Application of genomics-assisted breeding for generation of climate resilient crops: Progress and prospects

dc.contributor.author Kole, Chittaranjan
dc.contributor.author Muthamilarasan, Mehanathan
dc.contributor.author Henry, Robert
dc.contributor.author Edwards, David
dc.contributor.author Sharma, Rishu
dc.contributor.author Abberton, Michael
dc.contributor.author Batley, Jacqueline
dc.contributor.author Bentley, Alison
dc.contributor.author Blakeney, Michael
dc.contributor.author Bryant, John
dc.contributor.author Cai, Hongwei
dc.contributor.author Cakir, Mehmet
dc.contributor.author Cseke, Leland J.
dc.contributor.author Cockram, James
dc.contributor.author de Oliveira, Antonio Costa
dc.contributor.author De Pace, Ciro
dc.contributor.author Dempewolf, Hannes
dc.contributor.author Ellison, Shelby
dc.contributor.author Gepts, Paul
dc.contributor.author Greenland, Andy
dc.contributor.author Hall, Anthony
dc.contributor.author Hori, Kiyosumi
dc.contributor.author Hughes, Stephen
dc.contributor.author Humphreys, Mike W.
dc.contributor.author Iorizzo, Massimo
dc.contributor.author Ismail, Abdelbagi M.
dc.contributor.author Marshall, Athole
dc.contributor.author Mayes, Sean
dc.contributor.author Nguyen, Henry T.
dc.contributor.author Ogbonnaya, Francis C.
dc.contributor.author Ortiz, Rodomiro
dc.contributor.author Paterson, Andrew H.
dc.contributor.author Simon, Philipp W.
dc.contributor.author Tohme, Joe
dc.contributor.author Tuberosa, Roberto
dc.contributor.author Valliyodan, Babu
dc.contributor.author Varshney, Rajeev K.
dc.contributor.author Wullschleger, Stan D.
dc.contributor.author Yano, Masahiro
dc.contributor.author Prasad, Manoj
dc.date.accessioned 2022-03-27T03:53:54Z
dc.date.available 2022-03-27T03:53:54Z
dc.date.issued 2015-08-11
dc.description.abstract Climate change affects agricultural productivity worldwide. Increased prices of food commodities are the initial indication of drastic edible yield loss, which is expected to increase further due to global warming. This situation has compelled plant scientists to develop climate change-resilient crops, which can withstand broad-spectrum stresses such as drought, heat, cold, salinity, flood, submergence and pests, thus helping to deliver increased productivity. Genomics appears to be a promising tool for deciphering the stress responsiveness of crop species with adaptation traits or in wild relatives toward identifying underlying genes, alleles or quantitative trait loci. Molecular breeding approaches have proven helpful in enhancing the stress adaptation of crop plants, and recent advances in high-throughput sequencing and phenotyping platforms have transformed molecular breeding to genomics-assisted breeding (GAB). In view of this, the present review elaborates the progress and prospects of GAB for improving climate change resilience in crops, which is likely to play an ever increasing role in the effort to ensure global food security.
dc.identifier.citation Frontiers in Plant Science. v.6(AUG)
dc.identifier.uri 10.3389/fpls.2015.00563
dc.identifier.uri http://journal.frontiersin.org/Article/10.3389/fpls.2015.00563/abstract
dc.identifier.uri https://dspace.uohyd.ac.in/handle/1/5914
dc.subject Breeding
dc.subject Climate change
dc.subject Crop improvement
dc.subject Genomics
dc.subject Stress tolerance
dc.title Application of genomics-assisted breeding for generation of climate resilient crops: Progress and prospects
dc.type Journal. Review
dspace.entity.type
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