UID:
edoccha_9961574124602883
Format:
1 online resource (947 pages)
Edition:
1st ed. 2024.
ISBN:
9783031630026
Series Statement:
Population Genomics,
Content:
Population genomics has revolutionized several disciplines of biology, genetic resource conservation and management, and breeding of crop plants by providing key and novel insights into population, evolutionary, ecological and conservation genetics, ecology, evolution and adaptation, and facilitating molecular breeding with an unprecedented power and accuracy. Crop plants have been domesticated from their wild progenitors over several centuries and have undergone severe genetic bottlenecks and selection sweeps. Population genomics research has unraveled novel insights into crop plants origin, evolution, demographic history, center of diversity, domestication history, genetic/genomic diversity and genetic structure of wild and domesticated populations and species, epigenomic diversity, genetic/genomic basis of domestication syndrome, genomic footprints of domestication, selection and breeding, de-domestication, speciation and admixture, taxonomy, phylogeny, ecology, biotic and abiotic stress tolerance, and ecological and climate adaptation. Population genomics has also facilitated the development of pangenomes, conservation and management of genetic diversity including in the pre-breeding and breeding programs, and genomics-assisted breeding via identifying genotype-phenotype associations and genomic selection in crop plants. This pioneering book presents the advances made and potential of population genomics in addressing the above crop plants aspects of basic and applied significance and brings together leading experts in crop plants population genomics to discuss these topics in major crop plants. Genomic, epigenomic, transcriptomic and plant resources available for population genomics research and challenges, opportunities and future perspectives of crop plants population genomics are also discussed. Chapters "Population Genomics of Yams: Evolution and Domestication of Dioscorea Species" and "Population Genomics Along With Quantitative Genetics Provides a More Efficient Valorization of Crop Plant Genetic Diversity in Breeding and Pre-breeding Programs" are available open access under a Creative Commons Attribution 4.0 International License via link.springer.com. .
Note:
Pangenomes, Demography, Evolution, Speciation, and Conservation -- Pangenomics in Crop Plants -- Population Genomics of Organellar Genomes in Crop Plants -- Coalescent Models of Demographic History: Application to Plant Domestication -- Population Genomics of Weedy Crop Relatives: Insights from Weedy Rice -- Population Genomics of Speciation and Adaptation in Sunflowers -- Genomics of Plant Gene Banks: Prospects for Managing and Delivering Diversity in the Digital Age -- Population Genomics for Crop Plant Breeding -- Enhancing Crop Breeding Using Population Genomics Approaches -- Population Genomics Along With Quantitative Genetics Provides a More Efficient Valorization of Crop Plant Genetic Diversity in Breeding and Pre-breeding Programs -- Population Genomics and Molecular Breeding of Sorghum -- Population Genomics and Genomics-assisted Trait Improvement in Tea -- Population Genomics of Major Crop Plants -- Population Genomics of Maize -- Population Genomics of Pearl Millet -- Potato Population Genomics -- Population Genomics of Tomato -- Population Genomics of Soybean -- Population Genomics of Phaseolus spp.:A Domestication Hotspot -- Population Genomics of Cotton -- Population Genomics of Brassica Species -- Population Genomics of Peanut -- Population Genomics of Yams: Evolution and Domestication of Dioscorea Species -- Population Genomics of Sweet Watermelon -- Population Genomics of Perennial Temperate Forage Legumes.
Additional Edition:
Print version: Rajora, Om P. Population Genomics: Crop Plants Cham : Springer International Publishing AG,c2024 ISBN 9783031630019
Language:
English
DOI:
10.1007/978-3-031-63002-6