This volume of the Bioenergy Plants compendium contains a collection of chapters that focus on the history, economics, and practical sciences related to sugarcane. As one of the key biofuel crops in the world that is under large-scale cultivation, sugarcane is attracting interests for its adoption and emulation worldwide. With a high ratio of energy output to input for its production, sugarcane-derived bioethanol currently has the lowest carbon footprint as a renewable fuel product. Comprehensive chapters explore all the essential aspects of sugarcane's origin as a crop, its limitations, and current efforts for its improvement through traditional breeding, and biochemical and molecular approaches. Importantly, experts in the economic and social science areas also provide key insights as to how forces in the policy and human dimensions intimately interact with geographic factors to help shape the sugarcane crop's potential for deployment as well as its future impact on the energy sector.

Agriculture and food production have a large footprint on the landscape globally and compete for space with land for nature conservation. This book explores the competition between the food needs of a growing human population and the conservation of biodiversity as intensified by the emerging use of crops for energy production. As concern about the impact of greenhouse gas emissions on climate grows and oil prices increase, energy production from agricultural crops has become a significant industry. At the same time, growth in food demand due to population growth has been accelerated by growing affluence associated with economic growth in major developing countries increasing per capita consumption. Consumers are concerned that the price of food will continue to increase sharply as a result of this competition but a loss of biodiversity may be another major outcome. Drawing on his expertise in plant conservation genetics, the author provides a balanced appraisal of the potential for developing new or improved crops for food or bioenergy production in the context of climate change, while at the same time protecting biodiversity.

This book discusses the constraints on biological control ranging from the difficulty of convincing growers that they should infest their crops artificially to the effect of cultural techniques.

A Practical, Get-Your-Hands-in-the-Soil Manual Global climate change, increasing pollution, and continued rapid population growth is wreaking havoc on the planet. Stabilizing the environment at safe levels requires a large-scale restoration of damaged ecosystems. Geotherapy: Innovative Methods of Soil Fertility Restoration, Carbon Sequestration, and Reversing CO2 Increase outlines the basic concepts of geotherapy and highlights the importance of healing the biosphere's ability to store soil carbon to prevent climate change impacts. Facing challenges head on, it addresses how and why policymakers have underestimated the long-term impacts of climate change and how we can correct the flawed carbon management mechanisms today. The book also factors in where carbon can be most effectively stored, how quickly that can be done, and the practical and policy actions needed to get there. This text presents innovative new technologies for restoring the most productive ecosystems on land while maintaining high biodiversity. It addresses processes and techniques of soil carbon restoration through biogeochemical cycling, biochar, slow-release fertilizers, weathering of minerals (olivine) and rock (basalt) powders, amendments and bio-fertilizers, and the establishment of vetiver and other perennials. Written by highly recognized professionals from every continent except Antarctica, this extensive work consists of 34 chapters covering issues that include: field experiences with biochar including a history of its research; practical uses of biochar in farming systems and the use of biochar for soil fertility enhancement; the potential of remineralization as a global movement; seawater concentrate for abundant agriculture; superior food production using sea salt and plant extracts; recycling waste nutrients using biochar and limestone; and commercially viable carbon farming. The book concludes with a chapter providing general thoughts on regreening the earth and averting a global crisis. Geotherapy: Innovative Methods of Soil Fertility Restoration, Carbon Sequestration, and Reversing CO2 Increase is an encyclopedia of ideas providing the tools needed for anyone involved with the ecological restoration and transformation of the planet.

With contributions from leading scientists in agricultural biology and young researchers, this book examines the ecological consequences that sometimes arise with various methods of increasing crop productivity. It also presents agroecological approaches to crop improvement and productivity from several perspectives, examines alternative energy sources, and discusses other problems related to sustainable agriculture.

In use as a medicinal plant since time immemorial in Europe and the Middle East, chamomile is gaining popularity in the Americas, Australia, and Asia. The spectrum of disease conditions in which it is used in traditional medicine systems is, quite simply, mind boggling. There is, without a doubt, a growing demand for this plant and therefore a growing need for an updated ready reference for the researchers, cultivators, and entrepreneurs who wish to work with chamomile. Chamomile: Medicinal, Biochemical, and Agricultural Aspects is just that. Based on extensive research, this book provides the latest information on the medicinal, aromatic, and cultivation aspects of chamomile. It covers chamomile's geographical distribution, taxonomy, chemistry, pharmacology, genetics, biochemistry, breeding, and cultivation. The book also discusses the profiles of the several medicinally active compounds of the oil and extracts and how their levels could be increased through breeding. The author highlights several potentially useful compounds discovered in the chamomile oil and extracts and discusses the cultivation and postharvest technology aspects of the plant in different agroclimatic zones including that of India. She presents guidelines on the good manufacturing practices laid out in different systems of medicine and provides an overview of the patents and products of chamomile especially important to researchers and entrepreneurs. Although there is a plethora of information available on chamomile, the challenge has been finding a central repository that covers all aspects of the plant. Some books provide general coverage, others focus on only on pharmacological uses, and many are outdated. This book examines all aspects from cultivation and harvesting, to essential oil content and profile as well as pharmacology and biotechnology. It is a reference for current information, an entry point for further study, a resource for using oils and extr

Sorghum is one of the hardiest crop plants in modern agriculture and also one of the most versatile. Its seeds provide calorie for food and feed, stalks for building and industrial materials and its juice for syrup. This book provides an in-depth review of the cutting-edge knowledge in sorghum genetics and its applications in sorghum breeding. Each chapter is authored by specialists in their fields to report the latest trends and findings. The book showcases the definitive value of sorghum as a model system to study the genetic basis of crop productivity and stress tolerance and will provide a foundation for future studies in sorghum genetics, genomics, and breeding.

Quinoa is an ancient grain that has grown in popularity in recent years. It has been known as a good source of both protein and fiber. As the demand for quinoa increases a comprehensive and up-to-date reference on the biology and production of the crop is essential. Quinoa: Improvement and Sustainable Production brings together authors from around the world to provide a complete assessment of the current state of global quinoa research and production. Topics covered include quinoa history and culture, genomics and breeding, agronomy, nutrition, marketing, and end-uses. The book focuses in particular on the emerging role of quinoa in providing increased food security to smallholder farmers and communities throughout the world. Quinoa will interest quinoa researchers, producers, crop scientists, agronomists, and plant geneticists, as well as advanced students working with this important grain.

Plant Production in Closed Ecosystems provides overviews of the current trends and concepts in plant production in closed or semi-closed environments. The overviews reflect both the present and future challenges that face the agricultural industry and the methods and tools which will meet these challenges. Plant Production in Closed Ecosystems contains the full texts of the Special Lectures from the International Symposium on Plant Production in Closed Ecosystems, plus several contributed papers. The challenges which await the agricultural industry are diverse. This diversity is reflected in the topics that were covered in the special lectures given by experts in the field. These topics included: greenhouse horticulture, hydroponics, micropropagation, food production in space, environmental control, co-generation, controlled ecological life support systems (CELSS), and resource conservation.

The third most important cereal crop after wheat and corn, rice is a staple food for more than half of the world's population. This includes regions of high population density and rapid growth, indicating that rice will continue to be a major food crop in the next century. Mineral Nutrition of Rice brings together a wealth of information on the ecophysiology and nutrient requirements of rice. Compiling the latest scientific research, the book explains how to manage essential nutrients to maximize rice yield. The book examines 15 essential or beneficial nutrients used in irrigated, upland, and floating rice across a range of geographic regions. For each mineral, the text details the cycle in the soil-plant system as well as the mineral's functions, deficiency symptoms, uptake in plants, harvest index, and use efficiency. It then outlines management practices, covering application methods and timing, adequate rates, the use of efficient genotypes, and more. The author, an internationally recognized expert in mineral nutrition for crop plants, also proposes recommendations for the judicious use of fertilizers to reduce the cost of crop production and the risk of environmental pollution. Color photographs help readers identify nutrient deficiency symptoms and take the necessary corrective measures. Packed with useful tables and illustrations, this comprehensive reference guides readers who want to know how to increase rice yield, reduce production costs, and avoid environmental pollution from fertilizers. It offers practical information for those working in agricultural research fields, in laboratories, and in classrooms around the world.

Due to the rapid increase in world population and improving living standards, the global agriculture sector is confronting with challenges for the sustainability of agricultural production and of the environment. Intensive high-yield agriculture is typically dependent on addition of fertilizers (synthetic chemicals, animal manure, etc.). However, non-point nutrient losses from agricultural fields due to fertilization could adversely impact the environment. Increased knowledge on plant nutrient chemistry is required for improving utilization efficiency and minimizing loses from both inorganic and organic nutrient sources. For this purpose, the book is composed of 19 chapters that highlight recent research activities in applied nutrient chemistry geared toward sustainable agriculture and environment. Topics of interest include, but are not limited, to speciation, quantification, and interactions of various plant nutrients and relevant contributories in manure, soil, and plants. This book outlooks emerging researchable issues on alternative utilization and environmental monitoring of manure and other agricultural by products that may stimulate new research ideas and direction in the relevant fields.

Developing Sustainable and Health Promoting Cereals and Pseudocereals: Conventional and Molecular Breeding reviews the most recent developments in the fields of cereal and pseudocereal breeding, with particular emphasis on the latest biotechnological techniques likely to lead to breakthrough changes in plant breeding. The book provides comprehensive information on the use of genetic resources or pre-breeding activities to improve health-related properties of cereals and pseudocereals. The text also explores targeted field-management practices and the latest in biotechnological methodologies, and offers a cohesive overview necessary for understanding the potential impacts and benefits of improved production of cereals and pseudocereals with high-nutritional value.

Nematode Diseases of Crops and their Sustainable Management focuses on methods to recognize and identify nematode attackers in agriculturally important crops, offering ecologically sustainable and economically viable strategies and measures for the management of nematode infestations and diseases. The book analyzes nematode pests as major constraints in global crop production and explores the limitations of existing nematode management technologies. It offers comprehensive information through individually focused chapters on major nematode problems in internationally important food, fiber and beverage crops as well as in mushrooms, polyhouse agriculture and forest flora with regard to distribution, and much more. In view of the highly damaging nature of the disease complexes and complexity in their management, independent chapters on nematode-fungus and nematode-bacteria disease complexes and their management are also presented.

Development and Commercialization of Biopesticides: Costs and Benefits provides a uniquely comprehensive view of the commercial production of biopesticides, from research to application, featuring case studies in various developed and developing countries of the world. The book offers guidance for future strategies to researchers, along with considerations for the industry's economic concerns, i.e., costs and benefits compared to conventional pesticides, future perspectives for application strategies, bioavailability and environmental safety, and impacts on intellectual property issues during commercialization. Finally, the book covers why the development of this industry must be strategic, comprehensive and forward-looking in order to be an accepted, safe and sustainable. There is no doubt that biopesticides are now in large-scale use, and a variety of novel techniques have been used to improve or modify existing biopesticides, which will further accelerate their development.

The use of microbial plant protection products is growing and their importance will strongly increase due to political and public pressure. World population is growing and the amount of food needed by 2050 will be double of what is produced now whereas the area of agricultural land is decreasing. We must increase crop yield in a sustainable way. Chemical plant growth promoters must be replaced by microbiological products. Also here, the use of microbial products is growing and their importance will strongly increase. A growing area of agricultural land is salinated. Global warming will increase this process. Plants growth is inhibited by salt or even made impossible and farmers tend to disuse the most salinated lands. Microbes have been very successfully used to alleviate salt stress of plants. Chemical pollution of land can make plant growth difficult and crops grown are often polluted and not suitable for consumption. Microbes have been used to degrade these chemical pollutants.

The incentive of watershed programs is to increase the return on investment with over 20% for 65% of the projects that are currently underperforming. This book provides a comprehensive presentation of the realization of improved rain fed agriculture yield in semi-arid and dry land areas. Besides techniques to improve the livelihood of the many small-scale farmers in developing countries, it includes examples and case studies for further support. The methods discussed have recently shown to be successful and economically remunerative in India and in various African countries. Intended for professionals (investors, policy makers), researchers and (post)graduate students working on dry land and sustainable agriculture and water and natural resources management. Suited for courses in dry land agriculture, soil and water management and watershed development.

Advances in Agronomy, Volume 178, the latest release in this leading reference on agronomy, contains a variety of updates and highlights new advances in the field, with each chapter written by an international board of authors.

Plant Breeding Reviews 38

Table of Contents1. Daniel Zohary: Geneticist and Explorer of Plant Domestication

"Giora Simchen"2. The Use of Association Genetics Approaches in Plant Breeding

"Maria F. alvare, Teresa Mosquera, and Matthew W. Blair "

3. Epigenetics Connects the Genome to its Environment

"Ray A. Bressan, Jian-Kang Zhu, Michael J. Van Oosten, Hans J. Bohnert, Viswanathan Chinnusamy, and Albino Maggio"

4. Peanuts Improvement for Human Health

"Sangam Dwivedi, Naveen Puppala, Soheila Maleki, Peggy Ozias-Akins, and Rodomiro Ortiz"5. Rice Breeding in Latin America

"Cesar P. Martinez, Edgar Torres, Marc Chatel, Gloria Mosquera, Jorge Duitama, Manabu Ishitani, Michael Selvaraj, Beata Dedicova, Joe Tohme, Cecile Grenier, Mathias Lorieux. Maribel Cruz, Luis Berrio, Edgar Corredor, Gonzalo Zorrilla de San Martin, Flavio Breseghello, Orlando Peixoto, Jose Manoel Colombari Filho, Adriano Castro, Sergio Iracu Gindri Lopes, Mara Barbosa, Gustavo Rodrigo Daltrozzo Funck, Pedro Blanco, Fernando Perez de Vida, Federico Molina, Juan Rosas, Sebastian Martinez, Victoria Bonnecarrere, Silvia Garaycochea, Gonzalo Carracelas, Alfredo Marin, Fernando Correa, and Ismael Camargo"

This volume describes breeding methods for the development of biparental and multiparental mapping populations. Chapters detail lab protocols for high-throughput isolation of nucleic acids and metabolites, high performing genotyping approaches, mapping strategies for QTLs, mutation identifications, computational, bioinformatic pipelines, tissue culture-based and transformation methods for androgenesis, ploidy modification, and RNA interference. Additional chapters highlight recent developed genome editing protocols including CRISPR and TALEN methods and methodologies for in-field/in-soil plant phenotyping. 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. Authoritative and cutting-edge, Crop Breeding: Genetic Improvement Methods aims to ensure successful results in the further study of this vital field.

The purpose of this book is to assess a variety of economic issues as they relate to agro-biodiversity and show how addressing these issues can assist in agro-biodiversity policy-making. This is illustrated using empirical data from some of the countries (Ethiopia, Nepal and Zambia) which are part of the Genetic Resources Policy Initiative. The empirical chapters apply the relevant economic methods, including regression analysis, choice experiments, hedonic pricing, contingent valuation and farm business income analysis. The authors discuss the economics of managing crop diversity on-farm in the context of crop variety attribute preferences, farmers' perception of agro-biodiversity loss, and value addition and marketing of the products of traditional crop varieties. The case studies include detailed analysis of traditional varieties of groundnut, maize, rice, sorghum, and teff. The results are relevant not only to GRPI countries but also to other countries concerned with the sustainable utilization of these resources. Overall, the studies illustrate how genetic resources issues can be integrated into rural development interventions.