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Sewage --- Soil microbiology. --- Compost. --- Purification --- Biological treatment.
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A separate is devoted to the production and applications of biofertilizers and biopesticides. Organic waste recycling covers composting, vermin-compost, aquacultural reuse, land application, mushrooms and bio-energy production. The book keeps the learners abreast with the current trends and concepts in soil microbiology for easy comprehension. It also gives balanced coverage of fundamental and applied topics. Moreover, it introduces students to newly emerging field of soil biotechnology. The extensive glossary and index has been given at the end for easy study reference in understanding.
Soil microbiology. --- Soil biochemistry. --- Agricultural biotechnology
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Microbiology --- Microorganisms --- Medical microbiology --- Soil microbiology --- Microbiological Phenomena. --- Environmental Microbiology.
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Microbiome Under Changing Climate: Implications and Solutions presents the latest biotechnological interventions for the judicious use of microbes to ensure optimal agricultural yield. Summarizing aspects of vulnerability, adaptation and amelioration of climate impact, this book provides an important resource for understanding microbes, plants and soil in pursuit of sustainable agriculture and improved food security. It emphasizes the interaction between climate and soil microbes and their potential role in promoting advanced sustainable agricultural solutions, focusing on current research designed to use beneficial microbes such as plant growth promoting microorganisms, fungi, endophytic microbes, and more.Changes in climatic conditions influence all factors of the agricultural ecosystem, including adversely impacting yield both in terms of quantity and nutritional quality. In order to develop resilience against climatic changes, it is increasingly important to understand the effect on the native micro-flora, including the distribution of methanogens and methanotrophs, nutrient content and microbial biomass, among others.
Microbial ecology. --- Environmental microbiology --- Microorganisms --- Ecology --- Microbiology --- Agricultural biotechnology. --- Soil microbiology. --- Climatic changes. --- Environmental Microbiology --- Soil Microbiology --- Climate Change
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Soil microbiology --- Soil Microbiology --- Soil --- Microbiologie --- Microbiology --- 631.4 --- Soil Microbiology. --- 631.461 --- Soil micro-organisms --- Soil microorganisms --- Soils --- Soil biology --- Soilborne plant diseases --- Microbiology, Soil --- Soil science. Pedology. Soil research --- Zymotic microbes of the soil. Soil bacteria. Soil microbiology --- Bacteriology --- microbiology --- virology --- 631.461 Zymotic microbes of the soil. Soil bacteria. Soil microbiology --- 631.4 Soil science. Pedology. Soil research --- Bodem : microbiologie --- Soil microbiology. --- General microbiology
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"Written by leading experts in their respective fields, Principles and Applications of Soil Microbiology 3e, provides a comprehensive, balanced introduction to soil microbiology, and captures the rapid advances in the field such as recent discoveries regarding habitats and organisms, microbially mediated transformations, and applied environmental topics. Carefully edited for ease of reading, it aids users by providing an excellent multi-authored reference, the type of book that is continually used in the field. Background information is provided in the first part of the book for ease of comprehension. The following chapters then describe such fundamental topics as soil environment and microbial processes, microbial groups and their interactions, and thoroughly addresses critical nutrient cycles and important environmental and agricultural applications. An excellent textbook and desk reference, Principles and Applications of Soil Microbiology, 3e, provides readers with broad, foundational coverage of the vast array of microorganisms that live in soil and the major biogeochemical processes they control. Soil scientists, environmental scientists, and others, including soil health and conservation specialists, will find this material invaluable for understanding the amazingly diverse world of soil microbiology, managing agricultural and environmental systems, and formulating environmental policy"--
Soil microbiology. --- Soil micro-organisms --- Soil microorganisms --- Soils --- Microbiology --- Soil biology --- Soilborne plant diseases --- Bacteriology
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The book provides an overview relevant to various biological mechanisms that regulate carbon exchanges between the major components and their response to climate change. Climate change has a significant impact on people's lives, energy demand, food security, etc. The soil microbial ecology is vital for assessing terrestrial and aquatic carbon cycles and climate feedback. However, the primary concern is the complexity of the soil microbial community and its severely affected functions due to the climate and other global changes. Global warming comprises an assessment of the dynamic interactions and feedback between microbes, plants, and their physical environment due to climate change. The book will address the need to use a multifactor experimental approach to understand how soil microorganisms and their activities adapt to climate change and the implications of carbon cycle feedback. The most pressing concern is a clearer understanding of the biological factors that regulate carbon exchanges between land, oceans, and the atmosphere and how these exchanges will respond to climate change via climate-ecosystem feedbacks, which could augment or quell regional and global climate change. Terrestrial ecosystems play an important role in climate feedback as they produce and absorb greenhouse gases like carbon dioxide, methane, and nitrous oxides. They also strongly contribute to storing enormous amounts of carbon in living vegetation and soils, rendering them a significant global carbon sink. If climate change projections are realistic, such a rapid increase in carbon loss from soil could exacerbate the soil carbon cycle feedback. The book will determine the role of microbial feedback in regulating soil-land-atmosphere carbon exchange under changing climatic conditions at the regional and global levels. The current book will also focus on recent research designed to use beneficial microbes such as plant growth-promoting microorganisms, fungi, endophytic microbes, and others to improve understanding of the interaction and their potential role in promoting advanced management for sustainable agricultural solutions. Understanding the influence on the native microbiome, such as the distribution of methanogens and methanotrophs, nutritional content, microbial biomass, and other factors, is becoming increasingly crucial to establishing climate-resilient agriculture. .
Meteorology. Climatology --- General ecology and biosociology --- ecologie --- klimatologie --- klimaatverandering --- Climatic changes. --- Soil microbiology. --- Soils and climate.
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Growing demographic trends require sustainable technologies to improve quality and yield of future food productions. However, there is uncertainty about plant protection strategies in many agro-ecosystems. Pests, diseases, and weeds are overwhelmingly controlled by chemicals which pose health risks and cause other undesirable effects.Therefore, an increasing concern on control measures emerged in recent years. Many chemicals became questioned with regard to their sustainability and are (or will be) banned. Alternative management tools are studied, relying on biological, and low impact solutions. This ResearchTopic concerns microbial biocontrol agents, root-associated microbiomes, and rhizosphere networks. Understanding how they interact or respond to (a)biotic environmental cues is instrumental for an effective and sustainable impact. The rhizosphere is in this regard a fundamental object of study, because of its role in plant productivity. This e-book provides a polyhedral perspective on many issues in which beneficial microorganisms are involved. Data indeed demonstrate that they represent an as yet poorly-explored resource, whose exploitation may actively sustain plant protection and crop production. Given the huge number of microbial species present on the planet, the microorganisms studied represent just the tip of an iceberg. Data produced are, however, informative enough about their genetic and functional biodiversity, as well as about the ecosystem services they provide to underp in crop production. Challenges for future research work concern not only the biology of these species, but also the practices required to protect their biodiversity and to extend their application in the wide range of agricultural soils and systems present in the world. Agriculture cannot remain successfully and sustainable unless plant germplasm and useful microbial species are integrated, a goal for which new knowledge and information-based approaches are urgently needed.Growing demographic trends require sustainable technologies to improve quality and yield of future food productions. However, there is uncertainty about plant protection strategies in many agro-ecosystems. Pests, diseases, and weeds are overwhelmingly controlled by chemicals which pose health risks and cause other undesirable effects.Therefore, an increasing concern on control measures emerged in recent years. Many chemicals became questioned with regard to their sustainability and are (or will be) banned. Alternative management tools are studied, relying on biological, and low impact solutions. This ResearchTopic concerns microbial biocontrol agents, root-associated microbiomes, and rhizosphere networks. Understanding how they interact or respond to (a)biotic environmental cues is instrumental for an effective and sustainable impact. The rhizosphere is in this regard a fundamental object of study, because of its role in plant productivity. This e-book provides a polyhedral perspective on many issues in which beneficial microorganisms are involved. Data indeed demonstrate that they represent an as yet poorly-explored resource, whose exploitation may actively sustain plant protection and crop production. Given the huge number of microbial species present on the planet, the microorganisms studied represent just the tip of an iceberg. Data produced are, however, informative enough about their genetic and functional biodiversity, as well as about the ecosystem services they provide to underp in crop production. Challenges for future research work concern not only the biology of these species, but also the practices required to protect their biodiversity and to extend their application in the wide range of agricultural soils and systems present in the world. Agriculture cannot remain successfully and sustainable unless plant germplasm and useful microbial species are integrated, a goal for which new knowledge and information-based approaches are urgently needed.
induced resistance --- omics --- Soil Microbiology --- Rhizosphere Microbiology --- endophyte --- symbosis --- biocontrol --- plant growth promotion --- Plant Microbe Interaction
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Mycorrhiza in agroecosystem restoration is a groundbreaking book that sheds light on the critical role of mycorrhiza in restoring agroecosystems. This book comprehensively overviews the latest research findings, methodologies, and techniques for mycorrhizal management in agricultural systems. It serves as an essential guide for researchers, professionals, and students interested in understanding the importance of mycorrhizae in agroecosystem restoration. The book covers a broad range of topics related to mycorrhizae, including the ecological and economic significance of mycorrhiza in agricultural systems, the diversity of mycorrhizal associations, the role of mycorrhizae in plant nutrition, and the application of mycorrhizae in agroecosystem restoration. The book critically analyzes the current state of mycorrhizal research, highlighting the gaps and challenges in our understanding of mycorrhizae and their role in agroecosystem restoration. The authors of this book are leading experts in the field of mycorrhizal research, with extensive experience in studying mycorrhizae in agricultural systems. They bring their expertise and knowledge to this book, providing readers with a comprehensive understanding of the importance of mycorrhizae in agroecosystem restoration. Mycorrhiza in agroecosystem restoration is a timely contribution to the field of mycorrhizal research. With the growing recognition of the importance of mycorrhizae in sustainable agriculture, this book is a valuable resource for researchers, professionals, and students interested in understanding the potential of mycorrhizae in agroecosystem restoration. This book provides readers with a deep understanding of the mechanisms of mycorrhizal symbiosis and their impact on plant growth and development. The book covers a wide range of topics, including the impact of mycorrhizae on soil structure and fertility, the use of mycorrhizal inoculants in crop production, and the role of mycorrhizae in the restoration of degraded agroecosystems. “Mycorrhiza in Agroecosystem Restoration” is a must-read for anyone interested in the potential of mycorrhizae in sustainable agriculture. With its comprehensive coverage of the latest research findings and methodologies, this book is an essential guide for researchers, professionals, and students alike. The authors’ expertise and knowledge make this book valuable for anyone looking to deepen their understanding of mycorrhizae and their role in agroecosystem restoration. .
Fungi. --- Mycology. --- Microbiology. --- Plant diseases. --- Stress (Physiology). --- Plants. --- Plant Pathology. --- Plant Stress Responses. --- Soil microbiology.
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