Why maize is different from other crops; Investment in maize breeding research; Products of maize breeding research; Adoption of modern varieties (MVs); Economic benefits associated with MV adoption.
Learn how to best improve yield in cereal plants - even in dry conditions. The impact of drought on crop production can be economically devastating. Drought Adaptation in Cereals provides a comprehensive review of the latest research on the tolerance of cereal crops to water-limited conditions. Renowned experts extensively describe basic concepts and cutting-edge research results to clearly reveal all facets of drought adaptation in cereals. More than simply a fine reference for plant biology and plant improvement under water-limited conditions, this book spotlights the most relevant biological approaches from plant phenotyping to functional genomics. The need to understand plant response to the lack of water is integral to forming strategies to best manage crops. Drought Adaptation in Cereals starts by offering an overview of the biological basis and defines the adaptive mechanisms found in plants under water-limited conditions. Different approaches are presented to provide understanding of plant genetics basics and plant breeding, including phenotyping, physiology, and biotechnology. The book details drought adaptation mechanisms at the cellular, organ, and entire plant levels, focusing on plant metabolism and gene functions. This resource is extensively referenced and contains tables, charts, and figures to clearly present data and enhance understanding. After a foreword by J. O'Toole and a prologue by A. Blum, Drought Adaptation in Cereals presents a full spectrum of informative topics from other internationally respected scientists. These include: drought’s economic impact (P. Heisey) genotype-by-environment interactions (M. Cooper) secondary traits for drought adaptation (P. Monneveux) leaf growth (F. Tardieu) carbon isotope discrimination (T. Condon) drought adaptation in barley (M. Sorrells), maize (M. Sawkins), rice (R. Lafitte), sorghum (A. Borrell) and wheat (M. Reynolds) carbohydrate metabolism (A. Tiessen) the role of abscisic acid (T. Setter) protection mechanisms and stress proteins (L. Mtwisha) genetic basis of ion homeostasis and water deficit (H. Bohnert) transcriptional factors (K. Yamaguchi-Shinozaki) resurrection plants (D. Bartels) Drought Adaptation in Cereals is a unique, vital reference for scientists, educators, and students in plant biology, agronomy, and natural resources management.
Those who study global poverty and ways to reduce it face a perennial set of questions: Do advances in knowledge, research, and technology make a real difference in the lives of poor people? What effect does research have on the poor? Who benefits? The contributors to Agricultural Research, Livelihoods, and Poverty shed light on these questions through a collection of case studies that explore the types of impact that agricultural research has had on livelihoods and poverty in low-income countries.
History and development. The FAO global system for the conservation and sustainable use of plant genetic resources for food and agriculture. The International treaty on plant genetic resources for dood and agriculture. The Convention on Biological Diversity. Origin and movement of OGR: implications for acess and benefit-sharing policies. The TRIPS agreement. UPOV. Phytosanitary and biosafety measures. Development and improvement of genetic resources. Cross-cutting issues. Economic issues.