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Removing understory vegetation in oil palm agroforestry reduces ground-foraging ant abundance but not species richness

Removing understory vegetation in oil palm agroforestry reduces ground-foraging ant abundance but not species richness
Removing understory vegetation in oil palm agroforestry reduces ground-foraging ant abundance but not species richness
Ants are known to provide valuable ecosystem services in agricultural landscapes, including oil palm plantations. Their communities are less diverse and more uneven in oil palm compared with forest, and this may increase their vulnerability to disturbance. This study quantifies ant communities in oil palm agroforestry and experimentally tests their robustness to a common-practice high-disturbance management intervention: removing understory vegetation. Fieldwork was based at the Biodiversity and Ecosystem Function in Tropical Agriculture (BEFTA) Understory Vegetation Project in Sumatra, Indonesia, where three treatments varying in their degree of understory vegetation management were established in 2014: (1) widespread herbicide was applied removing all understory vegetation (Reduced); (2) herbicide was applied to the harvesting paths and circles, and other vegetation was allowed to grow (Normal – control); (3) no herbicide was applied (Enhanced). We measured ground-foraging ant communities before and after the treatments were implemented, using pitfall traps over 324 trap-nights (a trap-night is one trap set for one night). We investigated how ant abundance, species richness, species evenness, beta diversity, and community composition differed between the treatments. We found 3507 ants across 68 species or morphospecies. Seven of these were highly abundant and accounted for 78% of individuals. Post-treatment ant abundance was lower in the reduced treatment (mean per plot: 84) than in the normal (159) and enhanced (131) treatments, which did not differ from each other. Species richness, species evenness, beta diversity and community composition were not affected by the vegetation treatments. We recommend that oil palm growers maintain understory vegetation in oil palm plantations to support ground-foraging ants. Though not tested here, this may also improve ant-mediated ecosystem services, such as pest control, seed dispersal, nutrient redistribution, and the maintenance of soil health. This study demonstrates that enhancing habitat complexity through management practices can support biodiversity in monocrop landscapes.
DRYAD
Hood, Amelia S.C.
06c8306f-3fa3-4e72-aa67-23622fe47d28
Advento, Andreas D.
cb71d4dc-efdc-4fdd-ab6a-b4fb7a671f44
Stone, Jake
fa60ff48-ce07-4d53-9769-c3145c579e43
Fayle, Tom M.
a4b1b9e4-5023-4460-9b22-167ab3b042dd
Fairnie, Alice L.M.
d56c4f1d-0b70-4ddd-a2d9-74ff1a8429ed
Waters, Helen S.
499b0c83-da6c-4d34-b844-f4ad47f5204f
Foster, William A.
0fe0fa5f-eda5-407f-a34a-6a86997132fb
Snaddon, Jake L.
31a601f7-c9b0-45e2-b59b-fda9a0c5a54b
Ps, Sudharto
0c150415-2ba4-4036-a560-c756d48d8210
Caliman, Jean-Pierre
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Naim, Mohammad
521dea1e-e7e4-4fd5-b9d6-3b739e44dbbb
Turner, Edgar C.
86ffbf07-8cab-414f-9cbf-b95e8d860296
Hood, Amelia S.C.
06c8306f-3fa3-4e72-aa67-23622fe47d28
Advento, Andreas D.
cb71d4dc-efdc-4fdd-ab6a-b4fb7a671f44
Stone, Jake
fa60ff48-ce07-4d53-9769-c3145c579e43
Fayle, Tom M.
a4b1b9e4-5023-4460-9b22-167ab3b042dd
Fairnie, Alice L.M.
d56c4f1d-0b70-4ddd-a2d9-74ff1a8429ed
Waters, Helen S.
499b0c83-da6c-4d34-b844-f4ad47f5204f
Foster, William A.
0fe0fa5f-eda5-407f-a34a-6a86997132fb
Snaddon, Jake L.
31a601f7-c9b0-45e2-b59b-fda9a0c5a54b
Ps, Sudharto
0c150415-2ba4-4036-a560-c756d48d8210
Caliman, Jean-Pierre
611617e0-ae95-41c3-9d0a-d69aa0bf6dff
Naim, Mohammad
521dea1e-e7e4-4fd5-b9d6-3b739e44dbbb
Turner, Edgar C.
86ffbf07-8cab-414f-9cbf-b95e8d860296

(2022) Removing understory vegetation in oil palm agroforestry reduces ground-foraging ant abundance but not species richness. DRYAD doi:10.5061/dryad.zcrjdfnf2 [Dataset]

Record type: Dataset

Abstract

Ants are known to provide valuable ecosystem services in agricultural landscapes, including oil palm plantations. Their communities are less diverse and more uneven in oil palm compared with forest, and this may increase their vulnerability to disturbance. This study quantifies ant communities in oil palm agroforestry and experimentally tests their robustness to a common-practice high-disturbance management intervention: removing understory vegetation. Fieldwork was based at the Biodiversity and Ecosystem Function in Tropical Agriculture (BEFTA) Understory Vegetation Project in Sumatra, Indonesia, where three treatments varying in their degree of understory vegetation management were established in 2014: (1) widespread herbicide was applied removing all understory vegetation (Reduced); (2) herbicide was applied to the harvesting paths and circles, and other vegetation was allowed to grow (Normal – control); (3) no herbicide was applied (Enhanced). We measured ground-foraging ant communities before and after the treatments were implemented, using pitfall traps over 324 trap-nights (a trap-night is one trap set for one night). We investigated how ant abundance, species richness, species evenness, beta diversity, and community composition differed between the treatments. We found 3507 ants across 68 species or morphospecies. Seven of these were highly abundant and accounted for 78% of individuals. Post-treatment ant abundance was lower in the reduced treatment (mean per plot: 84) than in the normal (159) and enhanced (131) treatments, which did not differ from each other. Species richness, species evenness, beta diversity and community composition were not affected by the vegetation treatments. We recommend that oil palm growers maintain understory vegetation in oil palm plantations to support ground-foraging ants. Though not tested here, this may also improve ant-mediated ecosystem services, such as pest control, seed dispersal, nutrient redistribution, and the maintenance of soil health. This study demonstrates that enhancing habitat complexity through management practices can support biodiversity in monocrop landscapes.

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Published date: 2022
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Identifiers

Local EPrints ID: 457337
URI: http://eprints.soton.ac.uk/id/eprint/457337
DOI: doi:10.5061/dryad.zcrjdfnf2
PURE UUID: 53930d48-e3c2-4e43-8a1c-ac37ff87d111
ORCID for Jake L. Snaddon: ORCID iD orcid.org/0000-0003-3549-5472

Catalogue record

Date deposited: 01 Jun 2022 16:42
Last modified: 06 May 2023 01:49

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Contributors

Contributor: Amelia S.C. Hood
Contributor: Andreas D. Advento
Contributor: Jake Stone
Contributor: Tom M. Fayle
Contributor: Alice L.M. Fairnie
Contributor: Helen S. Waters
Contributor: William A. Foster
Contributor: Jake L. Snaddon ORCID iD
Contributor: Sudharto Ps
Contributor: Jean-Pierre Caliman
Contributor: Mohammad Naim
Contributor: Edgar C. Turner

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