Sains Malaysiana 50(8)(2021): 2153-2166

http://doi.org/10.17576/jsm-2021-5008-02

 

Microhabitats Utilization by Solitary Parasitoids and Predatory Insects as Indicators of Oil Palm Agroecosystem’s Capacity to Support Insect Species Diversity

(Penggunaan Mikrohabitat oleh Parasitoid Tunggal dan Serangga Pemangsa sebagai Penunjuk Kapasiti Agroekosistem Kelapa Sawit dalam Menyokong Kepelbagaian Spesies Serangga)

 

AHMAD BUKHARY, A.K.1*, RUSLAN, M.Y.2, NOOR HISHAM, H.3, MUZAMIL, M.4, ABU HASSAN, A.1 & IDRIS, A.B.2

 

1School of Biological Sciences, Universiti Sains Malaysia, 11800 USM Gelugor, Pulau Pinang, Malaysia

 

2Center for Insect Systematics, School of Environmental Sciences and Natural Resources, Faculty of Science and Technology, Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor Darul Ehsan, Malaysia

 

3FGV Innovation Centre, PT23417, Lengkuk Teknologi, 71760 Bandar Enstek, Negeri Sembilan Darul Khusus, Malaysia

 

4Universiti Teknologi MARA, Cawangan Pahang, Bandar Tun Abdul Razak, 26400 Jengka, Pahang Darul Makmur, Malaysia

 

Received: 23 June 2020/Accepted: 25 December 2020

 

ABSTRACT

Microhabitats capacity to support insect species diversity and persistence were evaluated implementing solitary parasitoids and predatory insects according to different phases of herbicide and chemical fertilizer applications. Two species of the genus Xanthopimpla (Ichneumonidae) and one species of the genus Pompilus (Pompilidae) showed relationships on vegetation-type microhabitats, notably natural weeds, leguminous cover crops, and the beneficial plant Turnera subulata, while two species of the genus Evania (Evaniidae) showed relationships with chipped oil palm trunks. One species from the genus Odontomachus (Formicidae) as an exclusive predatory ant was related to both chipped oil palm trunks and the beneficial plant T. subulata. Xanthopimpla parasitoids exhibited abundance fluctuations difference around natural weeds during herbicide application phases between three- and six-years old oil palm stands, with decreased and increased abundance patterns of the former and the latter, respectively. 18 years old oil palm stand showed increased abundance patterns only along with the different phases of chemical fertilizer applications. The importance of natural weeds diversity, restrictions of leguminous cover crops, frequency of herbicide applications, and the arrangements between beneficial plants and wood-based microhabitats that benefited insect parasitoids and predators were discussed.

Keywords: Microhabitats; oil palm; parasitoid; predator; utilization

 

ABSTRAK

Kapasiti mikrohabitat untuk menyokong kepelbagaian dan pengekalan spesies serangga telah dinilai dengan menggunakan parasitoid tunggal dan serangga pemangsa berdasarkan kepada fasa penggunaan racun rumpai dan baja kimia yang berbeza. Dua spesies daripada genus Xanthopimpla (Ichneumonidae) dan satu spesies daripada genus Pompilus (Pompilidae) menunjukkan perhubungan terhadap mikrohabitat berasaskan vegetasi, melibatkan rumpai liar, tanaman legum penutup bumi, serta tumbuhan bergunaTurnera subulata, manakala dua spesies daripada genus Evania (Evaniidae) menunjukkan perhubungan dengan batang kelapa sawit yang diracik. Satu spesies daripada genus Odontomachus (Formicidae) sebagai satu semut pemangsa khas berkait dengan batang kelapa sawit yang diracik dan tumbuhan bergunaT. subulata. Parasitoid Xanthopimpla menunjukkan perbezaan terhadap perubahan kelimpahan pada rumpai liar semasa penggunaan racun rumpai antara ladang kelapa sawit berumur tiga dan enam tahun, masing-masing dengan corak penurunan dan peningkatan kelimpahan. Ladang kelapa sawit berumur 18 tahun menunjukkan peningkatan corak kelimpahan hanya pada fasa penggunaan baja kimia yang berbeza. Kepentingan kepelbagaian rumpai liar, kekangan tanaman legum penutup bumi, kekerapan penggunaan racun rumpai dan susunan antara tumbuhan berguna dan mikrohabitat berasaskan kayuan yang memberikan manfaat kepada serangga parasitoid dan pemangsa dibincangkan.

Kata kunci: Kelapa sawit; mikrohabitat; parasitoid; pemangsa; penggunaan

 

REFERENCES

Abu Hassan, A. 2006. FELDA Final Report on the Control of Rhinoceros Beetles (Oryctes rhinoceros) (Scarabaeidae: Coleoptera) in a Zero Burning Replanted Oil Palm Area, Felda Plantation, Lepar Utara, Pahang D.M. 2003-2006. Yayasan FELDA.

Ahmad Bukhary, A.K., Mohd Fauzi, M.M., Ruslan, M.Y., Noor Hisham, H., Izfa Riza, H., Abu Hassan, A. & Idris, A.B. 2017a. Spatio-temporal dominant omnivorous ant-saproxylic beetle species interactions around epigeal-based microhabitats within different oil palm age stand types. Malayan Nature Journal 69(1): 19-30.

Ahmad Bukhary, A.K., Mohd Fauzi, M.M., Ruslan, M.Y., Noor Hisham, H., Mohd Yusri, M.N., Izfa Riza, H., Abu Hassan, A. & Idris, A.B. 2017b. Canopy versus epigeal beetle species differential diversity and feeding ecological characteristics employing light-based trapping methods across different oil palm age stand types. Serangga 22(1): 33-64.

Aratrakorn, S., Thunhikorn, S. & Donald, P. 2006. Changes in bird communities following conversion of lowland forest to oil palm and rubber plantations in southern Thailand. Bird Conservation International16: 71-82.

Azhar, B., Norzanalia, S., Puan, C.L., Norizah, K., Najjib, A., Siti, N. & Fischer, J. 2015. Promoting landscape heterogeneity to improve the biodiversity benefits of certified palm oil production: Evidence from Peninsular Malaysia. Global Ecology and Conservation 3: 553-561.

Azhar, B., Lindenmayer, D.B., Wood, J., Fischer, J., Manning, A., Mcelhinny, C.M. & Zakaria, M. 2011. The conservation value of oil palm plantation estates, smallholdings and logged peat swamp forest for birds. Forest Ecology and Management262: 2306-2315.

Bandung, S., Ali, N., Syafrida, M. & Damayanti, B. 2019. Patten of hymenopteran parasitoid community in oil palm plantations: Effects of age gradient or sampling methods? Advances in biological science research. In International Conference and the 10th Congress of the Entomological Society of Indonesia (ICCESI 2019) Bali, Indonesia. pp. 75-82.

Basri, M.W., Simon, S., Ravigadevi, S. & Othman, A. 1999. Beneficial plants for the natural enemies of the bagworm in oil palm plantations. In Proceedings of the 1999 PORIM International Palm Oil Congress - Emerging Technologies and Opportunities in the Next Millennium, Kuala Lumpur, Malaysia. pp. 441-455.

Beggs, J. 2001. The ecological consequences of social wasps (Vespula sp.) invading an ecosystem that has an abundant carbohydrate resource. Biological Conservation99: 17-28.

Bell, J.R., Wheater, C.P. & Cullen, W.R. 2001. The implications of grassland and heathland management for the conservation of spider communities: A review. Journal of Zoology 255: 377-387.

Bong, J.C.F., King, P.J.H., Ong, K.H. & Mahadi, N.M. 2012. Termite assemblages in oil palm plantation in Sarawak, Malaysia. Journal of Entomology 9(2): 68-78.

Borror, D.J. & White, R.E. 1970. Peterson Field Guide - Insects of North America. New York: Houghton Mifflin Company. p. 404.

Brühl, C.A. & Eltz, T. 2010. Fuelling the biodiversity crisis: Species loss of ground-dwelling forest ants in oil palm plantations in Sabah, Malaysia (Borneo). Biodiversity and Conservation 19: 519-529.

Chung, A.Y.C., Eggleton, P., Speight, M.R., Hammond, P.M. & Chey, V.K. 2000. The diversity of beetle assemblages in different habitat types in Sabah, Malaysia. Bulletin of Entomological Research 90: 475-496.

Churchill, T.B. 1997. Spiders as ecological indicators: An overview for Australia. Memoirs of Museum Victoria 56: 331-337.

Darmi, Budianta, D., Sabarudin & Ridho, M.R. 2015. Communities of ants (Hymenoptera: Formicidae) in peatland planted with oil palm stands of different age strata. Advances in Environmental Biology 9(3): 473-480.

Dodd, M. 2011. Where are my quadrats? Position accuracy in fieldwork. Methods in Ecology and Evolution2: 576-584.

Eberhardt, L.L. 1978. Transect methods for population studies. The Journal of Wildlife Management42: 1-31.

Edwards, D.P., Hodgson, J.A., Hamer, K.C., Mitchell, S.L., Ahmad, A.H., Cornell, S.J. & Wilcove, D.S. 2010. Wildlife-friendly oil palm plantations fail to protect biodiversity effectively. Conservation Letters3: 236-242.

Essandoh, P.K., Armah, F.A., Odoi, J.O., Yawson, D.O. & Afrifa, E.K.A. 2011. Floristic composition and abundance of weeds in an oil palm plantation in Ghana. ARPN Journal of Agricultural and Biological Sciences 6(1): 20-31.

Fayle, T.M., Turner, E.C., Snaddon, J.L., Chey, V.K., Chung, A.Y.C., Eggleton, P. & Foster, W.A. 2010. Oil palm expansion into rain forest greatly reduces ant biodiversity in canopy, epiphytes and leaf-litter. Basic and Applied Ecology11: 337-345.

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 & Evolution 23(10): 538-545.

Fowler, H.G. 1980. Populations, prey capture and sharing, and foraging of the Paraguayan ponerine Odontomachus chelifer latreille. Journal of Natural History14: 79-84.

Frost, C.M., Didham, R.K., Rand, T.A., Peralta, G. & Tylianakis, J.M. 2015. Community-level net spillover of natural enemies from managed to natural forest. Ecology96(1): 193-202.

Goulet, H. & Hubert, J.F. 1993. Hymenoptera of the World: An Identification Guide to Families. Ottawa: Canada Communication Group-Publishing. p. 668.

Hashimoto, Y. 2003. Identification guide to the ant genera of Borneo. In Inventory and Collection Total Protocol for Understanding of Biodiversity, edited by Hashimoto, Y. & Homathevi, R. Sabah: UMS Press. pp. 89-162.

Heap, M.A. 1988. The pit-light: A new trap for soil-dwelling insects. Australian Journal of Entomology 27: 239-240.

Heimpel, G.E. & Jervis, M.A. 2004. Does floral nectar improve biological control by parasitoids? In Plant-provided Food and Plant-carnivore Mutualism, edited by Wäckers, F., van Rijn, P. & Bruin, J. United Kingdom: Cambridge University Press.

Hébert, C., Jobin, L., Fréchette, M., Pelletier, G., Coulombe, C., Germain, C. & Auger, M. 2000. An efficient pit-light trap to study beetle diversity. Journal of Insect Conservation 4(3): 189-200.

Horn, S. & Hanula, J.L. 2002. Life history and habitat associations of the broad wood cockroach Parcoblatta lata (Blattaria: Blattellidae) and other native cockroaches in the Coastal Plain of South Carolina. Annals of the Entomological Society of America95(6): 665-671.

IBM Corp. 2016. IBM SPSS Statistics for Windows, Version 24.0. New York: IBM Corp.

Idris, A.B. & Kee, S.S. 2002. Horizontal and vertical diversity of Ichneumonid wasps (Hymenoptera: Ichneumonidae) in the Sungkai Wildlife Forest Reserve in Perak, Malaysia. Journal of Asia-Pacific Entomology 5: 85-89.

Idris, A.B. & Nor Zaneedarwaty, N. 2000. The abundance and diversity of Braconidae in different habitats of Peninsular Malaysia. Journal of Biosciences 11(1 & 2): 41-44.

Idris, A.B. & Grafius, E. 1995. Wildflowers as nectar sources for Diadegma insulare(Hymenoptera: Ichneumonidae), a parasitoid of Diamondback Moth (Lepidoptera: Yponomeutidae). Environmental Entomology 24(6): 1726-1735.

Idris, A.B., Hanidah, J., Gonzaga, A.D. & Nur Azura, A. 2003. Diversity, abundance, species composition and similarity of genus Xanthopimpla (Ichneumonidae: Pimplinae) in logged and fragmented forests of the Langat Basin in Selangor, Malaysia. Journal of Asia-Pacific Entomology 6(1): 1-8.

Idris, A.B., Gonzaga, A.D., Nor Zaneedarwaty, N., Hasnah, B.T. & Natasha, B.Y. 2001. Does habitat disturbances have adverse effects on the diversity of parasitoid community? Journal of Biological Sciences 1(11): 1040-1042.

Kalidas, P. 2012. Pest problems of oil palm and management strategies for sustainability. AgrotechnologyS11: 001.

Klassen, D.L. & Sharanowski, B.J. 2014. First records of ensign wasps (Hymenoptera: Evaniidae) and their cockroach host (Blattodea: Blatellidae) in Manitoba.  Proceedings of the Entomological Society of Manitoba 70: 11-14.

Krebs, C.J. 1999. Ecological Methodology. 2nd ed. California: Addison Wesley Longman Inc. p. 620.

Krell, F-T. 2004. Parataxonomy vs taxonomy in biodiversity studies - Pitfalls and applicability of ‘morfo-species’ sorting. Biodiversity and Conservation 13: 795-812.

Koh, L.P. 2008. Can oil palm plantations be made more hospitable for forest butterflies and birds? Journal of Applied Ecology 45: 1002-1009.

Koh, L.P. & Wilcove, D.S. 2008. Is oil palm agriculture really destroying tropical biodiversity? Conservation Letters 1(2): 60-64.

Koh, L.P. & Wilcove, D.S. 2007. Cashing in palm oil for conservation. Nature 448: 993-994.

Lewis, W.J., Stapel, J.O., Cortesero, A.M. & Takasu, K. 1998. Understanding how parasitoids balance food and host needs: importance to biological control. Biological Control11: 175-183.

Lindenmayer, D.B., Margules, C.R. & Botkin, D.B. 2000. Indicators of biodiversity for ecologically sustainable forest management. Conservation Biology14(4): 941-950. 

Lucey, J.M. & Hill, J.K. 2012. Spillover of insects from rain forest into adjacent oil palm plantations. Biotropica 44(3): 368-377.

Lucey, J.M., Tawatao, M., Senior, M.J.M., Khen, C.V., Benedick, S., Hamer, K.C., Woodcock, P., Newton, R.J., Bottrell, S.H. & Hill, J.K. 2014. Tropical forest fragments contribute to species richness in adjacent oil palm plantations. Biological Conservation 169: 268-276.

Maddox, T., Priatna, D., Gemita, E. & Salampessy, A. 2007. The conservation of tigers and other wildlife in oil palm plantations report no. 7. London, UK: Zoological Society of London.

Marino, P.C. & Landis, D.A. 1996. Effect of landscape structure on parasitoid diversity and parasitism in agroecosystem. Ecological Applications 6(1): 276-284. 

Mccann, K.S. 2000. The diversity-stability debate. Nature 405: 228-233.

Mccune, B. & Mefford, M.J. 2011. PC-ORD - Multivariate Analysis of Ecological Data. version 6.0. Oregon: MjM Software.

Mehrabi, Z., Slade, E.M., Solis, A. & Mann, D.J. 2014. The importance of microhabitat for biodiversity sampling. PLoS ONE 9(12): e114015.

MINITAB Inc. 2013. Minitab, Release 17.1.0. http://www.minitab.com. Accessed on 15 January 2013.

Mohamad, R.B., Wibawa, W., Mohd Ghazali, M., Puteh, A.B., Abdul Shukor, J., Yahya, A. & Mohammad, M.L. 2010. Management of mixed weeds in young oil-palm plantation with selected broad-spectrum herbicides. Pertanika Journal of Tropical Agricultural Sciences 33(2): 193-203.

Ng, Y.F. & Idris, A.B. 2015. Diversity, abundance and morphological variations of the Xanthopimpla (Ichneumonidae: Pimplinae) in different forest habitats. Sains Malaysiana 44(1): 1-6.

Ng, M. 2016. Malaysian sustainable palm oil (MSPO) to be made mandatory by 2019. Kuala Lumpur: Malaysian Palm Oil Council.

Norman, K. & Othman, A. 2016. Diversity and activity of insect natural enemies of the bagworm (Lepidoptera: Psychidae) within an oil palm plantation in Perak, Malaysia.  Journal of Oil Palm Research 28(3): 296-307.

Nor Rasidah, H., Wan Faridah Akmal, W.J. & Mohd Nassrul Safre, M.N. 2010. Ant diversity in a Peninsular Malaysian mangrove forest and oil palm plantations. Asian Myrmecology 3: 5-8.

Oliveira, P.S., Camargo, R.X. & Fourcassié, V. 2011. Nesting patterns, ecological correlates of polygyny and social organization in the Neotropical arboreal ant Odontomachus hastatus (Formicidae, Ponerinae). Insectes Sociaux 58: 207-217.

Peck, J.E. 2010. Multivariate Analysis for Communities Ecologists: Step by Step using PC-ORD. Oregon: MjM Software Design. p. 170.

Punzo, F. 2005. Experience affects hunting behavior of the wasp, Pepsis mildei Stål (Hymenoptera: Pompilidae). Journal of the New York Entomological Society 113(3&4): 222-229.

Ranius, T. & Fahrig, L. 2006. Targets for maintenance of dead wood for biodiversity conservation based on extinction thresholds. Scandinavian Journal of Forest Research 21(3): 201-208.

RSPO. 2013. Principles and Criteria for the Production of Sustainable Palm Oil Report. Geneva: RSPO.

Samedani, B., Juraimi, A.S., Rafii, M.Y., Sheikh Awadz, S.A., Anwar, M.P. & Anuar, A.R.  2015. Effect of cover crops on weed suppression in oil palm plantation. International Journal of Agriculture and Biology 17: 251-260.

Samedani, B., Juraimi, A.S., Abdullah, S.A.S., Rafii, M.Y., Rahim, A.A. & Anwar, M.P. 2014. Effect of cover crops on weed community and oil palm yield. International Journal of Agriculture and Biology 16: 23-31.

Sankaran, T. & Syed, R.A. 1972. The natural enemies of bagworms on oil palms in Sabah, East Malaysia. Pacific Insects 14(1): 57-71.

Tee, H.S. & Lee, C.Y. 2015. Water balance profiles, humidity preference and survival of two sympatric cockroach egg parasitoids Evania appendigaster and Aprostocetus hagenowii (Hymenoptera: Evaniidae; Eulophidae). Journal of Insect Physiology77: 45-54.

Triplehorn, C.A. & Johnson, N.F. 2005. Borror and DeLong’s Introduction to the Study of Insects. 7th ed. USA: Thomson Brooks/Cole. p. 864.

Turner, E.C. & Foster, W.A. 2009. The impact of forest conversion to oil palm on arthropod abundance and biomass in Sabah. Journal of Tropical Ecology 25: 23-30.

Wang, W.Y. & Foster, W.A. 2016. Ground-foraging ant communities vary with oil palm age. Basic and Applied Ecology 17(1): 21-32.

 

*Corresponding author; email: abukhary@usm.my

 

       

 

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