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Full Description
Microbes are the predominant form of life on the planet due to their broad range of adaptation and versatile nutritional behavior. The ability of some microbes to inhabit hostile environment incompatible with most forms of life means that their habitat defines the extent of the biosphere and delineates the barrier between the biosphere and geosphere. The direct and indirect role of microbes that include bacteria, fungi, actinomycetes, viruses, mycoplasma, and protozoans are very much important in development of modern human society for food, drugs, textiles, agriculture, and environment. Furthermore, microorganisms and their enzyme system are responsible for the degradation of various organic matters.
Microbes for Sustainable Development and Bioremediation emphasizes the role of microbes for sustainable development of ecosystem. Environmental microbiology role in biogeochemical cycle and bioremediation of environmental waste is major theme, which comprises the following aspects:
Bacterial phytoextraction mechanism of heavy metals by native hyperaccumulator plants from complex waste-contaminated site for eco-restoration
Role of microbial enzyme for eco-friendly recycling of industrial waste
Field-scale remediation of crude oil-contaminated desert soil and treatment technology
Microbial technology for metal recovery from e-waste printed circuit board
Impact of genomic data on sustainability of ecosystem
Methane monooxygenases: their regulations and applications
Role of microbes in environmental sustainability and food preservation
This book will be directly beneficial to researchers and classroom students, in areas of biotechnology, environmental microbiology, molecular biology, and environmental engineering with specialized collection of cutting-edge knowledge.
Contents
Preface. Editors' Bio. List of Contributors. 1.Bacterial-assisted phytoextraction mechanism of heavy metals by native hyperaccumulator plants from distillery waste contaminated site for eco-restoration. 2.Microbial enzymes for eco-friendly recycling of waste paper by deinking. 3.Advances in the textile wastewater treatment. 4.Microbial degradation of pesticides in the environment. 5.Dissimilatory iron reducing bacteria- a template for iron mineralization and nanomaterials synthesis. 6. Economical approaches to heat and chemical pre-treatment of bacterial cells to enhance metal removal. 7.Field scale remediation of crude oil contaminated desert soil using various treatment technology- a large remediation project case study. 8.Microbial technology for metal recovery from e-waste printed circuit boards. 9.Impact of the genomic data on sustainability, how to discover and apply novel gene products from thermophilic microorganisms. 10.Metagenomics: A genomic tool for monitoring of microbial communities during bioremediation of environmental pollutants. 11.Microbial capacities for utilization of nitroaromatics. 12.Methane Monooxygenases: Their regulations and applications in biofuel production. 13.Plant growth promoting rhizobacteria (PGPR) and bioremediation of industrial waste. 14.Fungi treatment of synthetic dyes by using agroindustrial waste. 15.Beneficial microbes for sustainable agriculture. 16.Detoxification of biomedical waste. 17.Immobilized enzyme-based bio-catalytic cues: an effective approach to tackle industrial effluent waste. 18.Lipase of lactic acid bacteria: diversity and applications. 19.Role of microbes in environmental sustainability and food preservation. 20.Bioinformatics and application in biotechnology. 21.Microbial bioinoculants for sustainable agriculture: trends, constraints and future perspectives. Index.
