Food habit of hampala (Hampala macrolepidota Kuhl & Van Hasselt 1823) and its position in food web, food pyramid and population equilibrium of ranau lake, Indonesia

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Research Paper 01/06/2014
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Food habit of hampala (Hampala macrolepidota Kuhl & Van Hasselt 1823) and its position in food web, food pyramid and population equilibrium of ranau lake, Indonesia

Safran Makmur, Diana Arfiati, Gatut Bintoro, Arning Wilujeng Ekawati
J. Bio. Env. Sci.4( 6), 167-177, June 2014.
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Abstract

Hampala is an important economic fish species living in Ranau Lake. Food habit is closely related with trophic level in food web or food pyramid of fish population in the water. This study was aimed at knowing the position of food habit in food web, food pyramid, and population equilibrium in Ranau Lake. It was carried out in March-November, 2013. Fish samples were collected by experimental gill net of 1½ inch,1¾ inch and 2½ inch mesh size in Banding Agung and Talang Teluk areas. Fish samples were measured and weighed, gut content observed, and digestive tract length measured. Gut content analyses of Hampala macrolepidota with total length range of 9.7 cm – 33.3 cm, mean length of 19.17±4.72 cm were encountered 7 food groups, fish, shrimp, crab, insect, mollusc, aquatic plant and food debris. Hampala is a carnivorous fish with major food of fish (IP=58.85%; FK=73.78%). Relative length of the digestive tract to total length was 87.3%. Regression equation between total length (X) and digestive tract length (Y) was Y=1,1757+0,9327X (r=0,93). Hampal, in food web and food pyramid, occurred as tertiary consumer or at the peak of food pyramid. Non-predatory and predatory ratio (F/C) was 1.56 with standard value range of 1.40-10.00 indicating that fish population in Ranau Lake, between predatory and non-predatory fish, was still in equilibrium.

VIEWS 69

Abidin ABZ. 1984. Some aspect of the biology of Hampala macrolepidota (Van Hasselt) with reference to its food feeding habits and reproduction from Zoo Negara Lake Kuala Lumpur, Malaysia. Master Thesis. University of Putra Malaysia, 115p.

Agbabiaka LA. 2012. Food and feeding habits of Tilapia zilli (Pisces: Cichlidae) in River Otamin South-Eastern Nigeria. Bioscience Discovery 3 (2), 146-148.

Allison ME, Sikoki FD. 2013. Food and feeding habits of Parailia pellucida (Boulenger, 1901) (Schilbeidae) in the fish water reach of the Nun River at the Niger Delta Nigeria. International Journal of Advanced Fisheries and Aquatic Science 1, 1-14.

Azadi MA, Nasruddin M, Rahman ASMS. 2009. Food and feeding habits of Clupeid Gonialosa manmina (Ham) from The Kaptai Lake Bangladesh. The Chittagong University Journal Biology of Science 4(1), 53-61.

Balik I, Cubuk H, Karasahin B, Ozkok R, Vysae R, Alp A. 2006. Food and feeding habits of the pikeperch, Sander lucioperca (Linneaeus, 1758), population from Lake Egirdir (Turkey). Turkey Journal Zoology 30, 19-26.

Foster J. 2013. Fisheries management: matching expetations to reality, diet for a small lake. Second Edition Chapter 5, 1-21.

Hynes HBN. 1950. The food of the freshwater stricklebacks (Gasterosteus aculeatus and Pygosteus pungitius) with a review of methods used in the studies of the food of fishes. Journal of Animal Ecology 19, 36-58.

Hyslop EJ. 1980. Stomach contents analysis a review of methods and their application. Journal Fish Biology 17, 411-429.

Jubaedah I. 2004. Distribution and food of Hampala (Hampala macrolepidota C.V) in Cirata Reservoir, West Java. Master Thesis. Bogor Agricultural University. 82 p.

Junior SEL, Goitein R. 2001. A new method for the analysis of fish stomach contents, Journal Maringa 23 (2), 421-424.

Luna VR, Naula AF, Rubio EA. 2008. Food habits and feeding ecology of an estuarine fish assemblage of northern Pacific Coast of Ecuador. Pan American Journal of Aquatic Sciences 3 (3), 361-372.

Manon MR, Hossain MD. 2011. Food and feeding habit of Cyprinus carpio Var. Specularis. Journal Science Foundation 9 (1&2), 163-181.

Motlagh AT, Hakimelahi M, Shojaei MG. 2012. Feeding and stomach contents of silver sillago, Sillago sihama, in the Northern Persian Gulf. Iranian Journal of Fisheries Sciences 11 (4), 892-901.

Natarajan AV, Jhingran AG. 1961. Index of Preponderance a method of grading the food elements in the stomach analysis of fishes. Indian Journal of Fish 8 (1), 54-59.

Nikolsky GV. 1963. The Ecology of Fishes. Academic Press, New York, 352p.

Nontji A. 1993. Laut Nusantara. Djambatan Jakarta. 367 p.

Odum EP. 1998. Fundamentals of ecology. 3rd Ed. Samingan T, Srigandono B, Transl. Gajah Mada University Press. Yogyakarta. 697 p.

Oso JA, Ayodele IA, Fagbuaro O. 2006. Food and feeding habits of Oreochromis niloticus (L) and Saratherodon galilaeus (L) in Tropical Reservoir. World Journal of Zoology 1 (2), 118-121.

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, 156-173.

Priyadharsini S, Manoharan J, Varadharajan D, Subramaniyan A. 2012. Interpretation of the food and feeding habits of Dascillus trimaculatus (Ruppell, 1829) from Gulf of Manner, South East Coast of India. Archives of applied Science Research 4 (4), 1758-1762.

Kunto P, Tjahjo WH. 2003. Several fisheries ecological aspects in Taliwang Swamp, Wwest Nusa Tenggara. JPPI Resources and Fishing Edition 9 (3), 21-29.

Pusat Penelitian Pengelolaan Perikanan dan Konservasi Sumberdaya Ikan (Research Centre of Fisheries Management and Fish Resources Conservation). 2012. Bathymetric and Hidroacoustic Surveys. Field Survey Report. 10p.

Safi A, Khan MA, Khan MZ, Hasmi MVA. 2013. Observations on the food and feeding habits of striped pissy. Pomadasys striclens (Foriskal, 1775) (Family: Pomadasyidae) from Karachi Coast, Pakistan. International Journal of Fauna and Biological Studies 1 (1), 7-14.

Shackell N. 2012. Trophic structure. State of The Scotian Shelf Report Fisheries and Oceans Canada. 29p.

Singh CP, Ram RN, Singh RN. 2012. Food and feeding pattern of Channa punctatus in two different habitats at Tarai region of Uttarakhand. Journal of Environmental Biology 34,789-792.

Sulastri M, Badjoeri, Sudarso Y, Syawal MS. 1999. Physo-chemical and biological conditions of Ranau Lake waters, South Sumatra. Research and Development Centre of Limnology. Indonesia Science Institute. Limnotek VI (1), 25-38.

Sulastri. 2002. Fish food composition and webs. Monograph No.2. Research Centre of Limnology, LIPI, 99-108.

Tamsil A. 2000. Study on pre-spawning reproductive characteristics and artificial spawning possibility of Bungo (Glossogobius aureus) in Tempe Lake and Sidenreng Lake, South Sulawesi. PhD Thesis. Bogor Agricultural University.

Tjahyo DWH. 1993. Utilization strategy of juvenile hampala’s food (Hampala macrolepidota) in Jatiluhur Reservoir, West Java. Master Thesis, Bogor Agricultural University, 71p.

Welcomme RL. 1979. Fisheries ecology of floodplain rivers. Longman, London and New York, 317p.

Zacharia PU. 2013. Trophic level and food chain. Demersal Fisheries Division CMFRI, Kochi, 36 p.

Zanden MJV, Shuter BJ, Lester N, Rasmussen JB. 1999. Patterns of food chain length in lakes; A stable isotope study. The American Naturalist 154 (4), 406-416.