereof.

This book addresses the accounting of indirect carbon emissions (as embodied in international trade) within the framework of input-output analysis and derives an indicator of environmental responsibility as the average of consumer and producer responsibility. A global multi-regional input-output model is built, using databases on international trade and greenhouse gas emissions, from which embodied carbon emissions and carbon responsibilities are obtained.

Carbon Responsibility and Embodied Emissions consists of a theoretical part, concerning the choice of environmental indicators, and an applied part, reporting an environmental multi-regional input-output model. It will be of particular interest to postgraduate students and researchers in Ecological Economics, Environmental Input-Output Analysis, and Industrial Ecology.

Since its discovery in early 1900, turbulence has been an interesting and complex area of study. Written by international experts, Air Pollution and Turbulence: Modeling and Applications presents advanced techniques for modeling turbulence, with a special focus on air pollution applications, including pollutant dispersion and inverse problems. The book's foreword was written by specialists in the field, including the Professor Sergej Zilitinkevich. Offering innovative atmospheric mathematical modeling methods, which can also be applied to other disciplines, the book includes: Discussions on the effects of soot and diesel particulates on building surfaces and human health Observational studies of convective Atmospheric Boundary Layer (ABL) over pastures and forests in Amazonia Theoretical studies of turbulence and turbulent transport modeling of contaminants during the decaying of a ABL convective The parameterization of convective turbulence and clouds in atmospheric models based on the combination of the eddy-diffusivity and mass-flux approaches Analytical solutions to the advection-diffusion equation and analytical models for air pollution, including those for low wind conditions Analytical solutions to the advection-diffusion equation using the Generalized Integral Laplace Transform Technique (GILTT) and the decomposition method Lagrangian stochastic dispersion models with applications for airborne dispersion in the ABL Atmospheric dispersion with Large Eddy Simulation (LES) using the Lagrangian and Eulerian approaches Modeling of photochemical air pollution for better air quality management Analysis of the transport of a trace gas (CO2) at the global scale and overviews of the inverse-problem techniques for deducing emissions from known concentrations The book provides a solid theor

This book shows the effectiveness of DRASTIC model in a geographical setting for validation of vulnerable zones and presents the optimization of parameters for the development of precise maps highlighting several zones with varied contamination. Impact of vadose zone has also been assessed by considering every sub-surface layer. Exclusive title covering effectiveness of DRASTIC model for groundwater vulnerability assessment Reviews of the strengths and limitations of assessment methods Presents multi-criteria evaluation of hydro-geological and anthropogenic factors Discusses integration with geographic information system (GIS) and remote sensing (RS) Includes application of groundwater governance framework with a case study study of a geographical setting

The detection of pharmaceutical residues remained elusive until instruments such as liquid chromatography and mass spectrometry became commonplace in environmental laboratories. The documentation of the occurrence of pharmaceutical residues and endocrine disrupting chemicals in water resources has raused questions about their long-term effects in the ecosystem and their potential effects on human health. Fate of Pharmaceuticals in the Environment and in Water Treatment Systems covers critical issues regarding the occurrence, persistence, treatment, and transformations of pharmaceuticals in the environment and in drinking water and wastewater treatment systems. Acompilation of the recent literature, the book reviews advances in instrumentation and sample preparation techniques and includes an example of how risk assessment is conducted to investigate the fate and effects of pharmaceutical contaminants. Several chapters explore the behavior of pharmaceuticals in soil and the potential side effects of antibiotics on plants after uptake. Experts in drinking water and wastewater treatment systems present new findings on the effectiveness of current treatment practices to reduce the concentrations of pharmaceuticals at the source, providing new insights on how to better mitigate future problems brought about by emerging environmental contaminants. Contributing authors from academia, government, and industry provide a well-balanced multi-disciplinary perspective on the issues, discussing topics ranging from field studies documenting the occurrence of pharmaceuticals in environmental compartments, to laboratory studies determining the degradation kinetics and formation of by-products during treatment. The text discusses the factors that affect the environmental fate of pharmaceuticals in soil and water, facilitate the development of best management practices, and optimize treatment systems for removal of these compounds fro

Seawater desalination is a rapidly growing coastal industry that is increasingly threatened by algal blooms. Depending on the severity of algal blooms, desalination systems may be forced to shut down because of clogging and/or poor feed water quality. To maintain stable operation and provide good feed water quality to seawater reverse osmosis (SWRO) systems, ultrafiltration (UF) pre-treatment is proposed. This research focused on assessing the ability of UF and other pre-treatment technologies to reduce biofouling in SWRO systems. An improved method to measure bacterial regrowth potential (BRP) was developed and applied at laboratory, pilot and full scale to assess the ability of conventional UF (150 kDa) and tight UF (10 kDa) alone and in combination with a phosphate adsorbent to reduce regrowth potential and delay the onset of biofouling in SWRO. The improved bacterial regrowth potential method employs a natural consortium of marine bacteria as inoculum and flow cytometry. The limit of detection of the BRP method was lowered to 43,000 +/- 12,000 cells/mL, which is equivalent to 9.3 +/- 2.6 g-Cglucose/L. The reduction in bacterial regrowth potential after tight UF (10 kDa) was 3 to 4 times higher than with conventional UF (150 kDa). It was further reduced after the application of a phosphate adsorbent, independent of pore size of the UF membrane. Pilot studies demonstrated that the application of tight UF (10 kDa) coupled with a phosphate adsorbent consistently lowered the bacterial regrowth potential and no feed channel pressure drop increase was observed in membrane fouling simulators (MFS) over a period of 21 days. The study also showed that non-backwashable fouling of UF membranes varied strongly with the type of algal species and the algal organic matter (AOM) they release. The presence of polysaccharide (stretching -OH) and sugar ester groups (stretching S=O) was the main cause of non-backwashable fouling. In conclusion, this study showed that an improved BRP method is suitable for the assessment of SWRO pre-treatment systems and it can be a useful tool to develop potential strategies to mitigate biofouling and improve the sustainability of SWRO systems.

Seawater desalination is a rapidly growing coastal industry that is increasingly threatened by algal blooms. Depending on the severity of algal blooms, desalination systems may be forced to shut down because of clogging and/or poor feed water quality. To maintain stable operation and provide good feed water quality to seawater reverse osmosis (SWRO) systems, ultrafiltration (UF) pre-treatment is proposed. This research focused on assessing the ability of UF and other pre-treatment technologies to reduce biofouling in SWRO systems. An improved method to measure bacterial regrowth potential (BRP) was developed and applied at laboratory, pilot and full scale to assess the ability of conventional UF (150 kDa) and tight UF (10 kDa) alone and in combination with a phosphate adsorbent to reduce regrowth potential and delay the onset of biofouling in SWRO. The improved bacterial regrowth potential method employs a natural consortium of marine bacteria as inoculum and flow cytometry. The limit of detection of the BRP method was lowered to 43,000 +/- 12,000 cells/mL, which is equivalent to 9.3 +/- 2.6 g-Cglucose/L. The reduction in bacterial regrowth potential after tight UF (10 kDa) was 3 to 4 times higher than with conventional UF (150 kDa). It was further reduced after the application of a phosphate adsorbent, independent of pore size of the UF membrane. Pilot studies demonstrated that the application of tight UF (10 kDa) coupled with a phosphate adsorbent consistently lowered the bacterial regrowth potential and no feed channel pressure drop increase was observed in membrane fouling simulators (MFS) over a period of 21 days. The study also showed that non-backwashable fouling of UF membranes varied strongly with the type of algal species and the algal organic matter (AOM) they release. The presence of polysaccharide (stretching -OH) and sugar ester groups (stretching S=O) was the main cause of non-backwashable fouling. In conclusion, this study showed that an improved BRP method is suitable for the assessment of SWRO pre-treatment systems and it can be a useful tool to develop potential strategies to mitigate biofouling and improve the sustainability of SWRO systems.

The use of marine organisms to degrade a variety of natural and synthetic substances in the marine environment, thereby reducing the levels of hazardous compounds, is increasingly drawing attention because of the potential such bioremediation has for environmental restoration. Among the current research efforts in bioremediation are some directed towards identifying organisms that possess the ability to degrade specific pollutants. With such organisms, which have already been identified, biochemical studies are going on with the aim of elucidating the pathways of these degradative processes and the enzymes involved. The volume includes chapters that are devoted to petroleum spill bioremediation, use of spectroscopy to identify microbial metabolic pathways, detoxification of mercury by using recombinant mercury-resistant bacteria, and the use of manganese-oxidizing bacteria for bioremediation. A broad-based approach to bioremediation of marine habitats is required because of the wide variety of contaminants in our oceans.

China's rapid industrialisation has led to "an air pollution catastrophe". Concerted efforts to achieve economic growth have led to veiled skies of toxic air and created health and morbidity problems as well as tremendous environmental degradation. China's Air Pollution Problems provides an overview of air pollution in China describing how and why China has ended up in such a dire situation, what the government is doing to address the problem and the difficulties it is encountering in attempting to reduce the pollution. The analysis is based on both grey literature (newspaper articles, NGO reports, Chinese government information) and on academic studies. The grey literature gives a voice to those who suffer from the pollution, their advocates, and government officers, and allows the reader to better grasp the conditions on the ground, and the impact of air pollution among people in different areas in China. The academic literature adds a theoretical perspective and brings these different case studies into a broader context. This book will be of great interest to students of environmental pollution and contemporary Chinese studies looking for an introduction to the topic and also for researchers looking for an extensive list of sources and analysis of China's environmental problems.

Contents:
List of Figures. List of Tables. Acknowledgements. 1. Agriculture and Pollution. 1.1. Setting the Scene. 1.2. Solving the Problem. 2. Nitrates and Nitrogen Loss. 2.1. Introduction. 2.2. The Nitrogen Cycle. 2.3 Nitrogen Transformation. 2.4 Nitrogen Fertiliser Use in Agriculture. 2.5. The Causes of Nitrate Pollution. 2.6. Problems Caused by Nitrate Pollution. 2.7. Reducing Nitrate Losses from Agriculture. 3. Phosphorus. 3.1. Introduction. 3.2 The Phosphorus Cycle. 3.3. Phosphorus losses. 3.4. Environmental Implications of Phosphorus Pollution. 3.5. Environmental Problems Caused by Phosphorus Pollution. 3.6. Practical Solutions. 4. Soil Erosion. 4.1. Introduction. 4.2. Vulnerability of Soil to Erosion and Degradation. 4.3. Environmental Impacts of Soil Erosion. 4.4. Practical Solutions to Soil Erosion. 5. Organic Wastes. 5.1. Introduction. 5.2. Farm Wastes. 5.3. Non-Agricultural Organic Soil Amendments. 5.4. Practical Solutions. 5.5. Non-Agricultural Organic Wastes. 5.6. Alternative Technologies for Farm Waste Treatment. 6. Gaseous Emissions. 6.1. Introduction. 6.2. Ammonia Emissions. 6.3. Methane Emissions. 6.4. Nitrous Oxide Emissions. 6.5. Carbon Dioxide Emissions. 6.6. Farm Odours. 7. Pesticides. 7.1. Introduction. 7.2. Pesticides and their Application. 7.3. Mode of Action. 7.4. Insecticides. 7.5. Herbicides. 7.6. Fungicides. 7.7. The Causes of Pesticide Pollution. 7.8. Behaviour and Fate of Pesticides in the Environment. 7.9. Environmental Problems caused by Pesticides Residues. 7.10. Practical Solutions. 7.11. New Technology. 7.12. Alternatives to Synthetic Pesticides. 8. Genetic Modification. 8.1. Introduction. 8.2. Risks and Benefits. 8.3. Assessing Environmental Risk. 8.4. The Future for GMO's. 9. Policy Strategies for Reducing Pollution. 9.1. Introduction. 9.2. Emergence of Contemporary Agri-Environmental Policy. 9.3. Policy Instruments, Strategies and Implementation. 9.4. Learning from Experience. 9.5. Future Directions. Author Index. Subject Index.

This comprehensive text provides a concise overview of environmental problems caused by agriculture, (such as pesticide pollution and increased nitrate levels) and offers practical solutions to them. It is well illustrated and contains a fully-referenced introduction to the main contemporary agricultural pollution issues in the UK. It will help provide clear, scientific and technical understanding of the most important sources of agricultural pollution.

Hazardous Air Pollutant Handbook: Measurements, Properties, and Fate in Ambient Air provides a comprehensive review of the 188 compounds and compound classes designated as Hazardous Air Pollutants (HAPs) by the Clean Air Act Amendments of 1990, with a specific focus on their potential presence in ambient air. The relevant chemical and physical properties of the compounds are discussed and tabulated, and suitable methods for their measurement in ambient air are identified. A survey of measurements of ambient HAP concentrations is provided for use in historical comparisons and for evaluating the current human health risks from these chemicals. Finally, the book reviews the atmospheric reactions that control the lifetime and fate of the HAPs in ambient air, and summarizes the current knowledge about their transformation products.

In spite of the growing importance of Species Sensitivity Distribution models (SSDs) in ecological risk assessments, the conceptual basis, strengths, and weaknesses of using them have not been comprehensively reviewed. This book fills that need. Written by a panel of international experts, Species Sensitivity Distributions in Ecotoxicology reviews the current SSD methods from all angles, compiling for the first time the variety of contemporary applications of SSD-based methods.

Beginning with an introduction to SSDs, the chapter authors review the issues surrounding SSDs, synthesizing the positions of advocates and critics with their own analysis of each issue. Finally, they discuss the prospects for future development, paving the way for improved future uses. In sum, this book defines the field of SSD modeling and application. It reveals a lively field, with SSD-applications extending beyond legally adopted quality criteria to other applications such as Life-Cycle Analysis.

For anyone developing or revising environmental criteria or standards, this book explores the pros and cons of using the SSD approach. For anyone who needs to apply and interpret SSD-based criteria or standards, the book explains the basis for the numbers, thereby making it possible to correctly apply and defend them. For anyone performing ecological risk assessments, the book covers when and how to use SSDs including alternative assumptions, data treatments, computational methods, and available resources. Species Sensitivity Distributions in Ecotoxicology provides you with a clear picture of these standard models for estimating ecological risks from laboratory toxicity data.

This study, originally published in 1972, examines the connections between human society and the rest of the universe that are attributable to economic activity. These include the inputs from the environment to industry, such as oxygen, used in the combustion of mineral fuels. Also included are the industrial outputs which are fed back into the environment in the form of waste products. An attempt will be made to establish functional relations between the extent and character of economic activity and the flow of materials in both directions between the economy and the environment. This title will be of interest to students of environmental and natural resource economics.

This book examines how chemistry, chemical processes, and transformations are used for pollution prevention and control. Pollution prevention reduces or eliminates pollution at the source, whereas pollution control involves destroying, reducing, or managing pollutants that cannot be eliminated at the source. Applications of environmental chemistry are further illustrated by nearly 150 figures, numerous example calculations, and several case studies designed to develop analytical and problem solving skills. The book presents a variety of practical applications and is unique in its integration of pollution prevention and control, as well as air, water, and solid waste management.

Building on the success of bioremediation and phytoremediation technologies, Natural and Enhanced Remediation Systems explores remediation techniques that use the beneficial effects provided by Mother Nature. Written by a leader in the industry, the book provides state-of-the-art information on natural and enhanced remediation techniques such as monitored natural attenuation, in situ reactive zones, bio-augmentation, in situ chemical oxidation, phytoremediation, constructed wetlands, and engineered phyto-covers. It contrasts the new paradigms in remediation with the conventional remedies of the past two decades. It addresses theoretical and design aspects and includes case studies that illustrate implementation and performance details. The appendixes contain substantial information and data usually found scattered in many different books and research papers, making Natural and Enhanced Remediation Systems a comprehensive resource on cutting-edge remediation technologies.

Contents:
1. Introduction. 2. Determination of Metals in Soils. 3. Determination of Metals in Non-Saline Sediments. 4. Determination of Metals in Marine Sediments. 5. Determination of Metals in Estuarine Sediments. 6. Determination of Metals in Sludges. 7. Determination of Anions in Soil. 8. Determination of Anions in Non-Saline Sediments. 9. Determination of Anions in Sludges 10. Sampling Procedures. 11. Accumulation Processes in Sediments. 12. Disposal of Wastes to Land. 13. Relationship between Metal Content of Soil and Crops Grown on Soil. Index.

What are the potential adverse impacts of climate change? How can society determine the amount of protection against climate change that is warranted, given the benefits and costs of various policies? In concise, informative chapters, Climate Economics and Policy considers the key issues involved in one of the most important policy debates of our time. Beginning with an overview and policy history, it explores the potential impact of climate change on a variety of domains, including water resources, agriculture, and forests. The contributors then provide assessments of policies that will affect greenhouse gas emissions, including electricity restructuring, carbon sequestration in forests, and early reduction programs. In considering both domestic and international policy options, the authors examine command and control strategies, energy efficiency opportunities, taxes, emissions trading, subsidy reform, and inducements for technological progress. Both policymakers and the general public will find this volume to be a convenient and authoritative guide to climate change risk and policy. It is a useful resource for professional education programs, and an important addition for college courses in environmental economics and environmental studies. Climate Economics and Policy is a collection of Issue Briefs, prepared by the staff of Resources for the Future (RFF) and outside experts. Many are adapted from pieces originally disseminated on Weathervane, RFF s acclaimed web site on global climate change.

Provides approaches and methodologies for implementing pollution preve This book focuses on reducing manufacturing and environmental complian Streamlines environmental management and pollution control practices a Containing helpful tables and matrixes that furnish suggestions, ideas, and proven technologies to control pollution and minimize waste Base d on the authorFs first-hand experience as an international consultant, the Handbook of Pollution Prevention Practices is a blue-ribbon refe rence for chemical, civil, environmental, pollution control, pharmaceu tical, metallurgical, and occupational health and safety engineers; au tomotive parts manufacturers; health and safety officers in government and industry; industrial hygienists and toxicologists; environmental regulators; and upper-level undergraduate and graduate students in the se disciplines.

This title, first published in 1990, is intended to assess the impact of national environmental control policies on international trade and competitiveness in general, and, in particular, the impact of differential environmental control policies on the international trade and competiveness of the two industrialized nations, Germany and the United States. To assess the impact of differential environmental control policies on trade, this study applies a comparative analysis of the two countries.

Provides an integrated and comprehensive approach that covers qualitative and quantitative analyses of techniques from a variety of disciplines such as engineering, and the physical/ chemical and biological sciences Geoenvironmental Engineering applies science and engineering principles to the analysis, design, and implementation of technical schemes to characterize, treat, modify, and reuse/store waste and contaminated media-including site remediation. Facilitating the assessment and solving of current and future geoenvironmental problems through the synthesis of essential principles from diverse fields of study, Geoenvironmental Engineering discusses soil formation, composition, structure, and its behavior and interaction with water, as well as dissolved and immiscible contaminants. presents clean-up criteria and pathways for contaminant exposure in site remediation, and outlines the various remediation strategies describes types of waste containment and containment site selection, containment system configurations, the essentials of containment system design, and the treatment of barrier composition and performance issues Geoenvironmental Engineering shows how scientists and engineers can bring their vital skills to analyze and solve the environmental problems of the ground surface and subsurface. It is a timely and important reference for civil, geoenvironmental, geotechnical, environmental, chemical, foundation, petroleum, water resource, hydraulic, mining, and minerals engineers; geologists, geochemists, geophysicists, and biogeochemists; geostatisticians; soil scientists and agronomists; environmental policymakers, specification writers, and water resource managers; marine, molecular, plant, fisheries, field, and soil biologists and microbiologists; and a thorough text for upper-level undergradaute and graduate students in these disciplines.