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Around the World, metal pollution is a major problem. Conventional practices of toxic metal removal can be ineffective and/or expensive, delaying and exacerbating the crisis. Those communities dealing with contamination must be aware of the fundamentals advances of microbe-mediated metal removal practices because these methods can be easily used and require less remedial intervention. This book describes innovations and efficient applications for metal bioremediation for environments polluted by metal contaminates.
This book provides a detailed description and analysis of the reduction and metabolism of metals and metalloids by sulfate reducing bacteria. The molecular mechanisms of bacterial resistance to copper are examined as well as extracellular electron transfer and bacterial metal oxide respiration. Furthermore, in this book enrichment, isolation, and physiology of magnetotactic bacteria are discussed. The interactions of bacteria with metals in natural environments and their role in metal cycling have been studied for decades. Advances in studies of bacteria-metal interactions identified numerous important aspects of these interactions, such as bioremediation of metal-contaminated environments, the role of metals in redox reactions and other cellular functions, as well as the role of metals in toxicity and infection. Microbiologists, environmental scientists, and students interested in microbe interactions with metals and their effect on the environment and their application in biotechnology will be interested in the topics discussed in the book.
This book introduces various fields of metal biotechnology, emphasizing applications for the fields of environment conservation and resource recycling. The topics discussed include wastewater treatment and bioremediation technologies for hazardous metals making use of metal metabolism by microorganisms and other organisms; recovery and recycling of
Marine environments represent an underexplored source for numerous biotechnological applications. Of particular interest are organisms that can provide various valuable molecules and are potential candidates for bioremediation strategies. Fungi, algae, bacteria, yeasts, and sponges are some unique resources in marine ecosystems. But these must be preserved and protected from irreversible damage. Sustainable exploitation through farming systems is the alternative to prevent pressure on harvesting wild marine organisms. Written by an international team of experts, this book provides a broad overview of the possible approaches and technologies that can be applied in bioremediation processes and the possibilities to add value to the biomass produced. It provides a comprehensive state-of-the-art of current research and practice in bioremediation technology and bio-based materials. New processing technologies, and recent technical advances in molecular biology such as gene mining, omics techniques, and metabolic engineering are highlighted. The exciting possibilities that artificial intelligence can bring to the future of the biotechnology industry are also approached. The multidisciplinary nature of this book makes it of interest to a wide range of readers, including researchers, students, consulting professionals, engineers, governmental entities, and institutions working in environmental biotechnology, pollution control and prevention, and chemical processes.
This specialist research–level monograph presents an overview of environmentally significant microbe–metal interactions, covering both enzymatic and non–enzymatic reactions.
Traditional agricultural practices face escalating environmental challenges and struggle to meet global food demands while ensuring soil health and sustainability. Soil degradation, exacerbated by factors like industrialization and urbanization, significantly threatens crop productivity and food security. Conventional remediation methods often need to be revised, requiring innovative approaches to restore soil health and fertility. Nanotechnology Applications and Innovations for Improved Soil Health presents a groundbreaking solution to this pressing issue, offering a comprehensive guide to leveraging nanotechnology for sustainable agriculture. This pioneering book explores the transformative potential of nanomaterials in enhancing soil quality and crop production. By harnessing the unique properties of nanomaterials, such as their high surface area and reactivity, researchers and practitioners can develop novel strategies to address soil degradation and improve nutrient availability. By systematically examining nanotechnology's role in soil health, this book equips readers with the knowledge and tools needed to revolutionize agricultural practices and ensure food security for future generations.
Microbe Mediated Remediation of Environmental Contaminants presents recent scientific progress in applying microbes for environmental management. The book explores the current existing practical applications and provides information to help readers develop new practices and applications. Edited by recognized leaders in the field, this penetrating assessment of our progress to date in deploying microorganisms to the advantage of environmental management and biotechnology will be widely welcomed by those working in soil contamination management, agriculture, environment management, soil microbiology, and waste management. The polluting effects on the world around us of soil erosion, the unwanted migration of sediments, chemical fertilizers and pesticides, and the improper treatment of human and animal wastes have resulted in serious environmental and social problems around the world, problems which require us to look for solutions elsewhere than established physical and chemical technologies. Often the answer lies in hybrid applications in which microbial methods are combined with physical and chemical ones. When we remember that these highly effective microorganisms, cultured for a variety of applications, are but a tiny fraction of those to be found in the world around us, we realize the vastness of the untapped and beneficial potential of microorganisms. Explores microbial application redressing for soil and water contamination challenges Includes information on microbial synthesized nanomaterials for remediation of contaminated soils Presents a uniquely hybrid approach, combining microbial interactions with other chemical and physical methods
Relationship Between Microbes and Environment for Sustainable Ecosystem Services, Volume One: Microbial Products for Sustainable Ecosystem Services promotes advances in sustainable solutions, value-added products, and fundamental research in microbes and the environment. Topics include advanced and recent discoveries in the use of microbes for sustainable development. Users will find reference information ranging from the description of various microbial applications for sustainability in different aspects of food, energy, the environment and social development. Volume One includes the direct and indirect role of bacteria, fungi, actinomycetes, viruses, mycoplasma and protozoans in the development of products contributing towards sustainable. The book provides a holistic approach to the most recent advances in the application of various microbes as a biotechnological tool for a vast range of sustainable applications, modern practices, exploring futuristic strategies to harness its full potential. Covers the latest developments, recent applications and future research avenues in microbial biotechnology for sustainable development Includes expressive tables and figures with concise information about sustainable ecosystem services Provides a wide variety of applications and modern practices of harnessing the potential of microbes in the environment
This authored book collates information on extremophilic microorganisms from around the world with special emphasis on India. The main focus of this book is to describe extreme environments as the habitats of these microorganisms, mechanisms of the extremophiles to cope up with the surrounding environment, new taxa created, their physiological properties, their biotechnological potential in the production of different biomolecules and biomaterials, and their role in sustainability. The concept of the book is to have comprehensive information on the diversity of microorganisms in one place. The purpose of the present book is to make aware young researchers of the attempts made so far to isolate these different microbes, inspire them to revisit the extreme environments, investigate their biodiversity using advanced molecular techniques and explore further their biotechnological potential. This book is of interest to post-graduate students, young researchers of India as well as other countries. It is useful reading material for researchers involved in environmental microbiology, microbial diversity, microbial systematics, microbial culture collections, molecular taxonomy, and microbial biotechnology.