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Showing 1 - 20 of 20 matches in All Departments
Innovation in Small-Farm Agriculture: Improving Livelihoods and Sustainability is an invaluable resource focussing on the current state of knowledge and scientific advances about the complex and intertwined issues of innovation and how they relate to livelihood of small-scale farmers. This book exposes readers with a holistic overview on how agriculture is most associated with the development and transfer of technologies to farmers and their participation in research and development initiatives to improve the relevancy and usefulness of its outputs and innovation which is not well documented. The book offers comprehensive coverage of the most essential topics, including: Recent scientific advances on agricultural innovations for small farmers. Emphasizes on opportunities and constraints of techno-institutional paradigms. Highlight low-cost and eco-friendly interventions. Case studies on various innovations in agriculture spanning the different agricultural gamut.
Cross-talk between plant and microbe Overview of advanced molecular techniques particular to study plant-microbe interaction Practical guide to technologies such as NGS Omics data analysis particular to study plant-microbe interaction Role of Soil Metagenomics Advanced technologies such as Nanotech and CRISPR serving plant-microbe interaction
New and Future Developments in Microbial Biotechnology and Bioengineering: Sustainable Agriculture: Advances in Microbe-Based Biostimulants describes advances in microbial mechanisms involved in crop production and stress alleviation. Recent developments in our understanding of the role of microbes in sustainable agriculture and disease management have created a highly potential research area. The plant holobiont has a significant role in stress signaling, nutrient use efficiency, and soil health and fertility for sustainable developments. The mycorrhizosphere, hyphosphere, phyllosphere, rhizosphere and endosphere are critical interfaces for the exchange of signaling and resources between plants and soil environment. This book is an ideal reference source for microbiologists, agrochemists, biotechnologists, biochemists, industrialists, researchers and scientists working on agriculturally important microorganisms and their exploitation in sustainable future applications.
This book provides a comprehensive overview of different agriculturally important microorganisms and their role as plant biostimulants. Arbuscular Mycorrhizal Fungi, Trichoderma, Cyanobacteria, Endophytes, and Plant growth promoting rhizobacteria have the potential to promote plant growth, disease management, nutrient acquisition, stress alleviation, and soil health management. Presenting an all-inclusive collection of information, this book will be important for students, academicians, researchers working in the field of sustainable agriculture, microbial technology, and biochemical engineers. It will also be of use for policymakers in the area of food security and sustainable agriculture.
New and Future Developments in Microbial Biotechnology and Bioengineering: Sustainable Agriculture: Revitalization through Organic Products provides a comprehensive overview of different organic products which work as plant biostimulants, i.e., protein hydrolysates, chitosan, microbial derived exopolysaccharides, pectin, nanoparticles, etc. In addition, detailed insights in their mechanisms for plant growth promotion and stress alleviation are covered. This volume further discusses the extraction and formulation of organic products for use in sustainable agriculture. The application of microbial derived secondary metabolites in crop protection is also extensively covered. This book will be ideal for agrochemists, biotechnologists, biochemists, industrialists, researchers and scientists working on organic farming.
Sustainable Agriculture: Revisiting Green Chemicals discusses green technologies that help us to understand new green chemicals to reduce plant pathogens and induce plant growth as well as soil health. The most used green chemicals are antioxidants, osmoprotectants, and phytohormones. This book brings together the most relevant information on how we can use microbial resources to develop new formulations for these types of chemicals and technologies for field application. The book offers reference material to chemical engineers, biochemists, agrochemists, industrialists, researchers, and scientists working on sustainable agriculture.
Advances in Nano-fertilizers and Nano-pesticides in Agriculture: A Smart Delivery System for Crop Improvement explores the use of nanotechnology for the controlled delivery of pesticides, herbicides and fertilizers that improve the safety of products while also increasing the efficiency of food production and decreased environmental pollution. The development of nanodevices such as smart delivery systems to target specific sites, as well as nanocarriers for chemical controlled release are currently important aspects in novel agriculture and require a strong foundation of understanding, not only the technology, but also the resulting impacts.
New and Future Developments in Microbial Biotechnology and Bioengineering: Recent Developments in Trichoderma Research covers topics on-Trichoderma biodiversity, strain improvement and related researches in bioprocess technology, chemical engineering, bioremediation process, secondary metabolite production, Protein production, plant disease resistance and biocontrol technology. This book includes unique compilations of different chapters with emerging issues in the area of Trichoderma research and its related importance in the Biochemical-Industry-Agri-Food sector.
Microbial technology plays an integral role in the biotechnology, bioengineering, biomedicine/biopharmaceuticals and agriculture sector. This book provides a detailed compendium of the methods, biotechnological routes, and processes used to investigate different aspects of microbial resources and applications. It covers the fundamental and applied aspects of microorganisms in the health, industry, agriculture and environmental sectors, reviewing subjects as varied and topical as pest control, health and industrial developments and animal feed.
The science of nanotechnology, the manipulation, design and engineering of devices at the atomic and molecular scale, is starting to be applied to many disciplines including aspects of agriculture and crop science. This book opens with a brief history of nanotechnology in agriculture. Applications are then examined in detail, including nanopesticides, nanosensors, nanofertilizers, and nanoherbicides. Topics covered include; the biosynthesis of nanoparticles (through microbes, plants and other biotic agents); the ecological consequences of their delivery into the environment (examining effects and toxicity on soil, soil biota, and plants); safety issues; an overview of the global market for nanotechnology products, and the regulation of nanotechnology in agriculture. The book concludes with speculations on what the future holds for the technology. The book has been written by an international group of researchers and experts from over 12 countries with experience across a wide range of issues relating to the industry. This book will be of use to a wide range of researchers and professional scientists in the agricultural sector, academia and industry, including microbiologists, chemical engineers, geneticists, plant scientists and biochemists.
Rhizosphere biology is approaching a century of investigations wherein growth-promoting rhizomicroorganisms (PGPR) have attracted special attention for their ability to enhance productivity, profitability and sustainability at a time when food security and rural livelihood are a key priority. Bio-inputs - either directly in the form of microbes or their by-products - are gaining tremendous momentum and harnessing the potential of agriculturally important microorganisms could help in providing low-cost and environmentally safe technologies to farmers.One approach to such biologically-based strategies is the use of naturally occurring products such as PGPR. Advances in PGPR Research explores recent developments and global issues in biopesticide research, presented via extended case studies and up-to-date coverage of: * Low input biofertilizers and biofungicides used for sustainable agriculture. * Molecular techniques to enhance efficacy of microbial inputs. * Intellectual property issues in PGPR research. Written by an international team of experts, this book considers new concepts and global issues in biopesticide research and evaluates the implications for sustainable productivity. It is an invaluable resource for researchers in applied agricultural biotechnology, microbiology and soil science, and also for industry personnel in these areas.
This edited book is focused on antioxidant compounds and their biosynthesis, up-regulation, mechanism of action for selective bioactivity, targeted role and the advancement of their bioactive potential during plant-microbe interaction and other stress conditions. This book also emphasizes on the role of antioxidants in recruiting beneficial microbes in plant surroundings. Antioxidants have multiple biological roles in plants especially in the signalling pathway. These compounds are secondary metabolites produced besides the primary biosynthetic pathway and are associated with growth and development. Besides they also have special role to play during oxidative stress produced via abiotic stimulants or pathogen attack. This understanding of the biosynthesis, signaling and function of antioxidant compounds in plants during stress condition is helpful in restoring plant ecosystem productivity and improve plant responses to a wide range of stress conditions. This book is a useful compilation for researchers and academicians in botany, plant physiology, plant biochemistry and stress physiology. Also the book serves as reading material for undergraduate and graduate students of environmental sciences, agricultural sciences and other plant science courses.
This book gives a comprehensive overview on the various aspects of Trichoderma, a filamentous fungus ubiquitously present in soil. Topics addressed are the biology, diversity, taxonomy, ecology, biotechnology and cultivation of Trichoderma, to just name a few. Basic as well as applied aspects are covered and a special focus is given on use of Trichoderma in agriculture and beyond. Trichoderma species are widely distributed throughout the world in soil, rotting plant material, and wood. Although they are often considered as a contaminants, Trichoderma species are also known for their ability to act as biocontrol agents against various plant pathogens and plant diseases, and also as biostimulants promoting plant growth. The contents of this book will be of particular interest to, agricultural scientists, biotechnologists, plant pathologists, mycologists, and microbiologists, students, extension workers, policy makers and other stakeholders.
This edited book is focused on antioxidant compounds and their biosynthesis, up-regulation, mechanism of action for selective bioactivity, targeted role and the advancement of their bioactive potential during plant-microbe interaction and other stress conditions. This book also emphasizes on the role of antioxidants in recruiting beneficial microbes in plant surroundings. Antioxidants have multiple biological roles in plants especially in the signalling pathway. These compounds are secondary metabolites produced besides the primary biosynthetic pathway and are associated with growth and development. Besides they also have special role to play during oxidative stress produced via abiotic stimulants or pathogen attack. This understanding of the biosynthesis, signaling and function of antioxidant compounds in plants during stress condition is helpful in restoring plant ecosystem productivity and improve plant responses to a wide range of stress conditions. This book is a useful compilation for researchers and academicians in botany, plant physiology, plant biochemistry and stress physiology. Also the book serves as reading material for undergraduate and graduate students of environmental sciences, agricultural sciences and other plant science courses.
This book gives a comprehensive overview on the various aspects of Trichoderma, a filamentous fungus ubiquitously present in soil. Topics addressed are the biology, diversity, taxonomy, ecology, biotechnology and cultivation of Trichoderma, to just name a few. Basic as well as applied aspects are covered and a special focus is given on use of Trichoderma in agriculture and beyond. Trichoderma species are widely distributed throughout the world in soil, rotting plant material, and wood. Although they are often considered as a contaminants, Trichoderma species are also known for their ability to act as biocontrol agents against various plant pathogens and plant diseases, and also as biostimulants promoting plant growth. The contents of this book will be of particular interest to, agricultural scientists, biotechnologists, plant pathologists, mycologists, and microbiologists, students, extension workers, policy makers and other stakeholders.
This book addresses in detail multifaceted approaches to boosting nutrient use efficiency (NUE) that are modified by plant interactions with environmental variables and combine physiological, microbial, biotechnological and agronomic aspects. Conveying an in-depth understanding of the topic will spark the development of new cultivars and strains to induce NUE, coupled with best management practices that will immensely benefit agricultural systems, safeguarding their soil, water, and air quality. Written by recognized experts in the field, the book is intended to provide students, scientists and policymakers with essential insights into holistic approaches to NUE, as well as an overview of some successful case studies. In the present understanding of agriculture, NUE represents a question of process optimization in response to the increasing fragility of our natural resources base and threats to food grain security across the globe. Further improving nutrient use efficiency is a prerequisite to reducing production costs, expanding crop acreage into non-competitive marginal lands with low nutrient resources, and preventing environmental contamination. The nutrients most commonly limiting plant growth are N, P, K, S and micronutrients like Fe, Zn, B and Mo. NUE depends on the ability to efficiently take up the nutrient from the soil, but also on transport, storage, mobilization, usage within the plant and the environment. A number of approaches can help us to understand NUE as a whole. One involves adopting best crop management practices that take into account root-induced rhizosphere processes, which play a pivotal role in controlling nutrient dynamics in the soil-plant-atmosphere continuum. New technologies, from basic tools like leaf color charts to sophisticated sensor-based systems and laser land leveling, can reduce the dependency on laboratory assistance and manual labor. Another approach concerns the development of crop plants through genetic manipulations that allow them to take up and assimilate nutrients more efficiently, as well as identifying processes of plant responses to nutrient deficiency stress and exploring natural genetic variation. Though only recently introduced, the ability of microbial inoculants to induce NUE is gaining in importance, as the loss, immobilization, release and availability of nutrients are mediated by soil microbial processes.
This book integrates a science and business approach to provide an introduction and an insider view of intellectual property issues within the biotech industry, with case studies and examples from developing economy markets. Broad in scope, this book covers key principles in pharmaceutical, industrial, and agricultural biotechnology within four parts. Part 1 details the principles of intellectual property and biotechnology. Part 2 covers plant biotechnology, including biotic and abiotic stress tolerance, GM foods in sustainable agriculture, microbial biodiversity and bioprospecting for improving crop health and productivity, and production and regulatory requirements of biopesticides and biofertilizers. The third part describes recent advances in industrial biotechnology, such as DNA patenting, and commercial viability of the CRISPR/Cas9 system in genome editing. The final part describes intellectual property issues in drug discovery and development of personalized medicine, and vaccines in biodefence. This book is an ideal resource for all postgraduates and researchers working in any branch of biotechnology that requires an overview of the recent developments of intellectual property frameworks in the biotech sector.
In the current era current era of significant innovations, science and technology are powerful tools improving human welfare through prosperity and sustainable development. The development of microbiology based industries in any given country is shaped by the characteristics of its technology-particularly its close relation to scientific knowledge, and by country-specific factors such as the level and nature of the scientific knowledge base, the institutional set-up, and the role assumed by the government, all of which influence the country's ability to exploit the new opportunities. This unique book presents an integrated approach for sustained innovation in various areas of microbiology. Focusing on the industrial and socio-legal implications of IPR in microbiological advances, it offers a comprehensive overview not only of the implications of IPR in omics-based research but also of the ethical and intellectual standards and how these can be developed for sustained innovation. The book is divided into three sections discussing current advances in microbiological innovations, recent intellectual property issues in agricultural, and pharmaceutical microbiology respectively. Integrating science and business, it offers a glimpse behind the scenes of the microbiology industry, and provides a detailed analysis of the foundations of the present day industry for students and professionals alike.
In the current era current era of significant innovations, science and technology are powerful tools improving human welfare through prosperity and sustainable development. The development of microbiology based industries in any given country is shaped by the characteristics of its technology-particularly its close relation to scientific knowledge, and by country-specific factors such as the level and nature of the scientific knowledge base, the institutional set-up, and the role assumed by the government, all of which influence the country's ability to exploit the new opportunities. This unique book presents an integrated approach for sustained innovation in various areas of microbiology. Focusing on the industrial and socio-legal implications of IPR in microbiological advances, it offers a comprehensive overview not only of the implications of IPR in omics-based research but also of the ethical and intellectual standards and how these can be developed for sustained innovation. The book is divided into three sections discussing current advances in microbiological innovations, recent intellectual property issues in agricultural, and pharmaceutical microbiology respectively. Integrating science and business, it offers a glimpse behind the scenes of the microbiology industry, and provides a detailed analysis of the foundations of the present day industry for students and professionals alike.
Recent changes in the pattern of agricultural practices from use of hazardous pesticides to natural (organic) cultivation has brought into focus the use of agriculturally important microorganisms for carrying out analogous functions. The reputation of plant growth promoting rhizomicroorganisms (PGPRs) is due to their antagonistic mechanisms against most of the fungal and bacterial phytopathogens. The biocontrol potential of agriculturally important microorganisms is mostly attributed to their bioactive secondary metabolites. However, low shelf life of many potential agriculturally important microorganisms impairs their use in agriculture and adoption by farmers. The focal theme of this book is to highlight the potential of employing biosynthesized secondary metabolites (SMs) from agriculturally important microorganisms for management of notorious phytopathogens, as a substitute of the currently available whole organism formulations and also as alternatives to hazardous synthetic pesticides. Accordingly, we have incorporated a comprehensive rundown of sections which particularly examine the SMs synthesized, secreted and induced by various agriculturally important microorganisms and their applications in agriculture. Section 1 includes discussion on biosynthesized antimicrobial secondary metabolites from fungal biocontrol agents. This section will cover the various issues such as development of formulation of secondary metabolites, genomic basis of metabolic diversity, metabolomic profiling of fungal biocontrol agents, novel classes of antimicrobial peptides. The section 1 will also cover the role of these secondary metabolites in antagonist-host interaction and application of biosynthesized antimicrobial secondary metabolites for management of plant diseases. Section 2 will discuss the biosynthesized secondary metabolites from bacterial PGPRs, strain dependent effects on plant metabolome profile, bio-prospecting various isolates of bacterial PGPRs for potential secondary metabolites and non-target effects of PGPR on microbial community structure and functions. Section 3 encompasses synthesis of antimicrobial secondary metabolites from beneficial endophytes, bio-prospecting medicinal and aromatic hosts and effect of endophytic SMs on plants under biotic and biotic stress conditions.
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