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Showing 1 - 25 of 147 matches in All Departments
This 4-volume set focuses on the use of microbial bioremediation and phytoremediation to clean up pollutants in soil, such as pesticides, petroleum hydrocarbons, metals, and chlorinated solvents, which reduce the soil’s fertility and renders it unfit for plant growth. The volumes cover the many diverse eco-friendly microbial bioremediation and phytoremediation techniques for sustainable soil management. Bioremediation and Phytoremediation Technologies in Sustainable Soil Management: Volume 1: Fundamental Aspects and Contaminated Sites begins with an overview of phytoremediation and phytotechnologies and the role of environmental factors. It goes on to introduce soil assessment techniques and offers methods of remediation designed to combat soil and agricultural degradation. Attention is given to specific types of sites and soil pollution, such as soils contaminated by heavy metals; microbial and phytoremediation-based removal of polycyclic aromatic hydrocarbons (PAHs) from coal, crude oil, and gasoline; microbial bioremediation and amelioration of pesticide-contaminated soils; phytoremediation techniques for biomedical waste contaminated sites; as well as biomediation processes for human waste sites. Biopesticides are also explained in the book as an alternative to conventional pesticides as well as the possibilities for the improvement of modern bio-pesticides. Volume 2: Microbial Approaches and Recent Trends focuses on new and emerging techniques and approaches to address soil pollution. These include the use of rhizobacteria, archae, cyanobacteria, and microalgae as biofertilizers and for soil bioremediation efforts. New technologies for assessment of soil bioremediation are explored also. The chapters provides in-depth coverage of the mechanisms, advantages, and disadvantages of the technologies used and highlights the use of different microbial enzymes that are used in the process of bioremediation and phytoremediation to clean up different pollutants without causing damage to the natural environment. Volume 3: Inventive Techniques, Research Methods, and Case Studies is organized in three themes: plants in green remediation, tools and techniques in bioremediation and phytoremediation, and special sites and their remediation techniques. Innovative new techniques that advance the use of molecular biological approaches, nanotechnology, immobilization, vermicomposting and genetic modification developments are investigated to take advantage of these possibilities. Volume 4: Degradation of Pesticides and Polychlorinated Biphenyls addresses pesticide degradation, PCBs degradation, and genetic interventions. It begins by describing environment pesticide degradation, mechanisms and sustainability, microbes and microbial enzymes, plant microbe interactions, organophosphorus degradations and endosulfan degradation. It then goes on to discuss PCBs and degradation, cypermethrin, degradation by Phanerochaete chrysosporium, carvone and surfactants for degradation of PCBs. The book also advocates for genetic systems for degradation of PCBs and pesticides, with discussion of the different advantages and disadvantages for each strategy and the various techniques. Together, these four volumes provide in-depth coverage of the mechanisms, advantages, and disadvantages of the bioremediation and phytoremediation technologies for safe and sustainable soil management. The diverse topics help to arm biologists, agricultural engineers, environmental and soil scientists and chemists with the information and tools they need to address soil toxins that are a dangerous risk to plants, wildlife, humans and, of course, the soil itself.
This 4-volume set focuses on the use of microbial bioremediation and phytoremediation to clean up pollutants in soil, such as pesticides, petroleum hydrocarbons, metals, and chlorinated solvents, which reduce the soil's fertility and renders it unfit for plant growth. The volumes cover the many diverse eco-friendly microbial bioremediation and phytoremediation techniques for sustainable soil management. Bioremediation and Phytoremediation Technologies in Sustainable Soil Management: Volume 1: Fundamental Aspects and Contaminated Sites begins with an overview of phytoremediation and phytotechnologies and the role of environmental factors. It goes on to introduce soil assessment techniques and offers methods of remediation designed to combat soil and agricultural degradation. Attention is given to specific types of sites and soil pollution, such as soils contaminated by heavy metals; microbial and phytoremediation-based removal of polycyclic aromatic hydrocarbons (PAHs) from coal, crude oil, and gasoline; microbial bioremediation and amelioration of pesticide-contaminated soils; phytoremediation techniques for biomedical waste contaminated sites; as well as biomediation processes for human waste sites. Biopesticides are also explained in the book as an alternative to conventional pesticides as well as the possibilities for the improvement of modern bio-pesticides. Volume 2: Microbial Approaches and Recent Trends focuses on new and emerging techniques and approaches to address soil pollution. These include the use of rhizobacteria, archae, cyanobacteria, and microalgae as biofertilizers and for soil bioremediation efforts. New technologies for assessment of soil bioremediation are explored also. The chapters provides in-depth coverage of the mechanisms, advantages, and disadvantages of the technologies used and highlights the use of different microbial enzymes that are used in the process of bioremediation and phytoremediation to clean up different pollutants without causing damage to the natural environment. Volume 3: Inventive Techniques, Research Methods, and Case Studies is organized in three themes: plants in green remediation, tools and techniques in bioremediation and phytoremediation, and special sites and their remediation techniques. Innovative new techniques that advance the use of molecular biological approaches, nanotechnology, immobilization, vermicomposting and genetic modification developments are investigated to take advantage of these possibilities. Volume 4: Degradation of Pesticides and Polychlorinated Biphenyls addresses pesticide degradation, PCBs degradation, and genetic interventions. It begins by describing environment pesticide degradation, mechanisms and sustainability, microbes and microbial enzymes, plant microbe interactions, organophosphorus degradations and endosulfan degradation. It then goes on to discuss PCBs and degradation, cypermethrin, degradation by Phanerochaete chrysosporium, carvone and surfactants for degradation of PCBs. The book also advocates for genetic systems for degradation of PCBs and pesticides, with discussion of the different advantages and disadvantages for each strategy and the various techniques. Together, these four volumes provide in-depth coverage of the mechanisms, advantages, and disadvantages of the bioremediation and phytoremediation technologies for safe and sustainable soil management. The diverse topics help to arm biologists, agricultural engineers, environmental and soil scientists and chemists with the information and tools they need to address soil toxins that are a dangerous risk to plants, wildlife, humans and, of course, the soil itself.
This book volume sheds light on the health benefits of selected cereal grains, processing technologies of cereals, specific roles of bioactive compounds of cereals in chronic disease prevention, and traditional and latest technologies to improve the functional benefits of cereal-based products. It presents a thorough review of the functional components of some lesser known or forgotten cereals and their role in maintaining good health. With advancements in cereal science and technology, new methods of processing have emerged that help to preserve or even enhance the health-benefitting properties of cereal grains. Further, plant breeding and biotechnology have contributed greatly in improving nutritional quality and functionality of these grains. This book provides comprehensive information on the simple as well as advanced methodologies for enhancing the properties of cereals that benefit human health. Some new approaches such as bio-fortification and extraction of bioactives from cereals are also included in the text.
This new volume aims to provide an understanding of the manufacturing processes of milk products and the structural, physicochemical, and compositional changes that occur during manufacturing and storage of milk products. It also addresses the various reactions that can happen during processing and storage of dairy products and their impact on quality. Milk and milk products are highly nutritious, yet their low acidity provides a favorable environment for growth of pathogenic and spoilage-causing organisms. Therefore, milk needs to be processed and converted into various milk products. This volume covers methods of conversion of milk into high-value, concentrated, extended-shelf-life, and easily transportable dairy products. This volume covers the constituents and chemistry, physicochemical properties, and therapeutic characteristics of milk and milk products, and then goes on to present specialized processing methods for milk and milk products. It presents sound knowledge of raw milk composition, mineral constituents in milk, and manufacturing process of butter and ice cream. It also covers the physicochemical changes and compositional changes occurring during manufacturing and storage of milk, concentrated milk, butter, butter oil and ice cream. Also discussed are the therapeutic characteristics of fermented milk and milk products, milk-derived bioactive peptides, and potential aspects of whey proteins in dairy products. Specialized methods such as proteolysis in ultra-high temperature (UHT), heat and acid coagulation of milk products, processing and characteristics of dry dairy milk powders, and methods to monitor pesticide residues in milk and milk products have also been evaluated. The Chemistry of Milk and Milk Products: Physicochemical Properties, Therapeutic Characteristics, and Processing Methods will be helpful for dairy science teaching staff and advanced students, researchers, and industrial personnel interested in theoretical and practical knowledge about changes in physicochemical, compositional properties and heat induced changes occurs during manufacturing and storage of dairy products, not just in improving the quality and performance of dairy products but also in a much wider context.
This new volume, Advances in Food Process Engineering: Novel Processing, Preservation and Decontamination of Foods, highlights a selection of novel applications for food processing, food preservation, and food decontamination methods. The book discusses novel food processing methods, exploring the principles, benefits, and techniques used; recent developments and applications of ultrasonication; supercritical fluid extraction and supercritical fluid chromatography; extrusion technology; advanced drying and dehydration technologies; and encapsulation methods as important tools in the processing of food. Chapters on membrane technology in food processing address the basic membrane processing technologies along with their advantages and disadvantages, including membrane modules, types of membranes, and membrane technologies as well as various applications of membrane process in dairy processing, food and starch processing, beverage processing, sugar manufacturing, oil processing, and treatment of industrial food processing waste. Mathematical modeling in food processing is also considered in the volume. Chapters present the application and use of mathematical models for measuring and regulating fermentation procedures as well as provide an understanding of how the hydration kinetics of grains can help in optimization and scaling of processes on a large industrial scale. Topics on decontamination methods for foods are included, such as an overview of concepts, basic principles, potential applications, and prospects and limitations of cold plasma technology and irradiation in the food processing sector has been summarized. This volume provides excellent reference material for researchers, scientists, students, growers, traders, processors, industries, and others on novel food processing and preservation techniques.
Covers the various pharmacological and therapeutic aspects of bioactive compounds. Analyses their methods of extraction, their phytochemistry, their pharmacological and biological activities, their medicinal properties, and their applications for disease management and prevention.
This new volume explores the integration of bionanomaterials and sustainable resources for the development of new and emerging sustainable processes. It highlights the concept of essential bionanomaterials derived from sustainable resources with examples of interdisciplinary methodologies and research that highlight the reuse of biomass waste as well as the proper usage of green technologies. The volume considers the most recent trends, challenges, and applications in bionanomaterials derived from sustainable sources in energy production and environmental mitigation. The book looks at state-of-the-art trends in the use of bionanomaterials for renewable energy such as in production of solar energy, for energy harvesting, and for energy conversion and storage. Chapters consider the application of bionanomaterials for the development of improved optical and electrical biosensors. The volume goes on to address the promising use of bionanomaterials for environmental remediation, such as for recovering heavy metals, radioactive metals, and other pollutants from wastewater, from river water, from soils, etc. Other topics include the use of sustainable nanomaterials in the food industry, in the biomedical field, in ecological research, and more. This volume, Sustainable Nanomaterials for Biosystems Engineering: Trends in Renewable Energy, Environment, and Agriculture, advocates innovative and emerging green technologies for bionanomaterials for an economical and sustainable society for the improvement of humankind in a variety of ways. It will be valuable for academicians, environmentalists, practitioners, NGOs, and industry professionals who are working in the field of biosystems engineering.
This new volume explores emerging and advanced techniques in the food processing sector. Novel food processing methods such as ultrasound processing, microwave heating, advanced drying methods, and nonthermal technologies are discussed in detail. The volume also covers the application of irradiation and encapsulation methods, microbial valorizing, and other novel food processing and preservation methods. Mathematical modeling concepts and case studies are also included to illustrate applications of modeling techniques in food processing. The volume promotes the understanding of the thermodynamics of food polymers, structural design principles, structural hierarchy, and the steps involved in food structuring and structure measurement techniques.
This book provides scientific reports on the therapeutic potential of medicinal plants using animal models and provides information on the beneficial role of medicinal plants on human diseases. It looks at a number of medicinal plants and examines the medicinal properties and activities of the plants for a variety of health issues, such as for diabetes, cardiovascular disease, neurodegenerative disease, organ dysfunctions, cancer, labor and postpartum issues, and more. The therapeutic mechanisms of some phytoconstituents are also discussed.
In recent years, nanomaterials have become one of the most dynamic exploration fields in the areas of engineering, technology, and science. This new volume focuses on the use of various bionanomaterials that can be introduced into the body as clinical devices for various medical purposes. The book also provides examples of cost-effective, sustainable alternatives to traditional medical procedures. The volume discusses how these materials have diverse applications in the biomedical fields, such as for cancer treatment, for orthopedic joint replacements, for medical diagnosis, for making bone plates, for wound healing, for nerve regeneration, for breast implants, in dental procedures, and so on. In addition, the book also covers some nonbiomedical applications of nanobiomaterials, such as, for example, to grow cells in a culture medium, as a blood protein test in laboratories, etc. The enlightening selection of chapters in Sustainable Nanomaterials for Biomedical Engineering: Impacts, Challenges, and Future Prospects provides a rich multidisciplinary resource on biotechnological interventions using sustainable nanomaterials for academicians, environmentalists, practitioners, NGOs and industrialists who are working in the field of biosystems engineering, and others.
This new volume presents an array of new and emerging techniques in the food processing sector, focusing on the extraction, encapsulation, and health benefits of bioactive Compounds. It illustrates various applications of novel food processing extraction and encapsulation techniques along with the health and safety aspects of plant-derived bioactive compounds and functional foods Some of the sustainable and green extraction techniques discussed include novel extraction techniques, such as microwave-assisted extraction (MAE), ultrasonic assisted extraction (UAE), supercritical fluid extraction (SFE), accelerated solvent extraction (ASE), and rapid solid-liquid extraction (RSLE). The volume also covers the principles and methods of encapsulation, its role and application in protection and stabilization and as a targeted delivery system for enhanced nutritional health benefits. Various encapsulation methods, such as spray drying, spray cooling/chilling, fluidized bed coating, coacervation, liposome entrapment, extrusion, inclusion complexation, etc., are discussed in detail for application in the food industry. Novel Processing Methods for Plant-Based Health Foods: Extraction, Encapsulation, and Health Benefits of Bioactive Compounds also highlights the potential of nutraceuticals and biological active compounds in human health, various sources, consumers’ acceptance, safety aspects, and their application in development of functional foods. This volume offers many tremendous applications in different areas of the food industry, including in food processing, preservation, health-promoting properties, and safety and quality evaluation of plant-based foods. The book provides a wealth of information and will be an excellent reference material for researchers, scientists, students, growers, traders, processors, industry professionals, and others on the emerging food processing approaches for extraction and encapsulation of plant-based bioactive compounds and health-promoting properties of plant-derived nutraceuticals and safety aspects in production of functional foods.
Phytochemicals and Medicinal Plants in Food Design: Strategies and Technologies for Improved Healthcare explores the therapeutic potential of various natural and novel phytochemicals in the design of new foods. Divided into two parts, the first section discusses plant-based secondary metabolites for healthcare, focusing on the health aspects of herbs and medicinal plants and nutraceuticals for livestock production and for the treatment of diseases such as HIV and diabetes. The authors also address the benefits of preserving indigenous knowledge of medicinal plants and current consumer views of health issues from foods. The second part delves into the design and utilization of healthy foods. This section discusses the application of novel designs and herbal formulations in conjunction with other biomolecules for the development and utilization for food products with health benefits. Key features: Encourages the preservation of indigenous knowledge on herbs and medicinal plants Explains the health-promoting effects of some herbs and medicinal plants Discusses the therapeutics and their mechanisms of actions of the biological compounds for food safety This informative volume will be valuable for faculty, students, scientists, researchers, and industry professionals in the development of superfoods from phytochemicals and medicinal plants.
This new book discusses plant-derived bioactive compounds, covering their sources, biological effects, health benefits, and potential prevention and treatment properties for multifactorial diseases. Plant-Based Bioactive Compounds and Food Ingredients: Encapsulation, Functional, and Safety Aspects shows how encapsulation methods and plant-based materials may be used in a variety of ways. The first section, Encapsulation Technologies, delves into the concepts, advantages, and techniques for encapsulating bioactives based on cereals, spices, and coffee. It also discusses the role of nanoliposomes for encapsulation of natural foods. The second section, Functional Aspects of Plant-Based Foods, discusses functional aspects of plant-based foods, nutraceutical-based functional food design, diverse functional food items, functional aspects of food, and the role of functional components. The third section, Health Benefits of Plant-Based Foods, covers selected plants (such as cereals, pepper, and coffee) and their chief phytochemicals and bioactive compounds along with their health benefits. The fourth section, Safety Aspects of Functional and Natural Foods, examines the role of functional foods in food safety and provides an overview of industrial food safety issues and techniques for monitoring food quality and safety. This volume will act as reference book for researchers, scientists, students, and food processors, providing a wealth of knowledge on encapsulation processes and their applications, functional foods, and food safety issues.
Enzyme inactivation in fruits and vegetables is of utmost importance regarding food quality during storage. This new volume explores important emerging technologies for the inactivation of enzymes in the design and preservation of food. The book covers the basic concepts and chemical methods and then introduces novel processing technologies for inactivating food enzymes. The new technologies are many: pulsed electric field, ultraviolet and light-emitting diodes, ohmic heating, dense-phased carbon dioxide, cold plasma, ultrasonication, microwave processing, radiofrequency, extraction, and others. The volume also looks at the design of nutraceutical-based functional foods, specific foods for gut-microbiodata, the use of omega-3 fatty acids to fortify food products, and the characteristics of dairy-based dry powders, and characteristics of millet starches. It also considers the role of the bioactive compounds and metal ions for catalases secreted by medicinal plants and mushrooms for enzyme inactivation and biosensing, along with the role of bionanomaterials in nanoencapsulation and catalysis.
Provides valuable information on standard protocols for the synthesis of green nanomaterials Promotes advanced technologies for applications of green and sustainable nanomaterials Demonstrates numerous characterization tools for working with sustainable nanomaterials Explores various application areas of the synthesized nanomaterials With the major goal of this volume to take a stock of sophistication in the development of a spectrum of recent nanomaterials that are eco-benign and sustainable, this volume will be a valuable addition to the libraries of faculty and scientists in green and sustainable chemistry and engineering.
The Handbook of Research on Food Processing and Preservation Technologies is a rich 5-volume collection that illustrates various design, development, and applications of novel and innovative strategies for food processing and preservation. The roles and applications of minimal processing techniques (such as ozone treatment, vacuum drying, osmotic dehydration, dense phase carbon dioxide treatment, pulsed electric field, and high-pressure assisted freezing) are discussed, along with a wide range of other applications. The handbook also explores some exciting computer-aided techniques emerging in the food processing sector, such as robotics, radio frequency identification (RFID), three-dimensional food printing, artificial intelligence, etc. Some emphasis has also been given on nondestructive quality evaluation techniques (such as image processing, terahertz spectroscopy imaging technique, near infrared, Fourier transform infrared spectroscopy technique, etc.) for food quality and safety evaluation. The significant roles of food properties in the design of specific foods and edible films have been elucidated as well. Volume 3: Computer-Aided Food Processing and Quality Evaluation Techniques of the multi-volume set reports on a number of applications of computer-aided techniques for quality evaluation and to secure food quality. The chapter authors present emerging nonthermal approaches for food processing and preservation including a detailed discussion on color measurement techniques, RFID, 3D-food printing, potential of robotics, artificial intelligence, terahertz spectroscopy imaging technique, instrumentation techniques and transducers, food labeling as marketing and quality assurance tool, detection of pesticides, mathematical simulation of moisture sorption in food products, numerical methods and modeling techniques, concept of phase change materials, and dielectric properties of animal source foods. Other volumes in the set include: Volume 1: Nonthermal and Innovative Food Processing Methods Volume 2: Nonthermal Food Preservation and Novel Processing Strategies Volume 3: Computer-Aided Food Processing and Quality Evaluation Techniques Volume 4: Design and Development of Specific Foods, Packaging Systems, and Food Safety Volume 5: Emerging Techniques for Food Processing, Quality, and Safety Assurance Along with the other volumes, Handbook of Research on Food Processing and Preservation Technologies provides an abundance of valuable information and will be an excellent reference for researchers, scientists, students, growers, traders, processors, industries, and others.
Although nanotechnology has revolutionized fields such as medicine, genetics, biology, bioengineering, mechanics, and chemistry, its increasing application in the food industry is relatively recent in comparison. Nanotechnology is being used to discover new methods for creating new flavors, extending food shelf life, and improving food protection and nutritional value. Nanotechnology in the food industry is now being explored for intelligent nutrient delivery systems, "smart" foods, contaminant detection nanodevices and nanosensors, advanced food processing, antimicrobial chemicals, encapsulation, and green nanomaterials. This new three-volume set, Nanotechnology Horizons in Food Process Engineering, addresses a multitude of topical issues and new developments in the field. Volume 1 focuses food preservation, food packaging and sustainable agriculture, while Volume 2 looks at nanotechnology in food process engineering, applications of biomaterials in food products, and the use of modern nanotechnology for human health. The third volume explores the newest trends in nanotechnology for food applications and their application for improving food delivery systems. Together, these three volumes provide a comprehensive and in-depth look at the emerging status of nanotechnology in the food processing industry, explaining the benefits and drawbacks of various methodologies that will aid in the improvement and development of food product sourcing and food hygiene monitoring methods. Volume 3: Trends, Nanomaterials and Food Delivery provides an overview of the current trends in nanotechnology for food applications and food delivery systems. Topics include a collection of chapters on diverse topics, including the stability of nanoparticles in food, nanobiosensing for the detection of food contaminants, nanotechnology applications in agriculture, the role of nanotechnology in nutrient delivery, how nanotechnology is applied in dairy products, biofunctional magnetic nanoparticles in food safety, the development of nutraceuticals using nanotechnological tools, and more.
Although nanotechnology has revolutionized fields such as medicine, genetics, biology, bioengineering, mechanics, and chemistry, its increasing application in the food industry is relatively recent in comparison. Nanotechnology is being used to discover new methods for creating new flavors, extending food shelf life, and improving food protection and nutritional value. Nanotechnology in the food industry is now being explored for intelligent nutrient delivery systems, "smart" foods, contaminant detection nanodevices and nanosensors, advanced food processing, antimicrobial chemicals, encapsulation, and green nanomaterials. This new three-volume set, Nanotechnology Horizons in Food Process Engineering, addresses a multitude of topical issues and new developments in the field. Volume 1 focuses food preservation, food packaging and sustainable agriculture, while Volume 2 looks at nanotechnology in food process engineering, applications of biomaterials in food products, and the use of modern nanotechnology for human health. The third volume explores the newest trends in nanotechnology for food applications and their application for improving food delivery systems. Together, these three volumes provide a comprehensive and in-depth look at the emerging status of nanotechnology in the food processing industry, explaining the benefits and drawbacks of various methodologies that will aid in the improvement and development of food product sourcing and food hygiene monitoring methods. Volume 1 discusses emerging nanotechnolgical applications in food processing, packaging, and preservation. It focuses on using nanoparticles for safe and nutritional food production, protecting crops from pests, increasing nutritional value, and providing solutions for various environmental issues. This book especially deals with nanotechnology for controlling plant pathogens, food packaging and preservation, agricultural productivity, wastewater treatment, and bioenergy production. Volume 2 discusses nanotechnology use in non-thermal techniques such as high-pressure processing (HPP), pulsed electric fields (PEFs), pulsed light, ultraviolet, microwave, ohmic heating, electrospinning, and nano- and microencapsulation. This volume looks at the role and application of minimal processing techniques such as ozone treatment, vacuum drying, osmotic dehydration, dense phase carbon dioxide treatment, and high-pressure assisted freezing. The successful applications of nanotechnologies on juices, meat and fish, fruits and vegetable slices, food surface, purees, milk and milk products, extraction, drying enhancement, and encapsulation of micro-macro nutrients are also considered. The volume also presents several computer-aided techniques that are emerging in the food processing sector, such as robotics, radio frequency identification (RFID), three-dimensional food printing, artificial intelligence, etc. Significant role of food properties in design of specific food and edible packaging films have been elucidated. Nanotechnology Horizons in Food Process Engineering: Volume 3: Trends, Nanomaterials, and Food Delivery provides an overview of the current trends in nanotechnology for food applications and food delivery systems. Topics include a collection of chapters on diverse topics, including the stability of nanoparticles in food, nanobiosensing for the detection of food contaminants, nanotechnology applications in agriculture, the role of nanotechnology in nutrient delivery, how nanotechnology is applied in dairy products, biofunctional magnetic nanoparticles in food safety, the development of nutraceuticals using nanotechnological tools, and more.
Quality Control in Fruit and Vegetable Processing: Methods and Strategies illustrates the applications of various nonthermal technologies for improving the quality and safety of fruits and vegetables, such as microwave, ultrasound, gamma irradiation, pulsed light, and hurdle technology. The volume also looks at various strategies (osmotic dehydration, ultrasound- and ultrasound-assisted osmotic dehydration, nanoemulsions, and engineered nanomaterials) for the preservation of fresh produce. It emphasizes various nondestructive techniques that have been widely used for the quality assessment of fruits and vegetables during storage, including image analysis, x-ray tomography, magnetic resonance imaging (MRI), nonmagnetic resonance imaging (NMR), color vision system, near-infrared spectroscopy (NIRS), and computerized tomography (CT). Applications of other nondestructive mechanical (such as electronic tongue and nose technology) and dynamic methods (acoustic) for food quality and safety evaluation have also been included. The book concludes with an overview of the potential use of fruit and vegetable waste as a viable feedstock for bioenergy and for the treatment of wastewater. Key features: Promotes the utilization of new and novel nonthermal technologies for the preservation of fruits and vegetables Provide up-to-date information on the applications of nonthermal technologies for the quality and safety of fresh produce during storage Highlights different preservation strategies for improving the quality of fresh produce Explores the use of nondestructive quality assessment methods such as X-ray, MRI, NMR, etc. Discusses the potential industrial use of fruit and vegetable waste as a viable feedstock for bioenergy and for the treatment of industrial wastewater This volume will provide food for thought for those in the food industry on new methods and technology for effective quality control in fruit and vegetable processing.
This volume provides informative research on the scientific evidence of the health benefits that can be derived from medicinal plants and how their efficacies can be improved. It is divided into three sections that cover the phytochemistry of medicinal plants, disease management with medicinal plants, and novel research techniques in medicinal plants. The pharmacological benefits of several specific plants are discussed, addressing health issues such as metabolic and mental disorders, acute mountain sickness, polycystic ovarian syndrome, and specific diseases such as Huntington's. It also looks at the role of antioxidants in disease management. Additionally, the book covers recent problems of drug resistance and how medicinal plants can serve as antibiotic, anthelmintic, and antiparasitic drugs that will be helpful for human and animals.
Herbs, Spices, and Medicinal Plants for Human Gastrointestinal Disorders: Health Benefits and Safety presents valuable information for exploring the health claims of plant-based phytochemicals for the treatment and prevention of gastrointestinal disorders. It details the healing benefits of specific spices and herb plant-based remedies, such as garlic, onion, black pepper, aloe vera, Indian gooseberry, chamomile, and dandelion for the treatment of colorectal cancer and hemorrhoids, irritable bowel syndrome, gallstones, celiac disease, peptic ulcers, etc. It also discusses the therapeutic properties of fermented foods and beverages and the healing benefits of lectins in the management of gastrointestinal disorders. The abundance of research presented in this volume will be valuable for researchers, scientists, growers, students, processors, traders, industries, and others in the development of plant-based therapeutics for gastrointestinal diseases.
Here is a comprehensive summary of new research and advancements in the unique functional and nutraceutical therapeutic and physiochemical aspects of dairy foods. The book explores the specific health benefits of dairy ingredients in nutraceuticals and functional foods as well as delves into production techniques that enhancement their therapeutic value. The first section of the book looks at the physicochemical and technological aspects of milk-derived components, discussing production, extraction and purification, and functional and technological applications of various functional dairy ingredients (such as lactulose, casein and whey protein-derived bioactive peptides). The volume also considers the therapeutic aspects of dairy ingredients, detailing the physiological and health effects of colostrum, oligosaccharides, conjugated linoleic acid, and lactoferrin. The third section focuses on enhancing the functionality of dairy foods by assessing the functional attributes that can be augmented by the addition of nutraceuticals such as probiotics, vitamins, and minerals or by the removal of cholesterol. Functional Dairy Ingredients and Nutraceuticals: Physicochemical, Technological, and Therapeutic Aspects provides an abundance of important research on the use of dairy ingredients in functional foods and nutraceuticals that will be valued by researchers, scientists, students, growers, traders, processors, industries, and others involved with the physicochemical, technological and therapeutic aspects of various nutraceuticals and functional dairy ingredients and their application in food and dairy industry.
This new volume looks at new research and advances in the use of nanotechnology applications in agricultural and bioprocess engineering. The first section deals with the impact of nanotechnology in agricultural engineering, looking at the role of nanomaterials in plant growth and nutrition. It goes on to discuss specific methods and processes in the development of food products, nutraceuticals, and therapeutics. This includes nanotechnological methods for iron fortification of dairy food, for processing and preservation of meat and meat products, for selective targeting of cancer, and more. The book then discusses the role of nanotechnology in bioprocessing, such as for biofuel production, for wastewater treatment, and as enzymatic nanoparticles for fabrication processes.
This 4-volume set focuses on the use of microbial bioremediation and phytoremediation to clean up pollutants in soil, such as pesticides, petroleum hydrocarbons, metals, and chlorinated solvents, which reduce the soil’s fertility and renders it unfit for plant growth. The volumes cover the many diverse eco-friendly microbial bioremediation and phytoremediation techniques for sustainable soil management. Volume 4: Degradation of Pesticides and Polychlorinated Biphenyls addresses pesticide degradation, PCBs degradation, and genetic interventions. It begins by describing environment pesticide degradation, mechanisms and sustainability, microbes and microbial enzymes, plant microbe interactions, organophosphorus degradations and endosulfan degradation. It then goes on to discuss PCBs and degradation, cypermethrin, degradation by Phanerochaete chrysosporium, carvone and surfactants for degradation of PCBs. The book also advocates for genetic systems for degradation of PCBs and pesticides, with discussion of the different advantages and disadvantages for each strategy and the various techniques. Together, these four volumes provide in-depth coverage of the mechanisms, advantages, and disadvantages of the bioremediation and phytoremediation technologies for safe and sustainable soil management. The diverse topics help to arm biologists, agricultural engineers, environmental and soil scientists and chemists with the information and tools they need to address soil toxins that are a dangerous risk to plants, wildlife, humans and, of course, the soil itself.
Phytoremediation has evolved into an important tool to improve the bioremediation process since it is an innovative green technology that uses a wide variety of plants to remediate radioactive metals, organics, chemicals, and radioactive elements from soil, sediment, surface water, and groundwater environmental pollutants. Together, bioremediation and phytoremediation technologies provide an effective approach to contaminant abatement. This new book, Bioremediation and Phytoremediation Technologies in Sustainable Soil Management: Volume 3: identifies and draws a fresh image of existing developments in theoretical and functional implementation systems from recent scientific research studies that take into account different facets of bioremediation. It also discusses the latest technology and prospects of new soil bioremediation technology and analyses their domains, along with their associated challenges and consequences. Together, these four volumes provide in-depth coverage of the mechanisms, advantages, and disadvantages of the bioremediation and phytoremediation technologies for safe and sustainable soil management. The diverse topics help to arm biologists, agricultural engineers, environmental and soil scientists and chemists with the information and tools they need to address soil toxins that are a dangerous risk to plants, wildlife, humans and, of course, the soil itself. |
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