"Global Tea Breeding: Achievements, Challenges and Perspectives" provides a global review on biodiversity and biotechnology issues in tea breeding and selection. The contributions are written by experts from China, India, Kenya, Sri Lanka, Vietnam, Turkey, Indonesia, Japan, Bangladesh, Korea, Nigeria, and etc., which countries amount to 90% of the world tea production. This book focuses on the germplasm, breeding and selection of tea cultivars for the production of black, green and Oolong teas from the tea plant, "Camellia sinensis "(L.) O. Kuntze. It can benefit the tea breeders in the global tea industry, as well as the breeders of other woody cash crops like coffee and other sub-tropical fruit trees.

Liang Chen is a Professor and Associate Director at National Center for Tea Improvement, Tea Research Institute of the Chinese Academy of Agricultural Sciences (TRICAAS), Hangzhou, China.

Zeno Apostolides is a Professor at the Department of Biochemistry, University of Pretoria, South Africa.

Zong-Mao Chen is the Academician of the Chinese Academy of Engineering and a Professor at the Tea Research Institute of the Chinese Academy of Agricultural Sciences, Hangzhou, China.

When one is privileged to participate long enough in a professional capacity, certain trends may be observed in the dynamics of how challenges are met or how problems are solved. Agricultural research is no exception in view of how the plant sciences have moved forward in the past 30 years. For example, the once grand but now nearly forgotten art of whole plant physiology has given way almost completely to the more sophisticated realm of molecular biology. What once was the American Society of Plant Physiologists' is now the American Society of Plant Molecular Biology; a democratic decision to indemnify efforts to go beyond the limits of the classical science and actually begin to understand the underlying biological basis for genetic regulation of metabolic mechanisms in plants. Yet, as new technologies open windows of light on the inner workings of biological processes, one might reminisce with faint nostalgia on days long past when the artisans of plant physiology, biochemistry, analytical chemistry and other scientific disciplines ebbed and waned in prominence. No intentional reference is made here regarding Darwinism; the plant sciences always have been extremely competitive. Technology is pivotal. Those who develop and/or implement innovative concepts typically are regarded as leaders in their respective fields. Each positive incremental step helps bring recognition and the impetus to push a scientific discipline forward with timely approaches to address relevant opportunities.

During the past 15 years, cellular and molecular approaches have emerged as valuable adjuncts to supplement and complement conventional breeding methods for a wide variety of crop plants. Biotechnology increasingly plays a role in the creation, conservation, characterization and utilization of genetic variability for germplasm enhancement. For instance, anther/microspore culture, somaclonal variation, embryo culture and somatic hybridization are being exploited for obtaining incremental improvement in the existing cultivars. In addition, genes that confer insect- and disease-resistance, abiotic stress tolerance, herbicide tolerance and quality traits have been isolated and re-introduced into otherwise sensitive or susceptible species by a variety of transgenic techniques. Together these transformative methodologies grant access to a greater repertoire of genetic diversity as the gene(s) may come from viruses, bacteria, fungi, insects, animals, human beings, unrelated plants or even be artificially derived. Remarkable achievements have been made in the production, characterization, field evaluation and commercialization of transgenic crop varieties worldwide. Likewise, significant advances have been made towards increasing crop yields, improving nutritional quality, enabling crops to be raised under adverse conditions and developing resistance to pests and diseases for sustaining global food and nutritional security. The overarching purpose of this 3-volume work is to summarize the history of crop improvement from a technological perspective but to do so with a forward outlook on further advancement and adaptability to a changing world. Our carefully chosen "case studies of important plant crops" intend to serve a diverse spectrum of audience looking for the right tools to tackle complicated local and global issues.

The book will address selected topics in postharvest pathology aiming at highlighting recent development in the science, technology and control strategies of postharvest diseases to reduce losses and enhance safety of harvested agricultural products. Topics will include: 1) Introduction: Perspectives and challenges in postharvest pathology 2) Elucidating host-pathogen interactions 3) Next generation technologies for management and detection of postharvest pathogens 4) Food safety in postharvest pathology 5) Alternative postharvest diseases control strategies 6) Chemical control of postharvest diseases

Advances in molecular biology and genome research in the form of molecular breeding and genetic engineering put forward innovative prospects for improving productivity of many pulses crops. Pathways have been discovered, which include regulatory elements that modulate stress responses (e.g., transcription factors and protein kinases) and functional genes, which guard the cells (e.g., enzymes for generating protective metabolites and proteins). In addition, numerous quantitative trait loci (QTLs) associated with elevated stress tolerance have been cloned, resulting in the detection of critical genes for stress tolerance. Together these networks can be used to enhance stress tolerance in pulses. This book summarizes recent advances in pulse research for increasing productivity, improving biotic and abiotic stress tolerance, and enhancing nutritional quality.

Agriculture depends on improved cultivars, and cultivars are developed through proper plant breeding. Unfortunately, applied plant breeding programs that are focused on cereal commodity crops are under serious erosion because of lack of funding. This loss of public support affects breeding continuity, objectivity, and, perhaps equally important, the training of future plant breeders and the utilization and improvement of plant genetic resources currently available. Breeding programs should focus not only on short-term research goals but also on long-term genetic improvement of germplasm. The research products of breeding programs are important not only for food security but also for commodity-oriented public and private programs, especially in the fringes of crop production. Breeding strategies used for long-term selection are often neglected but the reality is that long-term research is needed for the success of short-term products. An excellent example is that genetically broad-based public germplasm has significantly been utilized and recycled by industry, producing billions of dollars for industry and farmers before intellectual property rights were available. Successful examples of breeding continuity have served the sustainable cereal crop production that we currently have. The fact that farmers rely on public and private breeding institutions for solving long-term challenges should influence policy makers to reverse this trend of reduced funding. Joint cooperation between industry and public institutions would be a good example to follow. The objective of this volume is to increase the utilization of useful genetic resources and increase awareness of the relative value and impact of plant breeding and biotechnology. That should lead to a more sustainable crop production and ultimately food security. Applied plant breeding will continue to be the foundation to which molecular markers are applied. Focusing useful molecular techniques on the right traits will build a strong linkage between genomics and plant breeding and lead to new and better cultivars. Therefore, more than ever there is a need for better communication and cooperation among scientists in the plant breeding and biotechnology areas. We have an opportunity to greatly enhance agricultural production by applying the results of this research to meet the growing demands for food security and environmental conservation. Ensuring strong applied plant breeding programs with successful application of molecular markers will be essential in ensuring such sustainable use of plant genetic resources.

Cereal-Based Foodstuffs: The Backbone of the Mediterranean provides an overview of cereal-based products in the Mediterranean region, illustrating the spectrum of products from past to present and their various processing methods. The text explores new and understudied market trends in cereal-based products, such as cereal-pulse blends, pulse pastas, and flat breads. Chapters cover products originating in North Africa, such as bulgur and couscous, which are consumed worldwide but underrepresented in the scientific literature. Contributing authors also offer a legislative perspective on issues of food safety, the European Food Safety Association's definition of "novel foods," and the position of traditional foods in the Mediterranean food industry. This wide-ranging text thus serves members of both the scientific and industrial community seeking better coverage of global cereal product trends.

This detailed volume explores barley as both a crop and a model, with practical techniques such as crossing barley, a range of tissue culture methods, the preparation of barley tissues for different forms of microscopy, and the assessment of sensitivity to abiotic stresses. Efficient protocols are provided for transformation, TILLING, virus-induced gene silencing and genome editing. There is also particular emphasis on a range of protocols for genotyping and for the analysis of gene expression. Written for the highly successful Methods in Molecular Biology series, chapters include introductions on their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and easy-to-use, Barley: Methods and Protocols serves as a valuable reference volume for cereal researchers and breeders by providing detailed protocols covering important traditional skills such as crossing and tissue culture through to the latest technologies for genotyping, expression analysis, and genome editing.

This volume presents a collection of tools currently used for the characterization of rust, the host plant wheat, and their interactions. This book is divided into five parts: Parts I and II discuss advanced techniques for characterizing rust pathogens in rust surveillance, genotyping, and molecular pathogenicity; Part III describes protocols for genetic analysis of rust resistance; Part IV covers methods on rust resistance gene cloning; and Part V talks about the isolation and screening of bacterial endophytes as biocontrol agents for rust disease management. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Cutting-edge and authoritative, Wheat Rust Disease: Methods and Protocols is a valuable resource for both established and novel wheat rust researchers and also the plant science and microbial research community.

A monumental 1176 page treatise on every aspect of Farm Crops and Farm Livestock in the Edwardian period, this most complete work of its kind, is a mine of information. The livestock section discusses numerous breeds of horses (including ponies and donkeys) cattle, sheep, goats and poultry; the history, characteristics, care, breeding, and showing of each individual breed, as well as a more general discussion of animal husbandry, live stock ailments and remedies, farm pests, and of course animal products-meat, dairy, wool, honey, etc.. Sheepdogs are not overlooked. The farm crop section covers all British grains, beans and peas, potatoes, hops, flax, turnips, forage crops (for cattle) in similar detail, as well as "subsidiary crops" (that is, vegetables I modern usage). As well as the material specifically on crops and livestock, there is considerable background information, including a summary of the seasons and seasonal tasks, a detailed analysis of the then recent experiments in manuring and composting at Rothamstead that continue to this day, and a discussion of the impact of non-farm animals (badgers, mice, owls ...) on the farm.In addition to sixty eight full page plates there are numerous illustrations in the text, and a complete index. (Hardcover 978-1-84902-540-9, Paperback 978-1-84902-541-6)

Genomics research has great potential to revolutionize the discipline of plant breeding. This two-volume set provides a critical assessment of genomics tools and approaches for crop breeding. Volume 1, entitled "Genomics Approaches and Platforms," illustrates state-of-the-art genomics approaches and platforms presently available for crop improvement. Volume 2, entitled "Genomics Applications in Crops," compiles crop-specific studies that summarize both the achievements and limitations of genomics research for crop improvement. We hope that these two volumes, while providing new ideas and opportunities to those working in crop breeding, will help graduate students and teachers to develop a better understanding of the applications of crop genomics to plant research and breeding.

This book provides important insights into the combustion behavior of novel energy crops and agricultural fuels. It describes a new experimental approach to combustion evaluation, involving fundamental, bench-scale and commercial-scale studies. The studies presented were conducted on two representative biomass energy crops: a woody biomass poplar (Populus sp. or poplar) and an herbaceous biomass brassica (Brassica carinata or brassica). Moreover, agricultural residues of Manihot esculenta or cassava were also analyzed. The main accomplishments of this work are threefold. Firstly, it offers an extensive characterization of the above-mentioned fuels, their ash chemistry and their emissions of both solid particles and gaseous compounds that form at typical grate combustion conditions. Secondly, it presents an in-depth analysis of ash fractionation processes for major ash species. Thirdly, it describes the role of some critical and volatile key elements (K, Cl, S and P) in grate-fired combustion systems and elucidates the main differences in the ash chemistry during combustion of Si-rich and P-rich fuels. All in all, this work provides novel insights on the basic and fundamental mechanisms of biomass grate combustion with a special focus on ash transformation and highlights important issues and recommendations that need to be considered for an appropriate conversion of ash-rich fuels and for the development of future technology in the context of both small- and medium-scale biomass-based heat and power production.

Providing a unique overview to wheat and related species, this book comprises the proceedings of the 7th International Wheat Conference, held in Mar del Plata, Argentina, at the end of 2005. Leading scientists from all over the world, specialized in different areas that contribute to the better understanding of wheat production and use, review the present achievements and discuss the future challenges for the wheat crop.

The 5th International Symposium on the Molecular Breeding of Forage and Turf covers all aspects of molecular breeding of forage and turf plants, from gene discovery, functional genomics, molecular genetics and marker technology, marker-assisted selection, transgenesis to transgenic molecular breeding; address applications - among others - for enhanced quality, tolerance to biotic and abiotic stresses; relating to forage grasses, forage legumes, their bacterial and fungal endosymbionts, as well as turf grasses.

The Symposium includes keynote presentations from international science leaders in the above fields and offer abstracts in the following topics - breeding and functional genomics for tolerance to biotic stress, - Molecular breeding and functional genomics for tolerance to abiotic stress, - Molecular genetics and modification of flowering and reproductive development, - Genomics of plant-symbiont relations, - Molecular breeding for animal, human and environmental welfare, - Development and Application of molecular technologies in forage and turf improvement, - Bioinformatics-bringing data to a usable form for breeders, - Population and quantitative genetic aspects of molecular breeding, - Gene manipulation, field testing, risk assessment and biosafety, - Intellectual property rights for molecular tools or marker systems.

This edited volume provides insight into temperate fruits, with an emphasis on postharvest physiology, storage, packaging and technologies for maintaining fruit quality. Chapters are devoted to individual fruits and focus on fundamental issues such as methods for maintaining or enhancing quality, minimizing postharvest losses, and recommended technologies to boost demand. Contributions come from experts in the field, making this a key reference for all aspects of postharvest management of temperate fruits. The volume is unique in its focus on the biodiversity, nutritional and health benefits, and postharvest technologies for shelf life enhancement of temperate fruits. Contributing authors address the postharvest biology and technology of individual temperate fruits such as plum, cherry, peach, apricot, apple, pear, quince, loquat, kiwi, persimmon and berries. There has been tremendous growth in the research and development of new techniques to maintain the quality of temperate fruits from farm to table. Contributions from experts in the field cover these recent advances, providing up-to-date and relevant information for researchers, postharvest/fruit technologists, food scientists, postgraduate students, and others working in the industry.

Volume 2 covers nitrogen fertilizer efficiency, acid tolerance of the legume symbiosis, fruit tree nutrition, rhizosphere pH change, iron deficiency in crop production, the effects of nutrient deficiences on seed production, the elemental composition of plants, and the role of potassium. The articles in this volume join together both the fundamental and the applied parts of this discipline. The editors' aim to make the reviews comprehensible to scientists in relevant disciplines, rather than purely to the specialist. The format of each volume is a small number of full-length reviews of important topics, plus an editorial which briefly mentions other rapidly developing topics that may therefore be reviewed in future volumes.

This major work has but one aim: to provide breeders and researchers from the public and private sectors with all the latest information on the breeding of crops of economic relevance. Also, it serves as a major reference book for post-graduate courses and PhD courses on breeding vegetable crops, as well a one-stop-shop for horticulturists and extension agents interested in current advancements in the development of new vegetable crops varieties. Each chapter incorporates the most up-to-date information on the crops examined, and an important novelty is that, in comparison to other books already published on this subject this one contains the most cutting-edge information on molecular breeding techniques.

Plant molecular biology came to the fore in the early 1980s and there has been tremendous growth in the subject since then. The study of plant genes and genomes and the development of techniques for the incorporation of novel or modified genes into plants eventually led to the commercialisation of genetically modified (GM) crops in the mid-1990s. This was seen as the start of a biotechnological revolution in plant breeding. However, plant biotechnology has become one of the hottest debates of the age and, in Europe at least, one of the greatest challenges that plant scientists have ever faced.This book covers the history and development of the science and techniques that underpin plant biotechnology. It describes the GM crops that are or have been grown commercially around the world, including failures as well as successes, and the new varieties that are being developed. The safety record of GM crops is reviewed together with the legislation that has been adopted to cover their use. The book also deals with the concerns of consumers, the GM crop debate and the prospects for the technology. In the second edition, sections on current GM crops and future developments in plant biotechnology have been greatly expanded, while those on techniques, legislation and the GM crop debate have also been updated.The book is a concise, comprehensive and readable study that is accessible to a general readership with a scientific background but also provides useful information for the specialist.

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.

The main purpose of this book is to introduce black rice to a wider circle of people. Although there have been research on different aspects of black rice, the information is scattered and not easily accessible to laypersons. The book intends to cover all the aspects of black rice from research, history, to its development. As such, the book will be suitable for both rice researchers and non-professionals who want to know more about this unique rice crop. Black rice, also known as forbidden rice, is packed with high level of nutrients and antioxidants. The antioxidants found in black rice is higher than the blueberries (that contain highest amount of anthocyanins). Black rice is black due to anthocyanin content in the outer layer of its kernel. Legend tells that this rice was consumed only by royals in China and it was expected that this rice would increase life span of the king. Consumption of black rice without approval was hanged. Ordinary individuals were not allowed to consume black rice. Thus this rice is also known as forbidden rice and Emperor's rice. Now this black heirloom rice is widely available in different parts of the world. Researchers have found that black rice reduce Reactive Oxygen Species (ROS), the free radicals produced in the body which is the cause of many diseases. This rice also reduce diabetes, inflammation, heart attack, allergy and obesity; reduce the growth of cancer, improves digestive system and is panacea of many health problems. Thus this rice is also known as long life rice. Food nutritionists consider black rice as modern super foods. The cultivation method of black rice is similar to general rice cultivation practices. There are many varieties available in black rice which is of different Asian origin but Chinese black rice is the most famous among them. Black rice has a wide range of applications because its bran is used as a natural food colouring dye, and it is also used to prepare noodles, pasta, porridge, wine etc. This rice takes slightly longer time to cook than widely available white rice. In modern era, black rice serve as one of the best food materials available to us to maintain our health with regular physical exercise.