July 26, 2024
Journal Article

Hysteresis Area at the Canopy Level During and after a Drought Event in the Central Amazon.

Abstract

Understanding forest water limitation during droughts within a warming climate is essential for accurate predictions of forest-climate interactions. In hyperdiverse ecosystems like the Amazon forest, the mechanisms shaping hysteresis patterns in transpiration relative to environmental factors are not well understood. From this perspective, we investigated these dynamics by conducting in situ leaf-level measurements throughout and after the 2015 El NiƱo-Southern Oscillation (ENSO) drought. Our findings indicate a substantial increase in the hysteresis area (Harea) among transpiration (E), vapor pressure deficit (VPD), and stomatal conductance (gs) at canopy level during the ENSO peak, attributed to both temporal lag and differences in magnitude between gs and VPD peaks. Specifically, the canopy species Pouteria anomala exhibited an increased Harea, due to earlier maximum gs rates leading to a greater temporal lag with VPD compared to the post-drought period. Additionally, leaf water potential (?L) and canopy temperature (Tcanopy) showed larger Harea during the ENSO peak compared to post-drought conditions across all studied species, suggesting that stomatal closure, particularly during the afternoon, acts to minimize water loss and may explain the counterclockwise hysteresis observed between ?L and Tcanopy. The pronounced Harea during the drought points to a potential imbalance between water supply and demand, underlining the role of stomatal behavior of isohydric species in response to drought.

Published: July 26, 2024

Citation

Gimenez B., D.C. Souza, N. Higuchi, R. Negron-Juarez, I. Sampaio-Filho, A.C. Araujo, and A. Lima, et al. 2024. Hysteresis Area at the Canopy Level During and after a Drought Event in the Central Amazon. Agricultural and Forest Meteorology 353. PNNL-SA-200156. doi:10.1016/j.agrformet.2024.110052

Research topics