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The residence time of woody biomass in tropical forests

The residence time of woody biomass in tropical forests
The residence time of woody biomass in tropical forests
Background
The woody biomass residence time (?w) of an ecosystem is an important variable for accurately simulating its biomass stocks.

Methods and results
We reviewed published data from 177 forest plots across the tropics and found a six-fold variation (23–129 years) in ?w across our dataset, with a median ?w of ca. 50 years. This value is similar to the median default value across 21 vegetation models for tropical forests, although the range of values used in models is large (20 to 200 years).

Conclusions
The notion of a constant ?w across all tropical forests may be of limited utility, given the large observed variation in ?w. We found that while there was little relationship between climate variables and ?w, there was evidence that edaphic factors exerted a strong influence on ?w. In both the Neotropics and the Paleotropics, ?w was highest in heavily weathered soils, suggesting that low soil fertility and/or non-limiting soil physical conditions exert a critical influence on ?w. There is considerable uncertainty in how ?w will be affected by global environmental change, especially by increased atmospheric CO2. Even small changes in ?w could significantly reduce the future tropical forest carbon sink predicted by many vegetation models.
biomass, dynamic vegetation models, dvgms, ecosystem models, residence time, tropical forest
1755-0874
139-157
Galbraith, D.
68e55ab0-248f-47cd-896b-cec4ccc8f17e
Malhi, Y.
6aff8494-6ef1-4fe9-b6a5-222e2276eb95
Castanho, A.D.A.
23325461-678d-4ef9-bc21-b0302e664ea9
Quesada, C.A.
e1777c91-68fb-4b55-a9ce-91db7f80ada9
Doughty, C.E.
2b985db1-0962-4d27-8308-5da3deef49a3
Peh, K.S.-H.
0bd60207-dad8-43fb-a84a-a15e09b024cc
Affum-Baffoe, K.
fa2ae474-432c-440b-bf6b-4e1c30aec98f
Lewis, S.
0442a91d-93f1-48ee-aca3-1a4757f0c7fa
Sonké, B.
03023061-2e15-455b-976d-6571d23b640c
Phillips, O.
691a9d8f-6cfa-4795-8991-f7880d64b536
Fisher, R.A.
dcef7ba9-2ba6-4a48-bb03-e5673284c358
Lloyd, J.
9e93814a-879b-4b3d-9e71-73429412bf69
Galbraith, D.
68e55ab0-248f-47cd-896b-cec4ccc8f17e
Malhi, Y.
6aff8494-6ef1-4fe9-b6a5-222e2276eb95
Castanho, A.D.A.
23325461-678d-4ef9-bc21-b0302e664ea9
Quesada, C.A.
e1777c91-68fb-4b55-a9ce-91db7f80ada9
Doughty, C.E.
2b985db1-0962-4d27-8308-5da3deef49a3
Peh, K.S.-H.
0bd60207-dad8-43fb-a84a-a15e09b024cc
Affum-Baffoe, K.
fa2ae474-432c-440b-bf6b-4e1c30aec98f
Lewis, S.
0442a91d-93f1-48ee-aca3-1a4757f0c7fa
Sonké, B.
03023061-2e15-455b-976d-6571d23b640c
Phillips, O.
691a9d8f-6cfa-4795-8991-f7880d64b536
Fisher, R.A.
dcef7ba9-2ba6-4a48-bb03-e5673284c358
Lloyd, J.
9e93814a-879b-4b3d-9e71-73429412bf69

Galbraith, D., Malhi, Y. and Castanho, A.D.A. et al. (2013) The residence time of woody biomass in tropical forests. Plant Ecology & Diversity, 6 (1), 139-157. (doi:10.1080/17550874.2013.770578).

Record type: Article

Abstract

Background
The woody biomass residence time (?w) of an ecosystem is an important variable for accurately simulating its biomass stocks.

Methods and results
We reviewed published data from 177 forest plots across the tropics and found a six-fold variation (23–129 years) in ?w across our dataset, with a median ?w of ca. 50 years. This value is similar to the median default value across 21 vegetation models for tropical forests, although the range of values used in models is large (20 to 200 years).

Conclusions
The notion of a constant ?w across all tropical forests may be of limited utility, given the large observed variation in ?w. We found that while there was little relationship between climate variables and ?w, there was evidence that edaphic factors exerted a strong influence on ?w. In both the Neotropics and the Paleotropics, ?w was highest in heavily weathered soils, suggesting that low soil fertility and/or non-limiting soil physical conditions exert a critical influence on ?w. There is considerable uncertainty in how ?w will be affected by global environmental change, especially by increased atmospheric CO2. Even small changes in ?w could significantly reduce the future tropical forest carbon sink predicted by many vegetation models.

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More information

Published date: 2013
Keywords: biomass, dynamic vegetation models, dvgms, ecosystem models, residence time, tropical forest
Organisations: Centre for Biological Sciences
Learn more about Biological Sciences research

Identifiers

Local EPrints ID: 352952
URI: http://eprints.soton.ac.uk/id/eprint/352952
DOI: doi:10.1080/17550874.2013.770578
ISSN: 1755-0874
PURE UUID: 085803a8-88a1-44e8-a1b8-d336962a3d9c
ORCID for K.S.-H. Peh: ORCID iD orcid.org/0000-0002-2921-1341

Catalogue record

Date deposited: 21 May 2013 15:20
Last modified: 15 Mar 2024 03:44

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Contributors

Author: D. Galbraith
Author: Y. Malhi
Author: A.D.A. Castanho
Author: C.A. Quesada
Author: C.E. Doughty
Author: K.S.-H. Peh ORCID iD
Author: K. Affum-Baffoe
Author: S. Lewis
Author: B. Sonké
Author: O. Phillips
Author: R.A. Fisher
Author: J. Lloyd

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