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Manipulations of albedo and mortality of upper canopy leaves in a tropical forest diverge from Earth System model results
  • Christopher Doughty,
  • Benjamin Wiebe,
  • Martijn Slot
Christopher Doughty
Northern Arizona University

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Benjamin Wiebe
northern Arizona University
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Martijn Slot
Smithsonian Tropical Research Institute
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Abstract

How tropical forest leaves respond to climate change has important implications for the global carbon cycle and biodiversity. Climate change could impact the energy balance properties of tropical forest canopies through 1)long-term trait changes and 2)abrupt disruptions/damage to leaf/photosynthetic machinery. We assessed the radiative and evaporative impacts of two recently proposed impacts of climate change on tropical forest canopies: 1) long-term leaf darkening and 2) leaf death through high temperature extremes. We darkened leaves to absorb 138 Wm-2 more energy in the upper canopy of a seasonally-dry tropical moist forest in Panama. 20% of this energy went towards heating leaves by ~4°C, 3% went towards warming the air, and 77% went towards evaporative cooling. This leaf warming led to the appearance of necrosis across 9±5 % of the leaf area on certain species. In contrast, brightening leaves decreased energy absorbed by an average of 58 Wm-2, which mainly reduced evaporation (88%) with only 12% reducing leaf temperatures (and no sensible heat flux). This asymmetrical result suggests leaves may be close to hydraulic limitations towards the end of the dry season. Similar albedo increases in a model (CLM 4.0) did not diverge between brightening and darkening leaves and generally showed sensible heat flux to dominate although there were strong geographic trends. Heat death in leaves generally heated nearby leaves (by an average of ~1.35°C) and air temperature (by 0.5°C), but less than hypothesized because leaf albedo increased. Overall, our canopy top experiments question important potential climate feedbacks, but need further study.