- This text provides unique perspective on the historical social, political, and economic factors that created the current, flawed industrial agricultural system, providing justification for the proposed philosophy of mycoagroecology. - Nine introductory chapters equip readers of diverse backgrounds with the broad knowledge required to start implementing mycoagroecology. - All concepts are considered through a lens of sustainable management, encouraging the multifaceted approach needed to manage future agroecosystems. - This multidisciplinary text includes chapters contributed by experts from several fields, including forest ecology, horticultural science, mycology, pest management, and plant pathology. - The text incorporates issues, examples, and techniques from all over the world and includes techniques for both industrial and small-scale farming, encouraging international adoption of mycoagroecology. - Key terms are defined in-text and the language is approachable to include readers who speak English as a secondary academic language.

Presenting an overview of agroecology within the framework of climate change, this book looks at the impact of our changing climate on crop production and agroecosystems, reporting on how plants will cope with these changes, and how we can mitigate these negative impacts to ensure food production for the growing population. It explores the ways that farmers can confront the challenges of climate change, with contributed chapters from around the world demonstrating the different challenges associated with differing climates. Examples are provided of the approaches being taken right now to expand the ecological, physiological, morphological, and productive potential of a range of crop types. Describes the effects and responses of the macro and micro levels of crops under the different components of climate change Reports on the adaptation and resilience of food production systems within the changing climate Covers how plants cope with the changing climate including physiological, biochemical, phenotype, and ecosystem responses Provides an in-depth discussion on the importance of agricultural education connected to climate change Giving readers a greater understanding of the mechanisms of plant resilience to climate change, this book provides new insights into improving the productivity of an individual crop species as well as bringing resistance and resiliency to the entire agroecosystem. It offers a strong foundation for changing research and education programs so that they build the resistance and resilience that will be needed for the uncertain climate future ahead.

We hear a lot about how agriculture affects climate change and other environmental issues, but we hear little about how these issues affect agriculture. When we look at both sides of the issues, we can develop better solutions for sustainable agriculture without adversely affecting the environment. Agroecology, Ecosystems, and Sustainability explores a modern vision of ecology and agricultural systems, so that crop production can be sustainably developed without further environmental degradation. With contributions from experts from more than 20 countries, the book describes how to make the transition to modern agroecology to help the environment. It examines the global availability of natural resources and how agroecology could allow the world population to reach the goal of global sustainable ecological, agricultural, and food production systems. The book discusses important principles that regulate agroecological systems, including crop production, soil management, and environment preservation. Making the link between theory and practices, the book includes examples of agroecology such as an interdisciplinary framework for the management of integrated production and conservation landscapes and the use of mechanized rain-fed farming and its ecological impact on drylands. An examination of how ecology and agriculture can be allied to ensure food production and security without threatening our environment, the text shows you how natural resources can be used in a manner to create a "symbiosis" to preserve ecological systems and develop agriculture.

We hear a lot about how agriculture affects climate change and other environmental issues, but we hear little about how these issues affect agriculture. When we look at both sides of the issues, we can develop better solutions for sustainable agriculture without adversely affecting the environment. Agroecology, Ecosystems, and Sustainability explores a modern vision of ecology and agricultural systems, so that crop production can be sustainably developed without further environmental degradation. With contributions from experts from more than 20 countries, the book describes how to make the transition to modern agroecology to help the environment. It examines the global availability of natural resources and how agroecology could allow the world population to reach the goal of global sustainable ecological, agricultural, and food production systems. The book discusses important principles that regulate agroecological systems, including crop production, soil management, and environment preservation. Making the link between theory and practices, the book includes examples of agroecology such as an interdisciplinary framework for the management of integrated production and conservation landscapes and the use of mechanized rain-fed farming and its ecological impact on drylands. An examination of how ecology and agriculture can be allied to ensure food production and security without threatening our environment, the text shows you how natural resources can be used in a manner to create a "symbiosis" to preserve ecological systems and develop agriculture.

Since the completion of the Human Genome Project, food and nutrition sciences have undergone a fundamental molecular transformation. New discoveries in molecular biology, analytical chemistry, and biochemistry have led to the development of new tools that are likely to revolutionize the study of food. OMICS Technologies: Tools for Food Science explores how these tools reveal the fundamental pathways and biochemical processes that drive food and nutrition sciences. In this volume, an international panel of researchers examines the rise of these new technologies-including metabolomics, metagenomics, nutrigenomics, transcriptomics, and proteomics-and describes how they translate to food science research and productive technologies. The book explains how these methods can be used to assess the quality attributes of foods and food production systems. It explores the principles that regulate food production, analyzes processing and ethical issues, and documents the transformation from industrial to sustained foods production using the OMICS tools. Providing comprehensive information on OMICS and food and nutrition science, this volume is a reliable reference for food scientists, nutritionists, and food product developers looking to implement OMIC technologies in product development. It is also a critical resource for food industry personnel, regulators, and government researchers who need to understand the role of these emerging technologies in advancing food science and nutrition.

This book reviews the evidence supporting the influence of plant fibers on our daily life by either having impacts on our nutrition or improving processed foods for human and animal feeding. By bringing new information and updating existing scientific data, this book will also be a consistent source of information for both professional and non-professionals that are involved in food science and technology, nutrition, and even medical sciences related to human health and well-being.

Taking a broad and innovative informational approach, Sustainable Agriculture and New Biotechnologies is the first book to apply omic technologies to address issues related to understanding and improving agricultural sustainability in the food production process. The transformation from industrial to sustainable agriculture is discussed within the frameworks of new biotechnologies and global environmental changes. While considering this transformation, the book covers: The use of new biotechnologies to help in the creation of more sustainable agricultural practices, including methods in molecular biology, genetic engineering, and the new emerging technologies, such as metabolomics, metagenomics, nutrigenomics, and ionomics The path to reach the goal of the global sustainable agricultural and food production systems in a world of limited natural resources and growing environmental degradation Principles that regulate the new agricultural and food production systems including breeding programs for more sustainable crops, soil management, and environment preservation It is clear that biotechnological approaches will become increasingly important in the future and that a shift from industrial to a sustainable agriculture will be necessary. While many books tend to make "a quick and easy link" between these two different worlds, Sustainable Agriculture and New Biotechnologies describes exactly how omics can contribute to greater food productivity and security, and agricultural sustainability in the future.

Increased world population, decreased water supply, and climate change all put stresses on the global food supply. An exploration of the challenges and possible solutions to improve yields of the main crops, such as cereals, roots, tubers, and grasses, Omics Technologies and Crop Improvement reviews data on food sciences and omics. The book covers modern omic technologies such as nutrigenomics and metagenomics. It provides a detailed examination of how omics can help crop science and horticulture and introduces the benefits of using these technologies to increase crop yields and other features such as resistance and nutritional values. The book highlights crop improvements such as increased yield, drought resistance, disease resistance, and value-added performance through a non-transgenic format. It explores how the different omics technologies, especially the most recent ones (proteomics, metabolomics, nutrigenomics, ionomics, and metagenomics) would be used to improve the quantitative and qualitative features of crop plants. Topics covered include: Advances in omics for improved fresh crops Transcriptome analyses on the drought response using drought tolerant near isogenic lines Metabolite profiling that reveals different effects of nitrogen amendments on vegetables Omics technology application to forage crops improvement Secondary metabolites and plant tissue culture RNAi technology and crop improvement Gene expression analysis methods with NGS data Web database resources and crops improvement Gene Expression Networks (GEN) in crops Specific crop improvement (papaya, wheat, coffee, potato, and more) With contributions from pioneering researchers from twelve countries, the book presents a broad view of how omics would help crop science and horticulture meet the challenges of a shrinking global food

This book reviews the evidence supporting the influence of plant fibers on our daily life by either having impacts on our nutrition or improving processed foods for human and animal feeding. By bringing new information and updating existing scientific data, this book will also be a consistent source of information for both professional and non-professionals that are involved in food science and technology, nutrition, and even medical sciences related to human health and well-being.

Taking a broad and innovative informational approach, Sustainable Agriculture and New Biotechnologies is the first book to apply omic technologies to address issues related to understanding and improving agricultural sustainability in the food production process. The transformation from industrial to sustainable agriculture is discussed within the frameworks of new biotechnologies and global environmental changes. While considering this transformation, the book covers: The use of new biotechnologies to help in the creation of more sustainable agricultural practices, including methods in molecular biology, genetic engineering, and the new emerging technologies, such as metabolomics, metagenomics, nutrigenomics, and ionomics The path to reach the goal of the global sustainable agricultural and food production systems in a world of limited natural resources and growing environmental degradation Principles that regulate the new agricultural and food production systems including breeding programs for more sustainable crops, soil management, and environment preservation It is clear that biotechnological approaches will become increasingly important in the future and that a shift from industrial to a sustainable agriculture will be necessary. While many books tend to make "a quick and easy link" between these two different worlds, Sustainable Agriculture and New Biotechnologies describes exactly how omics can contribute to greater food productivity and security, and agricultural sustainability in the future.

Presenting an overview of agroecology within the framework of climate change, this book looks at the impact of our changing climate on crop production and agroecosystems, reporting on how plants will cope with these changes, and how we can mitigate these negative impacts to ensure food production for the growing population. It explores the ways that farmers can confront the challenges of climate change, with contributed chapters from around the world demonstrating the different challenges associated with differing climates. Examples are provided of the approaches being taken right now to expand the ecological, physiological, morphological, and productive potential of a range of crop types. Describes the effects and responses of the macro and micro levels of crops under the different components of climate change Reports on the adaptation and resilience of food production systems within the changing climate Covers how plants cope with the changing climate including physiological, biochemical, phenotype, and ecosystem responses Provides an in-depth discussion on the importance of agricultural education connected to climate change Giving readers a greater understanding of the mechanisms of plant resilience to climate change, this book provides new insights into improving the productivity of an individual crop species as well as bringing resistance and resiliency to the entire agroecosystem. It offers a strong foundation for changing research and education programs so that they build the resistance and resilience that will be needed for the uncertain climate future ahead.

Increased world population, decreased water supply, and climate change all put stresses on the global food supply. An exploration of the challenges and possible solutions to improve yields of the main crops, such as cereals, roots, tubers, and grasses, Omics Technologies and Crop Improvement reviews data on food sciences and omics. The book covers modern omic technologies such as nutrigenomics and metagenomics. It provides a detailed examination of how omics can help crop science and horticulture and introduces the benefits of using these technologies to increase crop yields and other features such as resistance and nutritional values. The book highlights crop improvements such as increased yield, drought resistance, disease resistance, and value-added performance through a non-transgenic format. It explores how the different omics technologies, especially the most recent ones (proteomics, metabolomics, nutrigenomics, ionomics, and metagenomics) would be used to improve the quantitative and qualitative features of crop plants. Topics covered include: Advances in omics for improved fresh crops Transcriptome analyses on the drought response using drought tolerant near isogenic lines Metabolite profiling that reveals different effects of nitrogen amendments on vegetables Omics technology application to forage crops improvement Secondary metabolites and plant tissue culture RNAi technology and crop improvement Gene expression analysis methods with NGS data Web database resources and crops improvement Gene Expression Networks (GEN) in crops Specific crop improvement (papaya, wheat, coffee, potato, and more) With contributions from pioneering researchers from twelve countries, the book presents a broad view of how omics would help crop science and horticulture meet the challenges of a shrinking global food

Since the completion of the Human Genome Project, food and nutrition sciences have undergone a fundamental molecular transformation. New discoveries in molecular biology, analytical chemistry, and biochemistry have led to the development of new tools that are likely to revolutionize the study of food. OMICS Technologies: Tools for Food Science explores how these tools reveal the fundamental pathways and biochemical processes that drive food and nutrition sciences.

In this volume, an international panel of researchers examines the rise of these new technologies including metabolomics, metagenomics, nutrigenomics, transcriptomics, and proteomics and describes how they translate to food science research and productive technologies. The book explains how these methods can be used to assess the quality attributes of foods and food production systems. It explores the principles that regulate food production, analyzes processing and ethical issues, and documents the transformation from industrial to sustained foods production using the OMICS tools.

Providing comprehensive information on OMICS and food and nutrition science, this volume is a reliable reference for food scientists, nutritionists, and food product developers looking to implement OMIC technologies in product development. It is also a critical resource for food industry personnel, regulators, and government researchers who need to understand the role of these emerging technologies in advancing food science and nutrition.