Advances In Plant Microbiome Research For Climate Resilient Agriculture
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Advances in Plant Microbiome Research for Climate-Resilient Agriculture by Ashwani Kumar Pdf
This new book, Advances in Plant Microbiome Research for Climate-Resilient Agriculture: Toward Sustainable Farming, covers important aspects of plant microbiome research through contributions from scientists with the latest information available in this area of research. The book provides an introduction to the concept of plant microbiome and its importance for climate-resistant crop plants and discusses the tools and techniques to analyze plant microbiome for sustainable agriculture productivity. It covers microbial endophytes as warriors for plant defense against abiotic and biotic stress. The book also highlights the importance of phyto-microbiomes and presents an overview of the role of metabolomics in bioremediation for sustainable crop production, introducing various metabolomics tools such as GC-MS, LC-MS, and NMR for the sustainable remediation of toxic pollutants from the environment. Web sources and software for metabolomics data interpretation are included as well. The book discusses abiotic and biotic stresses and their effects on crops, the concept and strategies of the rhizosphere microbiome manipulation in crop improvement, the microbial traits in plant stress tolerance and their importance for agriculture, exogenous applications of several compounds and phyto-microbiomes that mitigate the negative effects of salt stress on maize, and the beneficial plant microbial association for sustainable agriculture. With its coverage of the recent research on the current methods and technological advancements for increasing plant resilience to adverse climate scenarios, this volume will be a rich resource for botanists, plant specialists, and researchers concerned with crop science, plant physiology, and plant protection.
Microbes for Climate Resilient Agriculture by Prem Lal Kashyap,Alok Kumar Srivastava,Shree Prakash Tiwari,Sudheer Kumar Pdf
A comprehensive, edited volume pulling together research on manipulation of the crop microbiome for climate resilient agriculture Microbes for Climate Resilient Agriculture provides a unique collection of data and a holistic view of the subject with quantitative assessment of how agricultural systems will be transformed in coming decades using hidden treasure of microbes. Authored by leaders in the field and edited to ensure conciseness and clarity, it covers a broad range of agriculturally important crops, discusses the impact of climate change on crops, and examines biotechnologically and environmentally relevant microbes. The book encapsulates the understanding of microbial mediated stress management at field level, and will serve as a springboard for novel research findings and new applications in the field. Chapter coverage includes: the role of the phytomicrobiome in maintaining biofuel crop production in a changing climate; the impact of agriculture on soil microbial community composition and diversity in southeast Asia; climate change impact on plant diseases; microalgae; photosynthetic microorganisms and bioenergy prospects; amelioration of abiotic stresses in plants through multi-faceted beneficial microorganisms; role of methylotrophic bacteria in climate change mitigation; conservation agriculture for climate change resilience; archaeal community structure; mycorrhiza-helping plants to navigate environmental stresses; endophytic microorganisms; bacillus thuringiensis; and microbial nanotechnology for climate resilient agriculture. Clear and succinct chapters contributed and edited by leaders in the field Covers microbes' beneficial and detrimental roles in the microbiome, as well as the functions they perform under stress Discusses the crop microbiome, nutrient cycling microbes, endophytes, mycorrhizae, and various pests and diseases, and their roles in sustainable farming Places research in larger context of climate change's effect on global agriculture Microbes for Climate Resilient Agriculture is an important text for scientists and researchers studying microbiology, biotechnology, environmental biology, agronomy, plant physiology, and plant protection.
Advances in Plant Microbiome and Sustainable Agriculture by Ajar Nath Yadav,Ali Asghar Rastegari,Neelam Yadav,Divjot Kour Pdf
Microbes are ubiquitous in nature, and plant-microbe interactions are a key strategy for colonizing diverse habitats. The plant microbiome (epiphytic, endophytic and rhizospheric) plays an important role in plant growth and development and soil health. Further, rhizospheric soil is a valuable natural resource, hosting hotspots of microbes, and is vital in the maintenance of global nutrient balance and ecosystem function. The term endophytic microbes refers to those microorganisms that colonize the interior the plants. The phyllosphere is a common niche for synergism between microbes and plants and includes the leaf surface. The diverse group of microbes are key components of soil-plant systems, and where they are engaged in an extensive network of interactions in the rhizosphere/endophytic/phyllospheric they have emerged as an important and promising tool for sustainable agriculture. Plant microbiomes help to directly or indirectly promote plant growth using plant growth promoting attributes, and could potentially be used as biofertilizers/bioinoculants in place of chemical fertilizers. This book allows readers to gain an understanding of microbial diversity associated with plant systems and their role in plant growth, and soil health. Offering an overview of the state of the art in plant microbiomes and their potential biotechnological applications in agriculture and allied sectors, it is a valuable resource for scientists, researchers and students in the field of microbiology, biotechnology, agriculture, molecular biology, environmental biology and related subjects.
Advances in Plant Microbiome and Sustainable Agriculture by Ajar Nath Yadav,Ali Asghar Rastegari,Neelam Yadav,Divjot Kour Pdf
Microbes are ubiquitous in nature, and plant-microbe interactions are a key strategy for colonizing diverse habitats. The plant microbiome (epiphytic, endophytic and rhizospheric) plays an important role in plant growth and development and soil health. Further, rhizospheric soil is a valuable natural resource, hosting hotspots of microbes, and is vital in the maintenance of global nutrient balance and ecosystem function. The term endophytic microbes refers to those microorganisms that colonize the interior the plants. The phyllosphere is a common niche for synergism between microbes and plants and includes the leaf surface. The diverse group of microbes are key components of soil-plant systems, and where they are engaged in an extensive network of interactions in the rhizosphere/endophytic/phyllospheric they have emerged as an important and promising tool for sustainable agriculture. Plant microbiomes help to directly or indirectly promote plant growth using plant growth promoting attributes, and could potentially be used as biofertilizers/bioinoculants in place of chemical fertilizers. This book allows readers to gain an understanding of microbial diversity associated with plant systems and their role in plant growth, and soil health. Offering an overview of the state of the art in plant microbiomes and their potential biotechnological applications in agriculture and allied sectors, it is a valuable resource for scientists, researchers and students in the field of microbiology, biotechnology, agriculture, molecular biology, environmental biology and related subjects.
The Plant Microbiome in Sustainable Agriculture by Alok Kumar Srivastava,Prem Lal Kashyap,Madhumita Srivastava Pdf
The most up-to-date reference on phytomicrobiomes available today The Plant Microbiome in Sustainable Agriculture combines the most relevant and timely information available today in the fields of nutrient and food security. With a particular emphasis on current research progress and perspectives of future development in the area, The Plant Microbiome in Sustainable Agriculture is an invaluable reference for students and researchers in the field, as well as those with an interest in microbiome research and development. The book covers both terrestrial and crop associated microbiomes, unveiling the biological, biotechnological and technical aspects of research. Topics discussed include: Developing model plant microbiome systems for various agriculturally important crops Defining core microbiomes and metagenomes in these model systems Defining synthetic microbiomes for a sustainable increase in food production and quality The Plant Microbiome in Sustainable Agriculture is written to allow a relative neophyte to learn and understand the basic concepts involved in phytomicrobiomes and discuss them intelligently with colleagues.
Sustainable Agriculture by Javid Ahmad Parray,Nowsheen Shameem Pdf
Sustainable Agriculture: Advances in Plant Metabolome and Microbiome focuses on the advancement of basic and applied research related to plant-microbe interaction and their implementation in progressive agricultural sustainability. The book also highlights the developing area of bioinformatics tools for the interpretation of metabolome, the integration of statistical and bioinformatics tools to manage huge generating data, metabolite profiling, and key signaling-driven substances, along with a section on the role of key biosynthetic pathways. Focused on selecting positive and effective interactive core-microbiome which will be adaptive and sustainable, this book will help researchers further improve the quality and productivity of crops through sustainable agriculture. Details the two-way interactive approach to both plants and microbes Describes setting up core and functional microbiomes Presents the relationship of metabolomics and biocontrol
Plant-Microbe Dynamics by Tanveer Bilal Pirzadah,Bisma Malik,Khalid Rehman Hakeem Pdf
Plants and microbes have co-evolved and interacted with each other in nature. Understanding the complex nature of the plant-microbe interface can pave the way for novel strategies to improve plant productivity in an eco-friendly manner. The microbes associated with plants, often called plant microbiota, are an integral part of plant life. The significance of the plant microbiome is a reliable approach toward sustainability to meet future food crises and rejuvenate soil health. Profiling plant-associate microbiomes (genome assemblies of all microbes) is an emerging concept in understanding plant-microbe interactions. Microbiota extends the plant capacity to acclimatize fluctuating environmental conditions through several mechanisms. Thus, unraveling the mystery of plant-microbe dynamics through latest technologies to better understand the role of metabolites and signal pathway mechanisms is very important. This book shares the latest insight on omics technologies to unravel plant-microbe dynamic interactions and other novel phytotechnologies for cleaning contaminated soils. Besides, it also provides brief insight on the recently discovered clustered regularly interspaced short palindromic repeats CRISPR-Cas9, which is a genome editing tool to explore plant-microbe interactions and how this genome editing tool helps to improve the ability of microbes/plants to combat abiotic/biotic stresses.
Microbiomics and Sustainable Crop Production by Mohammad Yaseen Mir,Saima Hamid Pdf
Microbiomics and Sustainable Crop Production Microbiomics and Sustainable Crop Production presents an overview of the current state of the art in microbiome research, discussing many new technologies and approaches in order to bridge knowledge gaps between field and lab experimental systems. New and emerging strategies to improve the survival and activity of microbial inoculants are covered, including the use of selected indigenous microbes, optimizing microbial delivery methods, and taking advantage of modern gene editing tools to engineer microbial inoculants. The two highly qualified authors address new molecular tools and powerful biotechnological advances, providing readers with knowledge of the complex chemical and biological interactions that occur in the rhizosphere and ensuring that strategies to engineer the rhizosphere are safe, beneficial to productivity, and result in improvements to the sustainability of agricultural systems. The relationship between phyllosphere microbial communities and functional traits of plants is also explored. Finally, approaches and priority areas for future research on phyllosphere microbiology are suggested. Topics covered in this comprehensive resource include: Transmission modes of bacteria and fungi and the nature of their interactions in the endosphere Characteristics of ‘core microbiomes’, which may be deployed to organize otherwise uncontrollable dynamics of resident microbiomes Model microbiome-plant systems, as well as the stability, resilience, and assembly of agricultural microbiomes Engineering and management of agricultural microbiomes for improving crop health, including reasons to modify plant microbiomes Microbiome research in the omics era and new efforts and challenges in assigning functions to microbes For students of plant biotechnology, agricultural sciences, and agricultural engineering, along with researchers working in related fields, Microbiomics and Sustainable Crop Production is an important resource to understand many complex modern ideas related to the subject and how they can be applied to practical applications.
Core Microbiome by Javid A. Parray,Elsayed F. Abd-Allah,Nowsheen Shameem,Mohammad Y. Mir Pdf
Improve the quality and productivity of your crops through selecting positive and effective interactive core-microbiomes As microbial cells are present in overwhelming numbers in our soil, it is perhaps inevitable that microbes are found extensively in plant and animal tissue. The role of microbiomes on the regulation of physiological processes in animals has been extensively researched in recent years, but the overarching role of the plant microbiome has yet to be discovered. Core Microbiome: Improving Crop Quality and Productivity is an attempt to remediate some of that deficit, as the first book to summarize feature of microbial communities that make up the plant microbiome. There is substantial evidence that these communities are crucial in disease control, enhanced nutrient acquisition, and stress tolerance—a feature more important than ever due to climate change. A further focus on improving how core microbiomes interact so that they are both phenotypically and genotypically very adaptive and sustainable will allow the reader to improve the quality and productivity of crops so that they may be considered sustainable agriculture. Core Microbiome readers will also find: Descriptions of the basic structure of core microbiomes and their functions across various habitats New and cutting-edge trends and technological innovations highlighted that use core microbiomes to harness plant microbiome interaction The structure, classification, and biotechnological applications of aquatic core microbiomes, in addition to the material on plant microbiomes As a broad introduction to the interaction of core microbiome and plant productivity, Core Microbiome is ideal for researchers and scientists working in the field of environmental science, environmental microbiology, and waste management. Similarly, undergraduate and graduate students in these fields, as well as in agriculture, biotechnology, biosciences, and life and environmental sciences will also benefit from this work.
National Academies of Sciences, Engineering, and Medicine,Division of Behavioral and Social Sciences and Education,Board on Environmental Change and Society,Health and Medicine Division,Food and Nutrition Board,Division on Earth and Life Studies,Water Science and Technology Board,Board on Life Sciences,Board on Atmospheric Sciences and Climate,Board on Agriculture and Natural Resources,Committee on Science Breakthroughs 2030: A Strategy for Food and Agricultural Research
Author : National Academies of Sciences, Engineering, and Medicine,Division of Behavioral and Social Sciences and Education,Board on Environmental Change and Society,Health and Medicine Division,Food and Nutrition Board,Division on Earth and Life Studies,Water Science and Technology Board,Board on Life Sciences,Board on Atmospheric Sciences and Climate,Board on Agriculture and Natural Resources,Committee on Science Breakthroughs 2030: A Strategy for Food and Agricultural Research Publisher : National Academies Press Page : 243 pages File Size : 50,8 Mb Release : 2019-04-21 Category : Science ISBN : 9780309473927
Science Breakthroughs to Advance Food and Agricultural Research by 2030 by National Academies of Sciences, Engineering, and Medicine,Division of Behavioral and Social Sciences and Education,Board on Environmental Change and Society,Health and Medicine Division,Food and Nutrition Board,Division on Earth and Life Studies,Water Science and Technology Board,Board on Life Sciences,Board on Atmospheric Sciences and Climate,Board on Agriculture and Natural Resources,Committee on Science Breakthroughs 2030: A Strategy for Food and Agricultural Research Pdf
For nearly a century, scientific advances have fueled progress in U.S. agriculture to enable American producers to deliver safe and abundant food domestically and provide a trade surplus in bulk and high-value agricultural commodities and foods. Today, the U.S. food and agricultural enterprise faces formidable challenges that will test its long-term sustainability, competitiveness, and resilience. On its current path, future productivity in the U.S. agricultural system is likely to come with trade-offs. The success of agriculture is tied to natural systems, and these systems are showing signs of stress, even more so with the change in climate. More than a third of the food produced is unconsumed, an unacceptable loss of food and nutrients at a time of heightened global food demand. Increased food animal production to meet greater demand will generate more greenhouse gas emissions and excess animal waste. The U.S. food supply is generally secure, but is not immune to the costly and deadly shocks of continuing outbreaks of food-borne illness or to the constant threat of pests and pathogens to crops, livestock, and poultry. U.S. farmers and producers are at the front lines and will need more tools to manage the pressures they face. Science Breakthroughs to Advance Food and Agricultural Research by 2030 identifies innovative, emerging scientific advances for making the U.S. food and agricultural system more efficient, resilient, and sustainable. This report explores the availability of relatively new scientific developments across all disciplines that could accelerate progress toward these goals. It identifies the most promising scientific breakthroughs that could have the greatest positive impact on food and agriculture, and that are possible to achieve in the next decade (by 2030).
Plant Microbiomes for Sustainable Agriculture by Ajar Nath Yadav,Joginder Singh,Ali Asghar Rastegari,Neelam Yadav Pdf
This book encompasses the current knowledge of plant microbiomes and their potential biotechnological application for plant growth, crop yield and soil health for sustainable agriculture. The plant microbiomes (rhizospheric, endophytic and epiphytic) play an important role in plant growth, development, and soil health. Plant and rhizospheric soil are a valuable natural resource harbouring hotspots of microbes, and it plays critical roles in the maintenance of global nutrient balance and ecosystem function. The diverse group of microbes is key components of soil–plant systems, where they are engaged in an intense network of interactions in the rhizosphere/endophytic/phyllospheric. The rhizospheric microbial diversity present in rhizospheric zones has a sufficient amount of nutrients release by plant root systems in form of root exudates for growth, development and activities of microbes. The endophytic microbes are referred to those microorganisms, which colonize in the interior of the plant parts, viz root, stem or seeds without causing any harmful effect on host plant. Endophytic microbes enter in host plants mainly through wounds, naturally occurring as a result of plant growth, or through root hairs and at epidermal conjunctions. Endophytes may be transmitted either vertically (directly from parent to offspring) or horizontally (among individuals). The phyllosphere is a common niche for synergism between microbes and plant. The leaf surface has been termed as phyllosphere and zone of leaves inhabited by microorganisms as phyllosphere. The plant part, especially leaves, is exposed to dust and air currents resulting in the establishments of typical flora on their surface aided by the cuticles, waxes and appendages, which help in the anchorage of microorganisms. The phyllospheric microbes may survive or proliferate on leaves depending on extent of influences of material in leaf diffuseness or exudates. The leaf diffuseness contains the principal nutrients factors (amino acids, glucose, fructose and sucrose), and such specialized habitats may provide niche for nitrogen fixation and secretions of substances capable of promoting the growth of plants. The microbes associated with plant as rhizospheric, endophytic and epiphytic with plant growth promoting (PGP) attributes have emerged as an important and promising tool for sustainable agriculture. PGP microbes promote plant growth directly or indirectly, either by releasing plant growth regulators; solubilization of phosphorus, potassium and zinc; biological nitrogen fixation or by producing siderophore, ammonia, HCN and other secondary metabolites which are antagonistic against pathogenic microbes. The PGP microbes belong to different phylum of archaea (Euryarchaeota); bacteria (Acidobacteria, Actinobacteria, Bacteroidetes, Deinococcus-Thermus, Firmicutes and Proteobacteria) and fungi (Ascomycota and Basidiomycota), which include different genera namely Achromobacter, Arthrobacter, Aspergillus, Azospirillum, Azotobacter, Bacillus, Beijerinckia, Burkholderia, Enterobacter, Erwinia, Flavobacterium, Gluconoacetobacter, Haloarcula, Herbaspirillum, Methylobacterium, Paenibacillus, Pantoea, Penicillium, Piriformospora, Planomonospora, Pseudomonas, Rhizobium, Serratia and Streptomyces. These PGP microbes could be used as biofertilizers/bioinoculants at place of chemical fertilizers for sustainable agriculture. The aim of “Plant Microbiomes for Sustainable Agriculture” is to provide the current developments in the understanding of microbial diversity associated with plant systems in the form of rhizospheric, endophytic and epiphytic. The book is useful to scientist, research and students related to microbiology, biotechnology, agriculture, molecular biology, environmental biology and related subjects.
Soil Microbiomes for Sustainable Agriculture by Ajar Nath Yadav Pdf
This book encompasses current knowledge of soil microbiomes and their potential biotechnological application for plant growth, crop yield, and soil health under the natural as well as harsh environmental conditions for sustainable agriculture. The microbes are ubiquitous in nature. The soil is a natural hotspot of the soil microbiome. The soil microbiome plays a critical role in the maintenance of global nutrient balance and ecosystem functioning. The soil microbiomes are associated with plant ecosystems through the intense network of plant–microbe interactions. The microbes present in bulk soil move toward the rhizospheric region due to the release of different nutrients by plant systems. The rhizospheric microbes may survive or proliferate in rhizospheric zone depending on the extent of influences of the chemicals secreted into the soil by roots. The root exudates contain the principal nutrients factors (amino acids, glucose, fructose, and sucrose). The microbes present in rhizospheric region have capabilities to fix atmospheric nitrogen, produce different phytohormones, and solubilize phosphorus, potassium, and zinc. The plant systems take these nutrients for their growth and developments. These soil and plant associated microbes also play an important role in protection of plants from different plant pathogenic organisms by producing different secondary metabolites such as ammonia, hydrogen cyanide, siderophores, and hydrolytic enzymes. The soil microbiomes with plant growth-promoting (PGP) attributes have emerged as an important and promising tool for sustainable agriculture. The soil microbiomes promote the plant growth and enhance the crop yield and soil fertility via directly or indirectly different plant growth-promoting mechanism. The soil microbes help the plant for adaptation in extreme habitats by mitigating the abiotic stress of high/low temperatures, hypersalinity, drought, and acidic/alkaline soil. These PGP microbes are used as biofertilizers/bioinoculants to replace the harmful chemical fertilizers for sustainable agriculture and environments. The aim of the book “Soil Microbiomes for Sustainable Agriculture” is to provide the recent advances in mechanisms of plant growth promotion and applications of soil microbiomes for mitigation of different abiotic stresses in plants. The book is useful to scientists, researchers, and students related to microbiology, biotechnology, agriculture, molecular biology, environmental biology, and related subjects.
Ashutosh Singh (Assistant professor at the Centre for Advanced Studies on Climate Change),Saurabh Pandey (Lecturer in agriculture)
Author : Ashutosh Singh (Assistant professor at the Centre for Advanced Studies on Climate Change),Saurabh Pandey (Lecturer in agriculture) Publisher : Unknown Page : 0 pages File Size : 54,5 Mb Release : 2024 Category : Science ISBN : 1003455271
Climate-Resilient Agriculture by Ashutosh Singh (Assistant professor at the Centre for Advanced Studies on Climate Change),Saurabh Pandey (Lecturer in agriculture) Pdf
"Developing climate-smart crops is vital to securing food security around the world. This new volume, Climate-Resilient Agriculture: A Molecular Perspective, covers the current aspects of climate-resilient agriculture, including the crucial physiological, biochemical, and molecular aspects of cultivated crops under stress conditions, which play a pivotal role in developing climate-smart crops. This book discusses the current state of climate change and its effect on crop diversity and germplasm. The primary focus of the volume is on advanced technologies and approaches in the development of crops that can withstand adverse climate scenarios. The volume explores breeding, omics, genetic engineering, bioengineering of metabolic pathways, and artificial intelligence. Each has been laid out with systematic approaches to developing abiotic stress-tolerant genotypes using biotechnological tools. Key features: Addresses the current and future challenges of climate changes on food security Details the impact of different biotic, abiotic stresses, their interaction, and effect on crop plants in climate-changing scenarios Gives a comprehensive account of molecular mechanisms associated with different stresses in crop plants Discusses advances in breeding and biotechnological techniques to tackle the different stresses in challenging climatic fluctuations Highlights various emerging approaches and technologies currently being used in developing climate-smart crops Provides success stories of crop improvement against the different stresses. This book covers the crucial advanced technologies that can help to mitigate plant abiotic stresses in cultivated crops and will familiarize readers with state-of-the-art advances in climate-resilience agriculture. The volume will benefit researchers, plant scientists, environmental biologists, faculty, and students in diverse fields of agriculture"--
Microbial Symbionts and Plant Health: Trends and Applications for Changing Climate by Piyush Mathur,Rupam Kapoor,Swarnendu Roy Pdf
This book provides a comprehensive understanding of the complex relationship between microbial symbionts and plants in the era of climate change. It focuses on the plant microbiome associated with different plant organs like roots, leaves, stems, fruit, and seeds, and showcases their significant role in the enhancement of crop yield and protection in a sustainable manner. Concomitantly, acumens to the most emerging trends in plant microbial research that includes rhizosphere engineering and metagenomics are also covered in this title. The association of microbial symbionts with the host offers a wide advantage in terms of acclimatization to varied environmental conditions. A large number of microbes such as cyanobacteria, PGPR, endophytes, and AMF have been shown to improve plant growth and production under the effect of various abiotic and biotic stresses. These microbial symbionts secrete several secondary metabolites, signaling molecules, and hydrolytic enzymes that play a multifarious role in improving plant growth and yield. Moreover, the symbionts have been known to regulate the host responses at the molecular level. Bioprospecting these microbial symbionts will provide an alternative to the chemical-based fertilizers and pave the path for the development of biofertilizers. The book is a suitable reading material for undergraduate and postgraduate students, researchers, and scientists working in the field of agricultural biotechnology, microbiology, mycology and plant pathology, and allied fields of plant and microbial sciences. The book in this context attempts to provide an integrative and exhaustive study as well as research material that would help the scientific community in wide respect.
