Tropical forests are approaching critical temperature thresholds

Doughty, CE; Keany, JM; Wiebe, BC; Rey-Sanchez, C; Carter, KR; Middleby, KB; Cheesman, AW; Goulden, ML; da Rocha, HR; Miller, SD; Malhi, Y; Fauset, S; Gloor, E; Slot, M; Oliveras Menor, I; Crous, KY; Goldsmith, GR; Fisher, JB

Journal article

Tropical forests are approaching critical temperature thresholds

Abstract:: The critical temperature beyond which photosynthetic machinery in tropical trees begins to fail averages approximately 46.7 °C (T_crit)¹. However, it remains unclear whether leaf temperatures experienced by tropical vegetation approach this threshold or soon will under climate change. Here we found that pantropical canopy temperatures independently triangulated from individual leaf thermocouples, pyrgeometers and remote sensing (ECOSTRESS) have midday peak temperatures of approximately 34 °C during dry periods, with a long high-temperature tail that can exceed 40 °C. Leaf thermocouple data from multiple sites across the tropics suggest that even within pixels of moderate temperatures, upper canopy leaves exceed T_crit 0.01% of the time. Furthermore, upper canopy leaf warming experiments (+2, 3 and 4 °C in Brazil, Puerto Rico and Australia, respectively) increased leaf temperatures non-linearly, with peak leaf temperatures exceeding T_crit 1.3% of the time (11% for more than 43.5 °C, and 0.3% for more than 49.9 °C). Using an empirical model incorporating these dynamics (validated with warming experiment data), we found that tropical forests can withstand up to a 3.9 ± 0.5 °C increase in air temperatures before a potential tipping point in metabolic function, but remaining uncertainty in the plasticity and range of T_crit in tropical trees and the effect of leaf death on tree death could drastically change this prediction. The 4.0 °C estimate is within the ‘worst-case scenario’ (representative concentration pathway (RCP) 8.5) of climate change predictions² for tropical forests and therefore it is still within our power to decide (for example, by not taking the RCP 6.0 or 8.5 route) the fate of these critical realms of carbon, water and biodiversity^3,4.

Publication status:: Published

Peer review status:: Peer reviewed

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APA Style

Doughty, C. E., Keany, J. M., Wiebe, B. C., Rey-Sanchez, C., Carter, K. R., Middleby, K. B., Cheesman, A. W., Goulden, M. L., da Rocha, H. R., Miller, S. D., Malhi, Y., Fauset, S., Gloor, E., Slot, M., Oliveras Menor, I., Crous, K. Y., Goldsmith, G. R., & Fisher, J. B. (2023). Tropical forests are approaching critical temperature thresholds. Nature, 621(7977), 105–111.

MLA Style

Doughty, C. E., et al. “Tropical Forests Are Approaching Critical Temperature Thresholds.” Nature, vol. 621, no. 7977, Springer Nature, 2023, pp. 105–11.

Chicago Style

Doughty, CE, JM Keany, BC Wiebe, C Rey-Sanchez, KR Carter, KB Middleby, AW Cheesman, et al. 2023. “Tropical Forests Are Approaching Critical Temperature Thresholds.” Nature 621 (7977): 105–11.
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