Microbes Based Approaches For The Management Of Hazardous Contaminants
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Microbes Based Approaches for the Management of Hazardous Contaminants
Learn the various microbiological aspects one deals with in environment management and the remediation of toxic contaminants in the environment In recent years, the accumulation of hazardous contaminants has caused a broad-based deterioration in global environmental quality. These have had wide-ranging negative social impacts, affecting climate, soil and water ecosystems, and more. As traditional methods of contaminant mitigation have proven inadequate to the task, microbial-based remediation offers the clearest, most environmentally friendly path forward for this crucial aspect of global environmental stewardship. Microbes Based Approaches for the Management of Hazardous Contaminants offers comprehensive coverage of novel and indigenous microbes and their applications in contaminant mitigation. Surveying all the major microbial products and methods for degrading and remediating hazardous pollutants, it offers a key tool in the fight against global environmental degradation. The result is a cutting-edge introduction to an essential subject. Microbes Based Approaches for the Management of Hazardous Contaminants will also find: Current and future approaches to microbial degradation Detailed discussion of biofilms, exopolysaccharides, enzymes, metabolites, and many more Coverage of metabolic engineering as an alternative strategy Microbes Based Approaches for the Management of Hazardous Contaminants is ideal for those working in the field for the application of microbes in the remediation of hazardous pollutants and environment management, particularly those interested in environmental sciences, microbiology and microbial technology, environmental biotechnology, and molecular biology.
Nano-microbiology for Sustainable Development
Author: Yugal Kishore Mohanta
language: en
Publisher: Springer Nature
Release Date: 2025-02-25
Microbial diversity and microbial technology are critical to achieving most of the UN Sustainable Development Goals (SDGs), mainly due to their central role in the provision and regulation of ecosystem services. Despite this intensification of effort, more than 90% of microbial diversity remains to be discovered. Thus, the most unique characteristic of microbial technology is the exceptional diversity of applications it can address and the range of human activities and needs to which it is and can be applied. Separately, nanotechnology and microbiology have produced innovative solutions for human well-being and ecological and environmental equilibrium. The development of interdisciplinary research practices combining nanotechnology and microbiology to deliver creative solutions for human health and environmental and ecological damage is urgently required. The nanotechnology of microorganisms is contributing to the development and innovation of numerous industries. This book will explain the fundamentals and methods of the biological production of nanoparticles from microorganisms, such as bacteria, fungi, and algae. It will describe optimization strategies for microbe-mediated nanoparticle production. The book will also discuss the industrial and agricultural applications of nanoparticles produced by microbes. It also describes the applications of green nanoparticles in the health and pharmaceutical sectors, such as the treatment of multidrug-resistant infections and cancer. Overall, the book focuses on the broad subject areas of microbial nanotechnology and its possible applications in food, pharmaceuticals, water, environmental remediation, etc. However, the lack of information and the potential for negative effects on the environment, human health, safety, and sustainability remain obstacles. This book addresses these issues. Researchers and students in the agricultural sciences, materials sciences, biotechnology, microbiology, and pharmaceutical sectors will find this an invaluable resource.
Emerging and Eco-Friendly Approaches for Waste Management
Rapid industrialization is a serious concern in the context of a healthy environment. With the growth in the number of industries, the waste generated is also growing exponentially. The various chemical processes operating in the manufacturing industry generate a large number of by-products, which are largely harmful and toxic pollutants and are generally discharged into the natural water bodies. Once the pollutants enter the environment, they are taken up by different life forms, and because of bio-magnification, they affect the entire food chain and have severe adverse effects on all life forms, including on human health. Although, various physico-chemical and biological approaches are available for the removal of toxic pollutants, unfortunately these are often ineffective and traditional clean up practices are inefficient. Biological approaches utilizing microorganisms (bacterial/fungi/algae), green plants or their enzymes to degrade or detoxify environmental pollutants such as endocrine disruptors, toxic metals, pesticides, dyes, petroleum hydrocarbons and phenolic compounds, offer eco- friendly approaches. Such eco-friendly approaches are often more effective than traditional practices, and are safe for both industry workers as well as environment. This book provides a comprehensive overview of various toxic environmental pollutants from a variety natural and anthropogenic sources, their toxicological effects on the environment, humans, animals and plants as well as their biodegradation and bioremediation using emerging and eco-friendly approaches (e.g. Anammox technology, advanced oxidation processes, membrane bioreactors, membrane processes, GMOs), microbial degradation (e.g. bacteria, fungi, algae), phytoremediation, biotechnology and nanobiotechnology. Offering fundamental and advanced information on environmental problems, challenges and bioremediation approaches used for the remediation of contaminated sites, it is a valuable resource for students, scientists and researchers engaged in microbiology, biotechnology and environmental sciences.