Breeding implications of drought stress under future climate for upland rice in Brazil
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Ramirez Villegas, Julian; Heinemann, Alexandre Bryan; Pereira de Castro, Adriano; Breseghello, Flávio; Navarro Racines, Carlos; Li, Tao; Rebolledo, Maria Camila; Challinor, Andrew J.. 2018. Breeding implications of drought stress under future climate for upland rice in Brazil . Global Change Biology . Springer Link, In press.
Permanent link to cite or share this item: http://hdl.handle.net/10568/90997
Rice is the most important food crop in the developing world. For rice production systems to address the challenges of increasing demand and climate change, potential and on-farm yield increases must be increased. Breeding is one of the main strategies toward such aim. Here, we hypothesise that climatic and atmospheric changes for the upland rice growing period in central Brazil are likely to alter environment groupings and drought stress patterns by 2050, leading to changing breeding targets during the 21st century. As a result of changes in drought stress frequency and intensity, we found reductions in productivity in the range of 200-600 kg ha−1 (up to 20%) and reductions in yield stability throughout virtually the entire upland rice growing area (except for the south-east). In the face of these changes, our crop simulation analysis suggests that the current strategy of the breeding program, which aims at achieving wide adaptation, should be adjusted. Based on results for current and future climates, a weighted selection strategy for the three environmental groups that characterise the region is suggested. For the highly favourable environment (HFE, 36–41% growing area, depending on RCP), selection should be done under both stress-free and terminal stress conditions; for the favourable environment (FE, 27–40%), selection should aim at testing under reproductive and terminal stress; and for the least favourable environment (LFE, 23–27%), selection should be conducted for response to reproductive stress only and for the joint occurrence of reproductive and terminal stress. Even though there are differences in timing, it is noteworthy that stress levels are similar across environments, with 40–60% of crop water demand unsatisfied. Efficient crop improvement targeted toward adaptive traits for drought tolerance will enhance upland rice crop system resilience under climate change.
CGIAR Author ORCID iDs
Carlos Eduardo Navarro-Racineshttps://orcid.org/0000-0002-8692-6431