Global climate change affects crop production through altered weather patterns and increased environmental stresses. Such stresses include soil salinity, drought, flooding, metal/metalloid toxicity, pollution, and extreme temperatures. The variability of these environmental conditions pared with the sessile lifestyle of plants contribute to high exposure to these stress factors. Increasing tolerance of crop plants to abiotic stresses is needed to fulfill increased food needs of the population. This book focuses on methods of improving plants tolerance to abiotic stresses. It provides information on how protective agents, including exogenous phytoprotectants, can mitigate abiotic stressors affecting plants. The application of various phytoprotectants has become one of the most effective approaches in enhancing the tolerance of plants to these stresses. Phytoprotectants are discussed in detail including information on osmoprotectants, antioxidants, phytohormones, nitric oxide, polyamines, amino acids, and nutrient elements of plants. Providing a valuable resource of information on phytoprotectants, this book is useful in diverse areas of life sciences including agronomy, plant physiology, cell biology, environmental sciences, and biotechnology.

This is an authoritative book that acts as a guide to understanding maize kernel development. Written by a team of experts, it covers topics spanning pre- and post-fertilization events, embryo and endosperm development, grain filling and maturation, and factors influencing crop yield. It explores the significance of maize and other cereal grains, existing hypotheses and research, and important gaps in our knowledge and how we might fill them. This is a valuable resource for researchers of maize and other cereals, and anyone working on basic or applied science in the fields of seed development, plant genetics, and crop physiology.

Winner of The 2008 Jane Grigson Award, issued by the International Association of Culinary Professionals (IACP). Winner of the 2008 Cordon d' Or Culinary Literature - History Culinary Academy Award. This is the story of the bean, the staple food cultivated by humans for over 10,000 years. From the lentil to the soybean, every civilization on the planet has cultivated its own species of bean. The humble bean has always attracted attention - from Pythagoras' notion that the bean hosted a human soul to St. Jerome's indictment against bean-eating in convents (because they "tickle the genitals"), to current research into the deadly toxins contained in the most commonly eaten beans. Over time, the bean has been both scorned as "poor man's meat" and praised as health-giving, even patriotic. Attitudes to this most basic of foodstuffs have always revealed a great deal about a society. Beans: A History takes the reader on a fascinating journey across cuisines and cultures.

Put Theory into Practice

Scarcity of natural resources, higher costs, higher demand, and concerns about environmental pollution ? under these circumstances, improving food supply worldwide with adequate quantity and quality is fundamental. Based on the author's more than forty years of experience, The Use of Nutrients in Crop Plants builds a bridge between theoretical aspects of mineral nutrition and practical applicability of basic principles of fertilization and use efficiency of essential plant nutrients.

Provides Authoritative and Practical Information

The book explores how to maximize essential nutrients uptake and use efficiency by food crops and how to improve productivity without degrading the environment. It covers nutrients and their cycle in soil-plant systems, functions, and deficiency symptoms. The author includes management strategies that can lead to a reduction in the cost of crop production and environmental degradation. He emphasizes field conditions, crop production, and soil chemistry. Comprehensive coverage of essential nutrients and experimental results are accompanied by tables and figures of updated experimental data that make practical information easily accessible.

A Valuable Tool for Improving Crop Yield

Agricultural science is very dynamic in nature and fertilizer practices change with time due to the release of new cultivars and changing production practices in sustainable crop production systems. The Use of Nutrients in Crop Plants provides in-depth scientific information that is applicable through many methods of crop production. It is a valuable tool for improving crop yields at lower cost and less stress on the environment.

Abiotic stresses such as drought, flooding, high or low temperatures, metal toxicity and salinity can hamper plant growth and development. Improving Abiotic Stress Tolerance in Plants explains the physiological and molecular mechanisms plants naturally exhibit to withstand abiotic stresses and outlines the potential approaches to enhance plant abiotic stress tolerance to extreme conditions. Synthesising developments in plant stress biology, the book offers strategies that can be used in breeding, genomic, molecular, physiological and biotechnological approaches that hold the potential to develop resilient plants and improve crop productivity worldwide. Features * Comprehensively explains molecular and physiological mechanism of multiple abiotic stress tolerance in plants * Discusses recent advancements in crop abiotic stress tolerance mechanism and highlights strategies to develop abiotic stress tolerant genotypes for sustainability * Stimulates synthesis of information for plant stress biology for biotechnological applications * Presents essential information for large scale breeding and agricultural biotechnological programs for crop improvement Written by a team of expert scientists, this book benefits researchers in the field of plant stress biology and is essential reading for graduate students and researchers generating stress tolerant crops through genetic engineering and plant breeding. It appeals to individuals developing sustainable agriculture through physiological and biotechnological applications.

Without sensationalizing or providing the technical details that would result in a terrorist's handbook, the volume reflects the concerns expressed by experts from 12 states (including many from Slavic regions adjoining or aspiring to membership of the European Union). A range of vulnerabilities are highlighted that are usually neglected. Assessments that focus on the horrifying potential of bioterrorism directly targeting people are commonplace. This book is exceptional because indirect impacts on human health and welfare through challenge to the security of food supplies are the focus. These urgently need to be recognised and made subjects of planned investment to counter the threat. Examples of past state-sponsored and independent actions are discussed. The evolution of biological (chemical defoliant) systems for controlling plant growth with unambiguously humanitarian aims is shown to have resulted in a range of counter terrorist uses.

Summarizing landmark research, Volume 2 of this essential series furnishes information on the availability of germplasm resources that breeders can exploit for producing high-yielding cereal crop varieties. Written by leading international experts, this volume offers the most comprehensive and up-to-date information on employing genetic resources to increase the yield of those cereal crops that provide the main source of nutrition for two-thirds of the world. In thirteen succinct chapters, Genetic Resources, Chromosome Engineering, and Crop Improvement: Cereals, Volume 2 focuses on wheat, rice, maize, oats, barley, millet, sorghum, and rye, as well as triticale: a wheat and rye hybrid with great potential. An introductory chapter outlines the cytogenetic architecture of cereal crops, describes the principles and strategies of cytogenetics and breeding, and summarizes landmarks in current research. This sets the stage for the ensuing crop-specific chapters. Each chapter generally provides a comprehensive account of the crop, its origin, wild relatives, exploitation of genetic resources in the primary, secondary, and tertiary gene pools through breeding and cytogenetic manipulation, and genetic enrichment using the tools of molecular genetics and biotechnology. Certain to become the standard reference for improving the yields of these critical grains, this book is the definitive source of information for plant breeders, agronomists, cytogeneticists, taxonomists, molecular biologists, biotechnologists, and graduate students and researchers in these fields.

Saffron is a precious spice which is mainly grown in Iran, India, Spain, Greece, Italy, Pakistan, Morocco, and central Asian countries. Until recently, saffron was perceived only for its value as a spice. However, with recent research findings pointing to the medicinal properties of saffron such as its antimicrobial, anticarcinogenic and antioxidant effects, interest in this plant has increased. The book presents a comprehensive account of saffron which includes the historical background, acerage underproduction, yield and applications, botanical ecophysiology, production technology, irrigation, pests, diseases and weeds, genetics, sterility, reproduction and production of secondary metabolites by in vitro method, economic aspects, indigenous knowledge in saffron production, processing, chemical composition and quality control, and research strategies.

Agricultural system models enhance and extend field research...to synthesize and examine experiment data and advance our knowledge faster, to extend current research in time to predict best management systems, and to prepare for climate-change effects on agriculture. The relevance of such models depends on their implementation. Methods of Introducing System Models into Agricultural Research is the ultimate handbook for field scientists and other model users in the proper methods of model use. Readers will learn parameter estimation, calibration, validation, and extension of experimental results to other weather conditions, soils, and climates. The proper methods are the key to realizing the great potential benefits of modeling an agricultural system. Experts cover the major models, with the synthesis of knowledge that is the hallmark of the Advances in Agricultural Systems Modeling series.

A major task of our time is to ensure adequate food supplies for the world's current population (now nearing 7 billion) in a sustainable way while protecting the vital functions and biological diversity of the global environment. The task of providing for a growing population is likely to be even more difficult in view of actual and potential changes in climatic conditions due to global warming, and as the population continues to grow. Current projections suggest that the world's temperatures will rise 1.8-4.0 by 2100 and population may reach 8 billion by the year 2025 and some 9 billion by mid-century, after which it may stabilize. This book addresses these critical issues by presenting the science needed not only to understand climate change effects on crops but also to adapt current agricultural systems, particularly in regard to genetics, to the changing conditions.

"Crop Adaptation to Climate Change" covers a spectrum of issues related to both crops and climatic conditions. The first two sections provide a foundation on the factors involved in climate stress, assessing current climate change by region and covering crop physiological responses to these changes. The third and final section contains chapters focused on specific crops and the current research to improve their genetic adaptation to climate change.

Written by an international team of authors, "Crop Adaptation to Climate Change" is a timely look at the potentially serious consequences of climate change for our global food supply, and is an essential resource for academics, researchers and professionals in the fields of crop science, agronomy, plant physiology and molecular biology; crop consultants and breeders; as well as climate and food scientists.

Biology of Citrus provides a concise and comprehensive discussion of all major developmental, genetic and horticultural aspects of citriculture in an easily readable text. The book deals with the history, distribution and climatic adaptation of the crop, followed by taxonomy and systematics, including a horticultural classification of edible citrus species. Subsequent chapters cover tree structure and function, reproductive physiology, including flowering, fruiting, productivity, ripening, post-harvest and fruit constituents. The main aspects of cultivated citrus, such as rootstocks, irrigation, pests, viruses and diseases are dealt with, leading to a concluding chapter that considers genetic improvement, including the use of tissue culture and plant biotechnology. The book includes many specially produced original illustrations and the extensive reading lists will make it invaluable for students and citrus specialists.

Sustainable Agriculture and the Environment describes the relationship of agriculture, society, nature and the environment, sustainable agriculture and sustainable development goals, management of biophysical resources for sustainable food and environment, traditional knowledge and innovative options, and social and policy aspects of sustainable agriculture. The book presents both environmental and economic principles, helping readers in the development and application of robust policy and good institutional systems that execute on sustainable agriculture practices for a healthy environment and to combat climate resilience.

1.1. INTRODUCTION Plastic covering, either framed or floating, is now used worldwide to protect crops from unfavorable growing conditions, such as severe weather and insects and birds. Protected cultivation in the broad sense, including mulching, has been widely spread by the innovation of plastic films. Paper, straw, and glass were the main materials used before the era of plastics. Utilization of plastics in agriculture started in the developed countries and is now spreading to the developing countries. Early utilization of plastic was in cold regions, and plastic was mainly used for protection from the cold. Now plastic is used also for protection from wind, insects and diseases. The use of covering techniques started with a simple system such as mulching, then row covers and small tunnels were developed, and finally plastic houses. Floating mulch was an exception to this sequence: it was introduced rather recently, although it is a simple structure. New development of functional and inexpensive films triggered widespread use of floating mulch. Table 1.1. The use a/plastic mulch in the world (after Jouet, 2001).

Healthy seeds and propagules are the basic requirement for producing good grains, fruits and vegetables needed for human survival and perpetuation. Dispersal of microbial plant pathogens via seeds and propagules has assumed more importance than other modes of dispersal, as infected seeds and propagules have the potential to become the primary sources of carrying pathogen inoculum for subsequent crops. Several diseases transmitted through seeds and propagules have been shown to have the potential to damage economies as a result of huge quantitative and qualitative losses in numerous crops. Hence, it is essential to rapidly detect, identify and differentiate the microbial plant pathogens present in seeds and propagules precisely and reliably, using sensitive techniques. Microbial Plant Pathogens: Detection and Management in Seeds and Propagules provides a comprehensive resource on seed-borne and propagule-borne pathogens. Information on the biology of microbial pathogens, including genetic diversity, infection process and survival mechanisms of pathogens and epidemiology of diseases caused by them, are discussed critically and in detail to highlight weak links in the life cycles of the pathogens. Development of effective disease management systems, based on the principles of exclusion and eradication of pathogens and immunization of crop plants to enhance the levels of resistance of cultivars to diseases, has been effective to keep the pathogens at bay. The need for production of disease-free seeds/propagules has been emphasized to prevent the carryover of the inoculum to the next crop or introduction of the pathogens to other locations. Effectiveness of adopting simple cultural practices and development of cultivars resistant to diseases through traditional breeding methods or biotechnological approach have resulted in reducing the pathogen inoculum and disease incidence. Although application of different chemicals may reduce the disease incidence effectively, biological management of crop diseases, employing potential biological control agents have to be preferred to preserve the agroecosystems. Greater efforts have to be made to integrate compatible strategies to enhance the effectiveness of diseases management systems. Protocols appended at the end of relevant chapters form a unique feature of this book to enable the researchers to fine-tune their projects. This 2 volume set provides comprehensive and updated information about the economically-important groups of microbial plant pathogens carried by seed and propagules. Graduate students, researchers and teachers of plant pathology, plant protection, microbiology, plant breeding and genetics, agriculture and horticulture, as well as certification and quarantine personnel will find the information presented in this book useful.

"Sustaining Soil Productivity in Response to Global Climate Chan""ge: ""Science, Policy, and Ethics"" "is a multi-disciplinary volume exploring the ethical, political and social issues surrounding the stewardship of our vital soil resources. Based on topics presented by an international group of experts at a conference convened through support of the Organization for Economic Co-operation and Development, chapters include scientific studies on carbon sequestration, ecosystem services, maintaining soil fertility, and the effects of greenhouse gas emissions, as well as ethical issues ranging from allocation of land use to policies needed for climate change adaptation and mitigation.

Bringing together the latest research in soil science and climatology, "Sustaining Soil Productivity in Response to Global Climate Change "is a valuable resource for soil and plant scientists, agronomists and environmental scientists, as well as agricultural and natural resources engineers and economists, environmental policy makers and conservationists.

Key Features: Written by an international group of authors representing a cross-section of scientists, thought leaders, and policy-makersIncludes chapters on the potential effects of climate change on forest soil carbon, microbial function, and the role of soils and biogeochemistry in the climate and earth systemExplores historical development of land use ethics and stewardship

Volume 74 contains six excellent cutting-edge reviews detailing advances in the plant and environmental soil sciences. Chapter 1 is an extensive review on soil quality. Chapter 2 covers recent advances in understanding the formation of metal hydroxide precipitates on soil surfaces and their implications on metal sequestration and soil remediation. Chapter 3 is a timely review on effects of organic acid exudation from roots on phosphorus uptake and aluminum tolerance of plants in acid soils. Chapter 4 discusses bamboo production and management, including manipulation of growth and development and environmental aspects of bamboo production. Chapter 5 addresses a significant worldwide issue - management of soils for food security and environmental quality. Chapter 6 is a comprehensive review on the management of wheat, barley, and oat root systems.

This insightful reference/text describes the application of viable mathematical models in data analysis to increase crop growth and yields-highlighting effective, analytical functions that have been found useful for the comparison of alternative management techniques to maximize water and nutrient resources. Features solutions to various differential equations and considers different characteristics of the functions related to the phenomenological growth model. Mathematical Models of Crop Growth and Yield examines the response of seasonal dry matter to applied nutrients considers the accumulation of dry matter and plant nutrients explores sensitivity analysis and dimensionless plots assesses the transfer of nitrogen from a legume to a grass analyzes the linkage of animal production with forage production discusses water availability evaluates coupling among applied, soil, and plant components presents numerical procedures for regression analysis supplies extensive exercises for further study Enhanced by the inclusion of more than 1300 literature citations, display equations, tables, and figures, Mathematical Models of Crop Growth and Yield will prove an invaluable reference for plant pathologists; agriculturists; toxicologists; ecologists; botanists; agronomists; horticulturists; biochemists; foresters; plant culturists; biotechnologists; plant and crop physiologists; plant, crop, soil, and environmental scientists; agricultural, biological, and environmental engineers; crop managers; and crop modeling specialists; and an essential text for upper-level undergraduate and graduate students in these disciplines. Return to Top Table of Contents Introduction Seasonal Response Models Growth Response Models Mathematical Characteristics of Models Pasture Systems Nonlinear Regression for Mathematical Models Index Return to Top

This book presents the progress, changes, and evolvement for apple mechanical harvest during the past decades, which include, but not limited to, bulky harvest method, harvest platform, apple infield sorting, and harvest robotics. Though there are significant progresses in apple harvest robotics, there still is a long way ahead before its practical applications, with existing and potential bottlenecks described in this book. Hence, other researchers would take advantage of this book to have a hint of the apple mechanical harvest history and state-of-the-art progress, so that they can find the room for their new research. This book targets senior undergraduates and more importantly graduate students in the field of agricultural engineering, sensing, automatic, and robotics.

The most up-to-date reference on phytomicrobiomes available today The Plant Microbiome in Sustainable Agriculture combines the most relevant and timely information available today in the fields of nutrient and food security. With a particular emphasis on current research progress and perspectives of future development in the area, The Plant Microbiome in Sustainable Agriculture is an invaluable reference for students and researchers in the field, as well as those with an interest in microbiome research and development. The book covers both terrestrial and crop associated microbiomes, unveiling the biological, biotechnological and technical aspects of research. Topics discussed include: Developing model plant microbiome systems for various agriculturally important crops Defining core microbiomes and metagenomes in these model systems Defining synthetic microbiomes for a sustainable increase in food production and quality The Plant Microbiome in Sustainable Agriculture is written to allow a relative neophyte to learn and understand the basic concepts involved in phytomicrobiomes and discuss them intelligently with colleagues.

There is an urgent need for new approaches or management systems that are multi-objective and integrate new objectives such as quality of produce and cultivation, growing or production methods, quality of the abiotic environment, landscape and nature values into the old objectives. For example, growth of the world fertilizer industry has increasingly been affected by grave concerns, such as environmental pollution and increment in energy consumption, which in many cases have a negative impact on food products and consumer health. In fact, water stress during intensive growth of crops causes inhibition of physiological processes, such as nutrient transport, and hence decreases yield and affects quality performance. For example, limited resources of water in some regions has forced us to seek other sources, such as saline water, for irrigation of crops. Additional benefits of the application of correct fertilizer doses include improved soil protection and environment protection in general and prevention of contamination of soil and groundwater with nitrites.

Grazing animals need to be managed in order to accommodate desired results in terms of animal, plant, land and economic responses. Grazing Management, 2nd Edition integrates principles and management techniques that apply to all grazing lands and to all grazing animals. This comprehensive volume provides authoritative review on a wide range of relevant topics: animal nutrition and nutritional balance when fed on different sorts of grazing lands; seasonal variation and limits placed on ecosystems by grazing; the effects of grazing on grazing lands; the various sorts of grazing behaviors; selecting plants and managing grazing lands, as well as many other important topics bearing upon the methods, practises and procedures for properly managing grazing lands and animals.
* Animal nutrition and nutritional balance when fed on different sorts of grazing lands
* Seasonal variation and limits placed on ecosystems by grazing
* The effects of grazing on grazing lands
* The various sorts of grazing behaviours
* Selecting plants and managing grazing lands

Plant Breeding Reviews presents state-of-the-art reviews on plant genetics and the breeding of all types of crops by both traditional means and molecular methods. Many of the crops widely grown today stem from a very narrow genetic base; understanding and preserving crop genetic resources is vital to the security of food systems worldwide. The emphasis of the series is on methodology, a fundamental understanding of crop genetics, and applications to major crops.

'We at Too Good To Go, found the research presented immensely insightful as we continue to build awareness raising campaigns with the aim of changing behaviours.' Too Good To Go This book provides a comprehensive review of the causes and prevention of food losses and waste (FLW) at key steps in the supply chain. The book begins by defining what is meant by food losses and waste and then assessing current research on its economic, environmental and nutritional impact. It then reviews what we know about causes and prevention of FLW at different stages in the supply chain, from cultivation, harvesting and storage, through processing and distribution to retail and consumer use. The third part of the book looks at FLW for particular commodities, including cereals and grains, fresh fruit and vegetables, roots and tubers, oilseeds and tubers, meat and dairy products, and fish and seafood products. The final section in the book reviews the effectiveness of campaigns to reduce FLW in regions such as North and Latin America, Asia and the Pacific, the Middle East and, sub-Saharan Africa.