Omics Insights in Environmental Bioremediation [E-Book]

Section-I Bioremediation and Biodegradation -- Chapter#1 Bioremediation and Functional Metagenomics: Advances, Challenges, and Opportunities -- Chapter#2 Bioremediation: Gaining Insights Through Metabolomics -- Chapter#3 Metagenomics, Microbial Diversity, and Environmental Clean-up -- Chapter#4 Plant Microbes Association in Remediation of Contaminants for Environmental Sustainability -- Chapter#5 Recent Trends in Bioremediation of Heavy Metals: Challenges and Perspectives -- Chapter#6 Enzyme Technology for Remediation of Contaminants in the Environment -- Section-II Environmental Pollution and Wastewater Treatment -- Chapter#7: Environmental Toxicity, Health Hazards, and Bioremediation Strategies for Removal of Microplastics from Wastewater -- Chapter#8 Microbial Community Composition and Function in Activated Sludge Treatment Systems -- Chapter#9 Decontamination and Management Of Industrial Wastewater Using Microorganisms Under Aerobic Condition -- Chapter#10 Omics of Industrial Wastewater Treatment -- Chapter#11 Microalgae in Wastewater Treatment and Biofuel Production: Recent Advances, Challenges, and Future Prospects -- Chapter#12 Removal of Cobalt, Nickel, Cadmium, And Lead from Wastewater by Phytoremediation (ADilig) -- Chapter#13 Microbial Ecology of Wastewater Treatment Processes: Trends, Challenges, and Perspectives -- Chapter#14 Treatment, Recycling and Reuse of Wastewater from Tannery industry: Recent Trends, Challenges, and Opportunities -- Section-III Omics Approaches in Environmental Remediation -- Chapter#15 Metagenomics Tools for Assessment of Microbial Diversity in Bioremediation: A Novel Statistical Approach -- Chapter#16 Understanding in Bioremediation of Metals and Metalloids by Genomic Approaches -- Chapter#17 Bioremediation of Heavy Metals by Metagenomics Approaches -- Chapter#18 Proteomics, Genomics, And Metabolomic Understanding and Designing for Bioremediation of Environmental Contaminants -- Chapter#19 Omics Insight of Cold Environments: Cold Tolerant Microorganisms and Their Bioremediation Potential Use (Edwin) -- Chapter#20 Bioremediation Assessment in Industrial Wastewater Treatment: OMICS Approach -- Chapter#21 Microbial biodegradation and metagenomics in remediation environmental Pollutant: Enzyme and Mechanisms -- Chapter#22 OMICS in Biofuel Production: A Sustainable Approach -- Section-IV Recent Trends and Development in Omics Technologies -- Chapter#23 High-throughput Sequencing Technologies in Metagenomics: Advancing Approach for Algal Research -- Chapter#24 Metagenomic Approaches for The Discovery of Pollutants Remediating Enzymes: Recent Trends and Challenges -- Chapter#25 Recent Trends in Metagenomic Approaches in Environmental Cleanup (SP) -- Chapter#26 Applications of Metagenomics in microbial diversity and functions analysis; Recent Trends and Advances -- Chapter#27 CRISPR Cas-mediated functional gene editing for improvement in bioremediation: An emerging strategy -- Chapter#28 Metabarcoding approach in identifying potential pollutant degraders -- Chapter#29 Artificial Intelligence in Bioremediation Modelling and Clean-up of Contaminated Sites: Recent Advances, Challenges, and Opportunities.

Environmental pollution emanating from rapid industrialization, population growth, and urbanization has been considered a major problem in recent years that affects biodiversity, ecosystems, and human health by contaminating soil and water. This book brings out a comprehensive collection of information on valuable insights into different cutting-edge omics technologies, such as metagenomics, metatranscriptomics, metaproteomics, and metabolomics, along with advanced next-generation sequencing technologies as well as bioinformatic tools, which led to a better understanding of microbial communities and their adaptability to a wide range of contaminants and underlying their mechanisms in bioremediation and biodegradation of environmental pollutants. In addition, this edited volume provides critical insight into of potent microbial communities endowed with unique functional attributes through their unique metabolism catalyzed by 'signature' enzymes and degradation pathways. Step-by-step descriptions are provided of various microbial metabolic pathways of degradation and biotransformation of environmental contaminants by numerous illustrations which make the information easier to understand for the readers. Each chapter is devoted to selected examples of microbial bioremediation supported by tables, and an extensive list of references for readers interested in learning further details about the subject matter. This book is of interest to teachers, researchers to professionals, policymakers, stockholders, practitioners, environmental engineers, soil scientists, and policymakers. In addition, the book serves as additional comprehensive material for undergraduate, graduate, and doctoral students who require a working knowledge and knowhow of 'Omics' involved in and required for environmental remediation of legacy and emerging contaminants, will also find this to be a useful read.