Molecular breeding for sustainable crop improvement

The world population is estimated to reach to more than 10 billion by the year 2050. These projections pose a challenging situation for the agricultural scientists to increase crops productivity to meet the growing food demands. The unavailability and/or inaccessibility to appropriate gene pools with desired traits required to carry out genetic improvement of various crop species make this task formidable for the plant breeders. Incidentally, most of the desired genes reside in the wild genetic relatives of the crop species. Therefore, exploration and characterization of wild genetic resources of important crop species is vital for the efficient utilization of these gene pools for sustainable genetic improvements to assure food security. Further, understanding the myriad complexities of genic and genomic interactions among species, more particularly of wild relatives of crop species and/or phylogenetically distant germplasm, can provide the necessary inputs to increase the effectiveness of genetic improvement through traditional and/or genetic engineering methods. This book provides comprehensive and latest insights on the evolutionary genesis of diversity, access and its utilization in the evolution of various crop species. A comprehensive account of various crops, origin, exploitation of the primary, secondary and tertiary gene pools through breeding, biosystematical, cytogenetical and molecular phylogenetical relationships, and genetic enhancement through biotechnological interventions among others have been provided as the necessary underpinnings to consolidate information on the effective and sustainable utilization of the related genetic resources. The book stresses upon the importance of wild germplasm exploration, characterization and exploitation in the assimilation of important crop species. The book is especially intended for students and scientists working on the genetic improvement of crop species. Plant Breeders, Geneticists, Taxonomists, Molecular Biologists and Plant Biotechnologists working on crop species are going to find this book very useful.

• Preface.- 1. Use of alien genetic variation for wheat improvement
• P.K. Gupta.- 2. Quantitative trait loci mapping in plants: concepts and approaches
• D. Sehgal.- 3. Developing and deploying abiotic stress tolerant maize varieties in the tropics: challenges and opportunities
• B.M. Prasanna.- 4. Harnessing apomixes for heterosis breeding in crop improvement
• V. Bhat.- 5. Status and opportunities of molecular breeding approaches for genetic improvement of tea
• R. Kumar Sharma.- 6. Molecular cytogenetic approaches in exploration of important chromosomal landmarks in plants
• Y. Mukai.- 7. Technological advances in studying gene pool diversity and its exploitation
• S. Goel.- 8. Introgression and exploitation of QTL for yield and yield components from related wild species into rice cultivars
• K. Neelam.- 9. A molecular phylogenetic framework for Timothy (Phleum pratense L.) improvement
• A. Stewart.- 10. Genetic improvement of basmati rice - The journey from conventional to molecular breeding
• A.K. Singh.- 11. Genetic diversity and coffee (Coffea sps) improvement in India
• R.K. Aggarwal.- 12. Introgression and exploitation of biotic stress tolerance from related wild species in wheat cultivars
• P. Chhuneja.- 13. Genetic improvement of sugarcane through conventional and molecular approaches
• S. Kumar.- 14. Germline transformation for crop improvement
• R. Tandon.- 15. Advances in molecular breeding of pearl millet
• D. Sehgal.- 16. Molecular marker-based selection tools in spring bread wheat improvement: CIMMYT experience and prospects
• S. Dreisigacker.- Index.