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Drought impact on forest carbon dynamics and fluxes in Amazonia
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Drought impact on forest carbon dynamics and fluxes in Amazonia
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Journal Article
Drought impact on forest carbon dynamics and fluxes in Amazonia
2015
Overview
Severe drought in a tropical forest ecosystem suppresses photosynthetic carbon uptake and plant maintenance respiration, but growth is maintained, suggesting that, overall, less carbon is available for tree tissue maintenance and defence, which may cause the subsequent observed increase in tree mortality.
Effect of short-term drought on forest ecosytems
The underlying mechanisms that determine the response of tropical forest ecosystems to drought remain poorly understood. Based on observations from a network of intensively measured forest plots in the Amazon basin, this study shows that severe drought suppresses photosynthetic carbon uptake and plant maintenance respiration. Plant growth is maintained however, suggesting that less carbon is available for tree tissue maintenance and defence — which may explain the observed increase in tree mortality that follows a drought.
In 2005 and 2010 the Amazon basin experienced two strong droughts
1
, driven by shifts in the tropical hydrological regime
2
possibly associated with global climate change
3
, as predicted by some global models
3
. Tree mortality increased after the 2005 drought
4
, and regional atmospheric inversion modelling showed basin-wide decreases in CO
2
uptake in 2010 compared with 2011 (ref.
5
). But the response of tropical forest carbon cycling to these droughts is not fully understood and there has been no detailed multi-site investigation
in situ
. Here we use several years of data from a network of thirteen 1-ha forest plots spread throughout South America, where each component of net primary production (NPP), autotrophic respiration and heterotrophic respiration is measured separately, to develop a better mechanistic understanding of the impact of the 2010 drought on the Amazon forest. We find that total NPP remained constant throughout the drought. However, towards the end of the drought, autotrophic respiration, especially in roots and stems, declined significantly compared with measurements in 2009 made in the absence of drought, with extended decreases in autotrophic respiration in the three driest plots. In the year after the drought, total NPP remained constant but the allocation of carbon shifted towards canopy NPP and away from fine-root NPP. Both leaf-level and plot-level measurements indicate that severe drought suppresses photosynthesis. Scaling these measurements to the entire Amazon basin with rainfall data, we estimate that drought suppressed Amazon-wide photosynthesis in 2010 by 0.38 petagrams of carbon (0.23–0.53 petagrams of carbon). Overall, we find that during this drought, instead of reducing total NPP, trees prioritized growth by reducing autotrophic respiration that was unrelated to growth. This suggests that trees decrease investment in tissue maintenance and defence, in line with eco-evolutionary theories that trees are competitively disadvantaged in the absence of growth
6
. We propose that weakened maintenance and defence investment may, in turn, cause the increase in post-drought tree mortality observed at our plots.
Publisher
Nature Publishing Group UK,Nature Publishing Group
Subject
