Simplifying understory complexity in oil palm plantations is associated with a reduction in the density of a cleptoparasitic spider, Argyrodes miniaceus (Araneae: Theridiidae), in host (Araneae: Nephilinae) webs
Simplifying understory complexity in oil palm plantations is associated with a reduction in the density of a cleptoparasitic spider, Argyrodes miniaceus (Araneae: Theridiidae), in host (Araneae: Nephilinae) webs
Expansion of oil palm agriculture is currently one of the main drivers of habitat modification in Southeast Asia. Habitat modification can have significant effects on biodiversity, ecosystem function, and interactions between species by altering species abundances or the available resources in an ecosystem. Increasing complexity within modified habitats has the potential to maintain biodiversity and preserve species interactions. We investigated trophic interactions between Argyrodes miniaceus, a cleptoparasitic spider, and its Nephila spp. spider hosts in mature oil palm plantations in Sumatra, Indonesia. A. miniaceus co-occupy the webs of Nephila spp. females and survive by stealing prey items caught in the web. We examined the effects of experimentally manipulated understory vegetation complexity on the density and abundance of A. miniaceus in Nephila spp. webs. Experimental understory treatments included enhanced complexity, standard complexity, and reduced complexity understory vegetation, which had been established as part of the ongoing Biodiversity and Ecosystem Function in Tropical Agriculture (BEFTA) Project. A. miniaceus density ranged from 14.4 to 31.4 spiders per square meter of web, with significantly lower densities found in reduced vegetation complexity treatments compared with both enhanced and standard treatment plots. A. miniaceus abundance per plot was also significantly lower in reduced complexity than in standard and enhanced complexity plots. Synthesis and applications: Maintenance of understory vegetation complexity contributes to the preservation of spider host–cleptoparasite relationships in oil palm plantations. Understory structural complexity in these simplified agroecosystems therefore helps to support abundant spider populations, a functionally important taxon in agricultural landscapes. In addition, management for more structurally complex agricultural habitats can support more complex trophic interactions in tropical agroecosystems.
1595–1603
Spear, Dakota
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Foster, William
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Advento, Andreas
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Naim, Mohammad
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Caliman, Jean-Pierre
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Luke, Sarah
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Snaddon, Jake
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Ps, Sudharto
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Turner, Edgar C.
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February 2018
Spear, Dakota
533d2833-53e7-4d6f-9ed5-4c3b606205b1
Foster, William
0fe0fa5f-eda5-407f-a34a-6a86997132fb
Advento, Andreas
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Naim, Mohammad
521dea1e-e7e4-4fd5-b9d6-3b739e44dbbb
Caliman, Jean-Pierre
6fbb20ad-77e7-4ec6-b162-dfaa78e1780c
Luke, Sarah
8dfac021-6087-49d0-96f0-c0871a20b4e1
Snaddon, Jake
31a601f7-c9b0-45e2-b59b-fda9a0c5a54b
Ps, Sudharto
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Turner, Edgar C.
86ffbf07-8cab-414f-9cbf-b95e8d860296
Spear, Dakota, Foster, William, Advento, Andreas, Naim, Mohammad, Caliman, Jean-Pierre, Luke, Sarah, Snaddon, Jake, Ps, Sudharto and Turner, Edgar C.
(2018)
Simplifying understory complexity in oil palm plantations is associated with a reduction in the density of a cleptoparasitic spider, Argyrodes miniaceus (Araneae: Theridiidae), in host (Araneae: Nephilinae) webs.
Ecology and Evolution, 8 (3), .
(doi:10.1002/ece3.3772).
Abstract
Expansion of oil palm agriculture is currently one of the main drivers of habitat modification in Southeast Asia. Habitat modification can have significant effects on biodiversity, ecosystem function, and interactions between species by altering species abundances or the available resources in an ecosystem. Increasing complexity within modified habitats has the potential to maintain biodiversity and preserve species interactions. We investigated trophic interactions between Argyrodes miniaceus, a cleptoparasitic spider, and its Nephila spp. spider hosts in mature oil palm plantations in Sumatra, Indonesia. A. miniaceus co-occupy the webs of Nephila spp. females and survive by stealing prey items caught in the web. We examined the effects of experimentally manipulated understory vegetation complexity on the density and abundance of A. miniaceus in Nephila spp. webs. Experimental understory treatments included enhanced complexity, standard complexity, and reduced complexity understory vegetation, which had been established as part of the ongoing Biodiversity and Ecosystem Function in Tropical Agriculture (BEFTA) Project. A. miniaceus density ranged from 14.4 to 31.4 spiders per square meter of web, with significantly lower densities found in reduced vegetation complexity treatments compared with both enhanced and standard treatment plots. A. miniaceus abundance per plot was also significantly lower in reduced complexity than in standard and enhanced complexity plots. Synthesis and applications: Maintenance of understory vegetation complexity contributes to the preservation of spider host–cleptoparasite relationships in oil palm plantations. Understory structural complexity in these simplified agroecosystems therefore helps to support abundant spider populations, a functionally important taxon in agricultural landscapes. In addition, management for more structurally complex agricultural habitats can support more complex trophic interactions in tropical agroecosystems.
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ece33772
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Submitted date: 24 October 2017
Accepted/In Press date: 6 December 2017
e-pub ahead of print date: 3 January 2018
Published date: February 2018
Identifiers
Local EPrints ID: 416664
URI: http://eprints.soton.ac.uk/id/eprint/416664
ISSN: 2045-7758
PURE UUID: 8ced7562-f664-43a4-ba76-c9ace1349ad7
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Date deposited: 04 Jan 2018 17:30
Last modified: 16 Mar 2024 04:17
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Contributors
Author:
Dakota Spear
Author:
William Foster
Author:
Andreas Advento
Author:
Mohammad Naim
Author:
Jean-Pierre Caliman
Author:
Sarah Luke
Author:
Sudharto Ps
Author:
Edgar C. Turner
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