Soil Basics, Management and Rhizosphere Engineering for Sustainable Agriculture


Book Description

Increase in global population, drastic changes in the environment, soil degradation and decrease in quality and quantity of agricultural productivity warranted us to adapt sustainable farming practices. This book focuses on soil health management and creating biased rhizosphere that can effectively augment the needs of sustainable agriculture.




Plant-Microbial Interactions and Smart Agricultural Biotechnology


Book Description

Considering the ever-increasing global population and finite arable land, technology and sustainable agricultural practices are required to improve crop yield. This book examines the interaction between plants and microbes and considers the use of advanced techniques such as genetic engineering, revolutionary gene editing technologies, and their applications to understand how plants and microbes help or harm each other at the molecular level. Understanding plant-microbe interactions and related gene editing technologies will provide new possibilities for sustainable agriculture. The book will be extremely useful for researchers working in the fields of plant science, molecular plant biology, plant-microbe interactions, plant engineering technology, agricultural microbiology, and related fields. It will be useful for upper-level students and instructors specifically in the field of biotechnology, microbiology, biochemistry, and agricultural science. Features: Examines the most advanced approaches for genetic engineering of agriculture (CRISPR, TALAN, ZFN, etc.). Discusses the microbiological control of various plant diseases. Explores future perspectives for research in microbiological plant science. Plant-Microbial Interactions and Smart Agricultural Biotechnology will serve as a useful source of cutting-edge information for researchers and innovative professionals, as well as upper-level undergraduate and graduate students taking related agriculture and environmental science courses.







Microbial Biocontrol: Sustainable Agriculture and Phytopathogen Management


Book Description

This first volume of a two-volume work presents the manifold applications of beneficial microbes and microbiomes in plant growth promotion, in enhancing crop resilience and in control of phytopathogens through microbial antagonists. In-depth insights into latest technologies such as biopriming of seeds and soil inoculation of rhizosphere microorganisms are provided. The two-volume work “Microbial Biocontrol” introduces mechanisms of plant-microbe interactions and explores latest strategies of how microbes can be applied in biocontrol and management of plant pathogens, replacing chemical fertilizers and pesticides. The book covers different groups of microorganisms such as bacteria, fungi, but also the interplay of entire microbiomes, and reviews their specific benefits in crop growth promotion, in enhancing the plants’ tolerance against biotic and abiotic stress as well as in post-harvest management of various plant diseases. Novel tools such as CRISPR/Cas9 and microbe derived nanoparticles are also addressed besides the legal aspects of biocontrol applications. Today, rising global population and changing climatic conditions emerge as a major challenge for agronomist farmers and researchers in fulfilling the requirements of global food production. The conventional agricultural practices utilize undistributed use of chemical fertilizers and pesticides to enhance growth and yield of agricultural products and fresh foods, but their extensive and continuous use have led to a range of negative consequences on the food quality and safety, to environment as well as to human and animal health. Microbial biocontrol applications are presented as a solution, paving the way to a sustainable agriculture in compliance with the UN Sustainable Development Goals (SDG). The book addresses researchers in academia and agriculture.




Sustainable Communities for a Healthy Planet


Book Description

Sustainable Communities for a Healthy Planet presents an unconventional collection of ideas, practices, and ways of living together with the potential to enable long-term human and planetary health. Grounded in first-hand accounts from researchers, health practitioners, and social innovators across diverse fields, Katharine Zywert’s book argues that the most promising approaches often depart substantially from the incentive structures, goals, and mindsets that define the status quo and do not necessarily align with mainstream sustainability discourses. The book instead presents promising approaches that disrupt dominant ideas about mental health, ageing, and chronic illness; circumvent exploitative markets for medications, medical technologies, and professionalized care; attend not only to the health of individual human bodies, but to the health of internal ecologies, human populations, nonhuman species, and the planet as a whole; and embody alternative, more inclusive ways of practicing medicine within communities and ecosystems. The stories assembled in this book illustrate how human beings might live healthy lives, supported by health systems that are not dependent on perpetual economic growth. Sustainable Communities for a Healthy Planet challenges conventional ways of thinking about the future of health systems and asks hard questions about what it takes to cultivate human and planetary health in a time of rapid ecological, economic, and social change.




Plant-Microbe Interaction: An Approach to Sustainable Agriculture


Book Description

The book addresses current public concern about the adverse effect of agrochemicals and their effect on the agro-ecosystem. This book also aims to satisfy and contribute to the increasing interest in understanding the co-operative activities among microbial populations and their interaction with plants. It contains chapters on a variety of interrelated aspects of plant-microbe interactions with a single theme of stress management and sustainable agriculture. The book will be very useful for students, academicians, researcher working on plant-microbe interaction and also for policy makers involved in food security and sustainable agriculture.




Sustainable Food Production


Book Description

Industrial agriculture is responsible for widespread environmental degradation and undermines the pursuit of human well-being. With a projected global population of 10 billion by 2050, it is urgent for humanity to achieve a more sustainable approach to farming and food systems. This concise text offers an overview of the key issues in sustainable food production for all readers interested in the ecology and environmental impacts of agriculture. It details the ecological foundations of farming and food systems, showing how knowledge from the natural and social sciences can be used to create sustainable alternatives to the industrial production methods used today. Beginning with a discussion of the role of agriculture in human development, the primer examines how twentieth-century farming methods are environmentally and socially unsustainable, contributing to global change and perpetuating inequalities. The authors explain the principles of environmental sustainability and explore how these principles can be put into practice in agrifood systems. They emphasize the importance of human well-being and insist on the centrality of social and environmental equity and justice. Sustainable Food Production is a compelling guide to how we can improve our ability to feed each other today and preserve the ability of our planet to do so tomorrow. Appropriate for a range of courses in the natural and social sciences, it provides a comprehensive yet accessible framework for achieving agricultural sustainability in the Anthropocene.




Plant Microbiome Paradigm


Book Description

This book provides a comprehensive overview of the current state of knowledge on plant-microbiome interactions and associations. It covers all major mechanistic approaches used to investigate microbes’ impacts on plant growth promotion, disease control and health. The industrial manufacture of nitrogen currently accounts for roughly 2% of the world’s total energy consumption. Microbial products are expected to reduce the need for costly fertilizers, as well as chemical pesticides and fungicides. While beneficial microorganisms are increasingly being used in agriculture, abiotic and biotic stresses such as heat, drought, cold, and salt can quickly kill or render them useless in the field. However, discovering new and better treatments is a lengthy process due to the considerable microbial diversity found in soils. Researchers have now proposed using biotechnological approaches to accelerate the process of microbial technology development. The fact that plant-associated microbes stimulate plant growth and development is well known, as the examples of rhizobia and mycorrhizal fungi show. The mechanisms by which these microorganisms maintain plant growth include the production of phytohormones, fixation of nitrogen, and the mobilization of phosphorus and minerals. The plant microbiome is also involved in pathogen suppression, and especially the root microbiome acts as a protective shield against soil-borne pathogens. A special feature of this book is its multidisciplinary approach, spanning from plant microbiology/biocontrol, fungal and bacterial endophytes, plant physiology, to biochemistry, proteomics and genomics. It is ideally suited for researchers and student of agri-biotechnology, soil biology and fungal biology.




Beneficial Microbes for Sustainable Agriculture under Stress Conditions


Book Description

Beneficial Microbes for Sustainable Agriculture under Abiotic Stress: Funtional Traits and Regulation highlights the potential for microbe-mediated stress phytolerance to be improved by presenting multiple scenarios of application and results. In most research and studies, abiotic stress is applied singularly to specific plants inoculated with a bioinoculum or a bacterial consortium to isolate specific plant-microbe responses. However, in reality, plants are continually exposed to a multitude of different stresses simultaneously occurring. This book presents bacteria functional traits and bacteria-mediated plant responses under both specific or combined stress conditions. Collectively, it provides insights into bacterial functional traits and bacteria-mediated plant responses in a wide range of conditions, providing foundational understanding of their potential benefits, and inspiring further research. The book centers on specific bacterial strains and groups which have been shown to effectively promote stress tolerance, and which could be utilized to boost agricultural production under stress conditions. Their potential utilization in stress affected lands not just improves crop production but could also be in line with sustainable agriculture. With the advancement of tools such as Omics related technologies, emerging information on bacterial functional traits and regulations on bacteria mediated phytotolerance will also allow us to develop relevant biotechnologies harnessing potentials of plant-bacteria interactions under stress conditions. The information in this volume will be of interest to those working toward these next steps. - Includes microbial functional traits and responses common to all stresses, unique to specific stress and shared by multiple stresses - Focuses on microbial strains and groups proven to be most effective in promoting stress tolerance - Explores opportunities toward improvement of sustainable agriculture and resulting food security