Extreme heat can push plants beyond their thermal safety margin (TSM) if maximum leaf temperature (Tleaf_max) exceeds leaf critical temperature (Tcrit). The TSM is potentially useful for assessing heat vulnerability across species but needs further validation, so we exposed 50 tree/shrub species in controlled glasshouses to a 6-day heatwave (peak air temperature = 41°C). Many species increased their mean Tcrit during the heatwave (42%), with ΔTcrit ranging from +1°C to 4°C, but other species did not acclimate or were impaired by heat stress (58%). Species Tleaf_max explained ~55% of the variation in species Tcrit and was a key correlate of the plasticity of Tcrit among species. Species with high ΔTcrit also had higher ΔTleaf_max, with leaves being 7°‒12°C hotter during the heatwave than under baseline conditions. Both Tleaf_max and TSMs were correlated with heatwave damage across diverse species from contrasting climate zones. Species differences in TSMs were stable across measurement temperatures, correctly identified the most vulnerable species, and were strongly associated with Tleaf_max. Our results suggest that (1) Tleaf_max alone is more informative than Tcrit for ranking species heat tolerance, and (2) species vulnerability to heatwaves is most reliably assessed by using TSMs that integrate Tleaf_max with Tcrit across species.
Keywords: heat tolerance; leaf critical temperature; maximum leaf temperature; thermal acclimation; thermal plasticity.
© 2025 The Author(s). Plant, Cell & Environment published by John Wiley & Sons Ltd.