Knowledge Center Catalog

Transpiration increases under high‐temperature stress :

Sadok, W.

Transpiration increases under high‐temperature stress : potential mechanisms, trade‐offs and prospects for crop resilience in a warming world - Oxford (United Kingdom) : Wiley, 2020.

Peer review

The frequency and intensity of high‐temperature stress events are expected to increase as climate change intensifies. Concomitantly, an increase in evaporative demand, driven in part by global warming, is also taking place worldwide. Despite this, studies examining high‐temperature stress impacts on plant productivity seldom consider this interaction to identify traits enhancing yield resilience towards climate change. Further, new evidence documents substantial increases in plant transpiration rate in response to high‐temperature stress even under arid environments, which raise a trade‐off between the need for latent cooling dictated by excessive temperatures and the need for water conservation dictated by increasing evaporative demand. However, the mechanisms behind those responses, and the potential to design the next generation of crops successfully navigating this trade‐off, remain poorly investigated. Here, we review potential mechanisms underlying reported increases in transpiration rate under high‐temperature stress, within the broader context of their impact on water conservation needed for crop drought tolerance. We outline three main contributors to this phenomenon, namely stomatal, cuticular and water viscosity‐based mechanisms, and we outline research directions aiming at designing new varieties optimized for specific temperature and evaporative demand regimes to enhance crop productivity under a warmer and dryer climate.


Text in English

0140-7791 1365-3040 (Online)

https://doi.org/10.1111/pce.13970


Climate change
Drought
Heat stress
Lipids
Plant cuticle
Stomata
Vapour pressure

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