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The impact of forest conversion to oil palm on arthropod abundance and biomass in Sabah, Malaysia

Published online by Cambridge University Press:  01 January 2009

Edgar C. Turner  and
William A. Foster
Edgar C. Turner*
Affiliation:
Insect Ecology Group, University Museum of Zoology, Downing Street, Cambridge CB2 3EJ, UK
William A. Foster
Affiliation:
Insect Ecology Group, University Museum of Zoology, Downing Street, Cambridge CB2 3EJ, UK
*
1Corresponding author. Email: ect23@cam.ac.uk
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Abstract:

Deforestation rates in South-East Asia are among the highest of any tropical region, with expansion of oil palm being one important factor. Despite this, few studies have investigated the impact of oil palm expansion on the arthropod fauna. We report here the first study on the impact of forest conversion to oil palm on overall arthropod abundance, biomass and composition. We compared arthropod abundance and biomass, collected from epiphytic bird's nest ferns, the canopy, and leaf litter between primary forest, logged forest and oil palm plantation. Epiphytes, canopy and litter all contained a lower abundance (epiphytes: 67.2%, canopy: 2.3% and litter: 77.1% reduction) and biomass (epiphytes: 87.5%, canopy: 37.9% and litter: 72.4% reduction) of arthropods in oil palm compared with primary forest. However, not all orders of arthropods showed the same level of decline, with some groups having higher abundance and biomass in oil palm, resulting in an altered community composition in the epiphytes and canopy in oil palm compared with forest. Our results show that forest conversion to oil palm impacts detrimentally on invertebrates in all compartments of the forest ecosystem.

Keywords

Asplenium nidusbird's nest ferndeforestationElaeis guineensislogging
Type
Research Article
Information
Journal of Tropical Ecology , Volume 25 , Issue 1 , January 2009 , pp. 23 - 30
Copyright
Copyright © Cambridge University Press 2008

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References

LITERATURE CITED

ARATRAKORN, S., THUNHIKORN, S. & DONALD, P. F. 2006. Changes in bird communities following conversion of lowland forest to oil palm and rubber plantations in southern Thailand. Bird Conservation International 16:7182.CrossRefGoogle Scholar
BASIRON, Y. 2007. Palm oil production through sustainable plantations. European Journal of Lipid Science Technology 109:289295.CrossRefGoogle Scholar
BASSET, Y., ABERLENC, H., BARRIOS, H., CURLETTI, G., BÉRENGER, J., VESCO, J., CAUSSE, P., HAUG, A., HENNION, A., LESOBRE, L., MARQUEÁS, F. & O'MEARA, R. 2001. Stratification and diel activity of arthropods in a lowland rainforest in Gabon. Biological Journal of the Linnean Society 72:585607.CrossRefGoogle Scholar
CHANG, M. S., HII, J., BUTTNER, P. & MANSOOR, F. 1997. Changes in abundance and behaviour of vector mosquitoes induced by land use during the development of an oil palm plantation in Sarawak. Transactions of the Royal Society of Tropical Medicine and Hygiene 91:382386.CrossRefGoogle ScholarPubMed
CHEY, V. K. 2006. Impacts of forest conversion on biodiversity as indicated by moths. Malayan Nature Journal 57:383418.Google Scholar
CHUNG, A. Y. C., EGGLETON, P., SPEIGHT, M. R., HAMMOND, P. M. & CHEY, V.K. 2000a. The diversity of beetle assemblages in different habitat types in Sabah, Malaysia. Bulletin of Entomological Research 90:475496.CrossRefGoogle ScholarPubMed
CHUNG, A. Y. C., HAMMOND, P. M., EGGLETON, P., SPEIGHT, M. R. & CHEY, V. K. 2000b. A general survey of the Staphylinidae (Insecta: Coleoptera) assemblage in Sabah, Malaysia. Malayan Nature Journal 54:355368.Google Scholar
COSTA, J. T. & CROSSLEY, D. A. 1991. Diel patterns of canopy arthropods associated with three tree species. Environmental Entomology 20:15421548.CrossRefGoogle Scholar
DAVIS, A. L. V. & PHILIPS, T. K. 2005. Effect of deforestation on a Southwest Ghana Dung Beetle Assemblage (Coleoptera: Scarabaeidae) at the periphery of Ankasa Conservation area. Community and Ecosystem Ecology 34:10811088.Google Scholar
ELLWOOD, M. D. F. & FOSTER, W. A. 2004. Doubling the estimate of arthropod biomass in a rainforest canopy. Nature 429:549551.CrossRefGoogle Scholar
ELLWOOD, M. D. F., JONES, D. T. & FOSTER, W. A. 2002. Canopy ferns in lowland Dipterocarp forest support a prolific abundance of ants, termites, and other arthropods. Biotropica 34:575583.CrossRefGoogle Scholar
FITTKAU, E. J. & KLINGE, H. 1973. On biomass and trophic structure of a central Amazonian rain forest ecosystem. Biotropica 5:214.CrossRefGoogle Scholar
FITZHERBERT, E. B., STRUEBIG, M. J., MOREL, A., DANIELSEN, F., BRÜHL, C. A., DONALD, P. F. & PHALAN, B. 2008. How will oil palm expansion affect biodiversity? Trends in Ecology and Evolution 23:538545.CrossRefGoogle ScholarPubMed
FOX, J. E. D. 1978. The natural vegetation of Sabah, Malaysia. 1. The physical environment and classification. Tropical Ecology 19:218239.Google Scholar
FREIBERG, M. 2001. The influence of epiphyte cover on branch temperature in a tropical tree. Plant Ecology 153:241250.CrossRefGoogle Scholar
GREEN, R. E., CORNELL, S. J., SCHARLEMANN, J. P. W. & BALMFORD, A. 2005. Farming and the fate of wild nature. Science 307:550555.CrossRefGoogle ScholarPubMed
HASSALL, M., JONES, D. T., TAITI, S., LATIPI, Z., SUTTON, S. L. & MOHAMMED, M. 2006. Biodiversity and abundance of terrestrial isopods along a gradient of disturbance in Sabah, East Malaysia. European Journal of Soil Biology 42:197207.CrossRefGoogle Scholar
HOLTTUM, R. E. 1966. Flora of Malaya 2: ferns. (Second edition). Government Printing Office, Singapore. 419 pp.Google Scholar
KABAKOV, O. N. 1967. Coleoptera living in epiphytic plants in the tropical forest of Vietnam. Entomological Reviews 46:691698.Google Scholar
KARASAWA, S. & HIJII, N. 2006. Effects of distribution and structural traits of bird's nest ferns (Asplenium nidus) on orabatid (Acari: Orabatida) communities in a subtropical Japanese forest. Journal of Tropical Ecology 22:213222.CrossRefGoogle Scholar
LEMMON, P. 1957. A new instrument for measuring forest overstory density. Journal of Forestry 55:667669.Google Scholar
LIOW, L. H., SODHI, N. S. & ELMQVIST, T. 2001. Bee diversity along a disturbance gradient in tropical lowland forests of South-East Asia. Journal of Applied Ecology 38:180192.CrossRefGoogle Scholar
MARIAU, D., DESMIER DE CHENON, R. & SUDHARTO, P. S. 1991. Oil palm pests and their enemies in Southeast Asia. Oléagineux 46:399476.Google Scholar
MARSH, C. W. & GREER, A. G. 1992. Forest land-use in Sabah, Malaysia – an introduction to Danum Valley. Philosophical Transactions of the Royal Society of London, Series B Biological Sciences 335:331339.Google Scholar
MAYFIELD, M. M. 2005. The importance of nearby forest to known and potential pollinators of oil palm (Elaeis guineensis Jacq.; Arecaceae) in southern Costa Rica. Economic Botany 59:190196.CrossRefGoogle Scholar
MCMORROW, J. & TALIP, M. A. 2001. Decline of forest area in Sabah, Malaysia: relationship to state policies, land code and land capability. Global Environmental Change 11:217230.CrossRefGoogle Scholar
NADARAJAH, P. & NAWAWI, A. 1993. Mycorrhizal status of epiphytes in Malaysian oil palm plantations. Mycorrhiza 4:2125.CrossRefGoogle Scholar
NADKARNI, N. M. & LONGINO, J. T. 1990. Arthropods in canopy and ground organic-matter in a neotropical montane forest, Costa-Rica. Biotropica 22:286289.CrossRefGoogle Scholar
PAOLETTI, M. G., Taylor, R. A. J., STINNER, B. R. & BENZING, D. H. 1991. Diversity of soil fauna in the canopy and forest floor of a Venezuelan cloud forest. Journal of Tropical Ecology 7:373383.CrossRefGoogle Scholar
PEH, K. S.-H., SODHI, N. S., DE JONG, J., SEKERCIOGLU, C. H., YAP, C. A.-M. & LIM, S. L.-H. 2006. Conservation value of degraded habitats for forest birds in southern Peninsular Malaysia. Diversity and Distributions 12:572581.CrossRefGoogle Scholar
PFEIFFER, M., HO, C. T. & TEH, C. L. 2008. Exploring arboreal ant community compostion and co-occurrence patterns in plantations of oil palm Elaeis guineenisis in Borneo and Peninsula Malaysia. Ecography 31:2132.CrossRefGoogle Scholar
PIGGOTT, A. G. 1996. Ferns of Malaysia in colour. Tropical Press Sdn Bhd Kuala Lumpur, Malaysia. 267 pp.Google Scholar
RICHARDSON, B. A. 1999. The bromeliad microcosm and the assessment of faunal diversity in a Neotropical forest. Biotropica 31:321336.CrossRefGoogle Scholar
SAMWAYS, M. J. 2005. Insect diversity conservation. Cambridge University Press, Cambridge. 39 pp.CrossRefGoogle Scholar
SCHOENER, T. W. 1980. Length-weight regressions in tropical and temperate forest-understory insects. Annals of the Entomological Society of America 73: 106109.CrossRefGoogle Scholar
SERGEEVA, T. K., KHOLOPOVA, L. B., TEN, N. T. & THU, N. S. 1989. Animal populace and properties of “perched soils” of the tropical epiphyte Asplenium nidus L. Soviet Journal of Ecology 20:284293.Google Scholar
SODHI, N. S., KOH, L. P., BROOK, B. W. & NG, P. K. L. 2004. Southeast Asian biodiversity: an impending disaster. Trends in Ecology and Evolution 19:654660.CrossRefGoogle ScholarPubMed
STUNTZ, S., ZIEGLER, C., SIMON, U. & ZOTZ, G. 2002. Diversity and structure of the arthropod fauna within three canopy epiphyte species in central Panama. Journal of Tropical Ecology 18:161176.CrossRefGoogle Scholar
TEO, L. 2000. Mechanisation in oil palm plantations: achievements and challenges. Malaysian Oil Science and Technology 11:7077.Google Scholar
TURNER, E. C. & FOSTER, W. A. 2006. Assessing the influence of bird's nest ferns (Asplenium spp.) on the local microclimate across a range of habitat disturbances in Sabah, Malaysia. Selbyana 27:195200.Google Scholar
TURNER, E. C., SNADDON, J. L., FAYLE, T. M. & FOSTER, W. A. 2008. Oil palm research in context: identifying the need for biodiversity assessment. PLoS ONE 3:14.CrossRefGoogle ScholarPubMed
WAHID, M. B., ABDULLAH, S. N. A. & HENSON, I. E. 2005. Oil palm- achievements and potential. Plant Production Science 8:288297.CrossRefGoogle Scholar
WALSH, R. P. D. & NEWBERY, D. M. 1999. The ecoclimatology of Danum, Sabah, in the context of the world's rainforest regions, with particular reference to dry periods and their impact. Philosophical Transactions of the Royal Society of London, Series B Biological Sciences 354:18691883.CrossRefGoogle ScholarPubMed
WALTER, D. E. & BEHAN-PELLETIER, V. 1999. Mites in forest canopies: filling the size-distribution shortfall? Annual Review of Entomology 44:119.CrossRefGoogle ScholarPubMed
WHITMORE, T. C. 1998. An introduction to tropical forests. Oxford University Press, Oxford. 141 pp.Google Scholar
YATABE, Y. & MURAKAMI, N. 2003. Recognition of cryptic species in the Asplenium nidus complex using molecular data – a progress report. Telopea 10:487496.CrossRefGoogle Scholar