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Trait-dependent declines of species following conversion of rain forest to oil palm plantations

Trait-dependent declines of species following conversion of rain forest to oil palm plantations
Trait-dependent declines of species following conversion of rain forest to oil palm plantations
Conversion of natural habitats to agriculture reduces species richness, particularly in highly diverse tropical regions, but its effects on species composition are less well-studied. The conversion of rain forest to oil palm is of particular conservation concern globally, and we examined how it affects the abundance of birds, beetles, and ants according to their local population size, body size, geographical range size, and feeding guild or trophic position. We re-analysed data from six published studies representing 487 species/genera to assess the relative importance of these traits in explaining changes in abundance following forest conversion. We found consistent patterns across all three taxa, with large-bodied, abundant forest species from higher trophic levels, declining most in abundance following conversion of forest to oil palm. Best-fitting models explained 39–66 % of the variation in abundance changes for the three taxa, and included all ecological traits that we considered. Across the three taxa, those few species found in oil palm tended to be small-bodied species, from lower trophic levels, that had low local abundances in forest. These species were often hyper-abundant in oil palm plantations. These results provide empirical evidence of consistent responses to land-use change among taxonomic groups in relation to ecological traits.
biodiversity, elaeis guineensis, malaysia, se asia, stable isotope
253-268
Senior, Michael J.M.
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Hamer, Keith C.
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Bottrell, Simon
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Edwards, David P.
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Fayle, Tom M.
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Lucey, Jennifer M.
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Mayhew, Peter J.
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Newton, Robert
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Peh, Kelvin S.-H.
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Sheldon, Frederick H.
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Stewart, Christopher
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Styring, Alison R.
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Thom, Michael D.F.
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Woodcock, Paul
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Hill, Jane K.
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Senior, Michael J.M.
129daca6-abde-4bef-91aa-455b7fb0c205
Hamer, Keith C.
2f2a9250-af35-489e-b9a2-4ae1510af824
Bottrell, Simon
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Edwards, David P.
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Fayle, Tom M.
a4b1b9e4-5023-4460-9b22-167ab3b042dd
Lucey, Jennifer M.
ab249a56-5a46-463c-9c03-688f324799c0
Mayhew, Peter J.
71f0aad5-43ad-4638-8d5b-47a0e76b9c31
Newton, Robert
4a2c2a99-b7ad-4373-8840-96fbb5b5313e
Peh, Kelvin S.-H.
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Sheldon, Frederick H.
ccce4be6-86f9-45b4-90e8-f26e9eb022f1
Stewart, Christopher
a17d5522-1400-4d2c-9ab8-b3a19abbadfb
Styring, Alison R.
3cb810ad-4b5d-47f7-a119-2fed2052d5c6
Thom, Michael D.F.
b1804ae5-35f0-4810-8fe7-147720324fa4
Woodcock, Paul
1e7c316a-163e-4bfe-8abb-05e223cc4b6e
Hill, Jane K.
e283ace1-8a5f-4232-a129-50eda7867aba

Senior, Michael J.M., Hamer, Keith C., Bottrell, Simon, Edwards, David P., Fayle, Tom M., Lucey, Jennifer M., Mayhew, Peter J., Newton, Robert, Peh, Kelvin S.-H., Sheldon, Frederick H., Stewart, Christopher, Styring, Alison R., Thom, Michael D.F., Woodcock, Paul and Hill, Jane K. (2013) Trait-dependent declines of species following conversion of rain forest to oil palm plantations. Biodiversity and Conservation, 22 (1), 253-268. (doi:10.1007/s10531-012-0419-7).

Record type: Article

Abstract

Conversion of natural habitats to agriculture reduces species richness, particularly in highly diverse tropical regions, but its effects on species composition are less well-studied. The conversion of rain forest to oil palm is of particular conservation concern globally, and we examined how it affects the abundance of birds, beetles, and ants according to their local population size, body size, geographical range size, and feeding guild or trophic position. We re-analysed data from six published studies representing 487 species/genera to assess the relative importance of these traits in explaining changes in abundance following forest conversion. We found consistent patterns across all three taxa, with large-bodied, abundant forest species from higher trophic levels, declining most in abundance following conversion of forest to oil palm. Best-fitting models explained 39–66 % of the variation in abundance changes for the three taxa, and included all ecological traits that we considered. Across the three taxa, those few species found in oil palm tended to be small-bodied species, from lower trophic levels, that had low local abundances in forest. These species were often hyper-abundant in oil palm plantations. These results provide empirical evidence of consistent responses to land-use change among taxonomic groups in relation to ecological traits.

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More information

Published date: January 2013
Keywords: biodiversity, elaeis guineensis, malaysia, se asia, stable isotope
Organisations: Centre for Biological Sciences

Identifiers

Local EPrints ID: 352957
URI: http://eprints.soton.ac.uk/id/eprint/352957
PURE UUID: d9501d63-2201-4215-a07f-96e9f5e45a2e
ORCID for Kelvin S.-H. Peh: ORCID iD orcid.org/0000-0002-2921-1341

Catalogue record

Date deposited: 21 May 2013 15:54
Last modified: 15 Mar 2024 03:44

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Contributors

Author: Michael J.M. Senior
Author: Keith C. Hamer
Author: Simon Bottrell
Author: David P. Edwards
Author: Tom M. Fayle
Author: Jennifer M. Lucey
Author: Peter J. Mayhew
Author: Robert Newton
Author: Frederick H. Sheldon
Author: Christopher Stewart
Author: Alison R. Styring
Author: Michael D.F. Thom
Author: Paul Woodcock
Author: Jane K. Hill

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