The impact of stress combination on reproductive processes in crops

Historically, extended droughts combined with heat waves caused severe reductions in crop yields estimated at billions of dollars annually. Because global warming and climate change are driving an increase in the frequency and intensity of combined water-deficit and heat stress episodes, understanding how these episodes impact yield is critical for our efforts to develop climate change-resilient crops. Recent studies demonstrated that a combination of water-deficit and heat stress exacerbates the impacts of water-deficit or heat stress on reproductive processes of different cereals and legumes, directly impacting grain production. These studies identified several different mechanisms potentially underlying the effects of stress combination on anthers, pollen, and stigma development and function, as well as fertilization. Here we review some of these findings focusing on unbalanced reactive oxygen accumulation, altered sugar concentrations, and conflicting functions of different hormones, as contributing to the reduction in yield during a combination of water-deficit and heat stress. Future studies focused on the effects of water-deficit and heat stress combination on reproduction of different crops are likely to unravel additional mechanisms, as well as reveal novel ways to develop stress combination-resilient crops. These could mitigate some of the potentially devastating impacts of this stress combination on agriculture.

Automated summary

Historically, extended droughts combined with heat waves have caused severe reductions in crop yields, with recent studies showing that a combination of water-deficit and heat stress exacerbates the impacts on reproductive processes of cereals and legumes. Mechanisms such as unbalanced reactive oxygen accumulation, altered sugar concentrations, and conflicting functions of different hormones have been identified as contributing to the reduction in yield during a combination of water-deficit and heat stress.Future research on the effects of water-deficit and heat stress combination on different crops' reproduction is likely to reveal additional mechanisms and novel ways to develop stress combination-resilient crops, potentially mitigating the devastating impacts of this stress combination on agriculture.