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Photosynthetic seasonality of global tropical forests constrained by hydroclimate

Photosynthetic seasonality of global tropical forests constrained by hydroclimate
Photosynthetic seasonality of global tropical forests constrained by hydroclimate

The response of tropical forests to droughts is highly uncertain. During the dry season, canopy photosynthesis of some tropical forests can decline, whereas in others it can be maintained at the same or a higher level than during the wet season. However, it remains uncertain to what extent water availability is responsible for productivity declines of tropical forests during the dry season. Here we use global satellite observations of two independent measures of vegetation photosynthetic properties (enhanced vegetation index from 2002 to 2012 and solar-induced chlorophyll fluorescence from 2007 to 2012) to investigate links between hydroclimate and tropical forest productivity. We find that above an annual rainfall threshold of approximately 2,000 mm yr -1, the evergreen state is sustained during the dry season in tropical rainforests worldwide, whereas below that threshold, this is not the case. Through a water-budget analysis of precipitation, potential evapotranspiration and satellite measurements of water storage change, we demonstrate that this threshold determines whether the supply of seasonally redistributed subsurface water storage from the wet season can satisfy plant water demands in the subsequent dry season. We conclude that water availability exerts a first-order control on vegetation seasonality in tropical forests globally. Our framework can also help identify where tropical forests may be vulnerable or resilient to future hydroclimatic changes.

1752-0894
284-289
Guan, Kaiyu
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Pan, Ming
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Li, Haibin
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Wolf, Adam
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Wu, Jin
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Medvigy, David
9059193e-83e8-4727-9e57-eebe0ed4bfd8
Caylor, Kelly K.
9495817c-5392-47ed-a013-1d02f501aa28
Sheffield, Justin
dd66575b-a4dc-4190-ad95-df2d6aaaaa6b
Wood, Eric F.
ee59ebb9-367e-48ce-beab-22666be5095d
Malhi, Yadvinder
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Liang, Miaoling
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Kimball, John S.
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Saleska, Scott R.
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Berry, Joe
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Joiner, Joanna
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Lyapustin, Alexei I.
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Guan, Kaiyu
79efc8b7-8ae3-43c7-a39c-9831af3ae12f
Pan, Ming
10c372fa-0e0e-4eb5-b95b-06a8f9786fc8
Li, Haibin
d9609a34-7f98-48ca-afbb-0d647532c270
Wolf, Adam
92ae497b-d2e7-4a50-9d86-f790b77ad729
Wu, Jin
629218f4-e223-4df5-a2ca-b52fd148cb3f
Medvigy, David
9059193e-83e8-4727-9e57-eebe0ed4bfd8
Caylor, Kelly K.
9495817c-5392-47ed-a013-1d02f501aa28
Sheffield, Justin
dd66575b-a4dc-4190-ad95-df2d6aaaaa6b
Wood, Eric F.
ee59ebb9-367e-48ce-beab-22666be5095d
Malhi, Yadvinder
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Liang, Miaoling
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Kimball, John S.
20bb351d-1453-4a3e-a42a-41df3ee66b07
Saleska, Scott R.
bed29e2f-4f06-4d13-8e60-3b54ba2a8626
Berry, Joe
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Joiner, Joanna
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Lyapustin, Alexei I.
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Guan, Kaiyu, Pan, Ming, Li, Haibin, Wolf, Adam, Wu, Jin, Medvigy, David, Caylor, Kelly K., Sheffield, Justin, Wood, Eric F., Malhi, Yadvinder, Liang, Miaoling, Kimball, John S., Saleska, Scott R., Berry, Joe, Joiner, Joanna and Lyapustin, Alexei I. (2015) Photosynthetic seasonality of global tropical forests constrained by hydroclimate. Nature Geoscience, 8 (4), 284-289. (doi:10.1038/ngeo2382).

Record type: Article

Abstract

The response of tropical forests to droughts is highly uncertain. During the dry season, canopy photosynthesis of some tropical forests can decline, whereas in others it can be maintained at the same or a higher level than during the wet season. However, it remains uncertain to what extent water availability is responsible for productivity declines of tropical forests during the dry season. Here we use global satellite observations of two independent measures of vegetation photosynthetic properties (enhanced vegetation index from 2002 to 2012 and solar-induced chlorophyll fluorescence from 2007 to 2012) to investigate links between hydroclimate and tropical forest productivity. We find that above an annual rainfall threshold of approximately 2,000 mm yr -1, the evergreen state is sustained during the dry season in tropical rainforests worldwide, whereas below that threshold, this is not the case. Through a water-budget analysis of precipitation, potential evapotranspiration and satellite measurements of water storage change, we demonstrate that this threshold determines whether the supply of seasonally redistributed subsurface water storage from the wet season can satisfy plant water demands in the subsequent dry season. We conclude that water availability exerts a first-order control on vegetation seasonality in tropical forests globally. Our framework can also help identify where tropical forests may be vulnerable or resilient to future hydroclimatic changes.

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More information

Published date: 4 April 2015
Additional Information: Funding Information: K.G. and E.F.W. acknowledge financial support from the NASA Earth and Space Science Fellowship (NESSF). J.S.K.’s contribution is supported under the NASA Terra-Aqua Science program (NNX11AD46G). S.R.S. and J.W. acknowledge support by NASA Terra-Aqua Science program (NNX11AH24G) and by DOE Terrestrial Ecosystem Science (DE-SC0008383). We also acknowledge all the data providers for sharing the scientific data.
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Identifiers

Local EPrints ID: 480793
URI: http://eprints.soton.ac.uk/id/eprint/480793
DOI: doi:10.1038/ngeo2382
ISSN: 1752-0894
PURE UUID: 53388265-e468-4074-b851-91af21e1bae0
ORCID for Justin Sheffield: ORCID iD orcid.org/0000-0003-2400-0630

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Date deposited: 09 Aug 2023 17:14
Last modified: 18 Mar 2024 03:33

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Contributors

Author: Kaiyu Guan
Author: Ming Pan
Author: Haibin Li
Author: Adam Wolf
Author: Jin Wu
Author: David Medvigy
Author: Kelly K. Caylor
Author: Justin Sheffield ORCID iD
Author: Eric F. Wood
Author: Yadvinder Malhi
Author: Miaoling Liang
Author: John S. Kimball
Author: Scott R. Saleska
Author: Joe Berry
Author: Joanna Joiner
Author: Alexei I. Lyapustin

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