This edited volume is an inclusive collection of information on crop holobiome, their function and diversity, the plausible role of soil microbes in crop growth, protection from pathogens and stresses, the use of resilient microbiomes for changing climate, and the use of new technologies to study plant-insect-microbe molecular interactions in agricultural systems. Holobiomes provide information about both plants and their microbiomes, which gives a more comprehensive insight, particularly for changing climatic scenarios. By optimizing the crop holobime function crop productivity and plant health can be enhanced manifold. This book deep dives into the numerous ways in which holobiome supports the improving plant health, nutrient uptake, disease control, and stress resistance in major food crops. It helps researchers, academicians, agri-entrepreneurs, and technologists understand the structure and function of holobiomes in crop growth, health, stress tolerance under climatic changes, and holobiome diversity and evolution. The book is also helpful in designing new dimensions in the holobiome research and development of new products and technologies. This volume is of interest and useful to agriculture scientists, microbiologists, ecologists, and is a valuable source of reference to researchers and students.
This edited volume is an inclusive collection of information on crop holobiome, their function and diversity, the plausible role of soil microbes in crop growth, protection from pathogens and stresses, the use of resilient microbiomes for changing climate, and the use of new technologies to study plant-insect-microbe molecular interactions in agricultural systems. Holobiomes provide information about both plants and their microbiomes, which gives a more comprehensive insight, particularly for changing climatic scenarios. By optimizing the crop holobime function crop productivity and plant health can be enhanced manifold. This book deep dives into the numerous ways in which holobiome supports the improving plant health, nutrient uptake, disease control, and stress resistance in major food crops. It helps researchers, academicians, agri-entrepreneurs, and technologists understand the structure and function of holobiomes in crop growth, health, stress tolerance under climatic changes, and holobiome diversity and evolution. The book is also helpful in designing new dimensions in the holobiome research and development of new products and technologies. This volume is of interest and useful to agriculture scientists, microbiologists, ecologists, and is a valuable source of reference to researchers and students. /divThis volume is of interest and useful to agriculture scientists, microbiologists, ecologists, and is a valuable source of reference to researchers and students./div /divThis volume is of interest and useful to agriculture scientists, microbiologists, ecologists, and is a valuable source of reference to researchers and students./div /divThis volume is of interest and useful to agriculture scientists, microbiologists, ecologists, and is a valuable source of reference to researchers and students./div /divThis volume is of interest and useful to agriculture scientists, microbiologists, ecologists, and is a valuable source of reference to researchers and students./div /divThis volume is of interest and useful to agriculture scientists, microbiologists, ecologists, and is a valuable source of reference to researchers and students./div /divThis volume is of interest and useful to agriculture scientists, microbiologists, ecologists, and is a valuable source of reference to researchers and students./div /divThis volume is of interest and useful to agriculture scientists, microbiologists, ecologists, and is a valuable source of reference to researchers and students./div /divThis volume is of interest and useful to agriculture scientists, microbiologists, ecologists, and is a valuable source of reference to researchers and students./div /divThis volume is of interest and useful to agriculture scientists, microbiologists, ecologists, and is a valuable source of reference to researchers and students./div /divThis volume is of interest and useful to agriculture scientists, microbiologists, ecologists, and is a valuable source of reference to researchers and students./div /divThis volume is of interest and useful to agriculture scientists, microbiologists, ecologists, and is a valuable source of reference to researchers and students./div /divThis volume is of interest and useful to agriculture scientists, microbiologists, ecologists, and is a valuable source of reference to researchers and students./div /divThis volume is of interest and useful to agriculture scientists, microbiologists, ecologists, and is a valuable source of reference to researchers and students./div /divThis volume is of interest and useful to agriculture scientists, microbiologists, ecologists, and is a valuable source of reference to researchers and students./div /divThis volume is of interest and useful to agriculture scientists, microbiologists, ecologists, and is a valuable source of reference to researchers and students./div /divThis volume is of interest and useful to agriculture scientists, microbiologists, ecologists, and is a valuable source of reference to researchers and students./div /divThis volume is of interest and useful to agriculture scientists, microbiologists, ecologists, and is a valuable source of reference to researchers and students./div /divThis volume is of interest and useful to agriculture scientists, microbiologists, ecologists, and is a valuable source of reference to researchers and students./div /divThis volume is of interest and useful to agriculture scientists, microbiologists, ecologists, and is a valuable source of reference to researchers and students./div /divThis volume is of interest and useful to agriculture scientists, microbiologists, ecologists, and is a valuable source of reference to researchers and students./div /divThis volume is of interest and useful to agriculture scientists, microbiologists, ecologists, and is a valuable source of reference to researchers and students./div /divThis volume is of interest and useful to agriculture scientists, microbiologists, ecologists, and is a valuable source of reference to researchers and students./div
This edited book deals with latest comprehensive information on conventional and high throughput techniques and technologies that are recently used to study plant microbial interface for agricultural research and enhancing plant productivity. Plant microbiota are important for many plant growth promotion activity and agricultural productivity and are sustainable green technology for enhancing agricultural productivity under changing environment. The book covers recent information about the plant associated microbiota and their ecology. It discusses technologies to isolate and test microbiota inhabiting in different portion of plants. The book explores the conventional methods as well as the most recently recognized high throughput technologies which are important for productive agroecosystems to feed the growing global population. This book is of interest to teachers, researchers, microbiologist, plant and environmental scientist and those interested in environment stewardship around the world. Also the book serves as additional reading material for undergraduate and graduate students of agriculture, forestry, ecology, soil science, and environmental sciences and policy makers to be a useful to read.
Between 1973 and 2016, the ways to manipulate DNA to endow new characteristics in an organism (that is, biotechnology) have advanced, enabling the development of products that were not previously possible. What will the likely future products of biotechnology be over the next 5â€"10 years? What scientific capabilities, tools, and/or expertise may be needed by the regulatory agencies to ensure they make efficient and sound evaluations of the likely future products of biotechnology? Preparing for Future Products of Biotechnology analyzes the future landscape of biotechnology products and seeks to inform forthcoming policy making. This report identifies potential new risks and frameworks for risk assessment and areas in which the risks or lack of risks relating to the products of biotechnology are well understood.
In the midst of spiraling ecological devastation, multispecies feminist theorist Donna J. Haraway offers provocative new ways to reconfigure our relations to the earth and all its inhabitants. She eschews referring to our current epoch as the Anthropocene, preferring to conceptualize it as what she calls the Chthulucene, as it more aptly and fully describes our epoch as one in which the human and nonhuman are inextricably linked in tentacular practices. The Chthulucene, Haraway explains, requires sym-poiesis, or making-with, rather than auto-poiesis, or self-making. Learning to stay with the trouble of living and dying together on a damaged earth will prove more conducive to the kind of thinking that would provide the means to building more livable futures. Theoretically and methodologically driven by the signifier SF—string figures, science fact, science fiction, speculative feminism, speculative fabulation, so far—Staying with the Trouble further cements Haraway's reputation as one of the most daring and original thinkers of our time.
This comprehensive book encompasses various facets of sterile product development. Key concepts relevant to the successful development of sterile products are illustrated through case studies and are covered under three sections in this book: • Formulation approaches that discuss a variety of dosage forms including protein therapeutics, lipid-based controlled delivery systems, PEGylated biotherapeutics, nasal dosage form, and vaccines • Process, container closure and delivery considerations including freeze-thaw process challenges, best practices for technology transfer to enable commercial product development, innovations and advancement in aseptic fill-finish operations, approaches to manufacturing lyophilized parenteral products, pen / auto-injector delivery devices, and associated container closure integrity testing hurdles for sterile product closures • Regulatory and quality aspects in the areas of particulate matter and appearance evaluation, sterile filtration, admixture compatibility considerations, sterilization process considerations, microbial contamination investigations and validation of rapid microbiological methods, and dry and moist heat sterilizers This book is a useful resource to scientists and researchers in both industry and academia, and it gives process and product development engineers insight into current industry practices and evolving regulatory expectations for sterile product development.
The use of microorganisms and their metabolites for the preservation of foods began in prehistory. Lactic acid bacteria are generally recognized as safe (GRAS) for this purpose. They produce organic acids, diacetyl, acetoin, hydrogen peroxide, reuterin, reutericyclin and bacteriocins, all of which inhibit foodborne pathogens and spoilage microorganisms. Bacteriocins and the strains that produce them are particularly effective as bio-preservatives in cheese, meat and vegetables. They hold the promise of ensuring the quality and safety of ready-to-eat, extended-shelf-life, fresh-tasting and minimally processed foods without chemical preservatives. This Research Topic provides an overview of bacterial cultures, bacteriocins and other metabolites that have shown promise for use as antimicrobial bio-preservatives in foods in general. Articles describing novel analytical technologies, strategies to reduce or eliminate pathogens in food systems or emerging technologies for the production or use of protective cultures or their bacteriocins are presented.
This reference work presents an authoritative review of endophytes and their applications to human welfare. Endophytes have become a class of interesting and curious microorganisms due to their intimate intra- and intercellular association with plants for competence, survival and reproduction. They can be bacteria or fungi, and they are usually non-pathogenic to their host. Endophytes have important applications in agriculture and industry, namely, they can help with plant growth, act as biocontrol agents and biosurfactant and secondary metabolite producers, and they are also rich sources of bioactive natural products. Novel and beneficial effects of endophytes are constantly emerging, and this book, divided into four sections, provides readers with the latest developments in this fast expanding field. In the first section, readers will discover the biology of the major groups of endophytes, followed by a summary of conventional and molecular tools for endophytes’ identification in Section II. The production of high-value metabolites by endophytes will be explored in the third section of this book, and in the final section, readers will find several case studies, examples and prospects for endophytes’ application in agriculture and industry. Written by leading international authors, this reference work will appeal to a wide readership, from students and researchers in the field of botany, biotechnology and agriculture to professionals interested in the production and applications of endophytic metabolites.
Cyanobacterial symbioses are no longer regarded as mere oddities but as important components of the biosphere, occurring both in terrestrial and aquatic habitats worldwide. It is becoming apparent that they can enter into symbiosis with a wider variety of organisms than hitherto known, and there are many more still to be discovered, particularly in marine environments. The chapters cover cyanobacterial symbioses with plants (algae, bryophytes, Azolla, cycads, Gunnera), cyanobacterial symbioses in marine environments, lichens, Nostoc-Geosiphon (a fungus closely related to arbuscular mycorrhiza fungi) symbiosis, and artificial associations of cyanobacteria with economically important plants. In addition, cyanobiont diversity, sensing-signalling, and evolutionary aspects of the symbiosis are dealt with. Renowned experts actively involved in research on cyanobacterial symbioses deal with ecological, physiological, biochemical, molecular, and applied aspects of all known cyanobacterial symbioses. This volume on cyanobacteria in symbiosis complements the two earlier volumes on cyanobacteria published by Kluwer (Molecular Biology of Cyanobacteria, edited by D.A. Bryant and Ecology of Cyanobacteria, edited by B.A. Whitton and M. Potts). Together, the three volumes provide the most comprehensive treatment of cyanobacterial literature as a whole. The book will serve as a valuable reference work and text for teaching and research in the field of plant-microbe interactions and nitrogen fixation.