The series Underutilized and Underexploited Horticultural Crops are reviewed in several science journals for its uniqueness and richness in content and botanical information. Enlarging the food base and food basket along with validated information on plants for industry, dyes, timber, energy and medicine is the core theme of the series. The third volume has 25 s written by 46 scientists from UK, Mexico, Spain, India, USA, Turkey and Nigeria. The crops covered are atuna, African de bolita, capers and caper plants, kair, natural dye plants, plants used for dye sources, underutilized wild edible fruits of Kerala, bael, carambola, tropical plum, citrus, fig, guava, star gooseberry, hog-plum, underutilized leaf vegetables of sub-Himalayan terai region, underutilized vegetables of Tripura, agathi and chekkurmanis, celosia, colocasia, edible begonias, kangkong, underutilized palms, Atuna and African de bolita are new crops to Indian readeNatural dyes are attaining significant commercial importance in view of the negative effects of synthetic dyes which are allergic and in a few cases carcinogenic. Underutilized fruits like bael, carambola, tropical plum, fig, star gooseberry and hog-plum are receiving attention in view of their wider adaptability and suitability to grow under conditions of stress. Underexploited leaf vegetables like agathi, chekkurmanis, celosia, edible begonias and kangkong have been given prominence. Prof.Ghillean T Prance, FRS has contributed the on Atuna. The Editor is Dr K V Peter Former Vice-Chancellor, Kerala Agricultural University.

There is Global concern on shrinking food base depending on a meager three crops-wheat, rice and maize-.New Crops are to be encouraged to fit into the changing food habits, life styles and above all climate change. Underutilized Horticultural Crops are getting attention world around. The High Impact Journal HortScience reviewed vol. II Underutilized and Underexploited Horticultural Crops and reported its global value. The series projects the nutritional values, ecological compatibility, fitness to ecological niches and above all optimum uses of natural resources like water, energy, space and time. Volume 4 deals with edible plant foods in Africa, African Leafy Vegetables, Amaranths, Chilies, Annual Drumstick, Clove bean, Cluster bean, Curry leaf, Ivy Gourd, Snap melon, Sweet Gourd, Teasles Gourd, Tree borne vegetables, Fruits of North Eastern Region, Dragon Fruit, Wood apple, Strobilanthes, Seed Spices, Yam bean and Trees for Energy. Twenty s in the 4th volume are compiled by the Eminent Scientists in the respective crops. The volume 4 envisages a world free from hunger and under nutrition and full of health and wellness.

This book presents a simple, straightforward discussion of the principles and processes involved in the production of grain yield by agronomic crops, and how these processes underlie and influence management decisions. The focus is on grain crops, principally maize and soybean, although the general principles apply equally well to cereals, grain legumes and oil crops. Management decisions define all cropping systems - what (crop species, variety), where (climate), when (planting date), and how (row spacing and population density) are the fundamental choices. Knowledge of the fundamental processes responsible for plant growth and the accumulation of yield simplifies the decision-making process and leads to improved management decisions, higher grain yields, and cropping systems that are efficient, resilient and sustainable. The contents include: * Basic plant growth processes e.g. photosynthesis, respiration, evapotranspiration * Growth and production of yield * Crop management - seed quality, variety selection, plant date, row spacing * Crop production in the future - climate change, GMOs, precision data and new crops Intended for researchers in crop science, agronomy and plant science, and crop production practitioners, this book will enable readers to make better, more informed management decisions; decisions that will help maintain a well-fed world in the future.

The book post harvest technology assumes great attention during recent years since preservation of agricultural produce is a basic necessity to sustain agricultural production. It helps to add value of produce, thus having great scope for employment generation at the production catchments. In this book, the authors have attempted to consolidate different methods of post harvest technology of fruits and vegetables focusing on recent advances. This book will benefit both practicing food technologist/post harvest technologist who are searching for answers to critical technical questions of post harvest technology. Further, it will be useful to agricultural engineers, food processors, food scientist ,researchers and progressive farmers and tom those who are working in relevant fields. it is intended to fill a gap in presently available post harvest technology literature

The book focuses on conventional and recent propagation techniques delving upon crop-wise depictions of different propagation methods in horticultural crops. Adequate insight is given to crop botany, ecology and economic importance of important fruit crops, vegetables, plantation crops and spices. The content of the book undoubtedly will provide a good guidance to students of Agriculture and Botany, Nurserymen and Agricultural Extension workers.

Underutilized and underexploited horticultural crops form an integral part of health food green parks, neutraceutical industry, home decorations, renewable sources of green energy and above all food reserves during calamities. Leaf vegetables like agathi, chekkurmanis, waterleaf, drumstick leaf, basella and colacasia leaf are rich in fibre, minerals and beta carotenes. Cucurbits like ash gourd, pointed gourd, ivy gourd, kekrol, snap melons and chow-chow are rich in iron and amino acids. Fruits like karonda, aonla and cherries are highly nutritious and are suited to less moisture soils. Noni is a fruit for health. Noni juice is recommended against diabetes, obesity and sleeplessness. Among spices, long pepper, mint, celery, fenugreek and garcenia possess medicinal properties. There are a large number of underexploited medicinal plants like tulsi and peppermint with considerable economic value. Underutilized crops like in Tripura, Orissa and Kerala are specially mentioned. There is need to broaden the food basket with lesser know crops. There is a shift from Health Care to Wellness Industry. Prevention is always better then cure. The present volume deals with underexploited and underutilized horticultural crops in its totality. The contributors of each are working scientists in the specific crop.

The present book is the second volume in the series Underutilized and Underexploited Horticultural Crops edited by Prof. K.V.Peter. As in the 1st volume the present volume also covers 6 s on underexploited fruits, 5 on vegetables, 1 on tuber crops, 3 each on flowers and trees and 2 on spices. Dr. Bhuwon Sthapit, IPGRI, Malaysia contributes a on In Situ Conservation of Horticultural Crops. Underutilized fruits of Andaman and Nicobar Islands are dealt with in detail by Dr. D.R. Singh, Giant Granadilla, Apricot, Low Chilling Peaches, Aonla and Ber are dealt by eminent scientists in respective crops. Dr. Umesh Srivastava, ICAR, New Delhi deals Genetic Resource Management in Cucurbits. Dr. Samadia from Central Institute of Arid Horticulture, Bikaner writes on Arid Vegetables. Dr. S.K. Pandey, Director, CPRI, Shimla elaborates Taxonomy of Temperate Underutilized Root and Tuber Crops. Underutilized flowers surrounding the homesteads are narrated by Dr. U. Sreelatha, Kerala Agricultural University. An overview on Liliums is given by Dr. K. Valliappan, Mahua, Chironji and Drumstick are the trees dealt with. Turmeric and Long Coriander are elucidated by Dr. A.M. Rao and Dr. P. Indira respectively.

This book is a much-expanded and updated edition of a previous volume, published in 1996 as No-tillage Seeding: Science and Practice. The base objective remains to describe, in lay terms, a range of international experiments designed to examine the causes of successes and failures in no-tillage. The book summarizes the advantages and disadvantages of no tillage and highlights the pros and cons of a range of features and options, without promoting any particular product. Topics added or covered in more detail in the second edition include:
DT soil carbon and how its retention or sequestration interacts with tillage and no-tillage
DT controlled traffic farming as an adjunct to no-tillage
DT comparison of the performance of generic no-tillage opener designs
DT the role of banding fertilizer in no-tillage
DT the economics of no-tillage
DT small-scale equipment used by poorer farmers
DT forage cropping by no-tillage
DT a method for risk assessment of different levels of machine sophistication

Seeds are nature's consummate survivors. The next time you admire a field of waving green grassland or a stunning grove of acacia, stop to consider how it got that way--often against incredible odds. Seeds can survive freezing temperatures and drought. They can pass through our digestive systems without damage and weather a trip across the ocean, hitching a ride on marine debris. They can even endure complete desiccation, a feat taken to extraordinary lengths by the date palm, a seed from which was recovered from the palace of Herod the Great was germinated after some two thousand years. The Book of Seeds takes readers through six hundred of the world's seed species, revealing their extraordinary beauty and rich diversity. Each page pairs a beautifully composed photo of a seed--life-size, and, in some cases, enlarged to display fine detail--with a short description, a map showing distribution, and information on conservation status. The whole spectrum of seeds is covered here. There are prolific species like corn and less widely distributed species, like the brilliant blue seeds of the traveler's palm or the bird of paradise flower, aptly named for its distinctive orange coiffure. There are tiny seeds and seeds weighing up to forty pounds. And while seeds in all their shapes, sizes, and colors grant us sustenance, there are even some we would be wise to treat with caution, such as the rosary pea, whose seeds are considered more toxic than ricin. The essential guide to these complex plant creations, The Book of Seeds offers readers a rare, up-close look that will inspire scientists and nature lovers alike.

During the past decade, there has been tremendous progress in maize biotechnology. This volume provides an overview of our current knowledge of maize molecular genetics, how it is being used to improve the crop, and future possibilities for crop enhancement. Several chapters deal with genetically engineered traits that are currently, or soon will be, in commercial production. Technical approaches for introducing novel genes into the maize genome, the regeneration of plants from transformed cells, and the creation of transgenic lines for field production are covered. Further, the authors describe how molecular genetic techniques are being used to identify genes and characterize their function, and how these procedures are utilized to develop elite maize germplasm. Moreover, molecular biology and physiological studies of corn as a basis for the improvement of its nutritional and food-making properties are included. Finally, the growing use of corn as biomass for energy production is discussed.

In recent decades, the governance of the environment in agri-food systems has emerged as a crucial challenge. A multiplicity of actors have been enrolled in this process, with the private sector and civil society progressively becoming key components in a global context often described as neoliberalization. Agri-environmental governance (AEG) thus gathers a highly complex assemblage of actors and instruments, with multiple interrelations. This book addresses this complexity, challenging traditional modes of research and explanation in social science and agri-food studies. To do so, it draws on multiple theoretical and methodological insights, applied to case studies from Asia, Europe, Africa, and the Americas. It elaborates an emergent approach to AEG practices as assemblages, looking at the coming-together of multiple actors with diverse trajectories and objectives. The book lays the foundations for an encompassing theoretical framework that transcends pre-existing categories, as well as promoting innovative methodologies, which integrate the role of social actors - including scientists - in the construction of new assemblages. The chapters define, first, the multiplicities and agencies inherent to AEG assemblages. A second set tackles the question of the politics in AEG assemblages, where political hierarchies interweave with economic power and the search for more democratic and participative approaches. Finally, these insights are developed in the form of assemblage practice and methodology. The book challenges social scientists to confront the shortcomings of existing approaches and consider alternative answers to questions about environmental governance of agri-food systems.

This book, Plant Breeding, has it bases in an earlier text entitled An Introduction to Plant Breeding by Jack Brown and Peter Caligari, first published in 2008. The challenges facing today s plant breeders have never been more overwhelming, yet the prospects to contribute significantly to global food security and farmers quality of life have never been more exciting and fulfilling. Despite this there has been a worrying decline in public funding for plant breeding-related research and support for international centers of germplasm development and crop improvement. In part, this has resulted in a serious reduction in the number of young people interested in devoting their professional careers to plant breeding as well as the number of universities offering plant breeding courses or conducting relevant research in plant breeding. The authors aim in writing this book is to provide an integrated and updated view of the current scientific progress related to diverse plant breeding disciplines, within the context of applied breeding programs. This excellent new book will encourage a new generation of students to pursue careers related to plant breeding and will assist a wider audience of agricultural students, agronomists, policy makers and those with an interest in agriculture in gaining insight about the issues affecting plant breeding and its key role in improving the quality of life of people and in securing sufficient food, at the quality required and at an affordable price. With comprehensive coverage including questions designed for students, and an accompanying website containing additional material to help in the study of the subject, Plant Breeding is an ideal text for all those studying plant and crop sciences, and a convenient reference source for professionals working in the area. All libraries within universities and research establishments where biological and agricultural sciences are studied and taught should have multiple copies of this book.

This full-color introduction to agronomy and crop science offers both traditional agricultural students and students with nonagricultural backgrounds a timely look at the principles of crop science, sustainable agriculture, and a host of related societal issues. A must-read text for anyone interested in what are arguably the most profoundly important issues of our time, INTRODUCTION TO AGRONOMY, second edition addresses the basics of safe and sustainable food and fiber production as well as big picture topics such as energy, ecology, and environmental quality. Throughout the text, readers will find information and illustrations on the latest agricultural methods, regulations, and practices--and how each is impacting our society and each individual within it.

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.

Plants are frequently exposed to unfavorable and adverse environmental conditions known as abiotic stressors. These factors can include salinity, drought, heat, cold, flooding, heavy metals, and UV radiation which pose serious threats to the sustainability of crop yields. Since abiotic stresses are major constraints for crop production, finding the approaches to enhance stress tolerance is crucial to increase crop production and increase food security. This book discusses approaches to enhance abiotic stress tolerance in crop plants on a global scale. Plants scientists and breeders will learn how to further mitigate plant responses and develop new crop varieties for the changing climate.

This new volume addresses the global water crisis by presenting new ways to use irrigation water judiciously through innovative fertigation management. It looks at the research and review work done throughout the world on micro irrigation and the techno-economic feasibility of various fertigation irrigation water management systems. Taking a multidisciplinary perspective, the chapters look at using fertigation to increase the effectiveness of irrigation systems crop performance evaluation of various crops under fertigation and irrigation methods estimating levels of crop requirements scheduling of fertigation and irrigation new fertigation equipment and technology cost components of the various irrigation and fertigation systems

Management Strategies for Water Use Efficiency and Micro Irrigated Crops presents new research and technologies for making better use of water resources for agricultural purposes. The chapters focus on better management to improve allocation and irrigation water efficiency and look at performance factors as well. Chapters look at irrigation technology, environmental conditions, and scheduling of water application. One section of the book focuses on water management in the cultivation of sugarcane, a very important industrial crop used in many fields. Other sections are devoted to principles and challenging technologies, water use efficiency for drip-irrigated crops, performance of fertigated rice under micro irrigation, and evaluation of performance of drip-irrigated crops. This valuable book is a must for those struggling to find ways to address the need to maintain efficient crop production in the midst of water shortages. With chapters from hands-on experts in the field, the book will be an invaluable reference and guide to effective micro irrigation methods.

A comprehensive and mechanistic perspective on fruit ripening, emphasizing commonalities and differences between fruit groups and ripening processes.

Fruits are an essential part of the human diet and contain important phytochemicals that provide protection against heart disease and cancers. Fruit ripening is of importance for human health and for industry-based strategies to harness natural variation, or genetic modification, for crop improvement.

This book covers recent advances in the field of plant genomics and how these discoveries can be exploited to understand evolutionary processes and the complex network of hormonal and genetic control of ripening. The book explains the physiochemical and molecular changes in fruit that impact its quality, and recent developments in understanding of the genetic, molecular and biochemical basis for colour, flavour and texture. It is a valuable resource for plant and crop researchers and professionals, agricultural engineers, horticulturists, and food scientists.

Summary: Reviews the physiochemical and molecular changes in fruit which impact flavour, texture, and colourCovers recent advances in genomics on the genetic, molecular, and biochemical basis of fruit qualityIntegrates information on both hormonal and genetic control of ripeningRelevant for basic researchers and applied scientists

One-Straw Revolutionary represents the first commentary on the work of the late Japanese farmer and philosopher Masanobu Fukuoka (1913 - 2008), widely considered to be natural farming's most influential practitioner. Mr. Fukuoka is perhaps most known for his bestselling book The One-Straw Revolution (1978), a manifesto on the importance of no-till agriculture, which was at the time of publication a radical challenge to the global systems that supply the world's food, and still inspires readers today. Larry Korn, who apprenticed with Mr. Fukuoka in Japan at the time, translated the manuscript and brought it to the United States, knowing it would change the conversation about food forever. The One-Straw Revolution, edited by Korn and Wendell Berry, was an immediate international success, and established Mr. Fukuoka as a leading voice in the fight against conventional industrial agriculture. In this new book, through his own personal narrative, Larry Korn distills his experience of more than thirty-five years of study with Mr. Fukuoka, living and working on his farm on Shikoku Island, and traveling with Mr. Fukuoka to the United States on two six-week visits. One-Straw Revolutionary is the first book to look deeply at natural farming and intimately discuss the philosophy and work of Mr. Fukuoka. In addition to giving his personal thoughts about natural farming, Korn broadens the discussion by pointing out natural farming's kinship with the ways of indigenous cultures and traditional Japanese farming. At the same time, he clearly distinguishes natural farming from other forms of agriculture, including scientific and organic agriculture and permaculture. Korn also clarifies commonly held misconceptions about natural farming in ways Western readers can readily understand. And he explains how natural farming can be used practically in areas other than agriculture, including personal growth and development. The book follows the author on his travels from one back-to-the-land commune to another in the countryside of 1970s Japan, a journey that eventually led him to Mr. Fukuoka's natural farm. Korn's description of his time there, as well as traveling with Mr. Fukuoka during his visits to the United States, offers a rare, inside look at Mr. Fukuoka's life. Readers will delight in this personal insight into one of the world's leading agricultural thinkers.

A biodynamic farm is an integrated, holistic organism which balances animal husbandry with growing a range of plants, crops and trees. Balance is of the utmost importance, and will result in a sustainable farm. This book focuses in depth on one aspect of biodynamic farming: growing crops. It addresses all aspects of crop husbandry, from the nature of plants and issues of land use to cultivating grassland, weed control, crop rotation, seeds and sowing, and growing cereals, row crops, legumes, fodder crops and herbs. This is a comprehensive overview of crops and cropping for biodynamic farmers, written by experts in their field.

This book includes keynote invited papers from the Third International Crop Science Congress held in Hamburg, Germany in August 2000. All papers have been prepared and revised within strict editorial guidelines to ensure that the work is a balanced review text that provides an overview of the major issues confronting crop science today and in the future. It therefore represents a suitable advanced textbook for students as well as offering research workers concise overviews of topics adjacent to their areas of research. Contributors include leading world authorities from Europe, North and South America, Africa, Asia and Australia.

Healthy Soils for Healthy Vines provides a clear understanding of vineyard soils and how to manage and improve soil health for best vineyard performance. It covers the inherent and dynamic properties of soil health, how to choose which soil properties to monitor, how to monitor soil and vine performance, and how vineyard management practices affect soil health, fruit composition and wine sensory characters. It also covers the basic tenets of sustainable winegrowing and their significance for business resilience in the face of a changing climate. This book will be of practical value to anyone growing grapevines, managing a vineyard or making wine, from the small individual grower to the large wine company employee. It will be of special interest to winegrowers employing organic, natural, or biodynamic methods of production, where the primary focus is on the biological health of the soil.