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Environmental Biotechnology: Theory and Application
by Gareth G. Evans Judy FurlongEnvironmental Biotechnology: Theory and Applications, 2nd Edition is designed to draw together the microscopic, functional level and the macroscopic, practical applications of biotechnology and to explain how the two relate within an environmental context. It presents the practical biological approaches currently employed to address environmental problems and provides the reader with a working knowledge of the science that underpins them. Biotechnology has now become a realistic alternative to many established approaches for manufacturing, land remediation, pollution control and waste management and is therefore an essential aspect of environmental studies. Fully updated to reflect new developments in the field and with numerous new case studies throughout this edition will be essential reading for undergraduates and masters students taking modules in Biotechnology or Pollution Control as part of Environmental Science, Environmental Management or Environmental Biology programmes. Quote from the first edition: "There is no doubt that this book will be one of inspiration for all professionals in the field. It is a very good framework for understanding the complex nature of processes and technology and as such it will be useful for researchers, practitioners and other parties who need a working knowledge of this fascinating subject." —Professor Bjorn Jensen, Chairman of the European Federation of Biotechnology, Environmental Biotechnology section and Research and Innovation Director, DHI Water and Environment
Environmental Biotechnology
by M. H. FulekarThis book provides information essential to students taking courses in biotechnology as part of environmental sciences, environmental management, or environmental biology programs. It is also suitable for those studying water, waste management, and pollution abatement. Topics include biodiversity, renewable energy, bioremediation technology, recomb
Environmental Biotechnology: Fundamentals to Modern Techniques (Emerging Materials and Technologies)
by Sibi GThis book approaches the topic of environmental biotechnology in a clear, integrated, and meaningful way, covering both the fundamentals and biochemical processes involved, as well as the technologies themselves within different areas of application. As part of the framework, it also provides a thorough description of the pollution and its control, and the role of microorganisms in a wide range of ecosystems and deterioration processes. Features: Focuses on the role of microorganisms in a wide range of ecosystems and deterioration processes. Explains underlying concepts of environment, interlinks them from an ecological point of view, and describes the approaches for waste treatment. Describes the concepts and fate processes of environmental contaminants, contaminant patterns in soil, groundwater, and surface water. Includes novel research findings and applications of biosurfactants. Discusses biodegradation as a key process in the bioremediation of recalcitrant compounds. This book is aimed at Primarily Senior Undergraduates including Graduate Students and Researchers in Biotechnology, Environmental Science/Engineering, Conservation Biology, Microbiology, Waste Management, and Ecology.
Environmental Biotechnology: Fundamentals to Modern Techniques (Emerging Materials and Technologies)
by Sibi GThis book approaches the topic of environmental biotechnology in a clear, integrated, and meaningful way, covering both the fundamentals and biochemical processes involved, as well as the technologies themselves within different areas of application. As part of the framework, it also provides a thorough description of the pollution and its control, and the role of microorganisms in a wide range of ecosystems and deterioration processes. Features: Focuses on the role of microorganisms in a wide range of ecosystems and deterioration processes. Explains underlying concepts of environment, interlinks them from an ecological point of view, and describes the approaches for waste treatment. Describes the concepts and fate processes of environmental contaminants, contaminant patterns in soil, groundwater, and surface water. Includes novel research findings and applications of biosurfactants. Discusses biodegradation as a key process in the bioremediation of recalcitrant compounds. This book is aimed at Primarily Senior Undergraduates including Graduate Students and Researchers in Biotechnology, Environmental Science/Engineering, Conservation Biology, Microbiology, Waste Management, and Ecology.
Environmental Biotechnology: Concepts and Applications
by Hans-Joachim Jördening Josef WinterA deeper insight into the complex processes involved in this field, covering the biological, chemical and engineering fundamentals needed to further develop effective methodologies. The book devotes detailed chapters to each of the four main areas of environmental biotechnology -- wastewater treatment, soil treatment, solid waste treatment, and waste gas treatment -- dealing with both the microbiological and process engineering aspects. The result is the combined knowledge contained in the extremely successful volumes 11a through 11c of the "Biotechnology" series in a handy and compact form.
Environmental Biotechnology: Principles and Applications
by Murray Moo-Young W. A. Anderson A. M. ChakrabartyBiotechnology offers a `natural' way of addressing environmental problems, ranging from identification of biohazards to bioremediation techniques for industrial, agricultural and municipal effluents and residues. Biotechnology is also a crucial element in the paradigm of `sustainable development'. This collection of 66 papers, by authors from 20 countries spanning 4 continents, addresses many of these issues. The material presented will interest scientists, engineers, and others in industry, government and academia. It incorporates both introductory and advanced aspects of the subject matter, which includes water, air and soil treatment, biosensor and biomonitoring technology, genetic engineering of microorganisms, and policy issues in applying biotechnology to environmental problems. The papers present a variety of aspects ranging from current state-of-the-art research, to examples of applications of these technologies.
Environmental Biotechnology: Reducing Risks from Environmental Chemicals through Biotechnology (Basic Life Sciences #45)
by Gilbert S. OmennGilbert S. Omenn Dean, School of Public Health and Community Medicine University of Washington Seattle, Washington 98195 On behalf of the University of Washington , the City of Seattle, the Steering Committee, and the sponsoring agencies, corporations, and organ izations, I welcome you. \Ve all expect this Conference to stimulate further what is becoming an important application of biotechnology in an area in which our society experiences considerable frustration and gloom: the management of hazardous wastes. It is an all-too-frequent refrain that technology has its benefits and its risks. To many--in the lay pUblic, at least--the damaging notion has taken hold that we are capable of creating problems but are less capable of finding solutions. Chemical streams from industry, agriculture, municipal operations, and household operations have contaminated groundwater, drinking water, and soils, and have undermined the productivity of agri culture and the quality of life. In the meantime, however, we have im proved our quality of life in immeasurable ways through some related developments. The challenge is to continue the enhancements while modifying or preventing the damage.
Environmental Biotechnology: Biodegradation, Bioremediation, and Bioconversion of Xenobiotics for Sustainable Development (Innovations In Biotechnology Ser.)
by Jeyabalan Sangeetha Devarajan Thangadurai Muniswamy David Mohd Azmuddin AbdullahWith focus on the practical use of modern biotechnology for environmental sustainability, this book provides a thoughtful overview of molecular aspects of environmental studies to create a new awareness of fundamental biological processes and sustainable ecological concerns. It covers the latest research by prominent scientists in modern biology and delineates recent and prospective applications in the sub-areas of environmental biotechnology with special focus on the biodegradation of toxic pollutants, bioremediation of contaminated environments, and bioconversion of organic wastes toward a green economy and sustainable future.
Environmental Biotechnology: Biodegradation, Bioremediation, and Bioconversion of Xenobiotics for Sustainable Development
by Jeyabalan Sangeetha Devarajan Thangadurai Muniswamy David Mohd Azmuddin AbdullahWith focus on the practical use of modern biotechnology for environmental sustainability, this book provides a thoughtful overview of molecular aspects of environmental studies to create a new awareness of fundamental biological processes and sustainable ecological concerns. It covers the latest research by prominent scientists in modern biology and delineates recent and prospective applications in the sub-areas of environmental biotechnology with special focus on the biodegradation of toxic pollutants, bioremediation of contaminated environments, and bioconversion of organic wastes toward a green economy and sustainable future.
Environmental Biotechnology: For Sustainable Future
by Ranbir Chander Sobti Naveen Kumar Arora Richa KothariEnvironmental sustainability is one of the biggest issues faced by the mankind. Rapid & rampant industrialization has put great pressure on the natural resources. To make our planet a sustainable ecosystem, habitable for future generations & provide equal opportunity for all the living creatures we not only need to make corrections but also remediate the polluted natural resources. The low-input biotechnological techniques involving microbes and plants can provide the solution for resurrecting the ecosystems. Bioremediation and biodegradation can be used to improve the conditions of polluted soil and water bodies. Green energy involving biofuels have to replace the fossil fuels to combat pollution & global warming. Biological alternatives (bioinoculants) have to replace harmful chemicals for maintaining sustainability of agro-ecosystems. The book will cover the latest developments in environmental biotech so as to use in clearing and maintaining the ecosystems for sustainable future.
Environmental Biotechnology: Volume 17 (Handbook of Environmental Engineering #10)
by Lawrence K. Wang Volodymyr Ivanov Joo-Hwa TayThe past 30 years have seen the emergence of a growing desire worldwide that positive actions be taken to restore and protect the environment from the degrading effects of all forms of pollution – air, water, soil, and noise. Since pollution is a direct or indirect consequence of waste production, the seemingly idealistic demand for “zero discharge” can be construed as an unrealistic demand for zero waste. However, as long as waste continues to exist, we can only attempt to abate the subsequent pollution by converting it to a less noxious form. Three major questions usually arise when a particular type of pollution has been identi ed: (1) How serious is the pollution? (2) Is the technology to abate it available? and (3) Do the costs of abatement justify the degree of abatement achieved? This book is one of the volumes of the Handbook of Environmental Engineering series. The principal intention of this series is to help readers formulate answers to the last two questions above. The traditional approach of applying tried-and-true solutions to speci c pollution problems has been a major contributing factor to the success of environmental engineering, and has accounted in large measure for the establishment of a “methodology of pollution control. ” However, the realization of the ever-increasing complexity and interrelated nature of current environmental problems renders it imperative that intelligent planning of pollution abatement systems be undertaken.
Environmental Biotechnology and Cleaner Bioprocesses
by Eugenia J. Olguín, Gloria Sánchez, Elizabeth HernándezAs we enter a new millennium, the environmental issues faced by both developing and industrialised nations are as pressing as ever. Environmental biotechnologies are increasingly being viewed as a major weapon against environmental damage. Cleaner production is part of this strategy and yet there is still widespread ignorance about this emerging technology. Environmental Biotechnology and Cleaner Bioprocesses provides this information at various levels, from introductory to advanced. The first section covers the development of cleaner bioprocesses within the framework of sustainable development. Aspects of environmental policy for small and medium businesses are then discussed using case studies to illustrate principles. The second section covers the recycling and treatment of organic waste, including the use of aquatic plants and microalgae for wastewater treatment and recovery of nutrients. Section three covers bioremediation technologies and finally, section four is dedicated to emerging cleaner bioprocesses and environmentally sound products. All chapters have been written and edited by leading authorities in the field. Students and professionals interested in environmental biotechnology and cleaner production will find the background information and detail they require in this one convenient source.
Environmental Biotechnology and Cleaner Bioprocesses
As we enter a new millennium, the environmental issues faced by both developing and industrialised nations are as pressing as ever. Environmental biotechnologies are increasingly being viewed as a major weapon against environmental damage. Cleaner production is part of this strategy and yet there is still widespread ignorance about this emerging technology. Environmental Biotechnology and Cleaner Bioprocesses provides this information at various levels, from introductory to advanced. The first section covers the development of cleaner bioprocesses within the framework of sustainable development. Aspects of environmental policy for small and medium businesses are then discussed using case studies to illustrate principles. The second section covers the recycling and treatment of organic waste, including the use of aquatic plants and microalgae for wastewater treatment and recovery of nutrients. Section three covers bioremediation technologies and finally, section four is dedicated to emerging cleaner bioprocesses and environmentally sound products. All chapters have been written and edited by leading authorities in the field. Students and professionals interested in environmental biotechnology and cleaner production will find the background information and detail they require in this one convenient source.
Environmental Biotechnology For Soil and Wastewater Implications on Ecosystems
by Rita Kundu Rajiv Narula Rajashree Paul Susmita MukherjeeThis book comprises some of the major facts and solutions on environmental studies and its importance on the ecosystem. Implementations of Biotechnology on wastewater treatment and removal of toxins from the wastewater have been thoroughly discussed in different chapters with its impacts on the ecosystem. State of art technologies related to the water treatment as well as balancing of various essential components of the ecosystem has also been demonstrated with various technical solutions. Impacts of various toxins, mainly chemical wastes produced by various industries have been precisely identified and there impacts with various solutions are also discussed. This book is also a collection of various ideas and thoughts coming from reputed scientists and researchers working in this field with modernized technological views. A special emphasis has been given to protect and balance our ecosystem to save the entire living beings. Authors have also tried to make a bridge between bioremediation and ecosystem to bring these in a common platform for better understanding and solution of various critical problems with the help of cutting edge technologies. In this particular aspect or research, the novelty of the book is unparallel to show various future opportunities for the researchers, academicians, industrial personnel working in this field.
Environmental Biotechnology for Waste Treatment (Environmental Science Research #41)
by Gary S. Sayler Robert Fox James BlackburnThe use of biotechnical processes in control of environmental pollution and in haz ardous waste treatment is viewed as an advantageous alternative or adduct to phys ical chemical treatment technologies. Yet, the development and implementation of both conventional and advanced biotechnologies in predictable and efficacious field applications suffer from numerous technical, regulatory, and societal uncertainties. With the application of modern molecular biology and genetic engineering, there is clear potential for biotechnical developments that will lead to breakthroughs in controlled and optimized hazardous waste treatment for in situ and unit process use. There is, however, great concern that the development of these technologies may be needlessly hindered in their applications and that the fundamental research base may not be able to sustain continued technology development. Some of these issues have been discussed in a fragmented fashion within the research and development community. A basic research agenda has been established to promote a sustainable cross-disciplinary technology base. This agenda includes developing new and improved strains for biodegradation, improving bioanalytical methods to measure strain and biodegradation performance, and providing an in tegrated environmental and reactor systems analysis approach for process control and optimization.
Environmental Biotechnology Vol. 1 (Environmental Chemistry for a Sustainable World #44)
by K. M. Gothandam Shivendu Ranjan Nandita Dasgupta Eric LichtfouseThis book provides the information on the application of nanotechnology in cleaning wastewater and the impact of microbial ecosystem to solve environmental problems has been critically reviewed in the chapters. It also gives detailed reviews about the conversion of wastewater nutrients into a biofertilizer using microalgae, as well as the applications of Biochar for heavy metal remediation from water. Most importantly, this book contains critical review on microbial fuel cells and highlights the emerging risks of bioplastics on the aquatic ecosystem.
Environmental Biotechnology Vol. 2 (Environmental Chemistry for a Sustainable World #45)
by K. M. Gothandam Shivendu Ranjan Nandita Dasgupta Eric LichtfouseThis book provides the technological insight on biorefinery and nanoremediation and provides comprehensive reviews on applications of Biochar for environmental sustainability. Critical review on biosurfectants in food applications as well as sustainable agricultural practices has also been provided in this book. It also highlights the microbial-omics and microRNAs for protecting ecotoxicity. Overall, this book provides critical as well as comprehensive chapters on wastewater treatment using different technologies.
Environmental Biotechnology Vol. 3 (Environmental Chemistry for a Sustainable World #50)
by K. M. Gothandam Shivendu Ranjan Nandita Dasgupta Eric LichtfouseThis volume is a collection of informative chapters on various subjects. It provides information on the effects of pesticides on avian fauna, the impact of microbial ecosystems to solve environmental problems, a detailed review on issues in membrane distillations process, microbial sensor for detection of pollutants, microbial biosurfactants, biotechnological applications of immobilised microalgae as well as a review on Biochar production. Most importantly, this book contains a critical review on microbial degradation of plastic wastes and highlights the Biodegradation and Bioremediation of Herbicides.
Environmental Biotechnology Volume 4 (Environmental Chemistry for a Sustainable World #68)
by K. M. Gothandam Ramachandran Srinivasan Shivendu Ranjan Nandita Dasgupta Eric LichtfouseThis book reviews the production of bioplastic from various raw materials and recycling wastewater into useful bioproducts by bacteria. In addition, it also addresses the recent advancement in pest control in rice plants, different methods to analyse genotoxicity on soil samples and the effect of phytocompounds on acrylamide-induced toxicity in Drosophilla. Interestingly, this book also discusses mesoporous silica nanoparticles' role as nanocarrier material for inhibiting the cancer cell, especially breast cancer and various biotechnological applications of marine fungal exopolysaccharides.
Environmental Burden of Disease Assessment (Environmental Science and Technology Library)
by Jacqueline MacDonald Gibson Angela Brammer Christopher Davidson Tiina Folley Frederic Launay Jens ThomsenThis publication characterizes the environmental burden of disease in the United Arab Emirates (UAE), measured by the excess number of deaths and illnesses in the population due to exposure to environmental hazards. The robust methods used in this risk analysis can be applied to any country or region. This publication documents the systematic, multi-step process used to identify environmental priorities and the detailed methods used to quantify the disease burden attributable to each risk. Based on the results of the burden of disease assessment, the publication summarizes the subsequent steps that are recommended to further reduce the burden of disease resulting from various environmental risk factors.Authors and ContributorsThis book represents the synthesis of research carried out by a large, interdisciplinary team from several institutions and multiple nations between June 2008 and June 2011.The lead authors are responsible for weaving together the pieces prepared by the team.Nonetheless, this book would not have been possible without major contributions from each team member.The list below shows contributors to each chapter.Following this list are biographies of all of the authors and contributors. Lead Authors Jacqueline MacDonald Gibson, Frederic J. P. Launay, Jens T. W. Thomsen, Angela Brammer, Christopher DavidsonAdditional Contributors (by Chapter)Chapter 2: Prioritizing Environmental Risks to HealthHenry H. Willis, Aimee Curtright, Gary Cecchine, Zeinab S. Farah,Sandra A. Geschwind, Jianhui Hu, Ying Li, Melinda Moore, Sarah Olmstead, Hanine Salem, Regina A. Shih, J. Jason WestChapter 3: Assessing the Environmental Burden of Disease:Method OverviewTiina Folley, Elizabeth S. Harder, Mejs HasanChapter 4: Burden of Disease from Outdoor Air PollutionYing Li, Gavino Puggioni, Prahlad Jat, Mejs Hasan, Marc Serre, Kenneth G. Sexton, J. Jason West, Saravanan Arunachalam, Uma Shankar, William Vizuete, Mohammed Zuber FarooquiChapter 5: Burden of Disease from Indoor Air PollutionChris B. TrentChapter 6: Burden of Disease from Occupational ExposuresTiina Folley, Leena A. Nylander-French Chapter 7: Burden of Disease from Climate ChangeRichard N. L. Andrews, Leslie Chinery, Elizabeth S. Harder, J. Jason West Chapter 8: Burden of Disease from Drinking Water ContaminationGregory W. Characklis, Joseph N. LoBuglio Chapter 9: Burden of Disease from Coastal Water PollutionGregory W. Characklis, Leigh-Anne H. Krometis, Joseph N. LoBuglioChapter 10: Burden of Disease from Soil and Groundwater ContaminationChidsanuphong Chart-asa, Stephanie Soucheray-GrellChapter 11: Burden of Disease from Produce and Seafood ContaminationLeigh-Anne H. Krometis, Leslie Chinery
Environmental Calculations: A Multimedia Approach
by Robert G. KunzConsolidates information and technical calculations for a wide variety of environmental factors Operating a business facility of any size, especially a manufacturing location, requires environmental permits from a number of governmental regulatory agencies responsible for protecting human health and the environment. Environmental Calculations: A Multimedia Approach provides an essential, one-stop reference for the necessary technical calculations to obtain a broad range of such permits. Along with clear, concise, and factual explanations, the text also includes relevant equations, examples, and case studies to support and clarify the calculations. Filled with the rich experience from the author's years of work in environmental permitting, the coverage features: An introduction to the major concepts and practice in the permitting process Key concepts in environmental chemistry such as the ideal gas law, vapor pressure, reaction stoichiometry, and heat effects Air pollution control Water/wastewater Solid/hazardous waste Noise generation, propagation, and control Radiation/radioactive decay An all-around guide for environmental permitting in many contexts, Environmental Calculations: A Multimedia Approach is a must-have for anybody concerned with environmental assessment and compliance, as well as those reviewing, issuing, and monitoring environmental permits.
Environmental Calculations: A Multimedia Approach
by Robert G. KunzConsolidates information and technical calculations for a wide variety of environmental factors Operating a business facility of any size, especially a manufacturing location, requires environmental permits from a number of governmental regulatory agencies responsible for protecting human health and the environment. Environmental Calculations: A Multimedia Approach provides an essential, one-stop reference for the necessary technical calculations to obtain a broad range of such permits. Along with clear, concise, and factual explanations, the text also includes relevant equations, examples, and case studies to support and clarify the calculations. Filled with the rich experience from the author's years of work in environmental permitting, the coverage features: An introduction to the major concepts and practice in the permitting process Key concepts in environmental chemistry such as the ideal gas law, vapor pressure, reaction stoichiometry, and heat effects Air pollution control Water/wastewater Solid/hazardous waste Noise generation, propagation, and control Radiation/radioactive decay An all-around guide for environmental permitting in many contexts, Environmental Calculations: A Multimedia Approach is a must-have for anybody concerned with environmental assessment and compliance, as well as those reviewing, issuing, and monitoring environmental permits.
Environmental Causes and Prevention Measures for Alzheimer’s Disease
by George J. BrewerEnvironmental Causes and Prevention Measures for Alzheimer’s Disease examines the increased incidence of the disease in developed countries and aims to educate neuroscientists, medical practitioners and other educated individuals on new insights into environmental causation, primarily metals. This book looks into the web of evidence around the hypothesis of copper toxicity and the additional role that a high fat diet plays in disease progression and cognition loss. The data and its implications are discussed, along with potential prevention measures. This book will generate excitement and interest among neuroscientists, medical practitioners and other biomedical researchers.Emphasizes the history and epidemiology of Alzheimer’s disease, highlighting its epidemic proportions in developed countries Discusses data on new environmental factors in developed countriesProvides prevention measures to potentially reduce Alzheimer’s rates through diet
Environmental Challenges
by Shoshana GabbayIn the summer of 1999, an international group of experts convened in Jerusalem, Israel, in order to define the major environmental challenges facing humanity at the dawn of the new millennium and - where possible - propose ways of addressing them. Almost 50 selected articles are collected in the present book, which constitutes a striking interdisciplinary combination of state-of-the-art science with the latest views on environmental law, education, and international cooperation. Whilst a major fraction of the book is devoted to water-related issues (water quality monitoring, water and wastewater treatment, water-based international cooperation, and more), other sections deal with timely topics relating to air pollution, biodiversity, conservation, and education. The book is intended for environmental scientists, professionals, and students of all disciplines.
Environmental Challenges and Greenhouse Gas Control for Fossil Fuel Utilization in the 21st Century
by M. Mercedes Maroto-Valer Chunshan Chunshan Song Yee Yee SoongAs we are moving ahead into the 21st century, our hunger for cost effective and environmentally friendly energy continues to grow. The Energy Information Administration of US has forecasted that only in the first two decades of the 21st century, our energy demand will increase by 60% compared to the levels at the end of the 20th century. Fossil fuels have been traditionally the major primary energy sources worldwide, and their role is expected to continue growing for the forecasted period, due to their inherent cost competitiveness compared to non-fossil fuel energy sources. However, the current fossil energy scenario is undergoing significant transformations, especially to accommodate increasingly stringent environmental challenges of contaminants like sulfur dioxide, nitrogen oxides or mercury, while still providing affordable energy. Furthermore, traditional fossil fuel utilization is inherently plagued with greenhouse gas emissions from combustion, especially carbon dioxide from stationary sources as well as from mobile sources. Should worldwide government policies dictate a reduction of greenhouse gas emissions, such as proposed by the Kyoto Protocol and the implementation of carbon taxes, fossil fuels would lose their significant competitive appeal in favor of nuclear energy and renewable energy sources. However, the current non-fossil fuel energy share of the worldwide energy market is merely below 15%, and therefore, it is more likely that fossil fuel energy producers would adapt to the new requirements by developing and implementing emission control technologies, and emission trades among other strategies.