Diversity and composition of arboreal beetle assemblages in tropical pasture afforestations: Effects of planting schemes and tree species identity

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Diversity and composition of arboreal beetle assemblages in tropical pasture afforestations: Effects of planting schemes and tree species identity. / Plath, Mirco; Dorn, Silvia; Barrios, Hector et al.
in: Biodiversity and Conservation, Jahrgang 21, Nr. 13, 12.2012, S. 3423-3444.

Publikation: Beiträge in ZeitschriftenZeitschriftenaufsätzeForschungbegutachtet

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@article{2ec5346f999d4126a68735671c5e33b0,
title = "Diversity and composition of arboreal beetle assemblages in tropical pasture afforestations: Effects of planting schemes and tree species identity",
abstract = "Timber tree plantations are considered for rehabilitating forest biodiversity in the tropics, but knowledge on determinants of faunal diversity patterns in such human-modified forest landscapes is scarce. We quantified the composition of beetle assemblages on three native timber species (Anacardium excelsum, Cedrela odorata and Tabebuia rosea) planted on former pasture to assess effects of tree species identity, tree species diversity, and insecticide treatment on a speciose group of animals in tropical plantations. The beetle assemblage parameters 'abundance', 'species richness', 'Chao1 estimated species richness' and 'Shannon diversity' were significantly reduced by insecticide treatment for each tree species. Shannon diversity increased with stand diversification for T. rosea but not for A. excelsum and C. odorata. Species similarity was highest (lowest species turnover) between beetle assemblages on T. rosea, and it was lowest (highest species turnover) for assemblages on insecticide-treated trees of all timber species. Considering trophic guilds, herbivorous beetles dominated on all tree species and in all planting schemes. Herbivores were significantly more dominant on T. rosea and C. odorata than on A. excelsum, suggesting that tree species identity affects beetle guild structure on plantation trees. Insecticide-treated stands harbored less herbivores than untreated stands, but exhibited a high abundance of predator beetle species. Our study revealed that even young pasture-afforestations can host diverse beetle assemblages and thus contribute to biodiversity conservation in the tropics. The magnitude of this contribution, however, may strongly depend on management measures and on the selected tree species.",
keywords = "Ecosystems Research, Canopy arthropods, Community structure, Habitat heterogeneity, Insect diversity, Reforestation, Tourist species",
author = "Mirco Plath and Silvia Dorn and Hector Barrios and Karsten Mody",
year = "2012",
month = dec,
doi = "10.1007/s10531-012-0372-5",
language = "English",
volume = "21",
pages = "3423--3444",
journal = "Biodiversity and Conservation",
issn = "0960-3115",
publisher = "Springer Netherlands",
number = "13",

}

RIS

TY - JOUR

T1 - Diversity and composition of arboreal beetle assemblages in tropical pasture afforestations

T2 - Effects of planting schemes and tree species identity

AU - Plath, Mirco

AU - Dorn, Silvia

AU - Barrios, Hector

AU - Mody, Karsten

PY - 2012/12

Y1 - 2012/12

N2 - Timber tree plantations are considered for rehabilitating forest biodiversity in the tropics, but knowledge on determinants of faunal diversity patterns in such human-modified forest landscapes is scarce. We quantified the composition of beetle assemblages on three native timber species (Anacardium excelsum, Cedrela odorata and Tabebuia rosea) planted on former pasture to assess effects of tree species identity, tree species diversity, and insecticide treatment on a speciose group of animals in tropical plantations. The beetle assemblage parameters 'abundance', 'species richness', 'Chao1 estimated species richness' and 'Shannon diversity' were significantly reduced by insecticide treatment for each tree species. Shannon diversity increased with stand diversification for T. rosea but not for A. excelsum and C. odorata. Species similarity was highest (lowest species turnover) between beetle assemblages on T. rosea, and it was lowest (highest species turnover) for assemblages on insecticide-treated trees of all timber species. Considering trophic guilds, herbivorous beetles dominated on all tree species and in all planting schemes. Herbivores were significantly more dominant on T. rosea and C. odorata than on A. excelsum, suggesting that tree species identity affects beetle guild structure on plantation trees. Insecticide-treated stands harbored less herbivores than untreated stands, but exhibited a high abundance of predator beetle species. Our study revealed that even young pasture-afforestations can host diverse beetle assemblages and thus contribute to biodiversity conservation in the tropics. The magnitude of this contribution, however, may strongly depend on management measures and on the selected tree species.

AB - Timber tree plantations are considered for rehabilitating forest biodiversity in the tropics, but knowledge on determinants of faunal diversity patterns in such human-modified forest landscapes is scarce. We quantified the composition of beetle assemblages on three native timber species (Anacardium excelsum, Cedrela odorata and Tabebuia rosea) planted on former pasture to assess effects of tree species identity, tree species diversity, and insecticide treatment on a speciose group of animals in tropical plantations. The beetle assemblage parameters 'abundance', 'species richness', 'Chao1 estimated species richness' and 'Shannon diversity' were significantly reduced by insecticide treatment for each tree species. Shannon diversity increased with stand diversification for T. rosea but not for A. excelsum and C. odorata. Species similarity was highest (lowest species turnover) between beetle assemblages on T. rosea, and it was lowest (highest species turnover) for assemblages on insecticide-treated trees of all timber species. Considering trophic guilds, herbivorous beetles dominated on all tree species and in all planting schemes. Herbivores were significantly more dominant on T. rosea and C. odorata than on A. excelsum, suggesting that tree species identity affects beetle guild structure on plantation trees. Insecticide-treated stands harbored less herbivores than untreated stands, but exhibited a high abundance of predator beetle species. Our study revealed that even young pasture-afforestations can host diverse beetle assemblages and thus contribute to biodiversity conservation in the tropics. The magnitude of this contribution, however, may strongly depend on management measures and on the selected tree species.

KW - Ecosystems Research

KW - Canopy arthropods

KW - Community structure

KW - Habitat heterogeneity

KW - Insect diversity

KW - Reforestation

KW - Tourist species

UR - http://www.scopus.com/inward/record.url?scp=84868520777&partnerID=8YFLogxK

U2 - 10.1007/s10531-012-0372-5

DO - 10.1007/s10531-012-0372-5

M3 - Journal articles

AN - SCOPUS:84868520777

VL - 21

SP - 3423

EP - 3444

JO - Biodiversity and Conservation

JF - Biodiversity and Conservation

SN - 0960-3115

IS - 13

ER -

DOI