This volume brings together information on the available and newly emerging technologies related to using plant compounds that have a beneficial role in food production. It is divided into sections focusing on phytochemistry of cereals and legumes, phytochemistry of medicinal plants, and technological advances in phytochemical study. Topics include the role of anti-nutritional substances of legumes in human health and on the elimination of such through technological processing sorghum phytochemicals and their processing and use in the development of food products production of nutraceuticals and functional foods of pharmaceutical importance T. cordifolia in the development of its therapeutic use in the food, health, and pharmacology industries polyphenolic compounds of plants, including their biosynthesis process, their classification, function, and role as bioactive compounds

This volume brings together information on the available and newly emerging technologies related to using plant compounds that have a beneficial role in food production. It is divided into sections focusing on phytochemistry of cereals and legumes, phytochemistry of medicinal plants, and technological advances in phytochemical study. Topics include the role of anti-nutritional substances of legumes in human health and on the elimination of such through technological processing sorghum phytochemicals and their processing and use in the development of food products production of nutraceuticals and functional foods of pharmaceutical importance T. cordifolia in the development of its therapeutic use in the food, health, and pharmacology industries polyphenolic compounds of plants, including their biosynthesis process, their classification, function, and role as bioactive compounds

The functional foods market represents one of the fastest growing and most fascinating areas of investigation and innovation in the food sector. This new volume focuses on recent findings, new research trends, and emerging technologies in bioprocessing: making use of microorganisms in the production of food with health and nutritional benefits. The volume is divided into three main parts. Part I discusses functional food production and human health, looking at some newly emerged bioprocessing technological advances in the functional foods (chocolates, whey beverages) in conjunction their prospective health benefits. Part II, on emerging applications of microorganism in safe food production, covers recent breakthroughs in food safety in microbial bioprocessing. Chapters discuss spoilage issues, harmful/pathogenic microorganisms, genetically modified microorganisms, stability and functionality, and potential of food-grade microbes for biodegradation of toxic compounds, such as mycotoxins, pesticides, and polycyclic hydrocarbons. Chapters in Part III, on emerging scope and potential application in the dairy and food industry, explore and investigate the current shortcomings and challenges of the microbially mediated processes at the industrial level. The editors have brought together a group of outstanding international contributors at the forefront of bioprocessing technology to produce a valuable resource for researchers, faculty, students, food nutrition and health practitioners, and all those working in the dairy, food, and nutraceutical industries, especially in the development of functional foods.

This new volume discusses the multitude of possibilities for new development in nanotechnology that focuses on overcoming the problems and challenges faced by the biomedical and food industries. The volume hopes to facilitate the development of devices and materials that benefit patients and their healthcare. The book is broken into three parts that cover: nanotechnology techniques for biomedical applications nanoparticles and materials for food, health, and pharmaceutical application potential applications of nanotechnology in food safety

With contributions from a broad range of leading researchers, this book focuses on advances and innovations in rice aroma, flavor, and fragrance research. Science and Technology of Aroma, Flavor, and Fragrance in Rice is specially designed to present an abundance of recent research, advances, and innovations in this growing field. Aroma is one of the diagnostic aspects of rice quality that can determine acceptance or rejection of rice before it is tested. Aroma is also considered as an important property of rice that indicates its preferable high quality and price in the market. An assessment of known data reveals that more than 450 chemical compounds have been documented in various aromatic and non-aromatic rice cultivars. The primary goal of research is to identify the compounds responsible for the characteristic rice aroma. Many attempts have been made to search for the key compounds contributing to rice aroma, but any single compound or group of compounds could not reported that are fully responsible. There is no single analytical technique that can be used for investigation of volatile aroma compounds in rice samples although there are currently many technologies available for the extraction of rice volatile aroma compounds. These technologies have been modified from time to time according to need, and many of them are helping the emergence of a new form, particularly in the distillation, extraction, and quantification concept. This new volume helps to fill a void in the research by focusing solely on aroma, flavor, and fragrance of rice, helping to meet an important need in rice research and production. Key features of this volume: * provides an overview of aromatic rice from different countries * looks at traditional extraction methods for chemicals associated with rice aroma, flavor, and fragrance * presents new and modern approaches in extraction of rice aroma chemicals * explores genetic engineering for fragrance in rice

With contributions from a broad range of leading professors and scientists, this volume focuses on new areas of processing technologies in foods and plants to help meet the increasing food demand of the rapidly growing populations of the world. The first section of the book is devoted to emerging entrepreneurship and employment opportunities for rural peoples in food and agricultural processing, specifically beekeeping technology and honey processing; herbal formulations for treatment of dental diseases; and engineering interventions for the extraction of essential oils from plants. Part 2 contains three chapters that discuss technological interventions in foods and plants for human health benefits, looking particularly at coffee, tea, and green leaf vegetable processing technology. The volume goes to look at several management strategies in agricultural engineering, with a chapter on production technology of ethanol from various sources and its potential applications in various industries, including chemical, food, pharmaceutical as well as biofuel. Food grain storage structures are addressed as well, focusing on minimizing losses from microbial pests as well as insect pests during grain storage by utilizing different efficient storage structures The volume provides a valuable resource for students, instructors, and researchers of foods and plants processing technology. In addition, food and plant science professionals who are seeking recent advanced and innovative knowledge in processing will find this book helpful.

This new book, Biotechnical Processing in the Food Industry: New Methods, Techniques, and Applications, explores several newly emerged techniques and technologies that have significantly changed the scenario of the dairy and food sector by making the processes more stable and more economically viable. Worldwide adoption of these novel technologies will also, the editors believe, provide benefit to consumers in terms of enhanced food safety labeling, nutritional security, and value-added products at reasonable cost. Divided into three main parts, the book looks at technological trends and advances in dairy research and industry, emerging technological developments, and potential advanced research in the food, health and processing industry.

This book, Microbiology for Food and Health: Technological Developments and Advances, highlights the innovative microbiological approaches and advances made in the field of microbial food industries. The volume covers the most recent progress in the field of dairy and food microbiology, emphasizing the current progress, actual challenges, and successes of the latest technologies. This book looks at technological advances in starter cultures, prospective applications of food-grade microorganisms for food preservation and food safety, and innovative microbiological approaches and technologies in the food industry. The first series of chapters discuss the types, classification, and systematic uses of various starter cultures in addition to probiotics for various commercial fermentation processes. The book goes on to covers recent breakthroughs in microbial bioprocessing that can be employed in the food and health industry, such as, for an example, prospective antimicrobial applications of inherently present fermentative microflora against spoilage and pathogenic type microorganisms; the use of potential probiotic LAB biofilms for the control of formation of pathogenic biofilms by exclusion mechanisms, and more.

This new volume provides a comprehensive overview of thermal and nonthermal processing of food with new and innovative technologies. Recent innovations in thermal as well as nonthermal technologies, which are specifically applied for potable water and fluid foods (milk, juice, soups, etc.), are well documented for their high bioavailability of macro- and micronutrients and are very promising. This volume brings together valuable information on fluid and microbial characteristics and quality dynamics that facilitate the adoption of new technology for food processing. Some new technologies and methods covered include the application of microwaves in heating, drying, pasteurization, sterilization, blanching, baking, cooking, and thawing; microwave-assisted extraction of compounds; using low-electric fields; alternation of temperature and pressure of supercritical carbon dioxide; ultrasound-assisted osmotic dehydration; hydrodynamic cavitation; high-pressure processing; gamma-irradiation; and more. The nonthermal technologies discussed have been developed as an alternative to thermal processing while still meeting required safety or shelf-life demands and minimizing the effects on nutritional and quality attributes.

A significant crop in our global society, rice is a staple food product for over half of the world's population. New technologies are being researched and utilized for increasing the overall production of strong rice crops throughout the world. This book focuses on the new areas of research on the most recent biotechnological and molecular techniques to aid in this endeavor. The researchers who have contributed to this compendium are international leaders in their respective fields. The original research included in the volume is strengthened through the addition of surveys, reviews, success stories, and other aspects that impact the global agricultural industry.

This volume addresses three important agricultural aspects of rice: physical characteristics, physico-chemical characteristics, and the organoleptic aspects. Divided into sections, the book first examines recent trends and advances for higher production and quality improvement, focusing on the effects of climate on rice cultivation and climate-resilient agricultural practices in rice. The volume goes on to cover nutrient management for rice production and quality improvement. Chapters also address weed management and postharvest processing practices for improved rice production. With chapters from renowned scientists, researchers, and professors, this book will be a useful reference for rice researchers working in the area of agronomic practices, postharvest processing, and quality improvement in rice.

With contributions from a broad range of experts in the field, this volume, Microbiology for Sustainable Agriculture, Soil Health, and Environmental Protection, focuses on important areas of microbiology related to soil and environmental microbiology associated with agricultural importance. The information and research on soil and environmental microbiology presented here seeks to act as a gateway to sustaining and improving agriculture and environmental security. Part I focuses on soil microbiology, dealing extensively with studies on the isolation, culture, and use of Rhizobium spp. and mycorrhizae to improve soil fertility, plant growth, and yield. This includes research progress on biogeochemical cycles, plant growth promoting rhizobacteria (PGPR), microbial interactions in soil and other soil activities, microbial diversity in soil, biological control and bioremediation, and improvement of beneficial microorganisms (N2 fixers, phosphate solubilizers, etc.). Part 2 goes on to focus on microbiology for crop disease management and pathogenic control in sustainable environment, with chapters on disease management of agricultural and horticultural crop plants through microbial control and how microbial control may a be a potential solution for a sustainability in agriculture. Part 3, Microbiology for Soil Health and Crop Productivity Improvement, features a chapter on the activity and mechanism of nitrogenase enzyme in soil, which is very important for soil health and crop production and productivity. Part 4 presents two chapters entirely devoted to the environmental pollution and its control, looking at the interaction of microbes in aqueous environments and eco-friendly approaches. There is an urgent need to explore and investigate the current shortcomings and challenges of the current innovations and challenges in agricultural microbiology. This book helps to fill that need. This volume will be valuable to those involved with agricultural microbiology, including students, instructors, and researchers.

In agricultural education and research, the study of agricultural microbiology has undergone tremendous changes in the past few decades, leading to today's scientific farming that is a backbone of economy all over the globe. Microorganisms in Sustainable Agriculture, Food, and the Environment fills the need for a comprehensive volume on recent advances and innovations in microbiology. The book is divided into four main parts: food microbiology; soil microbiology; environmental microbiology, and industrial microbiology and microbial biotechnology.

This new volume provides a comprehensive overview of thermal and nonthermal processing of food with new and innovative technologies. Recent innovations in thermal as well as nonthermal technologies, which are specifically applied for potable water and fluid foods (milk, juice, soups, etc.), are well documented for their high bioavailability of macro- and micronutrients and are very promising. This volume brings together valuable information on fluid and microbial characteristics and quality dynamics that facilitate the adoption of new technology for food processing. Some new technologies and methods covered include the application of microwaves in heating, drying, pasteurization, sterilization, blanching, baking, cooking, and thawing; microwave-assisted extraction of compounds; using low-electric fields; alternation of temperature and pressure of supercritical carbon dioxide; ultrasound-assisted osmotic dehydration; hydrodynamic cavitation; high-pressure processing; gamma-irradiation; and more. The nonthermal technologies discussed have been developed as an alternative to thermal processing while still meeting required safety or shelf-life demands and minimizing the effects on nutritional and quality attributes.

This new volume considers how the application of microbial biotechnology in food processing provides nutritional health benefits in foods, focusing on new probiotics and prebiotic-based foods. It provides an informative state-of-the art perspective of the food industry on probiotics and their metabolites, assesses the specific potential health benefits of probiotics in foods, and presents new research and advances on industrial aspects of microbial food technologies. The first section discusses the types and roles of beneficial microbes and/or their metabolites in food products, such as in enhancing food safety by decontaminating or neutralizing toxic components like mycotoxins associated with foods or improving their stability in functional foods. Section 2 elaborates on recent breakthroughs in the development of novel probiotics incorporated in dairy and non-dairy food products (such as fruits and vegetables), challenges associated with commercialization, and their health benefits. The third section delves into innovative and emerging technologies that deal with assessing microbial diversities or management of microbiological hazards in food products. With chapters from a group of international experts at the frontier of their fields in functional foods, food microbiology, and microbial biotechnology, this volume is an informative resource for researchers, teachers and students, food, nutrition and health practitioners, and all those working in the dairy, food, and nutraceutical industries.

In agricultural education and research, the study of agricultural microbiology has undergone tremendous changes in the past few decades, leading to today's scientific farming that is a backbone of economy all over the globe. Microorganisms in Sustainable Agriculture, Food, and the Environment fills the need for a comprehensive volume on recent advances and innovations in microbiology. The book is divided into four main parts: food microbiology; soil microbiology; environmental microbiology, and industrial microbiology and microbial biotechnology.

This book, Microbiology for Food and Health: Technological Developments and Advances, highlights the innovative microbiological approaches and advances made in the field of microbial food industries. The volume covers the most recent progress in the field of dairy and food microbiology, emphasizing the current progress, actual challenges, and successes of the latest technologies. This book looks at technological advances in starter cultures, prospective applications of food-grade microorganisms for food preservation and food safety, and innovative microbiological approaches and technologies in the food industry. The first series of chapters discuss the types, classification, and systematic uses of various starter cultures in addition to probiotics for various commercial fermentation processes. The book goes on to covers recent breakthroughs in microbial bioprocessing that can be employed in the food and health industry, such as, for an example, prospective antimicrobial applications of inherently present fermentative microflora against spoilage and pathogenic type microorganisms; the use of potential probiotic LAB biofilms for the control of formation of pathogenic biofilms by exclusion mechanisms, and more.

With contributions from a broad range of experts in the field, this volume, Microbiology for Sustainable Agriculture, Soil Health, and Environmental Protection, focuses on important areas of microbiology related to soil and environmental microbiology associated with agricultural importance. The information and research on soil and environmental microbiology presented here seeks to act as a gateway to sustaining and improving agriculture and environmental security. Part I focuses on soil microbiology, dealing extensively with studies on the isolation, culture, and use of Rhizobium spp. and mycorrhizae to improve soil fertility, plant growth, and yield. This includes research progress on biogeochemical cycles, plant growth promoting rhizobacteria (PGPR), microbial interactions in soil and other soil activities, microbial diversity in soil, biological control and bioremediation, and improvement of beneficial microorganisms (N2 fixers, phosphate solubilizers, etc.). Part 2 goes on to focus on microbiology for crop disease management and pathogenic control in sustainable environment, with chapters on disease management of agricultural and horticultural crop plants through microbial control and how microbial control may a be a potential solution for a sustainability in agriculture. Part 3, Microbiology for Soil Health and Crop Productivity Improvement, features a chapter on the activity and mechanism of nitrogenase enzyme in soil, which is very important for soil health and crop production and productivity. Part 4 presents two chapters entirely devoted to the environmental pollution and its control, looking at the interaction of microbes in aqueous environments and eco-friendly approaches. There is an urgent need to explore and investigate the current shortcomings and challenges of the current innovations and challenges in agricultural microbiology. This book helps to fill that need. This volume will be valuable to those involved with agricultural microbiology, including students, instructors, and researchers.

Engineering Interventions in Agricultural Processing presents recent advanced research on biological engineering, bioprocessing technologies, and their applications in agricultural food processing, and their applications in agriculture science and agricultural engineering, focusing on biological science, biological engineering, and bioprocessing technology. With contributions from a broad range of leading researchers, this book presents several innovations in the areas of processing technologies in agriculture. The book is divided into three parts, covering agricultural processing: interventions in engineering technologies novel practices in agricultural processing agricultural processing: health benefits of medicinal plants With contributions from a broad range of leading researchers, this book presents several new innovations in the areas of processing technologies in agriculture that will be helpful to researchers, scientists, students, and industry professionals in agriculture.

This new volume discusses the multitude of possibilities for new development in nanotechnology that focuses on overcoming the problems and challenges faced by the biomedical and food industries. The volume hopes to facilitate the development of devices and materials that benefit patients and their healthcare. The book is broken into three parts that cover: nanotechnology techniques for biomedical applications nanoparticles and materials for food, health, and pharmaceutical application potential applications of nanotechnology in food safety

With contributions from a broad range of leading professors and scientists, this volume focuses on new areas of processing technologies in foods and plants to help meet the increasing food demand of the rapidly growing populations of the world. The first section of the book is devoted to emerging entrepreneurship and employment opportunities for rural peoples in food and agricultural processing, specifically beekeeping technology and honey processing; herbal formulations for treatment of dental diseases; and engineering interventions for the extraction of essential oils from plants. Part 2 contains three chapters that discuss technological interventions in foods and plants for human health benefits, looking particularly at coffee, tea, and green leaf vegetable processing technology. The volume goes to look at several management strategies in agricultural engineering, with a chapter on production technology of ethanol from various sources and its potential applications in various industries, including chemical, food, pharmaceutical as well as biofuel. Food grain storage structures are addressed as well, focusing on minimizing losses from microbial pests as well as insect pests during grain storage by utilizing different efficient storage structures The volume provides a valuable resource for students, instructors, and researchers of foods and plants processing technology. In addition, food and plant science professionals who are seeking recent advanced and innovative knowledge in processing will find this book helpful.

A significant crop in our global society, rice is a staple food product for over half of the world's population. New technologies are being researched and utilized for increasing the overall production of strong rice crops throughout the world. This book focuses on the new areas of research on the most recent biotechnological and molecular techniques to aid in this endeavor. The researchers who have contributed to this compendium are international leaders in their respective fields. The original research included in the volume is strengthened through the addition of surveys, reviews, success stories, and other aspects that impact the global agricultural industry.

The functional foods market represents one of the fastest growing and most fascinating areas of investigation and innovation in the food sector. This new volume focuses on recent findings, new research trends, and emerging technologies in bioprocessing: making use of microorganisms in the production of food with health and nutritional benefits. The volume is divided into three main parts. Part I discusses functional food production and human health, looking at some newly emerged bioprocessing technological advances in the functional foods (chocolates, whey beverages) in conjunction their prospective health benefits. Part II, on emerging applications of microorganism in safe food production, covers recent breakthroughs in food safety in microbial bioprocessing. Chapters discuss spoilage issues, harmful/pathogenic microorganisms, genetically modified microorganisms, stability and functionality, and potential of food-grade microbes for biodegradation of toxic compounds, such as mycotoxins, pesticides, and polycyclic hydrocarbons. Chapters in Part III, on emerging scope and potential application in the dairy and food industry, explore and investigate the current shortcomings and challenges of the microbially mediated processes at the industrial level. The editors have brought together a group of outstanding international contributors at the forefront of bioprocessing technology to produce a valuable resource for researchers, faculty, students, food nutrition and health practitioners, and all those working in the dairy, food, and nutraceutical industries, especially in the development of functional foods.