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Water stress resilient cereal crops: Lessons from wild relatives

Justine M. Toulotte, Chrysoula K. Pantazopoulou, Maria Angelica Sanclemente, Laurentius A. C. J. Voesenek, Rashmi Sasidharan

2022Journal of Integrative Plant Biology80 citationsDOIOpen Access PDF

Abstract

Cereal crops are significant contributors to global diets. As climate change disrupts weather patterns and wreaks havoc on crops, the need for generating stress-resilient, high-yielding varieties is more urgent than ever. One extremely promising avenue in this regard is to exploit the tremendous genetic diversity expressed by the wild ancestors of current day crop species. These crop wild relatives thrive in a range of environments and accordingly often harbor an array of traits that allow them to do so. The identification and introgression of these traits into our staple cereal crops can lessen yield losses in stressful environments. In the last decades, a surge in extreme drought and flooding events have severely impacted cereal crop production. Climate models predict a persistence of this trend, thus reinforcing the need for research on water stress resilience. Here we review: (i) how water stress (drought and flooding) impacts crop performance; and (ii) how identification of tolerance traits and mechanisms from wild relatives of the main cereal crops, that is, rice, maize, wheat, and barley, can lead to improved survival and sustained yields in these crops under water stress conditions.

Topics & Concepts

CropFlooding (psychology)IntrogressionBiologyAgronomyDrought toleranceRange (aeronautics)Climate changeWater stressExtreme weatherCrop diversityAgricultureIdentification (biology)Crop yieldEnvironmental scienceAgroforestryYield (engineering)Drought resistanceExploitWaterlogging (archaeology)Persistence (discontinuity)Drought stressGeographyEcologyGenetic diversityResistance (ecology)Abiotic stressPlant responses to water stressClimate change impacts on agricultureRice Cultivation and Yield Improvement
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