Selenium plays a significant role in preventing certain types of cancer and cardiovascular diseases. The level of Selenium in the human body depends on its concentration in food. In turn, the content in vegetable crops is a function of the soil-plant system. There are many countries in the world with low Selenium content in the soil. The average daily human intake is thus limited through food chain. Analysis of Selenium status suggests that fortification of the soil substrate with Sodium Selenate, and foliar application to agricultural crops are both effective means of Selenium enrichment. Our intention for this publication is to present the possibilities of augmenting Selenium content by biofortification of soils and plants through differentiated nutrition. In the first part of the monograph, the results of Selenium supplementation in model vegetation experiments are presented. The next part of the monograph presents the results of foliar supplementation of Selenium in field conditions. This book is an outstanding reference source for plant breeders and researchers engaged in biofortification of horticulture crops. It is also beneficial to agricultural companies and other stakeholders.

"We constantly notice when we are out talking to winemakers in different wine regions that more and more producers pay attention to how what they do in the vineyard affects the environment. Many winemakers that we meet start the process of 'converting' to organic farming. There are rules for what that means -- what an organic farmer can do and what is forbidden -- rules that come both from public or government organisations and from private organisations. In addition, people also talk more and more about other related approaches: biodynamic winemaking, natural wines, sustainable farming. In this book we explain them all." Organic farming, biodynamic wine, natural wines, sustainable winemaking: what do all these concepts really mean, and what benefits can they bring to winemakers? This comprehensive book by two renowned wine experts explains the rules, the do's and don't's of organic, biodynamic and natural wine production, both outside in the vineyard and in the wine cellar. It sets out clearly what a winemaker is allowed to do, including processes, additives and chemicals, and looks at the potential long-term benefits of going organic or biodynamic. This is an invaluable introduction to sustainable winemaking for all wine professionals and enthusiasts. Winner of the 'Best Wine Book for Professionals 2012' in Sweden and the 'World's Best Drinks (wine) Education Book', runner-up, 2012.

In recent years there has been a much greater appreciation of the enormous contribution that hedges make to the countryside. Today, their beauty, their ability to provide wind protection and contain livestock, their environmental importance and their significance as a wildlife habitat, are all widely recognized. Not surprisingly, this transformation in the way we view hedges has, in turn, produced a welcome revival in the ancient craft of hedgelaying. Whether you own hedges, are thinking of growing them, or just have an interest in hedgerows this fascinating, well-illustrated book will be of value to you. Hedges and Hedgelaying - A Guide to Planting, Management and Conservation contains of wealth of practical information and covers: The selection of hedgerow shrubs and trees and the associated significance of soil types and topography. The planting of hedges and the necessary preparation work. The use of trees int he hedgerow and the value of field margins. Weed, pest and disease control, and hedge cutting, maintenance and protection. The craft of hedgelaying and the tools and processes involved.

Biofertilizers, Volume One: Advances in Bio-inoculants provides state-of-the-art descriptions of various approaches, techniques and basic fundamentals of BI used in crop fertilization practices. The book presents research within a relevant theoretical framework to improve our understanding of core issues as applied to natural resource management. Authored by renowned scientists actively working on bio-inoculant, biofertilizer and bio-stimulant sciences, the book addresses the scope of inexpensive and energy neutral bio-inoculant technologies and the impact regulation has on biofertilizer utilization. This book is a valuable reference for agricultural/environmental scientists in academic and corporate environments, graduate and post-graduate students, regulators and policymakers.

This edited book is focusing on the novel and innovative procedures in tissue culture for large scale production of plantation and horticulture crops. It is bringing out a comprehensive collection of information on commercial scale tissue culture with the objective of producing high quality, disease-free and uniform planting material. Developing low cost commercial tissue culture can be one of the best possible way to attain the goal of sustainable agriculture. Tissue culture provides a means for rapid clonal propagation of desired cultivars, and a mechanism for somatic hybridization and in vitro selection of novel genotypes. Application of plant tissue culture technology in horticulture and plantation crops provides an efficient method to improve the quality and nutrition of the crops. This book includes a description of highly efficient, low cost in vitro regeneration protocols of important plantation and horticulture crops with a detailed guideline to establish a commercial plant tissue culture facility including certification, packaging and transportation of plantlets. The book discusses somatic embryogenesis, virus elimination, genetic transformation, protoplast fusion, haploid production, coculture of endophytic fungi, effects of light and ionizing radiation as well as the application of bioreactors. This book is useful for a wide range of readers such as, academicians, students, research scientists, horticulturists, agriculturists, industrial entrepreneurs, and agro-industry employees.

Cereal Crops: Genetic Resources and Breeding Techniques provides the reader practical tools for understanding relationships and challenges of successful farming; improvements to genetic modifications; and environmentally sound methods of production of bulk and quality cereals including wheat, maize, rice, barley, and millets. It explores the trait mapping, cropping systems, genome engineering, and identification of specific germplasms needed for the more effective development of biotic and abiotic stress resistant cereals within the framework of ensuring future food supplies around the world. Features: Focuses on cropping systems, genetics and genome engineering for higher crop production at a global level. Features information on specific prebiotic formulas to ward off adverse effects of antibiotics. Covers mechanistic as well as practical approaches for enhancing crop production in a sustainable way. Includes further in depth analysis of various topics following each chapter. This is a vital resource for researchers, crop biologists, and students working with crop production and climate changes that have a significant impact on crop production, spanning basic to advanced level discussions of plant breeding, molecular genetics, and agronomy. Covering mechanistic and practical approaches for enhancing crop production in a sustainable way, this text is beneficial to intensive farmers and stakeholders in the field of crop production.

This breakthrough handbook for botanical garden and arboretum curators (and curators in training) has now been expanded and updated fifteen years after the last edition was published. The new edition includes up-to-date information and methods for the preservation and conservation of plants and their use in both ex-situ and in-situ conservation programs, habitat restorations, and conservation research. There are expanded and updated sections on plant acquisitions and field collecting that conform to the Convention on Biological Diversity protocols. New technologies for documenting plant collections are described including reviews of the most common software programs to streamline this process. Recommendations for plant preservation-caring for collections-have been updated with expanded information on basic horticulture practice, sustainable techniques, special applications for conservation collections, and examples of preservation plans. There is an entirely new section on collections research and applications with several chapters on the latest conservation practices, technologies, and programs involving collections. All of the basic and essential information for collections management contained within the first edition, including specific recommendations and examples, has been expanded and updated with recommendations on new technologies and procedures to assist and guide curators in their critical role as plant collection developers, managers, and programmers. What is an important resource for public garden professionals and students has now become even more essential.

Fruit Crops: Diagnosis and Management of Nutrient Constraints is the first and only resource to holistically relate fruits as a nutritional source for human health to the state-of-the-art methodologies currently used to diagnose and manage nutritional constraints placed on those fruits. This book explores a variety of advanced management techniques, including open field hydroponic, fertigation/bio-fertigation, the use of nano-fertilizers, sensors-based nutrient management, climate- smart integrated soil fertility management, inoculation with microbial consortium, and endophytes backed up by ecophysiology of fruit crops. These intricate issues are effectively presented, including real-world applications and future insights.

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.

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.

The conservation of crop genetic resources is one of the important elements in efforts to sustainably increase agricultural production in low-income countries, and to guarantee long-term food security, especially for the low-income population groups in these countries. Horticultural crops, as high-value crops, have an important role to play in revitalizing rural economies and can add significantly to national economies. Moreover, horticulture provides more than twice the number of jobs compared to traditional cereal crop production, and the shifting of conventional agriculture towards high-value horticulture has increased employment opportunities in developing countries. To exploit this potential, researchers need a vast array of horticultural genetic resources and information on new traits. Horticultural crops, which are only a part of PGRFA (Plant Genetic Resources for Food and Agriculture), are characterized by a wide and varied range of species. In fact, there are five major horticultural crop groups: fruit and nut crops, vegetables, food legumes, roots and tubers, and lastly the ornamental and medicinal group. In this context, the present book provides a comprehensive overview of the current state of conservation and utilization of horticultural genetic resources, addressing contemporary approaches to conservation in connection with different technologies, including biotechnological approaches as practised in India and in some cases, globally. It includes a brief chapter on the unique nature of horticultural genetic resources, providing a rationale for viewing them as being distinct from field crop genetic resources. Subsequent chapters share insights on protocols for the conservation of selected horticultural crops ex situ, and focus on the increased need to complement these efforts with in situ conservation approaches. Geospatial tools are also briefly described, emphasizing their utility with regard to mapping and managing resources. The book also explores the wild gene pool in horticulture crops; discusses legal aspects related to horticultural genetic resources and biotechnological aspects; and describes the key aspects of sustainable management and replenishment. Given its scope, the book offers a valuable resource for all horticulturists, graduate students, researchers, policymakers, conservationists, and NGOs engaged in horticulture in particular and biodiversity in general.

Nanomaterials is an encouraging field for scientists and researchers due to its numerous applications in different fields such as medicine, energy, pharmaceutical, environmental science, agricultural food science and technology. Researchers are shifting towards the synthesis of nanoparticles using various plant systems.