Format:
Online-Ressource (digital)
Edition:
First
ISBN:
9780387774893
,
9780387774886
Series Statement:
Plant Genetics and Genomics: Crops and Models 7
Content:
Genetics and Genomics of Triticeae Edited by Catherine Feuillet and Gary Muehlbauer Domestication of cereals in the Fertile Crescent 10,000 years ago ushered in the beginning of agriculture, and signified a remarkable breakthrough in the advancement of civilization. Today, the crops of the Triticeae tribe, wheat, barley, and rye, constitute over 50% of total crop production worldwide (http://www.fao.org/) and cereal seeds are one of the most important renewable resources for food, feed, and industrial raw materials. The economic importance of the Triticeae has triggered intense cytogenetic and genetic studies over the past few decades, and has resulted in a breadth of information and tools for developing wheat, barley, and rye varieties. Hampered by the size and complexity of their genomes, however, research regarding the genomics of the Triticeae has lagged behind. But, the recent convergence of several technology developments has enabled dramatic breakthroughs in genomic research and led to the development of a robust 'Genomic toolbox.' These new capabilities permit a better understanding of the biology of the Triticeae plants and support the improvement of agronomically important traits in these essential species. Comprised of the work of internationally recognized experts, Genetics and Genomics of Triticeae provides an in depth summary of the advances of the past decades, synthesizes the current state of knowledge of the structure, function, and evolution of the Triticeae genomes, and describes progress in the application of this knowledge to the improvement of wheat, barley, and rye. This book explores both the fundamentals of genetic and genomic research of the Triticeae and the applications of state of the art technology that have led to improvements in agronomically important traits such as biotic and abiotic stress resistance, plant development, and quality. Genetics and Genomics of Triticeae opens perspe
Note:
Includes bibliographical references and index
,
Plant Genetics and Genomics: Crops and Models; Foreword; Preface; Acknowledgments; Contents; Contributors; Part I: Genetics of the Triticeae; Scientific Names in the Triticeae; 1.1 The Triticeae; 1.2 Why so Many Names?; 1.2.1 Impact of New Technologies on the Taxonomy of the Triticeae; 1.2.2 Integrating New Information into the Taxonomy of the Triticeae; 1.3 Interaction of Taxonomy and Nomenclature-Some Examples; 1.3.1 Multiple Names at the Generic Level: Pseudoroegneria; 1.3.2 Multiple Names at the Generic Level: Elymus; 1.3.3 Additional Problems with Generic Changes
,
1.3.4 Multiple Names at the Species Level and Below: The Triticum monococcum Complex1.4 Taxonomic Treatment in this Chapter; 1.4.1 Taxonomic Treatment in this Chapter: The Genera; 1.4.2 Taxonomic Treatment in this Chapter: The Species; 1.5 Nomenclatural Web Sites; 1.6 Appendix; References; Triticeae Genetic Resources in ex situ Genebank Collections; 2.1 Introduction; 2.2 Material and Methods; 2.2.1 Information Sources: Online Databases and Reports; 2.2.2 Information Extraction and Processing; 2.2.3 Handling of Nomenclature; 2.3 List of Cultivated and Useful Triticeae Species
,
2.3.1 Aegilops - Goat Grass2.3.2 x Aegilotriticum; 2.3.3 Agropyron - Wheatgrass; 2.3.4 Amblyopyrum; 2.3.5 Brachypodium - False Brome; 2.3.6 Dasypyrum - Mosquitograss; 2.3.7 Elymus - Wheatgrass, Wild Rye; 2.3.8 Eremopyrum - False Wheatgrass; 2.3.9 Heteranthelium; 2.3.10 Hordeum - Barley; 2.3.11 Kengyilia; 2.3.12 Leymus - Wildrye; 2.3.13 Pascopyrum - Wheatgrass; 2.3.14 Psathyrostachys - Wildrye; 2.3.15 Pseudoroegneria - Wheatgrass; 2.3.16 Secale - Rye; 2.3.17 Thinopyrum - Wheatgrass; 2.3.18 x Triticosecale - Triticale; 2.3.19 Triticum - Wheat; 2.3.20 x Tritordeum
,
2.4 Overview of ex situ Collections of Triticeae2.4.1 Overview by Countries and Institutions; 2.4.2 Overviews by Genera and Species; 2.4.3 Collections of Genetic Stocks and Mutants; 2.4.4 Triticum; 2.4.5 Hordeum; 2.4.6 x Triticosecale; 2.4.7 Aegilops; 2.4.8 Secale; 2.4.9 Elymus; 2.4.10 Agropyron; 2.4.11 Other Triticeae Species; 2.4.12 Brachypodium; 2.5 Outlook and Conclusions; 2.6 Appendix: Online Databases; References; Domestication of the Triticeae in the Fertile Crescent; 3.1 Origins of Cultivated Plants and Agriculture - A Brief Historical Overview
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3.2 Evolution and Domestication of Triticeae3.2.1 Wheat Evolution and Domestication; 3.2.1.1 Diploid Wheats; 3.2.1.2 Tetraploid Wheats; 3.2.1.3 Hexaploid Wheats - Bread Wheat; 3.2.2 Barley Evolution and Domestication; 3.2.3 Rye Evolution and Domestication; 3.3 Traits Modified by Domestication; 3.3.1 Free-Threshing; 3.3.2 Brittle-Rachis; 3.3.3 Seed Size and Grain Yield; 3.3.4 Kernel Rows in the Ear; 3.3.5 Plant Height; 3.3.6 Grain Hardness; 3.3.7 Tillering; 3.3.8 Reduced Seed Dormancy; 3.3.9 Control of Flowering Time; 3.3.10 Photoperiod; 3.3.11 Vernalization; 3.3.12 Heading Time
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3.3.13 Conclusions and Final Considerations
Additional Edition:
ISBN 9780387774886
Additional Edition:
Buchausg. u.d.T. Genetics and genomics of the Triticeae Dordrecht : Springer, 2009 ISBN 9780387774886
Additional Edition:
ISBN 0387774882
Language:
English
Subjects:
Biology
Keywords:
Triticeae
;
Genetik
;
Triticeae
;
Genomik
;
Aufsatzsammlung
DOI:
10.1007/978-0-387-77489-3
URL:
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