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This contributed volume focuses on the latest innovations in the field of marine microbiology. Marine ecosystems are dynamic natural resources and home to very primitive life forms. They include open sea, deep sea, coastal marine ecosystem mudflats, seagrass meadows, mangroves, and rocky intertidal systems. This book deals with the various aspects of marine microbiology including diverse habitats, associated microorganisms, their adaptations, ecological interactions, biogeochemical cycling, and industrial applications. It also discusses the issue of pollution in oceans and put forward…mehr
This contributed volume focuses on the latest innovations in the field of marine microbiology. Marine ecosystems are dynamic natural resources and home to very primitive life forms. They include open sea, deep sea, coastal marine ecosystem mudflats, seagrass meadows, mangroves, and rocky intertidal systems. This book deals with the various aspects of marine microbiology including diverse habitats, associated microorganisms, their adaptations, ecological interactions, biogeochemical cycling, and industrial applications. It also discusses the issue of pollution in oceans and put forward available strategies for its eco-friendly solution. In recent years, extensive research, advanced methodologies, and high-throughput instrumentation have resulted in voluminous data and information that require proper compilation and worldwide sharing. From this perspective, the book is a perfect documentation of primary and secondary data-based information on the latest research findings, case studies, experiences, and innovations in the field of marine microbiology. The book is of great use to students, researchers and professionals studying marine sciences.
Dr. Ravindra Soni is the assistant professor at Department of Agricultural Microbiology, I.G.K.V., Raipur, CG, India. He has more than 12 years of experience in teaching & research. He is well experienced in the field of agricultural microbiology, microbial ecology, molecular biology & biotechnology especially with reference of higher altitudes. He has published several research articles and chapters in well reputed international journals and books. He also edited 8 books with international publishers.
Deep Chandra Suyal
Dr. Deep Chandra Suyal is Assistant Professor at Department of Science, Vidyadayini Institute of Science, Management and Technology, Bhopal, Madhya Pradesh, India. He has been actively engaged in research for 12 years, and has experience in the fields of agricultural microbiology, molecular biology & biotechnology and microbial ecology. He is currently investigating the genomics & proteomics of cold adapted microorganisms. He has published several research articles, book chapters and edited books with reputed international journals and publishers.
Lourdes Morales-Oyervides
Dr. Lourdes Morales-Oyervides obtained her PhD in Engineering from University College Cork, Ireland (2015). Later on (2015-2016), she collaborated as a postdoctoral researcher at the Dairy Processing Technology Centre (Limerick, Ireland). Currently, she is a Professor at the Autonomous University of Coahuila (México) and she is recognized as a member of the National System of Researchers (SNI) from CONACyT (México) since 2016. Her research interests are focused on the design, optimization and scale-up of sustainable bioprocesses to produce food additives, enzymes, biopolymers and other added-value compounds.
Mireille Fouillaud
Mireille Fouillaud is a senior lecturer at the biology department of University of La Reunion and a researcher in the Laboratory of Chemistry and Biotechnology of Natural Products (ChemBioPro). She graduated in 1990 as an industrial microbiology engineer. Following a Ph.D. in Cell Biology and Microbiology from the University of Aix-Marseille (France), defended in 1994, she was recruited in the biology department of the Faculty of Sciences and Technology of the University of La Reunion. Between 2009 and 2020 she joined the food engineering department of ESIROI (Ecole supérieure d’Ingénieurs Réunion Océan Indien), where she taught biology and microbiology applied to agribusiness. In 2020, she joined the Faculty of Sciences of University of La Réunion again to teach microbiology and project management. Her main research interests range from the microbial diversity of ecosystems and organisms to the biotechnological production of metabolites of interest to industries. Some years ago, she decided to focus on pigmented metabolites obtained from marine-derived filamentous fungi,with potential applications in foods or dyeing industries. She also leads research studies on actinomycetes producing specialized bioactive metabolites.
Inhaltsangabe
Section 1: General considerations.- Chapter 1. Physical and chemical processes of marine environment.- Chapter 2. A review study on the microbes in the recycling of carbon.- Chapter 3. Microbial symbiosis in marine ecosystem.- Section 2: Communities of special interest.- Chapter 4. Cyanobacteria in oceanChapter.- Chapter 5. Marine algae and their importance.- Chapter 6. Antarctica microbial communities: ecological and industrial importance.- Chapter 7. Crustaceans - microbes and defense mechanisms.- Section 3: Marine microorganisms and environmental bioremediation.- Chapter 8. Pollution in marine ecosystem: impact and prevention.- Chapter 9. Source and effect of oil spills on associated microorganisms in marine aquatic environment.- Chapter 10. Heavy metal pollution in water: cause and remediation strategies.- Chapter 11. Responses of marine fungi to heavy metal contamination.- Chapter 12. Micro-plastic pollution in marine ecosystem and its remediation.- Chapter 13. Microplasticpollution in aquatic environment: ecotoxicological effects and bioremediation prospects.- Chapter 14. Biodegradation of endocrine-disrupting chemicals using marine microorganisms.- Chapter 15. Bioreactors for bioremediation of polluted water.- Section 4: Others applications and perspectives.- Chapter 16. Industrial importance of marine algae.- Chapter 17. Sargassum derived agents for potential cosmetic applications.- Chapter 18. Utilization of seaweed as partial replacement to the fish meal in aquaculture diets.- Chapter 19. Nanobiotechnology of marine organisms: mechanisms and applications.- Chapter 20. Bioactive compounds from marine water ecosystem.- Chapter 21. Marine fish microbiome: current status and future perspectives.
Section 1: General considerations.- Chapter 1. Physical and chemical processes of marine environment.- Chapter 2. A review study on the microbes in the recycling of carbon.- Chapter 3. Microbial symbiosis in marine ecosystem.- Section 2: Communities of special interest.- Chapter 4. Cyanobacteria in oceanChapter.- Chapter 5. Marine algae and their importance.- Chapter 6. Antarctica microbial communities: ecological and industrial importance.- Chapter 7. Crustaceans - microbes and defense mechanisms.- Section 3: Marine microorganisms and environmental bioremediation.- Chapter 8. Pollution in marine ecosystem: impact and prevention.- Chapter 9. Source and effect of oil spills on associated microorganisms in marine aquatic environment.- Chapter 10. Heavy metal pollution in water: cause and remediation strategies.- Chapter 11. Responses of marine fungi to heavy metal contamination.- Chapter 12. Micro-plastic pollution in marine ecosystem and its remediation.- Chapter 13. Microplasticpollution in aquatic environment: ecotoxicological effects and bioremediation prospects.- Chapter 14. Biodegradation of endocrine-disrupting chemicals using marine microorganisms.- Chapter 15. Bioreactors for bioremediation of polluted water.- Section 4: Others applications and perspectives.- Chapter 16. Industrial importance of marine algae.- Chapter 17. Sargassum derived agents for potential cosmetic applications.- Chapter 18. Utilization of seaweed as partial replacement to the fish meal in aquaculture diets.- Chapter 19. Nanobiotechnology of marine organisms: mechanisms and applications.- Chapter 20. Bioactive compounds from marine water ecosystem.- Chapter 21. Marine fish microbiome: current status and future perspectives.
Section 1: General considerations.- Chapter 1. Physical and chemical processes of marine environment.- Chapter 2. A review study on the microbes in the recycling of carbon.- Chapter 3. Microbial symbiosis in marine ecosystem.- Section 2: Communities of special interest.- Chapter 4. Cyanobacteria in oceanChapter.- Chapter 5. Marine algae and their importance.- Chapter 6. Antarctica microbial communities: ecological and industrial importance.- Chapter 7. Crustaceans - microbes and defense mechanisms.- Section 3: Marine microorganisms and environmental bioremediation.- Chapter 8. Pollution in marine ecosystem: impact and prevention.- Chapter 9. Source and effect of oil spills on associated microorganisms in marine aquatic environment.- Chapter 10. Heavy metal pollution in water: cause and remediation strategies.- Chapter 11. Responses of marine fungi to heavy metal contamination.- Chapter 12. Micro-plastic pollution in marine ecosystem and its remediation.- Chapter 13. Microplasticpollution in aquatic environment: ecotoxicological effects and bioremediation prospects.- Chapter 14. Biodegradation of endocrine-disrupting chemicals using marine microorganisms.- Chapter 15. Bioreactors for bioremediation of polluted water.- Section 4: Others applications and perspectives.- Chapter 16. Industrial importance of marine algae.- Chapter 17. Sargassum derived agents for potential cosmetic applications.- Chapter 18. Utilization of seaweed as partial replacement to the fish meal in aquaculture diets.- Chapter 19. Nanobiotechnology of marine organisms: mechanisms and applications.- Chapter 20. Bioactive compounds from marine water ecosystem.- Chapter 21. Marine fish microbiome: current status and future perspectives.
Section 1: General considerations.- Chapter 1. Physical and chemical processes of marine environment.- Chapter 2. A review study on the microbes in the recycling of carbon.- Chapter 3. Microbial symbiosis in marine ecosystem.- Section 2: Communities of special interest.- Chapter 4. Cyanobacteria in oceanChapter.- Chapter 5. Marine algae and their importance.- Chapter 6. Antarctica microbial communities: ecological and industrial importance.- Chapter 7. Crustaceans - microbes and defense mechanisms.- Section 3: Marine microorganisms and environmental bioremediation.- Chapter 8. Pollution in marine ecosystem: impact and prevention.- Chapter 9. Source and effect of oil spills on associated microorganisms in marine aquatic environment.- Chapter 10. Heavy metal pollution in water: cause and remediation strategies.- Chapter 11. Responses of marine fungi to heavy metal contamination.- Chapter 12. Micro-plastic pollution in marine ecosystem and its remediation.- Chapter 13. Microplasticpollution in aquatic environment: ecotoxicological effects and bioremediation prospects.- Chapter 14. Biodegradation of endocrine-disrupting chemicals using marine microorganisms.- Chapter 15. Bioreactors for bioremediation of polluted water.- Section 4: Others applications and perspectives.- Chapter 16. Industrial importance of marine algae.- Chapter 17. Sargassum derived agents for potential cosmetic applications.- Chapter 18. Utilization of seaweed as partial replacement to the fish meal in aquaculture diets.- Chapter 19. Nanobiotechnology of marine organisms: mechanisms and applications.- Chapter 20. Bioactive compounds from marine water ecosystem.- Chapter 21. Marine fish microbiome: current status and future perspectives.
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