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| methanogenesis ecology physiology biochemistry & genetics: Methanogenesis James G. Ferry, 2012-12-19 Since the general recognition of the Archaebacteria, research into the evolution, metabolism, molecular biology and ecological roles of these fastidious anaerobes has proceeded at an ever-increasing pace. All possess a very novel biochemistry and many exploit unique ecological niches. Methanogens, which convert one-and-two carbon compounds into the important atmospheric gas methane, are the largest group among the Archaebacteria. Of all microbial groups, methanogens provide perhaps the best opportunity to study evolution because of their phyologenetic diversity and unique biochemistry. Today, the analysis of methanogens is at a threshold. Molecular-biological studies of these microorganisms are revealing more and more processes unique to this group, and in turn, studies of methanogens are providing new perspectives to the broader fields of biochemistry and molecular biology. This volume is the first book to be published on methanogenesis, and it will provide the reader with a comprehensive view of the field and point to future trends. |
| methanogenesis ecology physiology biochemistry & genetics: Methanogenesis James G. Ferry, 1994-08-31 Since the general recognition of the Archaebacteria, research into the evolution, metabolism, molecular biology and ecological roles of these fastidious anaerobes has proceeded at an ever-increasing pace. All possess a very novel biochemistry and many exploit unique ecological niches. Methanogens, which convert one-and-two carbon compounds into the important atmospheric gas methane, are the largest group among the Archaebacteria. Of all microbial groups, methanogens provide perhaps the best opportunity to study evolution because of their phyologenetic diversity and unique biochemistry. Today, the analysis of methanogens is at a threshold. Molecular-biological studies of these microorganisms are revealing more and more processes unique to this group, and in turn, studies of methanogens are providing new perspectives to the broader fields of biochemistry and molecular biology. This volume is the first book to be published on methanogenesis, and it will provide the reader with a comprehensive view of the field and point to future trends. |
| methanogenesis ecology physiology biochemistry & genetics: Strict and Facultative Anaerobes Michiko M. Nakano, Peter Zuber, 2004-10-20 Strict and Facultative Anaerobes: Medical and Environmental Aspects reviews all aspects of anaerobic bacteria, highlighting their environmental and medical importance. The first three chapters focus on taxonomy, anaerobic metabolism and the genetic regulation of anaerobic processes in strict and facultative anaerobes. The next section includes an examination of the physiological traits of anaerobic bacteria that enable them to be beneficial in one situation but hazardous to human and animal health in others. Other topics include the anaerobic nature of infections, latency, anaerobic biofilms, and toxin production. The final section reviews iron, selenate, and arsenate reduction, as well as oxidation of halogenated organics, ammonium oxidation, and acetogenesis. This important book provides detailed coverage of the wide-ranging capabilities of anaerobic bacteria. It examines their basic biology and chemistry, medical importance, and applications in biotechnology and environmental science. It is an essential reference for everyone interested in anaerobic bacteria, environmental biology, medical microbiology, and industrial bacteriology. |
| methanogenesis ecology physiology biochemistry & genetics: Biochemistry (2 Volume Set) David E. Metzler, 2003-04-04 Biochemistry: The Chemical Reactions of Living Cells is a well-integrated, up-to-date reference for basic biochemistry, associated chemistry, and underlying biological phenomena. Biochemistry is a comprehensive account of the chemical basis of life, describing the amazingly complex structures of the compounds that make up cells, the forces that hold them together, and the chemical reactions that allow for recognition, signaling, and movement. This book contains information on the human body, its genome, and the action of muscles, eyes, and the brain. * Thousands of literature references provide introduction to current research as well as historical background * Contains twice the number of chapters of the first edition * Each chapter contains boxes of information on topics of general interest |
| methanogenesis ecology physiology biochemistry & genetics: Biochemistry David E. Metzler, 2003-05-04 Biochemistry: The Chemical Reactions of Living Cells is a well-integrated, up-to-date reference for basic chemistry and underlying biological phenomena. Biochemistry is a comprehensive account of the chemical basis of life, describing the amazingly complex structures of the compounds that make up cells, the forces that hold them together, and the chemical reactions that allow for recognition, signaling, and movement. This book contains information on the human body, its genome, and the action of muscles, eyes, and the brain.* Thousands of literature references provide introduction to current research as well as historical background* Contains twice the number of chapters of the first edition* Each chapter contains boxes of information on topics of general interest |
| methanogenesis ecology physiology biochemistry & genetics: Genetic and Genome-Wide Insights into Microbes Studied for Bioenergy Katherine M. Pappas, Ed Louis, Nigel Minton, Biswarup Mukhopadhyay, Shane Yang, 2017-01-27 The global mandate for safer, cleaner and renewable energy has accelerated research on microbes that convert carbon sources to end-products serving as biofuels of the so-called first, second or third generation – e.g., bioethanol or biodiesel derived from starchy, sugar-rich or oily crops; bioethanol derived from composite lignocellulosic biomass; and biodiesels extracted from oil-producing algae and cyanobacteria, respectively. Recent advances in ‘omics’ applications are beginning to cast light on the biological mechanisms underlying biofuel production. They also unravel mechanisms important for organic solvent or high-added-value chemical production, which, along with those for fuel chemicals, are significant to the broader field of Bioenergy. The Frontiers in Microbial Physiology Research Topic that led to the current e-book publication, operated from 2013 to 2014 and welcomed articles aiming to better understand the genetic basis behind Bioenergy production. It invited genetic studies of microbes already used or carrying the potential to be used for bioethanol, biobutanol, biodiesel, and fuel gas production, as also of microbes posing as promising new catalysts for alternative bioproducts. Any research focusing on the systems biology of such microbes, gene function and regulation, genetic and/or genomic tool development, metabolic engineering, and synthetic biology leading to strain optimization, was considered highly relevant to the topic. Likewise, bioinformatic analyses and modeling pertaining to gene network prediction and function were also desirable and therefore invited in the thematic forum. Upon e-book development today, we, at the editorial, strongly believe that all articles presented herein – original research papers, reviews, perspectives and a technology report – significantly contribute to the emerging insights regarding microbial-derived energy production. Katherine M. Pappas, 2016 |
| methanogenesis ecology physiology biochemistry & genetics: Environmental Isotopes in Biodegradation and Bioremediation C. Marjorie Aelion, Patrick Höhener, Daniel Hunkeler, Ramon Aravena, 2009-11-04 Enhanced analytical capabilities and separation techniques, improved detection limits, and accessibility of instrumentation have led to massive strides in the use of isotopes to assess microbial processes in surface and subsurface sediments. Considering the rapid growth of research and commercial interest in stable isotope and radioisotope applicat |
| methanogenesis ecology physiology biochemistry & genetics: Treatise on Water Science , 2010-09-01 Water quality and management are of great significance globally, as the demand for clean, potable water far exceeds the availability. Water science research brings together the natural and applied sciences, engineering, chemistry, law and policy, and economics, and the Treatise on Water Science seeks to unite these areas through contributions from a global team of author-experts. The 4-volume set examines topics in depth, with an emphasis on innovative research and technologies for those working in applied areas. Published in partnership with and endorsed by the International Water Association (IWA), demonstrating the authority of the content Editor-in-Chief Peter Wilderer, a Stockholm Water Prize recipient, has assembled a world-class team of volume editors and contributing authors Topics related to water resource management, water quality and supply, and handling of wastewater are treated in depth |
| methanogenesis ecology physiology biochemistry & genetics: Handbook of Environmental Degradation of Materials Myer Kutz, 2018-06-15 The Handbook of Environmental Degradation of Materials, Third Edition, explains how to measure, analyze and control environmental degradation for a wide range of industrial materials, including metals, polymers, ceramics, concrete, wood and textiles exposed to environmental factors, such as weather, seawater, and fire. This updated edition divides the material into four new sections, Analysis and Testing, Types of Degradation, Protective Measures and Surface Engineering, then concluding with Case Studies. New chapters include topics on Hydrogen Permeation and Hydrogen Induced Cracking, Weathering of Plastics, the Environmental Degradation of Ceramics and Advanced Materials, Antimicrobial Layers, Coatings, and the Corrosion of Pipes in Drinking Water Systems. Expert contributors to this book provide a wealth of insider knowledge and engineering expertise that complements their explanations and advice. Case Studies from areas such as pipelines, tankers, packaging and chemical processing equipment ensure that the reader understands the practical measures that can be put in place to save money, lives and the environment. - Introduces the reader to the effects of environmental degradation on a wide range of materials, including metals, plastics, concrete, wood and textiles - Describes the kind of degradation that effects each material and how best to protect it - Includes case studies that show how organizations, from small consulting firms, to corporate giants design and manufacture products that are more resistant to environmental effects |
| methanogenesis ecology physiology biochemistry & genetics: Biological Wastewater Treatment C. P. Leslie Grady Jr., Glen T. Daigger, Nancy G. Love, Carlos D. M. Filipe, 2011-05-09 Following in the footsteps of previous highly successful and useful editions, Biological Wastewater Treatment, Third Edition presents the theoretical principles and design procedures for biochemical operations used in wastewater treatment processes. It reflects important changes and advancements in the field, such as a revised treatment of the microbiology and kinetics of nutrient removal and an update of the simulation of biological phosphorous removal with a more contemporary model. See what’s new in the Third Edition: A chapter devoted to the description and simulation of anaerobic bioreactors Coverage of applications of submerged attached growth bioreactors Expanded discussion of modeling attached growth systems Increased information on the fate and effects of trace contaminants as they relate to xenobiotic organic chemicals A chapter on applying biochemical unit operations to design systems for greater sustainability The book describes named biochemical operations in terms of treatment objectives, biochemical environment, and reactor configuration; introduces the format and notation used throughout the text; and presents the basic stoichiometry and kinetics of microbial reactions that are key to quantitative descriptions of biochemical operations. It then examines the stoichiometry and kinetics used to investigate the theoretical performance of biological reactors containing microorganisms suspended in the wastewater. The authors apply this theory to the operations introduced, taking care to highlight the practical constraints that ensure system functionality in the real world. The authors focus on further biochemical operations in which microorganisms grow attached to solid surfaces, adding complexity to the analysis, even though the operations are often simpler in application. They conclude with a look to the future, introducing the fate and effects of xenobiotic and trace contaminants in wastewater treatment systems and examining how the application of biochemical operations can lead to a more sustainable world. |
| methanogenesis ecology physiology biochemistry & genetics: Symbiosis Surindar Paracer, Vernon Ahmadjian, 2000-07-06 The first edition of this book, published by University Press of New England in 1986, sold over 2500 copies, and was received as the best introductory overview of this broad field. Quite a lot has happened in the field of symbiosis in the past 10 years, especially concerning molecular mechanisms. Ahmadjian and Paracer have thoroughly updated their book, addressing advances in the field and the emergence of fields such as cellular microbiology, immunoparasitology, and endocytobiology, which have revealed new aspects of symbiosis. It is the only book to cover all aspects of symbiosis at an introductory level. |
| methanogenesis ecology physiology biochemistry & genetics: Ehrlich's Geomicrobiology Henry Lutz Ehrlich, Dianne K. Newman, Andreas Kappler, 2015-10-15 Advances in geomicrobiology have progressed at an accelerated pace in recent years. Ehrlich's Geomicrobiology, Sixth Edition surveys various aspects of the field, including the microbial role in elemental cycling and in the formation and degradation of minerals and fossil fuels. Unlike the fifth edition, the sixth includes many expert contributors |
| methanogenesis ecology physiology biochemistry & genetics: Petroleum Microbiology Trevor Jones, Jean-Paul Vandecasteele, Hydrocarbons and their derivatives (oxygenated and chlorinated, in particular), both natural and xenobiotic, represent a very large class of compounds whose conversions and degradation by microorganisms cover an extremely rich field, whose concepts are detailed in this book. The fascinating evolution of these concepts over the last twenty years has revealed the extent of the processes implemented in the environment and has multiplied their industrial applications. The resulting achievements and the current developments are described in this book.The English edition of this reference manual is an entirely revised and updated version of the French edition. It is intended for professionals, microbiologists and chemists, as well as scientists, engineers, teachers and post-doctoral researchers, who are interested by the conversions of hydrocarbons and by microbial ecology.The French edition of this book was awarded a special mention for engineering education text book by the Roberval Prize committee in 2007. |
| methanogenesis ecology physiology biochemistry & genetics: Biodiversity In Agricultural Production Systems Gero Benckiser, Sylvia Schnell, 2006-07-19 While modern science has always recognized the central role that biodiversity plays in the ecological processes that maintain the Earth's equilibrium, our increasing knowledge of nature has deepened our appreciation of this principle. Consequently, those involved with implementing and maintaining sustainable agriculture systems have begun to take a |
| methanogenesis ecology physiology biochemistry & genetics: Biological Wastewater Treatment in Warm Climate Regions Marcos Von Sperling, Carlos Augustos de Lemos Chernicharo, 2005-09-30 Biological Wastewater Treatment in Warm Climate Regions gives a state-of-the-art presentation of the science and technology of biological wastewater treatment, particularly domestic sewage. The book covers the main treatment processes used worldwide with wastewater treatment in warm climate regions given a particular emphasis where simple, affordable and sustainable solutions are required. This comprehensive book presents in a clear and informative way the basic principles of biological wastewater treatment, including theory and practice, and covering conception, design and operation. In order to ensure the practical and didactic view of the book, 371 illustrations, 322 summary tables and 117 examples are included. All major wastewater treatment processes are covered by full and interlinked design examples which are built up throughout the book, from the determination of wastewater characteristics, the impact of discharge into rivers and lakes, the design of several wastewater treatment processes and the design of sludge treatment and disposal units. The 55 chapters are divided into 7 parts over two volumes: Volume One: (1) Introduction to wastewater characteristics, treatment and disposal; (2) Basic principles of wastewater treatment; (3) Stabilisation ponds; (4) Anaerobic reactors; Volume Two: (5) Activated sludge; (6) Aerobic biofilm reactors; (7) Sludge treatment and disposal. As well as being an ideal textbook, Biological Wastewater Treatment in Warm Climate Regions is an important reference for practising professionals such as engineers, biologists, chemists and environmental scientists, acting in consulting companies, water authorities and environmental agencies. |
| methanogenesis ecology physiology biochemistry & genetics: A Textbook of Molecular Biotechnology Ashok K. Chauhan, 2009 Textbook of Molecular Biotechnology covers an amazing range of topics from the basic structure of the cell and diversity of microorganisms to the latest techniques in the field of biotechnology. Various topics have been included for the benefit of graduate and postgraduate students. In addition, the book will be of immense help for the researchers and can be used as a laboratory manual for various biotechnological techniques. A number of reputed subject experts, scientists, academicians, and researchers have contributed their chapters to this volume. This book describes the role of basic biotechnological tools in various spheres of human society, namely, agriculture, nutraceuticals, pharmaceuticals, nanobiotechnology, proteomics, metagenomics and Intellectual Property rights. |
| methanogenesis ecology physiology biochemistry & genetics: Environmental Microbiology Eugene L. Madsen, 2015-09-28 New and expanded for its second edition, Environmental Microbiology: From Genomes to Biogeochemistry ̧ Second Edition, is a timely update to a classic text filled with ideas, connections, and concepts that advance an in-depth understanding of this growing segment of microbiology. Core principles are highlighted with an emphasis on the logic of the science and new methods-driven discoveries. Numerous up-to-date examples and applications boxes provide tangible reinforcement of material covered. Study questions at the end of each chapter require students to utilize analytical and quantitative approaches, to define and defend arguments, and to apply microbiological paradigms to their personal interests. Essay assignments and related readings stimulate student inquiry and serve as focal points for teachers to launch classroom discussions. A companion website with downloadable artwork and answers to study questions is also available. Environmental Microbiology: From Genomes to Biogeochemistry, Second Edition, offers a coherent and comprehensive treatment of this dynamic, emerging field, building bridges between basic biology, evolution, genomics, ecology, biotechnology, climate change, and the environmental sciences. |
| methanogenesis ecology physiology biochemistry & genetics: Farm Animal Metabolism and Nutrition J. P. Felix D'Mello, 2000 This book presents specially commissioned reviews of key topics in farm animal metabolism and nutrition, such as repartitioning agents, near infrared reflectance spectroscopy and digestibility and metabolisable energy assays, where major advances have recently been made or which continue to represent issues of significance for students and researchers. Authors include leading researchers from Europe, North America and Australia. |
| methanogenesis ecology physiology biochemistry & genetics: Bioenergy Praveen Kumar Ramanujam, Binod Parameswaran, B. Bharathiraja, A. Magesh, 2023-07-06 This contributed volume discusses the impact of bioenergy on the environment and economy. The book contents include contributions on themes, such as the impact of emulsified biofuels on the environment, environmental impacts of the current uses of biomass energy, sustainable development in ecosystem, trends in microbial fuel cells and the ecological and economic impacts on biofuel production, among others. The book also uses visual elements to aid learning. This book is a valuable, hands-on resource for researchers, academics and industry professionals, who are interested in alternative fuels, sustainability, clean energy, biofuel production, waste management, environmental pollution, renewable energy and allied fields. |
| methanogenesis ecology physiology biochemistry & genetics: Geomicrobiology Jillian F. Banfield, Kenneth H. Nealson, 2018-12-17 Volume 35 of Reviews in Mineralogy defines and explore the topic of geomicrobiology. It is organized so as to first introduce the nature, diversity, and metabolic impact of microorganisms and the types of solid phases they interact with. This is followed by a discussion of processes that occur at cell surfaces, interfaces between microbes and minerals, and within cells, and the resulting mineral precipitation, dissolution, and changes in aqueous geochemistry. The volume concludes with a discussion of the carbon cycle over geologic time. Basis for this volume was the Short Course on Geomicrobiology presented by the Mineralogical Society of America on October 18 and 19, 1997, at the Alta Peruvian Lodge in Alta, Utah. |
| methanogenesis ecology physiology biochemistry & genetics: Renewable Energy Systems from Biomass Vladimir Strezov, Hossain Md. Anawar, 2018-11-16 New innovations are needed for the invention of more efficient, affordable, sustainable and renewable energy systems, as well as for the mitigation of climate change and global environmental issues. In response to a fast-growing interest in the realm of renewable energy, Renewable Energy Systems: Efficiency, Innovation and Sustainability identifies a need to synthesize relevant and up-to-date information in a single volume. This book describes a systems approach to renewable energy, including technological, political, economic, social and environmental viewpoints, as well as policies and benefits. This unique and concise text, encompassing all aspects of the field in a single source, focuses on truly promising innovative and affordable renewable energy systems. Key Features: Focuses on innovations in renewable energy systems that are affordable and sustainable Collates the most relevant and up-to-date information on renewable energy systems, in a single and unique volume Discusses lifecycle assessment, cost and availability of systems Emphasizes bio-related topics Provides a systems approach to the renewable energy technologies and discusses technological, political, economic, social, and environmental viewpoints as well as policies |
| methanogenesis ecology physiology biochemistry & genetics: The Biogeochemistry of Submerged Soils Guy Kirk, 2004-06-25 Submerged soils and the wetlands they support are of huge practical importance: in global element cycles, as centres of biodiversity, in global food production. They are also uniquely interesting scientifically because of their peculiar biogeochemistry and the adaptations of plants and microbes to it. This book describes the physical, chemical and biological processes operating in submerged soils and governing their properties. It describes the transport processes controlling the fluxes of gases and solutes through the soil; the interchange of solutes between solid, liquid and gas phases; reduction and oxidation processes; biological processes in the soil and overlying water; and processes in the roots and rhizospheres of wetland plants. The dynamics of nutrients, toxins, pollutants and trace gases are then discussed in terms of these processes and in relation to wetland productivity and global element cycles. Written by a renowned expert in the field, this work will be invaluable to earth, environmental and agricultural scientists concerned with natural or man-made wetlands, and to advanced undergraduate and graduate studen ts of these topics. |
| methanogenesis ecology physiology biochemistry & genetics: Advances in Agronomy , 2007-10-31 Advances in Agronomy continues to be recognized as a leading reference and a first-rate source for the latest research in agronomy. As always, the subjects covered are varied and exemplary of the myriad of subject matter dealt with by this long-running serial. Volume 96 contains seven superior reviews with 25 tables.* Maintains the highest impact factor among serial publications in Agriculture * Presents timely reviews on important agronomy issues * Enjoys a long-standing reputation for excellence in the field |
| methanogenesis ecology physiology biochemistry & genetics: Chemical Energy from Natural and Synthetic Gas Yatish T. Shah, 2017-03-16 Commercial development of energy from renewables and nuclear is critical to long-term industry and environmental goals. However, it will take time for them to economically compete with existing fossil fuel energy resources and their infrastructures. Gas fuels play an important role during and beyond this transition away from fossil fuel dominance to a balanced approach to fossil, nuclear, and renewable energies. Chemical Energy from Natural and Synthetic Gas illustrates this point by examining the many roles of natural and synthetic gas in the energy and fuel industry, addressing it as both a transition and end game fuel. The book describes various types of gaseous fuels and how are they are recovered, purified, and converted to liquid fuels and electricity generation and used for other static and mobile applications. It emphasizes methane, syngas, and hydrogen as fuels, although other volatile hydrocarbons are considered. It also covers storage and transportation infrastructure for natural gas and hydrogen and methods and processes for cleaning and reforming synthetic gas. The book also deals applications, such as the use of natural gas in power production in power plants, engines, turbines, and vehicle needs. Presents a unified and collective look at gas in the energy and fuel industry, addressing it as both a transition and end game fuel. Emphasizes methane, syngas, and hydrogen as fuels. Covers gas storage and transport infrastructure. Discusses thermal gasification, gas reforming, processing, purification and upgrading. Describes biogas and bio-hydrogen production. Deals with the use of natural gas in power production in power plants, engines, turbines, and vehicle needs. |
| methanogenesis ecology physiology biochemistry & genetics: Methods in Methane Metabolism Amy Claire Rosenzweig, Stephen W. Ragsdale, 2011 Produced by microbes on a large scale, methane is an important alternative fuel as well as a potent greenhouse gas. This volume focuses on microbial methane metabolism, which is central to the global carbon cycle. Both methanotrophy and methanogenesis are covered in detail. Topics include isolation and classification of microorganisms, metagenomics approaches, biochemistry of key metabolic enzymes, gene regulation and genetic systems, and field measurements. The state of the art techniques described here will both guide researchers in specific pursuits and educate the wider scientific community about this exciting and rapidly developing field. Topics include isolation and classification of microorganisms, metagenomics approaches, biochemistry of key metabolic enzymes, gene regulation and genetic systems, and field measurements. The state of the art techniques described here will both guide researchers in specific pursuits and educate the wider scientific community about this exciting and rapidly developing field. |
| methanogenesis ecology physiology biochemistry & genetics: Microbial Physiology S. Ram Reddy, S.M. Reddy, 2008-06-01 This book, the first of its kind by Indian authors, tries to develop a comprehensive understanding of microbial metabolism. It deals with all basic and unique physiological aspects of microorganisms in an ordered sequence with profuse illustrations. Discussion of all chapters is based on the concepts of bioenergetics which form the life-line of metabolic functions. It provides the foundation and general frame work for further understanding of the subject. This book not only serves as a text for undergraduate, post-graduate students, but also as a reference book to teachers, researchers and all others interested in the metabolism of the microorganisms in particular and living organisms in general. |
| methanogenesis ecology physiology biochemistry & genetics: Biogas Technology R. S. Khoiyangbam, Navindu Gupta, Sushil Kumar, 2011-01-01 The global demand for energy is met mainly by fossil fuels. Their excessive and indiscriminate use, coupled with increasing demand for energy, will soon deplete their existing reserves. Therefore, it is extremely important to find alternative, environment-friendly, and ecologically sound sources of energy for meeting the present and future energy requirements. Biogas Technology: Towards Sustainable Development makes an attempt to explore the potential of utilizing biodegradable biomass as fuel and manure. |
| methanogenesis ecology physiology biochemistry & genetics: Photobiogeochemistry of Organic Matter Khan M.G. Mostofa, Takahito Yoshioka, Abdul Mottaleb, Davide Vione, 2012-12-15 Photoinduced processes, caused by natural sunlight, are key functions for sustaining all living organisms through production and transformation of organic matter (OM) in the biosphere. Production of hydrogen peroxide (H2O2) from OM is a primary step of photoinduced processes, because H2O2 acts as strong reductant and oxidant. It is potentially important in many aquatic reactions, also in association with photosynthesis. Allochthonous and autochthonous dissolved organic matter (DOM) can be involved into several photoinduced or biological processes. DOM subsequently undergoes several physical, chemical, photoinduced and biological processes, which can be affected by global warming. This book is uniquely structured to overview some vital issues, such as: DOM; H2O2 and ROOH; HO•; Degradation of DOM; CDOM, FDOM; Photosynthesis; Chlorophyll; Metal complexation, and Global warming, as well as their mutual interrelationships, based on updated scientific results. |
| methanogenesis ecology physiology biochemistry & genetics: Bioenergy Engineering Krushna Prasad Shadangi, Prakash Kumar Sarangi, Kaustubha Mohanty, Irem Deniz, Anjani Ravi Kiran Gollakota, 2023-06-20 Bioenergy Engineering: Fundamentals, Methods, Modelling, and Applications presents the fundamental principles, recent developments, innovative state-of the-art technologies, challenges, solutions and future perspectives on the production of biofuels and bioenergy. Balancing the scientific and engineering aspects of biofuels production, the book guides readers through the chemical kinetics, modeling, thermodynamics, unit operations and technological advancements in fuel processing from conventional and alternative resources. Each chapter of the book starts with the fundamentals and goes on to assess the latest technologies for the production of renewable fuels on topics. Sections cover biomass utilization, biomass-to-liquid conversion technologies (pyrolysis, liquefaction, solid-state fermentation and submerged fermentation), biomass-to-gas conversion technologies (thermochemical gasification, subcritical and supercritical water gasification, and methanation), gas-to-liquid conversion technologies (Fischer-Tropsch synthesis), carbonization, transesterification, organic transformation, carbon-carbon and carbon-heteroatom coupling reactions, oxidation, reforming, hydrotreating technologies (hydrogenation, hydrodesulfurization, hydrodenitrogenation, hydro dearomatization and hydro demetalization), nanocatalysis and biocatalysis (enzymatic hydrolysis), and much more. - Analyzes emerging technologies for the sustainable conversion of various waste and non-waste materials into bioenergy and biofuels - Examines a wide range of feedstocks and conversion pathways for liquid and gaseous biofuels - Offers practical guidance and data on how to conduct lifecycle assessment, techno-economic analysis, and utilize GIS modeling for a range production pathways |
| methanogenesis ecology physiology biochemistry & genetics: Biological Wastewater Treatment, Revised and Expanded Carlos D.M. Filipe, C.P. Leslie Grady, Jr., 1998-10-15 Written by noted experts in the field sharing extensive academic and industrial experience, this thoroughly updated Second Edition covers commonly used and new suspended and attached growth reactors. The authors discuss combined carbon and ammonia oxidation, activated sludge, biological nutrient removal, aerobic digestion, anaerobic processes, lagoons, trickling filters, rotating biological contactors, fluidized beds, and biologically aerated filters. They integrate the principles of biochemical processes with applications in the real world-communicating approaches to the conception, design, operation, and optimization of biochemical unit operations in a comprehensive yet lucid manner. |
| methanogenesis ecology physiology biochemistry & genetics: Atmospheric Evolution on Inhabited and Lifeless Worlds David C. Catling, James F. Kasting, 2017-04-13 A comprehensive and authoritative text on the formation and evolution of planetary atmospheres, for graduate-level students and researchers. |
| methanogenesis ecology physiology biochemistry & genetics: Atmospheric Methane Mohammad Aslam Khan Khalil, 2013-03-14 Methane is an important greenhouse gas that can cause global warming. The present concentrations of methane are nearly three times higher than several hundred years ago. Today, more than 60% of the atmospheric methane comes from human activities, including rice agriculture, coal mining, natural gas usage, biomass burning, and raising of cattle. Methane affects the stratospheric ozone layer and the oxidizing capacity of the atmosphere, which in turn control the concentrations of many man-made and natural gases in the atmosphere. This book brings together our knowledge of the trends and the causes behind the increased levels of methane. Based on the scientific information on the sources and sinks, and the role of methane in global warming, strategies to limit emissions can be designed as part of a program to control future global warming. |
| methanogenesis ecology physiology biochemistry & genetics: Biotechnological Innovations for Environmental Bioremediation Sudipti Arora, Ashwani Kumar, Shinjiro Ogita, Yuan -Yeu Yau, 2022-08-03 This edited book focuses on the application and implementation of bioremediation and other strategies to create a sustainable and healthy environment. It provides a collection of approaches to environmental biotechnology for wastewater treatment, removal of soil heavy metals, degradation of pesticides, removal of dyes, waste management, and microbial conversion of environmental pollutants. This book brings to the fore contributions of certain globally important environmental biotechnologist. Bioremediation is a popular branch of biotechnology that involves the use of living organisms such as microorganisms (microbial remediation), bacteria, fungus (mycoremediation), and plants (phytoremediation) to bind, extract, and clean up contaminants, pollutants, and toxins from soil, groundwater, and other environments. This book is of interest to researchers, scientists, and academic faculty in environmental sciences. Also, it serves as additional reading and reference material for undergraduate and graduate students as well as postdocs in environmental, agriculture, ecology, and soil sciences. National and International policy makers will also find valuable information from this book. |
| methanogenesis ecology physiology biochemistry & genetics: Anaerobic Reactors Carlos Augustos de Lemos Chernicharo, 2007-03-30 Anaerobic Reactors is the forth volume in the series Biological Wastewater Treatment. The fundamentals of anaerobic treatment are presented in detail, including its applicability, microbiology, biochemistry and main reactor configurations. Two reactor types are analysed in more detail, namely anaerobic filters and especially UASB (upflow anaerobic sludge blanket) reactors. Particular attention is also devoted to the post-treatment of the effluents from the anaerobic reactors. The book presents in a clear and informative way the main concepts, working principles, expected removal efficiencies, design criteria, design examples, construction aspects and operational guidelines for anaerobic reactors. About the series: The series is based on a highly acclaimed set of best selling textbooks. This international version is comprised by six textbooks giving a state-of-the-art presentation of the science and technology of biological wastewater treatment. Other titles in the series are: Volume 1: Waste Stabilisation Ponds; Volume 2: Basic Principles of Wastewater Treatment; Volume 3: Waste Stabilization Ponds; Volume 5: Activated Sludge and Aerobic Biofilm Reactors; Volume 6: Sludge Treatment and Disposal |
| methanogenesis ecology physiology biochemistry & genetics: 23rd European Symposium on Computer Aided Process Engineering , 2013-06-10 Computer-aided process engineering (CAPE) plays a key design and operations role in the process industries, from the molecular scale through managing complex manufacturing sites. The research interests cover a wide range of interdisciplinary problems related to the current needs of society and industry. ESCAPE 23 brings together researchers and practitioners of computer-aided process engineering interested in modeling, simulation and optimization, synthesis and design, automation and control, and education. The proceedings present and evaluate emerging as well as established research methods and concepts, as well as industrial case studies. - Contributions from the international community using computer-based methods in process engineering - Reviews the latest developments in process systems engineering - Emphasis on industrial and societal challenges |
| methanogenesis ecology physiology biochemistry & genetics: Gastrointestinal Microbiology Rod I. Mackie, Bryan White, Richard E. Isaacson, 1997-01-31 Extremely diverse and complicated bacterial and protozoan populations inhabit the rumen and intestinal tract of animals, and there is a delicate balance among the individual populations within this complex microbial community. This authoritative edited volume, the first in a two-volume set, reviews the gut environment and the fermentations taking place in animal digestive tracts. It is an essential source of reference for microbial ecologists and physiologists, medical microbiologists and gastroenterologists, biochemists, nutritionists, veterinarians and animal scientists, and wildlife ecologists. |
| methanogenesis ecology physiology biochemistry & genetics: Manual of Environmental Microbiology Christon J. Hurst, Ronald L. Crawford, Jay L. Garland, David A. Lipson, 2007-05-14 The most definitive manual of microbes in air, water, and soil and their impact on human health and welfare. • Incorporates a summary of the latest methodology used to study the activity and fate of microorganisms in various environments. • Synthesizes the latest information on the assessment of microbial presence and microbial activity in natural and artificial environments. • Features a section on biotransformation and biodegradation. • Serves as an indispensable reference for environmental microbiologists, microbial ecologists, and environmental engineers, as well as those interested in human diseases, water and wastewater treatment, and biotechnology. |
| methanogenesis ecology physiology biochemistry & genetics: Progress in Nucleic Acid Research and Molecular Biology Kivie Moldave, 2002-07-04 Progress in Nucleic Acid Research and Molecular Biology provides a forum for discussion of new discoveries, approaches, and ideas in molecular biology. It contains contributions from leaders in their fields and abundant references. - Nucleic acids are the fundamental building blocks of DNA and RNA and are found in virtually every living cell - Molecular biology is a branch of science that studies the physicochemical properties of molecules in a cell, including nucleic acids, proteins, and enzymes |
| methanogenesis ecology physiology biochemistry & genetics: 23 European Symposium on Computer Aided Process Engineering Nishu Goyal, Hanifah Widiastuti, Iftekhar A. Karimi, George Zhou Zhi, 2013-06-10 Methane (Natural gas) is an important energy source for heating and electricity. Its production by methanogenic bacteria using different carbon substrates is widely known in nature. Methanococcus maripaludis S2, a methanogen is an excellent laboratory strain for which robust genetic tools are available, but a systems biology model to complement these tools is absent in the literature. To understand methanogenesis and to maximize the yield of methane by using carbon dioxide captured from a flue gas, a constraint-based genome-scale metabolic model of fully sequenced hydrogenotrophic methanogenic strain M. maripaludis S2 has been developed. This model serves to predict the effects of any perturbations and/or gene knockouts on different metabolic processes, which can guide or expedite experimental efforts. Genome-scale metabolic model of M. maripaludis S2 was reconstructed using pathway databases such as KEGG, METACYC and SEED to identify gene-protein-reaction (GPR) associations. Gap filling was done by reviewing published experimental literature and using basic biological understanding of the intracellular functions in methanogenic species. The model was validated using biomass growth data, and metabolic phenotypes predicted by our model are consistent with experimental observations. |
| methanogenesis ecology physiology biochemistry & genetics: Relentless Visionary Michael Berick, If asked to list important inventors, few remember to include Alessandro Volta. Yet, his is a household name more spoken than that of Alexander Graham Bell, the Wright Brothers, or even Thomas Edison. That’s because the terms “volt” and “voltage” can be attributed to Volta, the inventor of the “Voltaic pile,” which is recognized as the first electric battery. A product of the Age of Enlightenment—a time when ideas about reason, science, literature and liberty took center stage—Volta employed a very modern, hands-on approach to his work. Though he had no formal education, he was the first person to identify the gas known as methane, and created the first authoritative list of conducting metals. Alessandro Volta saw things not just as they were, but as what they could be. He was a disrupter, an innovator and a visionary. Above all, he was relentless. Without Volta’s hunger to create and his drive to invent and discover, we might not have electric cars, laptops, cellphones, and hearing aids today. |
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