Applications of Metagenomics: Agriculture, Environment, and Health examines current metagenomics methods and their applications in soil, polluted environment sites, agriculture production, and health care, with separate sections dedicated to each application area. Special attention is paid to the biotechnological study of novel microbial resources for social welfare. Beyond applications, the book discusses evolving next generation technology and techniques used for carrying out metagenomics studies, and in doing so highlights the latest research and advances in the field, along with ways to…mehr
Applications of Metagenomics: Agriculture, Environment, and Health examines current metagenomics methods and their applications in soil, polluted environment sites, agriculture production, and health care, with separate sections dedicated to each application area. Special attention is paid to the biotechnological study of novel microbial resources for social welfare. Beyond applications, the book discusses evolving next generation technology and techniques used for carrying out metagenomics studies, and in doing so highlights the latest research and advances in the field, along with ways to adapt these approaches for different study types across the biological sciences.Chapter topics range from metagenomics for studying root microbial communities to microbial diversity of the rhizosphere, fungal diversity, microbial biodiversity in forest environments, the human microbiome, and disease epidemiology, with one chapter dedicated to Covid-19 metagenomics.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Part 1. Introduction 1. Metagenomic: Paradigm shift in microbiology 2. Next-Generation sequencing techniques and its application in metagenomics study 3. Global metagenomic sequencing platforms and marketing 4. Bioinformatics methods in metagenomics 5. Metagenomic and Bioinformatics in microbial ecology: current status and beyond 6. Me Metagenome, metatranscriptome, and metaproteome approaches to unravel microbial communities structure and function Part 2. Agriculture 7. Impact of long-term agricultural management practices on the rhizosphere microbiome and its impact on plant health 8. Long-term application of compost influences soil and root microbial communities under diverse rice-based cropping systems 9. Assessment of mycorrhizal symbionts on soil organic matter dynamics through metaomics approach 10. Role of metagenomics and metabolomics in exploring the soil microbiota for Sustainable agriculture 11. Effect of long-term application of biosolids on soil physico-chemical and biological properties 12. Plant microbiome: Trends and prospects for sustainable agriculture management 13. Microbial diversity of rhizosphere of the Himalayan plants 14. Rhizosphere microbiome diversity of different food crops 15. AM fungal diversity in rice-based cropping system and its impact on soil health Part 3. Environment 16. Bio-prospecting of hot spring metagenome and its industrial application 17. Microbial diversity in Ganga river and its impact on fish population 18. Microbial biodiversity in brackish water ecosystem in Eastern India: The Chilika lake 19. Microbial biodiversity in mangrove forest environment 20. Role of microbial- metagenomics potential in bioremediation 21. Assessment of metagenomics-based microbial diversity in mine ecology Part 4. Health 22. The role of metagenomics in understanding the human microbiome and its relation with medicine 23. Rapid metagenomic identification of pathogens in clinical samples by real-time nanopore sequencing analysis 24. Microbial diversity and their impact on human health 25. Gut microbiota modulation and its relationship with obesity 26. Metagenomic and prebiotic 27. A metagenomic approach to characterize disease epidemiology: A COVID0\-19 pandemic perspective 28. SARS-CoV-2 faecal viral activity in association with gut microbiota composition in patients with COVID-19 29. Wild animals microbiome and its implication in conservation biology 30 Assessment of farm animals microbiome for improvement of health
Part 1. Introduction 1. Metagenomic: Paradigm shift in microbiology 2. Next-Generation sequencing techniques and its application in metagenomics study 3. Global metagenomic sequencing platforms and marketing 4. Bioinformatics methods in metagenomics 5. Metagenomic and Bioinformatics in microbial ecology: current status and beyond 6. Me Metagenome, metatranscriptome, and metaproteome approaches to unravel microbial communities structure and function Part 2. Agriculture 7. Impact of long-term agricultural management practices on the rhizosphere microbiome and its impact on plant health 8. Long-term application of compost influences soil and root microbial communities under diverse rice-based cropping systems 9. Assessment of mycorrhizal symbionts on soil organic matter dynamics through metaomics approach 10. Role of metagenomics and metabolomics in exploring the soil microbiota for Sustainable agriculture 11. Effect of long-term application of biosolids on soil physico-chemical and biological properties 12. Plant microbiome: Trends and prospects for sustainable agriculture management 13. Microbial diversity of rhizosphere of the Himalayan plants 14. Rhizosphere microbiome diversity of different food crops 15. AM fungal diversity in rice-based cropping system and its impact on soil health Part 3. Environment 16. Bio-prospecting of hot spring metagenome and its industrial application 17. Microbial diversity in Ganga river and its impact on fish population 18. Microbial biodiversity in brackish water ecosystem in Eastern India: The Chilika lake 19. Microbial biodiversity in mangrove forest environment 20. Role of microbial- metagenomics potential in bioremediation 21. Assessment of metagenomics-based microbial diversity in mine ecology Part 4. Health 22. The role of metagenomics in understanding the human microbiome and its relation with medicine 23. Rapid metagenomic identification of pathogens in clinical samples by real-time nanopore sequencing analysis 24. Microbial diversity and their impact on human health 25. Gut microbiota modulation and its relationship with obesity 26. Metagenomic and prebiotic 27. A metagenomic approach to characterize disease epidemiology: A COVID0\-19 pandemic perspective 28. SARS-CoV-2 faecal viral activity in association with gut microbiota composition in patients with COVID-19 29. Wild animals microbiome and its implication in conservation biology 30 Assessment of farm animals microbiome for improvement of health
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