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Abstract

Leaf-scale heat and drought tolerance provide direct measures of the ability to withstand environmental stress and can be used to evaluate plant susceptibility to emerging climatic extremes. However, recent droughts increasingly occur with heatwaves, causing plants to withstand two simultaneous environmental stresses. Tolerance of leaf-level processes to heat and drought stress have mostly been studied independently, preventing an understanding of whether tolerance co-occurs for these two environmental stresses. To address this, we measured leaf photosynthetic heat tolerance as the critical temperatures at which photosystem II efficiency starts to decrease (Tcrit) and shows a decrease of 50% (T50) or 95% (T95) in three temperate biomes (desert, oak-pine forest, and mediterranean-type shrubland). We also characterized drought tolerance as the water potential at leaf turgor loss point (pi tlp) and cellular membrane stability in response to simulated drought. We found coordination of heat and drought tolerance through a significant relationship of pi tlp with T50 and Tcrit that varied with season, whereas T95 showed no relation to pi tlp. Species with greater drought tolerance also showed greater membrane stability, implicating membrane leakiness as a potential mechanism of physiological decline during stress. Despite local variation in temperature and precipitation extremes, leaf heat and drought tolerance converged to common cross-biome relationships, providing evidence of interdependence that spanned distinct climates.

Keywords

Drought; Cellular electrolyte leakage; Leaf turgor loss; Photosynthesis; Thermotolerance

Published in

Scientific Reports
2025, volume: 15, number: 1, article number: 12201
Publisher: NATURE PORTFOLIO

SLU Authors

UKÄ Subject classification

Botany
Forest Science

Publication identifier

  • DOI: https://doi.org/10.1038/s41598-025-95623-5

Permanent link to this page (URI)

https://res.slu.se/id/publ/141727