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This volume presents new leading-edge research on environmental biodegradation which is the destruction of organic compounds by micro-organisms. Micro-organisms, particularly bacteria, are responsible for the decomposition of both natural and synthetic organic compounds in nature. Mineralisation results in complete conversion of a compound to its inorganic mineral constituents (for example, carbon dioxide from carbon, sulphate or sulphide from organic sulfur, nitrate or ammonium from organic nitrogen, phosphate from organophosphates, or chloride from organochlorine). Since carbon comprises the greatest mass of organic compounds, mineralisation can be considered in terms of CO2 evolution. Radioactive carbon-14 (14C) isotopes enable scientists to distinguish between mineralisation arising from contaminants and soil organic matter. However, mineralisation of any compound is never 100% because some of it (1040% of the total amount degraded) is incorporated into the cell mass or products that become part of the amorphous soil organic matter, commonly referred to as humus. Thus, biodegradation comprises mineralisation and conversion to innocuous products, namely biomass and humus. Primary biodegradation is more limited in scope and refers to the disappearance of the compound as a result of its biotransformation to another product. Compounds that are readily biodegradable are generally utilised as growth substrates by single micro-organisms. Many of the components of petroleum products (and frequent ground-water contaminants), such as benzene, toluene, ethylbenzene, and xylene, are utilised by many genera of bacteria as sole carbon sources for growth and energy.
'Environemntal Biodegradation Research Focus' is devoted to leading-edge research on environmental biodegradation which is the destruction of organic compounds by microorganisms.
The environment is considered the surroundings in which an organism operates, including air, water, land, natural resources, flora, fauna, humans and their interrelation. It is this environment which is both so valuable, on the one hand, and so endangered on the other. And it is people who are by and large ruining the environment both for themselves and for all other organisms. This book reviews the latest research in this field which is vital for everyone.
Wastewater Treatment: Cutting-Edge Molecular Tools, Techniques and Applied Aspects reports new findings in existing molecular biology strategies, including their limitations, challenges and potential application to remove environmental pollutants through advancements made in cutting edge tools. In addition, the book introduces new trends and advances in environmental bioremediation with thorough discussions on recent developments in this field. Describes the application of different omics tools in wastewater treatment plants (WWTPs) Describes the role of microorganisms in WWTPs Points out the reuse of treated wastewater through emerging technologies Includes the recovery of resources from wastewater Emphasizes the need for the use of cutting-edge molecular tools
Bioremediation and Sustainability is an up-to-date and comprehensive treatment of research and applications for some of the most important low-cost, "green," emerging technologies in chemical and environmental engineering Sustainable development requires the development and promotion of environmental management and a constant search for green technologies to treat a wide range of aquatic and terrestrial habitats contaminated by increasing anthropogenic activities with the main sources of contaminants being the chemical industries. Bioremediation is a technique that uses living organisms in order to degrade or transform contaminants into their less toxic forms. It is based on the existence of microorganisms with the capacity to attack the compounds on the enzymatic level. Bioremediation is an increasingly popular low-cost alternative to conventional methods for treating wastes and contaminated media with the possibility to degrade these contaminants using natural microbial activity mediated by different consortia of microbes. Over the last few years, the scientific literature has revealed the progressive emergence of various bioremediation techniques. Bioremediation and Sustainability presents an up-to-date and comprehensive collection of chapters prepared in bioremediation technology research and applications. The strategies covered in this volume can be applied in situ or ex situ, depending on the site in which they will be applied. In situ is the treatment done in the site of the contamination, and ex situ involves the removal of soil or water to subsequent treatment. There is a wide variety of techniques that have been developed in the past and are covered in this volume, such as natural attenuation, bioaugmentation, biostimulation, biosorption, composting, phytoremediation, rhizoremediation, and bioleaching.
This edited book details the plant-assisted remediation methods, which involves the interaction of plant roots with associated rhizospheric microorganisms for the remediation of soil and water contaminated with high levels of heavy metals, pesticides, radionuclides, agricultural by-products, municipal wastes, industrial solvents, petroleum hydrocarbons, organic compounds, and various other contaminants. Each chapter highlights and compares the beneficial and economical alternatives of phytoremediation to currently practiced soil, water, and air removal. This book covers state-of-the-art approaches in phytoremediation contributed by leading and eminent scientists from across the world. Phytoremediation approaches for environmental sustainability dealing the readers with a cutting-edge of multidisciplinary understanding in the principal and practical approaches of phytoremediation from laboratory research to field application. This book is of interest to researchers, teachers, environmental scientists, environmental engineers, environmentalists, and policy makers. Also, the book serves as additional reading material for undergraduate and graduate students of environmental microbiology, biotechnology, eco-toxicology, environmental remediation, waste management, and environmental sciences as well as the general audience.
Genomics Approach to Bioremediation Provides insights into the various aspects of microbial genomics and biotechnology for environmental cleanup In recent years, the application of genomics to biodegradation and bioremediation research has led to a better understanding of the metabolic capabilities of microorganisms, their interactions with hazardous and toxic chemical compounds, and their adaptability to changing environmental conditions. Genomics Approach to Bioremediation: Principles, Tools, and Emerging Technologies provides comprehensive and up-to-date information on cutting-edge technologies and approaches in bioremediation and biodegradation of environmental pollutants. Edited by prominent researchers in the field, this authoritative reference examines advanced genomics technologies, next-generation sequencing (NGS), and state-of-the-art bioinformatics tools while offering valuable insights into the unique functional attributes of different microbial communities and their impact on the removal of chemical contaminants. Each chapter includes numerous high-quality illustrations, detailed tables, extensive references, and step-by-step descriptions of various microbial metabolic pathways of degradation and biotransformation of environments containing various inorganic, metallic, organometallic, and organic hydrocarbon contaminants. • Describes methodologies and underlying theory for the remediation, detoxification, and degradation of contaminated environments • Covers new genomics technologies that address nutrient removal, resource recovery, and other major trends in environmental cleanup • Highlights recent advances in microbial biotechnological approaches including the latest description of the relationship between microbes and the environment focusing on their impact on ecosystem services. • Offers perspectives on energy saving, production, sustainability, and community involvement • Discusses current challenges and future directions in the field of bioremediation Genomics Approach to Bioremediation: Principles, Tools, and Emerging Technologies is an essential resource for biochemical and environmental engineers, environmental microbiologists, academic researchers, process and treatment plant managers, policymakers, and industry professionals working in the areas of microbial degradation, bioremediation, and phytoremediation.
Metagenomics to Bioremediation: Applications, Cutting Edge Tools, and Future Outlook provides detailed insight into metagenomics approaches to bioremediation in a comprehensive manner, which enables the analysis of microbial behavior at a community level under different environmental stresses during degradation and detoxification of environmental pollutants. This title summarizes each and all aspects of metagenomics applications to bioremediation. It helps readers overcome the lack of updated information on advancement in microbial ecology dealing with pollution abatement. In 32 chapters Metagenomics to Bioremediation: Applications, Cutting Edge Tools, and Future Outlook gives insight not only in the fundamentals of metagenomics and bioremediation, but also in recent trends and future expectations and will appeal to readers from diverse backgrounds in biology, chemistry, and life sciences that are working or planning to work on microbial technology for wastewater treatment and environmental clean-up for a sustainable environment.
This book elucidates the growing application of greener technology with a circular economic approach and examines the connection among environment, economy, and ecology for an emerging and supportable human society. It focuses on numerous features of environmental sustainability and, more responsibly, labels the technologies and methods essential to overcome growing environmental challenges, including biotechnological methods, cutting-edge research, applications, and procedures. Features: Proposes the latest advances in waste treatment, pollution reduction, and circular economy development based on green technology. Considers the relationship between green technological progress and various forms of circular economy. Describes resource recycling and recovery. Covers advanced technology in bioremediation. Includes reports and case studies highlighting the "how-to" on waste-to-energy generation. This book is aimed at professionals and graduate students in environmental engineering, project management, bioremediation, sustainable development, and waste management.