"11616","8","archive","3170",,,"disk0/00/01/16/16","2020-09-08 06:02:35","2020-09-08 06:02:35","2020-09-08 06:02:35","article",,,"show",,,,"","","","","","","","","","",,,,"Bohra","A","","","","","","","Varshney","R K","","","","",,,,,"","",,,,,"","","ICAR-Indian Institute of Pulses Research (IIPR), Kanpur","India","Genomics-assisted breeding for pigeonpea improvement","pub","PLB1","CRPS3","CG1","public",,,"Pigeonpea, Genetic gain, Genomic selection, Generation turnover, High-resolution mapping, Male sterility, Speed breeding, WGRS",,"AB acknowledges support from Centre for Agricultural
Bioinformatics (CABin: AGENIASRICOP201501000047)
scheme of Indian Council of Agricultural Research (ICAR), New
Delhi. Authors are also thankful for the Department of Agriculture
Cooperation & Farmers Welfare, Ministry of Agriculture & Farmers
Welfare, Government of India, Ministry of Agriculture, Government
of Karnataka for funding various pigeonpea research projects. This
work has been undertaken as part of the CGIAR Research Program on
Grain Legumes and Dryland Cereals (GLDC). ICRISAT is a member
of CGIAR Consortium.","Pigeonpea is a nutritious and stress-tolerant grain legume crop of tropical and subtropical regions. Decades of
breeding efforts in pigeonpea have resulted in development of a number of high-yielding cultivars. Of late, the development
of CMS-based hybrid technology has allowed the exploitation of heterosis for yield enhancement in this crop. Despite these
positive developments, the actual on-farm yield of pigeonpea is still well below its potential productivity. Growing needs
for high and sustainable pigeonpea yields motivate scientists to improve the breeding efficiency to deliver a steady stream of
cultivars that will provide yield benefits under both ideal and stressed environments. To achieve this objective in the shortest
possible time, it is imperative that various crop breeding activities are integrated with appropriate new genomics technologies.
In this context, the last decade has seen a remarkable rise in the generation of important genomic resources such as
genome-wide markers, high-throughput genotyping assays, saturated genome maps, marker/gene–trait associations, wholegenome
sequence and germplasm resequencing data. In some cases, marker/gene–trait associations are being employed in
pigeonpea breeding programs to improve the valuable yield and market-preferred traits. Embracing new breeding tools like
genomic selection and speed breeding is likely to improve genetic gains. Breeding high-yielding pigeonpea cultivars with key
adaptation traits also calls for a renewed focus on systematic selection and utilization of targeted genetic resources. Of equal
importance is to overcome the difficulties being faced by seed industry to take the new cultivars to the doorstep of farmers.","2020-02","published",,"Theoretical and Applied Genetics (TSI)","133","5","SPRINGER",,"1721-1737",,,,,,"doi:10.1007/s00122-020-03563-7",,,,,"TRUE",,"0040-5752",,,,,,"","https://doi.org/10.1007/s00122-020-03563-7","","",,"","",,,,,,"",,,,,,,"",,,,,"",,,,,"","",,,,,"","",,,,,
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