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Sains Malaysiana 39(1)(2010): 135–140 Culture and Growth of a Marine Harpacticoid, Pararobertsonia sp. in Different Salinity and Temperature (Kultur dan Pertumbuhan Harpacticoida Marin, Pararobertsonia sp. dalam Kemasinan dan Suhu Berbeza) K. Zaleha* & Farahiyah Ilyana Jamaludin Institute of Tropical Aquaculture, Universiti Malaysia Terengganu 21030 Kuala Terengganu, Malaysia Received: 14 January 2009 / Accepted: 16 July 2009 ABSTRACT Copepods play a major role as food link for larger animals and it is also important as a live food source for the aquaculture industry. There are only few reports on the influence of temperature and salinity towards the growth and development of tropical copepods. In this study, the effect of temperature (5 and 25¡C) and salinity (5, 10, 25 and 30 psu) on population growth and density of a marine harpacticoid, Pararobertsonia sp. in a laboratory condition is investigated. The species was first obtained from seagrass samples from Merchang estuary, Terengganu, which receives seawater from the South China Sea. It has been cultured in the laboratory condition through generations. The findings show that there is a significant difference (P<0.05) detected between the salinity treatment and it shows that difference in salinities give different effects on the population number of the harpacticoids cultured in the same temperature (25 ± 1¡C). On the other hand, harpacticoids reared in cold temperature (5 ± 1¡C) did not survive the condition. Harpacticoids reared in 25 psu salinity show the highest population density (mean of 3.7 ind./ml), but the most stable population growth is shown in 35 psu treatment as shown by its high value of maximum specific growth rate (K). From this experiment, it can be concluded that 35 psu and temperature of 25 ± 1¡C is the optimum condition for the maximum production of a tropical Pararobertsonia sp. in the laboratory condition. Keywords: Harpacticoida; laboratory culture; tropical species ABSTRAK Kopepoda memainkan peranan utama sebagai penghubung makanan bagi haiwan yang lebih besar dan ia juga penting sebagai sumber makanan hidup di dalam industri akuakultur. Tidak banyak laporan yang telah diterbitkan mengenai pengaruh suhu dan kemasinan terhadap perkembangan Kopepoda di kawasan tropika. Kajian kesan suhu (5 and 25¡C) dan kemasinan (5, 10, 25 dan 30 psu) ke atas pertumbuhan populasi dan kepadatan Harpaktikoid marin, Pararobertsonia sp. telah dijalankan di dalam makmal. Spesies ini telah pertama kali diperolehi daripada sampel rumput laut dari kawasan muara sungai di Merchang Terengganu yang menerima air masin Laut China Selatan. Ia telah dikultur di dalam keadaan makmal sejak beberapa generasi. Kajian ini menunjukkan terdapat perbezaan yang bererti (P<0.05) di antara rawatan-rawatan kemasinan, dan ini menggambarkan kemasinan yang berbeza memberi kesan yang berbeza ke atas bilangan populasi haiwan tersebut yang dikultur di dalam suhu yang sama (25 ± 1¡C). Sebaliknya, haiwan yang dikultur di dalam suhu rendah (5 ± 1¡C) tidak dapat bertahan. Harpacticoida yang dipelihara di dalam kemasinan 25 psu menunjukkan kepadatan populasi tertinggi (min 3.7 ind./ml), tetapi, pertumbuhan populasi paling stabil ditunjukkan oleh rawatan kemasinan 35 psu di mana ia menunjukkan nilai Kadar Pertumbuhan Khusus (K) maksimum. Daripada eksperimen ini, dapat dirumuskan bahwa 35 psu dan suhu 25 ± 1¡C merupakan keadaan optimum persekitaran makmal bagi penghasilan maksimum spesies tropika, Pararobertsonia sp. Kata kunci: Harpacticoida; kultur makmal; spesies tropika REFERENCES Busra, I., Zaleha, K. & Masduki, M.M. 2008. Generation Time of Some Marine Harpacticoid Species in Laboratory Condition. 10th Symposium of The Malaysia Society of Applied Biology. Kuching, Sarawak 6-8 Nov. Bollmohr, S., Schulz, R. & Hahn, T. 2009. Interactive effect of salinity decrease, salinity adaptation and chlorpyrifos exposure on estuarine harpacticoid copepod, Mesochra parva in South Africa. Ecotoxicology and Environmental Safety 72: 756-764. Camus, T. & Zeng, C. 2009. The effects of stocking density on egg production and hatching success, cannibalism rate, sex ratio and population growth of the tropical calanoid copepod Acartia sinjiensis. Aquaculture 287: 145-151. Carli, A., Mariottini, G.L. & Pane, L. 1995. Influence of nutrition on fecundity and survival in Tigriopus fulvus Fischer (Copepda, Harpacticoida). Aquaculture 134: 113-119. Cutts, C.J. 2003. Culture of harpacticoid copepods: Potential as live food for rearing marine fish. Advances in Marine Biology 44: 295-316. Devreker, D.,Souissi, S.,Winkler, G., Forget-Leray, J. & Leboulenger, F. 2009. Effects of salinity, temperature and individual variability on the reproduction of Eurytemora affinis (Copepoda; Calanoida) from the Seine estuary: A laboratory study. Journal of Experimental Marine Biology and Ecology 368: 113-123. Hicks, G.R.F. & Coull, B.C. 1983. The ecology of marine meiobenthic harpacticoid copepods. Oceanography and Marine Biology Annual Review 21: 67-175. Matias-Peralta, H., Fatimah, M.Y., Mohamed, S. & Aziz, A. 2005. Effects of some environmental parameters on the reproduction and development of a tropical marine harpacticoid copepod Nitocra affinis f. californica Lang. Marine Pollution Bulletin 51: 722-728. Miliou, H. & Moraitou Apostolopoulou, M. 1991. Combined effects of temperature and salinity on the Humes (Copepoda: Harpacticoida), Archivium. Hydrobial. 121: 431-448. Nanton, D.A. & Castell, J.D. 1998. The effects of dietary fatty acids on the fatty acid composition of harpacticoid copepods, Tisbe sp., for use as a live food for marine fish larvae. Aquaculture 163: 251-261. Omori, M. & Ikeda, T. 1984. Methods in Marine Zooplankton Ecology. New York: Wiley: 322 pp. Rhodes, A.C.E. 2003. Marine harpacticoid copepod culture for the production of long chain highly unsaturated fatty acids and carotenoid pigments. PhD. dissertation. Rhyne, A.L., Ohs, C.L. & Stenn, E. 2009. Effects of temperature on reproduction and survival of the calanoid copepod Pseudodiaptomus pelagicus. Aquaculture 292: 53-59. Schipp, G.R., Bosmans, J.M.P. & Marshall, A.J. 1999. A method for hatchery culture of tropical calanoid copepods, Acartia spp. Aquaculture 174: 81-88 Staton, J.L., Schizas, N.V., Klosterhaus, S.L., Griffitt, R.J., Chandler, G.T. & Coull B.C. 2002. Effect of salinity variation and pesticide exposure on an estuarine harpacticoid copepod, Microarthridion littorale (Poppe), in the southeastern US. Journal of Experimental Marine Biology and Ecology 278: 101-110. Sun, B. Fleeger, J.W. 1995. Sustained mass culture of Amphiascoides atopus marine harpacticoid copepod in a recirculating system. Aquaculture 136: 313-321. Williams, T. D. & Jones, M. B. 1999. Effects of temperature and food quantity on the reproduction of Tisbe battaglai (Copepoda: Harpacticoida). Journal of Experimental Marine Biology and Ecology 236: 273-290. *Corresponding author; email: zaleha@umt.edu.my
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