Identifying, interpreting, and managing soil constraints are major challenges, especially when multiple constraints occur in the same soil at various depth zones. Although amelioration tools and strategies are available to manage some of these constraints, field adoption of these technologies is a major challenge to the farming community. Soil Constraints and Productivity helps in identifying and understanding soil constraints, focusing on management practices to alleviate problems associated with these restrictions, and their impacts on crop productivity. Soil Constraints and Productivity aims to: * Describe various amendments suitable for mitigating soil constraints * Provide data on cost-benefit analysis of managing soil constraints * Provide case studies of managing soil constraints to increase productivity Soil is essential for the doubling of major grain production proposed to be necessary to avoid major food security collapses in the future. This book will be a key resource for soil and environmental scientists, farmers, students majoring in agricultural and environmental sciences, and crop consultants.

Sage, the Genus Salvia is one of the most famous and used herbs in the world. This volume, containing over twenty chapters written by leading experts in the field, presents a comprehensive coverage on all aspects of Salvia. Topics covered include the presentation of the most known Salvia species (approximately 400 of them), the distribution of the genus, its chemotaxonomy, ecophysiology, cultivation technology and breeding methods, information on the extraction, isolation, characterisation and structure of a large number of bioactive components, the various pharmacological properties of the species, the share of Salvia products in aromatherapy and the natural cosmetics market, biotechnological techniques, and commercial aspects.

This comprehensive volume on Salvia should be of interest to everyone involved in medicinal and aromatic plant applications and research.

This book examines the changing roles and functions of the soybean throughout world history and discusses how this reflects the complex processes of agrofood globalization. The book uses a historical lens to analyse the processes and features that brought us to the current global configuration of soy. From its origins as a peasant food in ancient China, today the protein-rich soybean is by far the most cultivated biotech crop on Earth, used to make a huge variety of food and industrial products, including animal feed, tofu, cooking oil, soy sauce, biodiesel and soap. While there is a burgeoning amount of literature on how the contemporary global soy web affects large tracts of our planet’s social and ecological systems, little attention has been given to the questions of how we got here and what alternative roles the soybean has played in the past. This book fills this gap and demonstrates that it is impossible to properly comprehend the contemporary global soybean chain, or the wider agrofood system of which it is a part, without looking at both their long and short historical development. However, a history of the soybean and its changing roles within equally changing agrofood systems is inexorably a history about globalization. Not only does this book map out where soybeans are produced, but also who governs, wields power and accumulates capital in the entire commodity chain from production to consumption, as well as identifying the institutional context the global commodity chain operates within. The book concludes by considering the soybean’s future role in a desirable agrofood system which improves human health, culture and livelihoods, and the provision of ecosystem services. This book is essential reading for students and scholars interested in agriculture and food systems, global commodity chains, globalization, environmental history, economic history and social-ecological systems.

Working with Dynamic Crop Models: Methods, Tools and Examples for Agriculture and Environment, 3e, is a complete guide to working with dynamic system models, with emphasis on models in agronomy and environmental science. The introductory section presents the foundational information for the book including the basics of system models, simulation, the R programming language, and the statistical notions necessary for working with system models. The most important methods of working with dynamic system models, namely uncertainty and sensitivity analysis, model calibration (frequentist and Bayesian), model evaluation, and data assimilation are all treated in detail, in individual chapters. New chapters cover the use of multi-model ensembles, the creation of metamodels that emulate the more complex dynamic system models, the combination of genetic and environmental information in gene-based crop models, and the use of dynamic system models to aid in sampling. The book emphasizes both understanding and practical implementation of the methods that are covered. Each chapter simply and clearly explains the underlying principles and assumptions of each method that is presented, with numerous examples and illustrations. R code for applying the methods is given throughout. This code is designed so that it can be adapted relatively easily to new problems.

Handbook of Plant Virus Diseases presents basic information about viral-caused and viral-like diseases in many cultivated crops. The editors, internationally known plant pathologists, provide authoritative descriptive symptomatic signatures of virus diseases, to aid in the diagnosis and possible control of viruses. This handbook organizes cultivated plants into groups according to their final destinations and uses after harvest-a useful grouping system that indicates that some diseases, their resultant epidemiology, and control measures are characteristic within different groups.

Presents innovative approaches to weeds and weed management. Expanding the Context of Weed Management is your key to the latest economically and environmentally friendly methods of managing weeds. You will explore the biological, cultural, mechanical, and preventive tools and techniques that are necessary to successfully manage weeds. Expanding the Context of Weed Management teaches you how to optimize your crop production and profit by integrating preventive techniques, scientific knowledge, and management skills into your current farming routine. This practical volume contains a series of review articles and original research that present innovative approaches to weeds and weed management. In its pages you will discover valuable and practical information about: how weeds can be considered a part of the cropping system instead of an isolated pest to beeliminated why weeds behave as they do short and long term approaches to changing weed management standard breeding methods for weed competitive crops how to improve soil quality to manage weeds how to integrate pest management for weeds how to avoid propagule production how to reduce weed emergence in crops how to minimize weed competition with the cropThe costliness of weeds and weed control is more than $15 billion a year in the United States.Expanding the Context of Weed Management will help you cut this cost with the latest methods of effective weed control. Intended for agronomists, weed scientists, crop advisors, environmentalists, students, and crop ecologists,this book provides a successful and environmentally sound perspective on weeds and their control.

Advances in Agronomy, Volume 149, the latest release in the series, continues to be recognized as a leading reference and first-rate source for the latest research in agronomy. Each volume contains an eclectic group of reviews by leading scientists throughout the world. As always, the subjects covered are rich, varied and exemplary of the abundant subject matter addressed by this long-running serial.

This user-friendly handbook is a working guide to the status of named and experimental grasses available for use in the United States. It provides physical descriptions and status profiles of grass varieties, including turf grass varieties. The handbook also contains maps and descriptions of Land Resources Regions and Plant Hardiness Zones that assist in the understanding of plant adaptation areas. Whenever available, the information in the handbook includes:

Management of Problem Soils in Arid Ecosystems examines the challenges of managing soils in arid and semiarid regions. These soils contain low organic matter, are not leached, and accumulate lime, gypsum, and/or soluble salts, requiring special management and practices. This book discusses how to identify problems, reclaim the soils, and then use them efficiently and economically. Water management and desertification in these areas are also discussed. It contains extensive references as well as 40 tables and illustrations.

A unique look at how the adoption of sustainable farming methods is being pursued throughout the world. This comprehensive book provides clear insight into research and education needs and the many points of view that come to bear on the issue of sustainability. Essential for agricultural leaders in research, education, conservation, policy making, and anyone else interested in creating an economically and environmentally sustainable agriculture worldwide.

Provides a contemporary view of the impact of climate change on cultivation of various fruit species. Offers modern approaches for mitigating the adverse impact of climate change on fruits cultivation. Describes case studies, empirical experiments and observations emphasizing the research progress of understanding and combating the impact of climate change on fruits production. Illustrates concepts with relevant figures and tabulated data.

The third volume of Sustainable Soil and Land Management and Climate Change presents a complete overview of plant soil interactions in a climate affected by greenhouse gas emissions and organic carbon. It presents approaches and managements strategies for the stabilization of soil organic matter. The latest in the respected Footprints of Climate Variability on Plant Diversity series, this book enhances the reader's knowledge of the preservation of organic matter through microbial approaches as well as through soil and plant interactions. Written by teams of specialist scientists, it presents research outcomes, practical applications and future challenges for this important field. Features: Presents microbial tactics for the alleviation of potentially toxic elements in agricultural soils and for reclaiming saline soil. Provides an overview of scientific investigations into greenhouse gas emissions. Outlines priming techniques developed in response to a changing climate. This book is written for students of agronomy, soil science and the environmental sciences as well as researchers interested in management technologies to improve soil fertility.

reviews a wide-range of genetically modified (GM) crops, to understand how they are produced, the impacts on the agricultural industry, and the potential for improving food security. examines how food security can be achieved through GM crops. provides an important synthesis of GM crops from their commercial value to the agricultural industry, as well as their potential for improving food security. will be of great interest to students and scholars of agricultural engineering, crop science, food biotechology, food security and those interested in food and agriculture and sustainable development more broadly.

Plant Transformation via Agrobacterium Tumefaciens compiles fundamental and specific information and procedures involving in vitro soybean transformation, which forms the basis for the Agrobacterium-mediated genetic manipulation of soybean using plant tissue culture. This method serves as one of the most preferred, reliable and cost-effective mechanism of transgene expression in both leguminous recalcitrant species and non-legume crops. The technology is favoured due to its simplicity, feasibility and high transformation rates that are so far achieved mostly in monocot plants and a few dicot genotypes. This book provides a comprehensive review of plant transformation which remains necessary for many researchers who are still facing protocol-related hurdles. Among some of the major topics covered in Plant Transformation via Agrobacterium Tumefaciens are the history and discovery of Agrobacterium bacterium, longstanding challenges causing transformation inefficiencies, types and conditions of explants, development of transgenic plants for stress resistance, and the role of transgenic plants on animal/human health, including the environment. Plant Transformation via Agrobacterium Tumefaciens helps the reader to understand how soybean, like many other orphan legume crops, faces the risk of overexploitation which may render the currently available varieties redundant and extinct should its narrow gene pool not improve. Plant transformation serves as a key technique in improving the gene pool, while developing varieties that are drought tolerant, have enhanced nutritional value, pest resistant and reduce the destruction by disease causing microorganims. This book is an essential foundation tool that is available for researchers and students to reinforce the application of Agrobacterium-mediated genetic transformation in soybean.

Fungi are important plant pathogens which can be responsible for significant yield losses and in some cases, even complete losses in the infected fields or crops. In many cases, fungi coexist in symbiotic association with plant roots and provide benefits to the plants. Therefore, understanding the diversity of the fungi that interact with plants both in symbiotic and pathogenic interaction is critical to harness the beneficial species and strains and control the pathogenic species and strains. Developments in the field of molecular biology move very fast comparatively, books covering the various aspects of molecular biology of fungi are always welcomed by scientists. Features recent trends in phytomycology and fungal biology studies using modern molecular tools. Contains information on improved methods in genetics, genomics and metabolomics.

Explains genomic selection (GS) through statistical models, programming language, and graphics to guide plant breeders in adopting the tool in breeding schemes. Provides examples of GS adoption and potential for expanding the tool's application in crops from the genera of cereals, oilseeds, legumes, tuber crops, and vegetables. Gives insight on prospective of GS in crops by considering the expanding genomic resources.

Focuses on the menace of metal pollution on plants, crop plants, pulses and vegetables Covers morphological, anatomical, physiological and biochemical aspects Covers metal hyper-accumulators (metallophytes) and bioremediation Alleviation of metal stress by exogenous phytohormonal supply Includes heavy metals' low dose stimulatory effects Focuses on 'omics' studies i.e. genomics, metabolomics, ionomics, proteomics and transcriptomics

First published in 1970 Public opinion polls and British politics provides an introductory guide to political polling in Britain. The book describes the polling organizations themselves, their sampling methods, and some of the general problems encountered in survey work. A distinction is drawn between polls concerned with voting intentions (predictive polls) and polls concerned with the expression of opinion (opinion polls), and problems of interpretation in each are discussed. Public opinion polls are then considered in the context of British politics - firstly their relationship with the general principles of representative democracy, and secondly their effect on the practice of politics. Finally, a word of caution is sounded against taking the polls too seriously as accurate indicators of the thinking of the British electorate and also against treating the implications of their potential uses too lightly. This book is a must read for students of British politics, election studies and political science.

This new volume addresses the growing use of organic farming in recent past decades fueled by the concern with the many deleterious effects of conventional agricultural practices, which employ chemical fertilizers, pesticides, and herbicides for large scale production of food. It focuses on sustainable development in farming, primarily detailing the application of different natural resources as manure for organic farming. The authors discuss efficient and cost-effective uses of natural and available resources to produce healthy food while at the same time helping to conserve the environment. Section I of Organic Farming for Sustainable Development discusses in detail the application of microorganisms such as Trichoderma sp., Azospirillum sp., endophytic microorganisms, arbuscular mycorrhiza, Chaetomium sp., and bioactive secondary metabolites in organic farming practices. Section II explores the potential applications of organic amendments and sustainable practices for plant growth and soil health using garlic products, organic substrates, biochar, organic mulching, and tillage and weed management. In addition, Section III summarizes the impacts and prospects of organic crop production technology on health, food safety, and quality. The authors bring together important information that will be helpful in designing organic farming methods for soil sustainability and crop productivity as well as for nutritious food produced efficiently and cost productively. The book provides valuable insight to efficiently and cost-effectively use natural and available resources to increase the nutrient content of our food as well as to manage the organic wastes coming from other sectors, such as from cattle farms without polluting the surroundings.

Although biochar has promise as a soil toxicity remedy, limited research is available, as well as books that summarize the current understanding of this topic. Using herbicides is a fundamental part of the current agricultural model and without the use of these products, food security is threatened on a global scale. Biochar is getting much attention in Korea and Brazil. The book would be of interest in these countries. This subject area has been highlighted due to the increased public concerns around pesticides and their fate in the environment.

Focuses on cotton breeding and biotechnology Proposes ideas, data, and strategies to mount breeding programs for enhancing cotton production Details strategies for cotton quality improvement against abiotic and biotic stresses

This long-needed book highlights how traditional Mexican agriculture has changed according to environmental, climatic, geographical, social and cultural conditions. Grounded in archaeological-historical data from interrelated research of various scientific disciplines, the book also draws on studies made by anthropologists of varied small-scale agricultural groups. Traditional Mexican Agriculture is the result of a holistic study of Mexican agriculture. It offers the reader a perspective of traditional agriculture in Mexico from social, cultural and ecological Anthropology, Ethnology, regional and environmental History, and Agroecology, to help obtain sustainable agroecology where human societies obtain better ways of life and a healthy and nutritious food system. The book further aims to recover ideas, management, and components of local knowledge of small-scale farmers. Pitched at university students and academics, as well as researchers and developers of agricultural matters, this book will be ideal reading at agrarian universities and related institutions. It provides a basis for future studies in sustainable agricultural systems in this region.

This new book presents an abundance of important information and case studies that deal with bamboo farming and its effects from and on climate change adaptation and mitigation. There is a lack of research on the role of bamboo in climate change adaptation and mitigation; this volume helps to fill that gap by providing information that will enable policymakers to consider bamboo farming and its implications in carbon trading. Bamboo represents one of the world's highest yielding renewable natural resources and is an important source of non-timber forest products for subsistence use as well as for materials with many commercial and industrial uses. There are over 1500 documented applications of bamboo products, including materials for bridges, construction, furniture, agricultural tools, handicrafts, papers, textiles, boards, edible, and bioenergy applications. With their fast growth rate and rapid propagation, bamboo forests have a high C storage potential, especially when the harvested culms are transformed into durable products and thereby prolonging the C storage. Environmentalists love bamboo for its quick growth and for the fact that it can be harvested without harming the environment. This volume is a rich resource on the role of bamboo in ecological farming and climate change mitigation. Key features of the book include: * Explores the role of bamboo on climate change and environment and ecosystem-based adaptation to climate change * Considers overlooked bamboo biomass resources * Explains carbon capture and storage potential in bamboo * Assesses opportunities for carbon farming and carbon trading in bamboo * Looks at the role on bamboo cultivation on the livelihood of rural populations * Details the soil properties needed for bamboo-based agroforestry systems

The market-leading textbook on this topic, the first edition was groundbreaking in the field and subsequent updates have maintained this as the definite work on Agroecology. A Companion Website offers the entire contents of the updated practical manual, Field and Laboratory Investigations in Agroecology, to book buyers, split into student and lecturer resources. These 24 sample investigations facilitate hands-on learning that involves close observation, creative interpretation, and constant questioning of findings. There is newly streamlined treatment of agroecology's foundations in ecological science, making the text more compatible with typical course curricula. A wealth of new content has been added while maintaining the book's concise, affordable format. The book uses a unique framework that presents agroecology as a science, movement, and practice. Updated case studies and updated chapter content incorporates the most recent knowledge, issues, progress, and research. New chapters offer brand new content: (Alternatives to Industrial Agriculture, Ecological Pest, Weed, and Disease Management, Urban and Peri-urban Agriculture, Agriculture and the Climate Crisis) while a revised analysis and critique of the food system's embeddedness in the extractive capitalist world economy reflects ideas in the emerging field of political agroecology. There is more explicit content on co-creation of knowledge, participatory and transdisciplinary research in this edition than any other.