Community structure of aquatic insects in pampangan swamp, south sumatra, Indonesia

Paper Details

Research Paper 01/08/2016
Views (405) Download (13)
current_issue_feature_image
publication_file

Community structure of aquatic insects in pampangan swamp, south sumatra, Indonesia

Dina Muthmainnah, Zulkifli Dahlan
J. Bio. Env. Sci.9( 2), 165-173, August 2016.
Certificate: JBES 2016 [Generate Certificate]

Abstract

Aquatic insects play an important role in the life cycle of fish because they provide feed for young fish. The insect and fisheries have become linked together, and to develop the inland fisheries need some consideration given by insects. Research was conducted in Pampangan Swamp focused on determine the species composition and community structure of aquatic insects in Pampangan swamp, Ogan Komering Ilir Regency, South Sumatra Province. Aquatic insect samples were collected from waters which dominated by grasses and water lily vegetation, using submersible insecting net. Similarity and diversity indices, evenness, and species richness, and important value index were constructed based on field data. The results showed that grass vegetation in Jungkal waters has the highest species richness, 39 individuals/m2 under nine species. Biological indexes such as diversity indexes, evenness indexes and dominance indexes were ranging from 0.24-0.75, 0.35- 0.43, and 0.19- 0.67. Important value index was ranging from 2.44 – 25.46, where the highest value is Belostoma flumineum. The condition of Pampangan swamp is in stable condition with the diversity pattern of aquatic insects which providing the feed for fish.

VIEWS 39

Adis J, Junk WJ. 2002. Terrestrial invertebrates inhabiting lowland river floodplains of Central Amazonia and Central Europe: a review. Freshwater Biology 47, 711–731.

Balenghien T, Carron A, Sinegre G, Bicout DJ. 2010. Mosquito density forecast from flooding: population dynamics model for Aedes caspius (Pallas). Bulletin of Entomological Research 100, 247–254.

Batzer DP. 1998. Trophic interactions among detritus, benthic midges, and predatory fish in a freshwater marsh. Ecology 79, 1688-1698.

Borror DJ, Triplehorn CA, Johnson NF. 1989. An Introduction to the Study of Insects. 6th edition, Philadelphia, Saunders College Publishing, xiv + 875 pp.

Cafferty WP. 1983. Aquatic entomology. Jones and Bartlett Publishers. Boston. London.

Dijkstra KDB, Monaghan MT, Pauls SU. 2014. Freshwater Biodiversity and Aquatic Insect Diversification. Annual Review Entomology. Volume 59, 143-163. Freshwater Insect Diversification. www.annualreviews.org.

Dunbar MJ, Warren M, Extence C, Baker L, Cadman D, Mould DJ, Hall J, Chadd R. 2010. Interaction between macro invertebrates, discharge and physical habitat in upland rivers, Aquatic Conservation and Marine and Freshwater Ecosystem 20(1), 31–44.

Ewusie JY. 1980. Elements of tropical ecology. Heinemann education books. London.

Fulan JA, Henry R. 2006. The Odonata (Insecta) assemblage on Eichhorniaazurea (Sw.) Kunth (Pontederiaceae) stands in Camargo Lake, a lateral lake on the Paranapanema River (State of Sao Paulo, Brazil), after an extreme inundation episode. Acta Limnologica Brasiliensia 18(4), 423-431.

Graca MAS, Canhoto C. 2006. Leaf Litter Processing in Low Order Streams. The Ecology of the Iberian Inland Waters: Homage to Ramon Margalef. Association Espanila de Limnologia, Madrid, Spain. Limnetica 25(1-2), 1-10. ISSN: 0213- 8409.

Junk W, Bayley P, Sparks R. 1989. The flood pulse concept in river-floodplain systems. Canadian Special Publication of Fisheries and Aquatic Sciences 106, 110–127.

Junk WJ, Wantzen KM. 2004. The flood pulse concept: new aspects approaches and applications an update. pp. 117–140. In Welcomme, R.L. and T. Petr. (Eds) Second International Symposium on the Management of Large Rivers for Fisheries. FAO Regional Office for Asia and the Pacific, Bangkok, Thailand, RAP Publication 2004/17.

Luz-Agostinho KDG, Bini LM, Fugi R, Agostinho AA, Julio HFJr. 2006. Food spectrum and trophic structure of the ichthyofauna of Corumba Reservoir, Parana River basin, Brazil. Neotropical Ichthyology 4(1), 61-68.

Magguran AE. 1988. Ecological Diversity and Its Measurement. Princeton University Press. Princeton. New Jersey 179pp.

Mueller-Dombois D, Ellenberg H. 1974. Aims and Methods of Vegetation Ecology. John Wiley and Sons, New York.

Muthmainnah D, Dahlan Z, Susanto RH, Gaffar AK, Prianto DP. 2013. The distribution and biodiversity of fishes in lebak Pampangan swamp South Sumatra Province. Indonesian Fisheries Research Journal. Agency for Marine and Fisheries Research, Jakarta.. Volume 19(2), 55-60. ISSN: 0853-8980.

Muthmainnah D, Dahlan Z. 2015. Biodiversity of lebakdeling swamp in Pampangan, Ogan Komering Ilir Regency, South Sumatera Province, Indonesia. Journal of Biodiversity and Environmental Sciences (JBES) ISSN: 2220-6663 (Print) 2222-3045 (Online) Volume 6(6), 324-333, www.innspub.net.

Pechenik JA. 2005. Biology of the invertebrates. Mc. Graw Hill. New York.

Pereira D, De Luca SJ. 2003. Benthic macro invertebrates and the quality of the hydric resources in Marata Creek basin (Rio Grande do Sul, Brazil). Acta Limnologica Brasiliensia 15(2), 57-68.

Pinto TLF, Uieda VS. 2007. Aquatic insects selected as food for fishes of a tropical stream: Are there spatial and seasonal differences in their selectivity? Acta Limnologica Brasiliensia 19(1), 67-78.

Pouilly M, Barrera S, Rosales C. 2006. Changes of taxonomic and trophic structure of fish assemblages along an environmental gradient in the Upper Beni watershed (Bolivia). Journal of Fish Biology 68(1), 137-156.

Rahman MH, Hossain MA, Kawai K, Hossain MA. 1998. Potentiality of swamp for fish culture in Bangladesh. Japan Aquaculture Society. Svisanzoshoku. 46, 481-486.

Schlosser IJ. 1982. Fish community structure and function along two habitat gradients in a headwater stream. Ecological monograph 52, 395-414.

Uieda VS, Motta RL. 2007. Trophic organization and food web structure of Southeastern Brazilian streams: a review. Acta Limnologica Brasiliensia.

Varandas SG, Cortes RMV. 2010. Evaluating macro-invertebrate biological metrics for ecological assessment of streams in northern Portugal. Environmental Monitoring and Assessment 166, 201–221.

Vinnersten TZ, Lundstrom JO, Schafer ML, Petersson E, Landin J. 2010. A six-year study of insect emergence from temporary flooded wetlands in central Sweden, with and without Bti-based mosquito control. Bulletin of Entomological Research 100, 715–725.

Vinnersten TZ, Schafer ML, Lundstrom JO. 2014. Insect emergence in relation to floods in wet meadows and swamps in the River Dalalven floodplain. Bulletin Entomology Research 104(4), 453-61. doi: 10.1017/ S0007485314000078.

Wallwork JA. 1970. Ecology of Soil Animals. Mc Graw-Hill Book Co. Inc. London.

Wetzel RG. 2000. Freshwater ecology: changes, requirements, and future demands in: Limnology. The Japanese Society of Limnology. ISSN 1439-863X. Volume 1, Issues 1, 3-9.