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Showing 1 - 25 of 34 matches in All Departments
Algae are simple, primitive, heterogeneous, autotrophic, eukaryotic or prokaryotic organisms that lead a symbiotic, parasitic or free-living mode of life. Microalgae and macroalgae possess great potential in various fields of application. Microalgae are ubiquitous and extremely diverse microorganisms that can accumulate toxic contaminants and heavy metals from wastewater, making them a superior candidate to become a powerful nanofactory. Algae were discovered to reduce the presence of metal ions, and afterwards aid in the biosynthesis of nanoparticles. Since algae-mediated biogenic nanoparticles are eco-friendly, cost-effective, high-yielding, speedy and energy-efficient, a large number of studies have been published on them in the last few years. This book focuses on recent progress on the utilization of algae for the synthesis of nanoparticles, their characterization and the possible mechanisms involved. Bioprospecting Algae for Nanosized Materials describes the synthesis of algal nanomaterials and its application in various fields for sustainable development. This book outlines the procedures to prepare phyconanomaterials, techniques to utilize the nanomaterials, and applications in agriculture, environment and medicine.
This book focuses on the application of nanotechnology in medicine and drug delivery, including diagnosis and therapy. Nanomedicine can contribute to the development of a personalized medicine both for diagnosis and therapy. By interacting with biological molecules at nanoscale level, nanotechnology opens up an immense field of research and applications. Interactions between artificial molecular assemblies or nanodevices and biomolecules can be understood both in the extracellular medium and inside human cells. Operating at nanoscale allows exploitation of physical properties different from those observed at microscale, such as the volume to surface area ratio. A number of clinical applications of nanobiotechnology, such as disease diagnosis, target-specific drug delivery, and molecular imaging are being investigated. Some promising new products are also undergoing clinical trials. Such advanced applications of this approach to biological systems will undoubtedly transform the foundations of diagnosis, treatment, and prevention of disease in the future. Nanomedicine sales reached $16 billion in 2015, with a minimum of $3.8 billion in nanotechnology R&D being invested each year. Global funding for emerging nanotechnology increased by 45% per year in recent years, with product sales exceeding $1 trillion in 2013. As the nanomedicine industry continues to grow, it is expected to have a significant impact on the global economy. This book provides clear, colorful and simple illustrations, tables, and case studies to clearly convey the content to a general audience and reader. This book also discusses the development of nanobiomaterials from biogenic (biological sources) systems for healthcare and disease therapies. This book, therefore, is useful for researchers and academicians in the fields of nanotechnology, medicine, nano-biotechnology and pharmacology.
Nanotechnology progresses its concerts and suitability by improving its effectiveness, security and also reducing the impact and risk. Various chapters in this book are written by eminent scientists and prominent researchers in the field of nanotechnology across the world. This book is focused to put emerging techniques forward using nanoparticles for safe and nutritional food production, protecting crops from pests, increasing nutritional value and providing solutions for various environmental issues. The outcome of this book creates a path for wide usage of nanoparticles in food, agriculture and the environment fields. This book has clear and simple illustrations, tables and case studies to understand the content even by non-experts. This book especially deals with the nanotechnology for controlling plant pathogens, food packaging and preservation, agricultural productivity, waste water treatment and bioenergy production. Hence, this book can be adopted and used by many researchers and academicians in the fields of food, agriculture, environment and nanotechnology for catering the needs of sustainable future. The salient features of this book are * Describes nanotechnology as an interdisciplinary and emerging field in life sciences* Useful for researchers in the cutting edge life science related fields of nanoscience, nanobiology and nanotechnology* Deal with various problems in food, agriculture and environmental sector for sustainable solutions through the application of nanotechnology* Supported with illustrations in color, tables and case studies (wherever applicable), and * Contributed and well written by nanotechnology experts from across various disciplines
This book focuses on the current and potential applications of microalgae and cyanobacteria in pharmaceuticals, nutraceuticals, and cosmeceuticals. The book deals with the very recent and advanced techniques and technologies in algal cultivation and extraction for its application. The chapters discuss the biological importance, properties, and uses of algal metabolites and microalgae-based compounds in drug development, in food nutrition enhancement, and in the development of cosmetics with medicinal properties. The chapter authors cover a range of diverse topics on algal biological resources, such as: algae as a nutraceutical and functional food ingredient the extraction of food bioactive compounds from microalgae spirulina-derived nutraceuticals and their applications in the food industry anticancer compounds from freshwater microalgae cosmetic applications of microalgal and cyanobacterial pigments and more This unique book, Algal Genetic Resources: Cosmeceuticals, Nutraceuticals, and Pharmaceuticals from Algae, will enlighten readers on the vast usefulness of microalgae and cyanobacteria as an important resource for the cosmeceutical, pharmaceutical and nutraceutical industries for their broad biotechnological potential industrial applications. The volume will be a valuable reference for scientists and researchers in these areas as well as for advanced students and faculty in ecology, phycology, botany, agriculture, biotechnology, microbiology, environmental biotechnology, plant science, and life sciences.
Nanotechnology is believed to be the next great revolution in biology, medicine, and agriculture. This new volume, Biogenic Nanomaterials: Structural Properties and Functional Applications, explores that trend by providing in a global way updated information on the use and applications of nanobiotechnology, starting from a careful characterization and introduction to the various uses of nanoparticles and nanomaterials, their nanomechanical properties in bacteria, and biomedical applications. The book goes on to present nanobiotechnology applications in targeted therapy for multiple pathologies, such as cancer, obstructive pulmonary diseases, chronic infectious diseases, as well as its impact on the modulation of the intestinal microbiota. A special emphasis is also given to the potential of nanobiotechnology in terms of promoting sustainability, such as the ability to improve plant systems in terms of tissue culture, its added value in the transfer of macromolecules to plants, and also in triggering the sustainable exploitation of agriculture, forestry, and food residues, ultimately promoting green nanotechnology. This book offers a unique perspective and overview of the influences of nanobiotechnology researchers and scientists. It delivers an important resource for existing applications and imminent developments of nanobiotechnology.
Microalgae are a valuable resource of carbon materials that may be used in biofuels, pharmaceuticals, cosmetics, and health supplements. Still, there are tremendous challenges in the microalgae production process, such as mass cultivation, strain improvement, biomass disruption, and reprocessing of nutrients and water that have been the encumbering microalgal industry in several ways. Microalgal biotechnology has the capability to introduce remarkable breakthroughs and innovations. This volume brings together current advancements in the field of microalgal biotechnology to provide understanding of the fundamentals and progress of the industry-oriented technologies. The volume covers biofuel production and its technical challenges; current trends of microalgae in agriculture, aquaculture and food biotechnology; market space; biosafety and other regulatory issues; and sustainability of microalgal products. The volume first provides insight into desmids and other conjugating algae along with prospective trends of diatoms. It then goes on to explore the commercial applications of microalgae that take advantage of their bioactive compounds, natural colorants, and functional metabolites. The role of microalgae in agriculture, aquaculture, and the food sector are discussed, and tools from genome manipulation to bioprocess engineering are studied. Several chapters focus on future prospects of biofuel and biodiesel production for environmental and economic viability. The key features of the book: Presents the role of microalgae in various industries including food, agriculture, aquaculture, biofuel, and metabolites Shows the historical and prospective use of microalgae elements for economic and ecological benefits Explains the integrated technologies for massive production of microalgae-derived products Includes the various industrial case studies to improve the sustainable production of microalgae products Discusses current developments and confronts in microalgae bioprocessing Microalgal Biotechnology: Bioprospecting Microalgae for Functional Metabolites towards Commercial and Sustainable Applications will be a useful reference for academicians, researchers, industry professionals, postgraduate students, and policymakers who are interested in future prospects of microalgae commercialization.
Algal metabolites and their potential applications Industrial, biotechnological and commercial applications of microalgae Therapeutic, pharmaceutical, and nutraceutical applications of macroalgae
Foodborne microbial outbreaks are a serious food safety and public health concern worldwide. One of the most challenging issues in food safety is the identification and characterization of foodborne microbial communities, which is a core objective of research by food scientists and food microbiologists. This book reviews the molecular advances in food science related to the safety and quality of food along with recent diagnostic tools for the detection of emerging pathogens based on the food commodities. It presents a wide selection of methods for the identification and characterization of foodborne infectious agents. The volume provides an overview of foodborne pathogens, diseases, and outbreaks and then proceeds to delve into techniques for characterizing foodborne pathogens using molecular approaches. It reviews state-of-the-art methods for detecting and tracing foodborne pathogens using next-generation sequencing and whole-genome sequencing for controlling foodborne illnesses as well as the application of microorganisms in food production for preventing foodborne illnesses. The volume ends with a chapter that provides an overview of management systems and analytical tools for public health protection from foodborne illnesses. Key features: Reviews the detection of foodborne pathogens using recently developed molecular technologies Provides deep insights into the fundamental and functional aspects of microbial interventions in food science Addresses current challenges for the management of food safety Includes updated studies on microbial safety for processed food items Discusses advanced management systems for foodborne pathogens This book will be an important reference source for food scientists and food safety supervisors from production to processing and from transport to retail. This book will also be vital source for teachers, students, and researchers for exploring recent developments for food safety by employing advanced microbial and molecular methods.
Seaweeds are known for their rich bioactive compounds, which promote health in human beings and are a good for the ecosystem as well. They are also natural resources that are a major source of raw material for different industries. There are still undiscovered and unexploited compounds synthesized by seaweeds that may have potential applications in the pharmaceutical, nutraceutical, food, and cosmetics industries. This book serves as a comprehensive knowledge source for the predominant roles of seaweeds in various sectors, particularly in the areas of health, environment, and agriculture. It explores the diverse biodiversity aspects of seaweeds and their derivatives. The book critically reviews the present industrial challenges to investigate the novel compounds synthesized by seaweeds and their unique characteristics and benefits. The volume covers the various biodiversity attributes of tropical seaweeds, their cultivation and bioactive compounds, and the diverse agricultural and biomedical applications of new seaweed derivatives. The authors also discuss the current challenges, emerging markets, and latest developments in extracting the useful biomolecules from seaweeds as well as the role of seaweeds in food security and environmental mitigation. With chapters written by experts and professionals in the field, this volume, Seaweed Biotechnology: Biodiversity and Biotechnology of Seaweeds and Their Applications, provides a deep understanding of the biodiversity of seaweeds around the world and their industrial, biomedical, and environmental applications.
This new volume addresses the growing use of organic farming in recent past decades fueled by the concern with the many deleterious effects of conventional agricultural practices, which employ chemical fertilizers, pesticides, and herbicides for large scale production of food. It focuses on sustainable development in farming, primarily detailing the application of different natural resources as manure for organic farming. The authors discuss efficient and cost-effective uses of natural and available resources to produce healthy food while at the same time helping to conserve the environment. Section I of Organic Farming for Sustainable Development discusses in detail the application of microorganisms such as Trichoderma sp., Azospirillum sp., endophytic microorganisms, arbuscular mycorrhiza, Chaetomium sp., and bioactive secondary metabolites in organic farming practices. Section II explores the potential applications of organic amendments and sustainable practices for plant growth and soil health using garlic products, organic substrates, biochar, organic mulching, and tillage and weed management. In addition, Section III summarizes the impacts and prospects of organic crop production technology on health, food safety, and quality. The authors bring together important information that will be helpful in designing organic farming methods for soil sustainability and crop productivity as well as for nutritious food produced efficiently and cost productively. The book provides valuable insight to efficiently and cost-effectively use natural and available resources to increase the nutrient content of our food as well as to manage the organic wastes coming from other sectors, such as from cattle farms without polluting the surroundings.
The ever-increasing globalization of the food industry demands new interventions and new prevention technologies to improve the safety and quality of food. This multidisciplinary new book addresses the major concerns of the food industry by discussing fermentation, spoilage, mycotoxins, pathogenic bacteria, prions, parasites, viruses, preservation methods, and food quality. The volume provides descriptions of the most advanced systems for identifying, analyzing, tracking, and monitoring microbial contaminants in food. Key features: Focuses on approaching complications in food science related to food safety and traceability Highlights emerging and re-emerging foodborne microorganisms and their virulence characteristics Includes recent approaches for food quality assurance and risk management Describes the practicality of molecular biology and microbial technologies for effectual control of foodborne infections Presents a detailed overview of the utilization of recent molecular techniques in food microbiology With expert contributions from experienced academics involved in food microbiology and molecular biology research, this book offers indispensable guidance and a contemporary update for educators and scholars who are trying to keep informed with latest developments in food microbial and molecular biology.
Microbes are the most abundant organisms in the biosphere and regulate many critical elemental and biogeochemical phenomena. Because microbes are the key players in the carbon cycle and in related biological reactions, microbial ecology is a vital research area for understanding the contribution of the biosphere in global warming and the response of the natural environment to climate variations. The beneficial uses of microbes have enabled constructive and cost-effective responses that have not been possible through physical or chemical methods. This new volume reviews the multifaceted interactions among microbes, ecosystems, and their pivotal role in maintaining a more balanced environment, in order to help facilitate living organisms coexisting with the natural environment. With extensive references, tables, and illustrations, this book provides valuable information on microbial utilization for environmental sustainability and provides fascinating insights into microbial diversity. Key features include: Looks at enhancing plant production through growth-promoting arbuscular mycorrhizae, endophytic bacteria, and microbiome networks Considers microbial degradation and environmental management of e-wastes and azo dyes Explores soil-plant microbe interactions in metal-contaminated soils Examines radiation-resistant thermophiles for engineered bioremediation Describes potential indigenous/effective microbes for wastewater treatment processes Presents research on earthworms and microbes for organic farming
This important new book covers recent advancements, innovations, and technologies in industrial biotechnology, specifically addressing the application of various biomolecules in industrial production and in cleaning and environmental remediation sectors. The goal of industrial biotechnology is to develop new techniques and technologies to transform renewable raw materials into chemicals, materials, and fuels by the substitution of fossil fuels. With the increase in the world's population and the resultant growing energy demand, the need for more energy can be successfully met with the advancements in industrial biotechnology. Currently across the globe significant research has been undertaken in the production of cleaner fuels, materials, and semi-synthetic chemicals, with environmental benefits. Developing countries have huge agricultural resources that could be utilized for production of value-added byproducts for the sustainable development of bio-based economy. The book opens with the chapter on the production of exopolysaccharides from halophilic microorganisms, a polymer that is normally very useful in various production sectors of the food, pharmaceutical, and petroleum industries. The book goes on to cover: The production of antimicrobial compounds from alkaliphilic bacteria Thermophilic actinomycetes Food, agro, and pharmaceutical potential and biotechnological applications of biosurfactants, halophiles, cyclodextrin glycosyl transferease, fungal chitinase, proteases, yeasts and yeast products Also covered in the book are the environmental aspects of industrial biotechnology such as the genetic enhancement for biofuel production, the production of biodegradable thermoplastics, advancements in the synthesis of bio-oil, ecofriendly treatment of agro-based lignocelluloses, and anaerobic bio reactors for hydrocarbon remediation. The international roster of chapter authors have been chosen for their renowned expertise and contribution to the various fields of industrial biotechnology. This book is suitable to chemists, biotechnologists from research institutes, academia, and students as well as for industry professionals
Microbial biotechnology is an important contributor to global business, especially in agriculture, the environment, healthcare, and the medical, food, and chemical industries. This volume provides an exciting interdisciplinary journey through the rapidly changing backdrop of invention in microbial biotechnology, covering a range of topics, including microbial properties and characterization, cultivation and production strategies, and applications in healthcare, bioremediation, nanotechnology, and more. Key features: Explains the diverse aspects of and strategies for cultivation of microbial species Describes biodiversity and biotechnology of microbes Provides an understanding of microorganisms in bioremediation of pollutants Explores various applications of microbes in agriculture, food, health, industry, and the environment Considers production issues and applications of microbial secondary metabolites Underscores the importance of integrating genomics of microorganisms in ecological restoration of contaminated environments
Fundamentals of Molecular Mycology provides a complete overview of recent developments and applications in molecular mycology. It serves as a comprehensive guide for the identification of fungi and the application of fungal biomolecules in agriculture, food, environment, and pharmaceutical sectors by providing detailed information about application molecular markers and bioinformatics tools for mycology. Covering the most important aspects of molecular mycology, the book focuses on: The application of fungal secondary metabolites in ecosystem management and sustainable agriculture The application of DNA recombinant techniques to improve industrially important fungal species Different molecular markers and genetic approaches for the taxonomical identification of fungi The bioinformatics tool for the identification of fungal species and its secondary metabolites Advances in molecular tools have created a new path for the mycological research and applications in different sectors. Fundamentals of Molecular Mycology is an excellent source of information on molecular mycology tools and applications in various fields. This book will be valuable to biotechnologists at research institutes, academia, and industry researchers, and professionals. The book is also a rich resources for undergraduate and postgraduate biology students in in mycology, botany, microbiology, fungal biology, biotechnology, and molecular biology as well.
Named #1 of 15 Best New Biotechnology Books to Read in 2021 by BookAuthority. This volume explores and explains the vast uses and benefits of algae as food, feed, and fuel. It covers the most advanced applications of algae in the food and feed industries and for environmental sustainability. With chapters written by experts and which were extensively reviewed by many well-known subject experts and professionals, Phycobiotechnology: Biodiversity and Biotechnology of Algae and Algal Products for Food, Feed, and Fuel provides an abundance of valuable information. Algae are a genetically diverse group of organisms with a wide range of physiological and biochemical characteristics that have unique capabilities in the fields of agriculture, pharmaceuticals, industry, and environment. Algae hold the potential to become the planet's next major source of energy and a vital part of the solution for climate change and dependence on fossil fuels. Many varieties of algae are also known to be an abundant source of vitamins, minerals, and other nutrients that can boost the human immune system.
Molecular landscape for food safety analysis is rapidly revolutionizing because of high resolution and value added resulting analysis of next-generation sequencing (NGS) approaches. These modern sequencing technologies drive worldwide advancements in food safety and quality. Sequencing Technologies in Microbial Food Safety and Quality reviews several practices in that NGS contributes to foodborne pathogens functional characterization, management and control. This book focuses on potential uses of sequencing technologies in microbial food safety and quality and highlights present challenges in the food industry. Key Features: Application of whole genome sequencing technologies in disease diagnostics, surveillance, transmission, and outbreak investigation in food sector Impact of sequencing tools in the area of food microbiology Recent advances in genomic DNA sequencing of microbial species from single cells Microbial bioinformatics resources for food microbiology High-throughput insertion tracking by deep sequencing for the analysis of food pathogens This book includes contributions from experts who have manipulated sequencing tools in relation to microbial food safety and quality. Presenting comprehensive details about NGS approaches in food science, this book is an updated and reliable reference for food scientists, nutritionists, food product investigators to study and implement the sequencing technologies for developing quality and safe food. This book would also serve as informative resource for food industry officials, government researchers, food science or food nutrition students who seek comprehensive knowledge about the role of emerging sequencing technologies in revolutionizing the food industry.
Reflecting the interdisciplinary nature of biotechnology, this book covers the role of targeted delivery of polymeric nanodrugs to cancer cells, microbial detoxifying enzymes in bioremediation and bacterial plasmids in antimicrobial resistance. It addresses modern trends such as pharmacogenomics, evaluation of gene expression, recombinant proteins from methylotrophic yeast, identification of novel fermentation inhibitors of bioethanol production, and polyhydroxyalkanoate based biomaterials. The book highlights the practical utility of biotechnology and bioinformatics for bioenergy, production of high value biochemicals, modeling molecular interactions, drug discovery, and personalized medicine.
The book provides scope and knowledge on advanced techniques and its applications into the modern fields of biotechnology-genomics and proteomics. In this book, different genomics and proteomics technologies and principles are examined. The fundamental knowledge presented in this book opens up an entirely new way of approaching DNA chip technology, DNA array assembly, gene expression analysis, assessing changes in genomic DNA, structure-based functional genomics, protein networks, and so on. Topics in the book include: * Different gene products with a similar role in neuronal defense against oxidative * Gene-gene and gene-environment interactions in genetic epidemiology * Elucidation of proto-oncogene c-abl function with the use of mouse models and the disease model of chronic myeloid leukemia * Next-generation sequencing, microbiome evaluation, molecular microbiology, and their impact on human health * Proteomics and prostate cancer * RNA interference therapeutics * Molecular mechanisms of hepatitis C virus entry * Molecular phylogenetics for elucidation of evolutionary processes from biological data * The impact of transgenic crops on soil quality, microbial diversity, and plant-associated communities. * Biotechnological and genomic approaches for abiotic stress tolerance in crop plants The book will be valuable for biotechnology researchers and bioinformatics professionals and students in all fields of biotechnology and will serve to broaden their knowledge about these newer tools, techniques, innovations, and applications.
Microbes are the most abundant organisms in the biosphere and regulate many critical elemental and biogeochemical phenomena. Because microbes are the key players in the carbon cycle and in related biological reactions, microbial ecology is a vital research area for understanding the contribution of the biosphere in global warming and the response of the natural environment to climate variations. The beneficial uses of microbes have enabled constructive and cost-effective responses that have not been possible through physical or chemical methods. This new volume reviews the multifaceted interactions among microbes, ecosystems, and their pivotal role in maintaining a more balanced environment, in order to help facilitate living organisms coexisting with the natural environment. With extensive references, tables, and illustrations, this book provides valuable information on microbial utilization for environmental sustainability and provides fascinating insights into microbial diversity. Key features include: Looks at enhancing plant production through growth-promoting arbuscular mycorrhizae, endophytic bacteria, and microbiome networks Considers microbial degradation and environmental management of e-wastes and azo dyes Explores soil-plant microbe interactions in metal-contaminated soils Examines radiation-resistant thermophiles for engineered bioremediation Describes potential indigenous/effective microbes for wastewater treatment processes Presents research on earthworms and microbes for organic farming
With focus on the practical use of modern biotechnology for environmental sustainability, this book provides a thoughtful overview of molecular aspects of environmental studies to create a new awareness of fundamental biological processes and sustainable ecological concerns. It covers the latest research by prominent scientists in modern biology and delineates recent and prospective applications in the sub-areas of environmental biotechnology with special focus on the biodegradation of toxic pollutants, bioremediation of contaminated environments, and bioconversion of organic wastes toward a green economy and sustainable future.
This important new book covers recent advancements, innovations, and technologies in industrial biotechnology, specifically addressing the application of various biomolecules in industrial production and in cleaning and environmental remediation sectors. The goal of industrial biotechnology is to develop new techniques and technologies to transform renewable raw materials into chemicals, materials, and fuels by the substitution of fossil fuels. With the increase in the world's population and the resultant growing energy demand, the need for more energy can be successfully met with the advancements in industrial biotechnology. Currently across the globe significant research has been undertaken in the production of cleaner fuels, materials, and semi-synthetic chemicals, with environmental benefits. Developing countries have huge agricultural resources that could be utilized for production of value-added byproducts for the sustainable development of bio-based economy. The book opens with the chapter on the production of exopolysaccharides from halophilic microorganisms, a polymer that is normally very useful in various production sectors of the food, pharmaceutical, and petroleum industries. The book goes on to cover: The production of antimicrobial compounds from alkaliphilic bacteria Thermophilic actinomycetes Food, agro, and pharmaceutical potential and biotechnological applications of biosurfactants, halophiles, cyclodextrin glycosyl transferease, fungal chitinase, proteases, yeasts and yeast products Also covered in the book are the environmental aspects of industrial biotechnology such as the genetic enhancement for biofuel production, the production of biodegradable thermoplastics, advancements in the synthesis of bio-oil, ecofriendly treatment of agro-based lignocelluloses, and anaerobic bio reactors for hydrocarbon remediation. The international roster of chapter authors have been chosen for their renowned expertise and contribution to the various fields of industrial biotechnology. This book is suitable to chemists, biotechnologists from research institutes, academia, and students as well as for industry professionals
The book provides scope and knowledge on advanced techniques and its applications into the modern fields of biotechnology-genomics and proteomics. In this book, different genomics and proteomics technologies and principles are examined. The fundamental knowledge presented in this book opens up an entirely new way of approaching DNA chip technology, DNA array assembly, gene expression analysis, assessing changes in genomic DNA, structure-based functional genomics, protein networks, and so on. Topics in the book include: * Different gene products with a similar role in neuronal defense against oxidative * Gene-gene and gene-environment interactions in genetic epidemiology * Elucidation of proto-oncogene c-abl function with the use of mouse models and the disease model of chronic myeloid leukemia * Next-generation sequencing, microbiome evaluation, molecular microbiology, and their impact on human health * Proteomics and prostate cancer * RNA interference therapeutics * Molecular mechanisms of hepatitis C virus entry * Molecular phylogenetics for elucidation of evolutionary processes from biological data * The impact of transgenic crops on soil quality, microbial diversity, and plant-associated communities. * Biotechnological and genomic approaches for abiotic stress tolerance in crop plants The book will be valuable for biotechnology researchers and bioinformatics professionals and students in all fields of biotechnology and will serve to broaden their knowledge about these newer tools, techniques, innovations, and applications.
This volume provides an enlightening and pragmatic approach to preserving biological diversity by gathering a wide range of peer-reviewed scientific content from biodiversity researchers and conservators from around the world. It brings comprehensive knowledge and information on the present status of conservation of biological diversity including floral, faunal, and microbial diversity. A detailed account of recent trends in conservation and applications under changing climate conditions, focusing mainly on agriculturally and industrially important microbes and their sustainable utilization, is presented as well. Over the past five decades, extensive research work has been done on many aspects of biodiversity conservation and sustainable utilization of biological resources. This book examines this crucial issue. Chapters discuss biodiversity concepts, benefits, and values for economic and sustainable development; explores applications and strategies for biodiversity preservation; and considers the role of biodiversity conservation in public awareness services and cultural significance. The volume also examines the process of evolution and the future of biodiversity in conjunction with climate change factors, with special reference to infectious diseases.
This volume provides an enlightening and pragmatic approach to preserving biological diversity by gathering a wide range of peer-reviewed scientific content from biodiversity researchers and conservators from around the world. It brings comprehensive knowledge and information on the present status of conservation of biological diversity including floral, faunal, and microbial diversity. A detailed account of recent trends in conservation and applications under changing climate conditions, focusing mainly on agriculturally and industrially important microbes and their sustainable utilization, is presented as well. Over the past five decades, extensive research work has been done on many aspects of biodiversity conservation and sustainable utilization of biological resources. This book examines this crucial issue. Chapters discuss biodiversity concepts, benefits, and values for economic and sustainable development; explores applications and strategies for biodiversity preservation; and considers the role of biodiversity conservation in public awareness services and cultural significance. The volume also examines the process of evolution and the future of biodiversity in conjunction with climate change factors, with special reference to infectious diseases. |
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