Brackish water vannamei shrimp in the village of Keburuhan, Ngombol District of Purworejo Regency is one of the shrimp aquaculture activities developed since 2010. Shrimp farming enteprises is done by local communities which use the sandy soil coated plastic sheet with an area of 1000-4500 m². There is a positive impact by increasing the income and welfare of farmers, but give negative effects in decline of surrounding pond environment. The shrimp farmers mostly disposed of wastewater directly into the sewers or the surrounding area. The wastewater of vannamei shrimp culture contains of uneaten feed and plankton that can be utilized to grow milkfish. The aim of this study was to determine the growth and feeding preferences for milkfish culture in wastewater reservoir of vannamei culture. The study was conducted from January to April 2017 by rearing of milkfish in earthen ponds of shrimp culture in wastewater reservoir. Wastes consist of feces and uneaten feed during shrimp rearing were siphoned and flowed into ponds wastewater reservoir. Milkfish juvenile with body length ranges from 9.3 to 9.7 cm and weight ranges from 3.4 to 6.9 g was introduced into three earthen ponds of 600 m² each, with density of 6 individual/m² in triplicate for 70 days. During the study, milkfish juvenile were not fed, but obtained wastewater from shrimp culture ponds. The wastewater from the shrimp ponds was siphoned and piped into a waste reservoir ponds every 3 days until shrimp harvesting. Fish samples of each pond as much as 40 individuals were taken biweekly and then measured the length and weight. Fish stomach was dissected and then digestive tract was taken to observe the species of plankton consumed. The results showed that milkfish could grow well in wastewater reservoir of shrimp culture. The average daily growth rate of length and weight of milkfish reached approximately 0.11 cm/day and 0.34 g/day, respectively. The length weight relationship of milkfish showed allometric growth pattern. The food type found in the intestinal was dominated by phytoplankton. Feed was dominated by genera of phytoplankton, which reach more than 99%. The most dominant of phytoplankton were Scenedesmus sp. (34.7%), then Crucigenia sp. (20.1%), followed by Cyclotella sp. (14.6%), and Clamydomonas sp. (7.5%) next Microcystis sp. (6.7%), while the other genera less than 4.2%. Further research is needed to determine the optimum density of milkfish to utilize wastewater of shrimp culture.

Aqil, D.I., L.S.E Putri, and Lukman. 2013. Use of plankton as source of fish food in Ir. H. Juanda reservoir, West Java. Al-Kauniyah Jurnal Biologi, 6(1): 13-25.

Bagarinao, T. 1994. Systematics, distribution, genetics and life history of milkfish, Chanos chanos. Environmental Biology of Fishes, 39(1): 23-41.

Biswas, S.P. 1992. Manual of Method in Fish Biology. South Asian Publisher, New Dehli, 112 p.

Djumanto, Ustadi, Rustadi, and B. Triyatmo. 2016. Feasibility study on the profitability of Vannamei shrimp aquaculture on coastal area of Keburuhan Village, Purworejo regency. Aquacultura Indonesiana, 17 (1): 7-11.

Djumanto, B.E. Pranoto, V.S. Diani, and E. Setyobudi. 2017. Food and the growth of introduced milkfish, Chanos chanos (Forsskål, 1775) in Sermo Reservoir, Kulon Progo. Jurnal Iktiologi Indonesia, 17(1): 83-100.

Guido, F.S. Melki, and Isnaini. 2014. Growth rate of tiger shrimp (Penaeus monodon), milkfish (Chanos chanos), and seaweed (Eucheuma cottonii, Gracilaria sp.) on polyculture cultivation with different density in Sungai Lumpur Village of OKI Regency of South Sumatera. Maspari Journal, 6(1): 46-55.

Holmer, M., N. Marba, J. Terrados, C.M. Duarte, and M.D. Fortes. 2002. Impacts of milkfish (Chanos chanos) aquaculture on carbon and nutrient fluxes in the Bolinao area, Philippines. Mar.Pollut.Bull., 44:685–696.

Jhingran, V.G. 1982. Fish and Fisheries of India, 2nd ed. Hindustan Publishing Corporation, New Delhi, India, 954 p.

Nelson, J.S., T.C. Grande, M.V.H. Wilson. 2016. Fishes of the World. 5th Ed. John Wiley & Sons, Inc., Hoboken, New Jersey, 752 p.

Nguyen, V. T., S. Momtaz and K. Zimmerman. 2007. Water pollution concerns in shrimp farming in Vietnam: a case study of Can Gio, Ho Chi Minh City. The International Journal of Environmental, Cultural, Economic and Social Sustainability, 3(2): 129-136.

Purnamaningtyas, S.E. and D.W.H Tjahjo. 2013. Food Habit and Niche Breadth of Some Fish Species at Djuanda Reservoir, West Java. Bawal, 5(3): 151-157.

Ricker, W.E. 1973. Linear regression in fishery research. Journal of the Fisheries Research Board of Canada, 30(3):409-434.

Rao, L.M. and G. Sivani.1996. The food preferences of five commercially important fishes of Gosthani estuary. Indian Journal of Fisheries, 43(2): 199-202.

Srithongouthai, S. and K. Tada. 2017. Impacts of organic waste from a yellowtail cage farm on surface sediment and bottom water in Shido Bay (the Seto Inland Sea, Japan). Aquaculture, 471(1): 140–145.

Stickney, R.R., J.H. Hesby, R.B. McGeachin, and W.A. Isbell. 1979. Growth of Tilapia nilotica in ponds with different histories of organic fertilization. Aquaculture 17:189–194.

Suthers, I.M. and D. Rissik. 2008. Plankton, A Guide To Their Ecology And Monitoring For Water Quality. CSIRO Publishing, Australia, 272 p.

Triyatmo, B., D. Suadi, Ambarwati, and Sukardi. 2016. Technical and financial aspects of white shrimp (Litopenaeus vannamei) culture in Coastal Sandy Soil Area of Bantul Regency. Aquacultura Indonesiana, 17(2): 54-59.

Tjahjo, D.W.H. and S.E. Purnamaningtyas. 2009. Evaluation on capability of milkfish and tilapia for using fitoplankton abundance in Ir. H. Djuanda Reservoir. Proceedings of National Competing Forum of Resources Fish II, pp. 1-11.

Yakupitigage, A., P. Edwards, and K.L. Wee. 1991. Supplementary feeding of fish in a duck–fish integrated system. I. The effect of rice-bran. In: Silva, S.S.D. (Ed.), Fish Nutrition Research in Asia. Proceedings of the Fourth Asian Fish Nutrition Workshop. Asian Fish, Soc. Spec. Publ. 5. Asian Fisheries Society, Manila, Philippines, pp. 143–157.

Yanfeng, C., L. Peng, HU Chaoqun, and R. Chunhua. 2015. Effect of shrimp (Litopenaeus vannamei) farming waste on the growth, digestion, ammonium-nitrogen excretion of sea cucumber (Stichopus monotuberculatus). Journal of Ocean University of China, 14(1): 484-490.

Yuan D., Y. Yi, A. Yakupitiyage, K. Fitzimmons, and J.S. Diana. 2010. Effects of addition of red tilapia (Oreochromis spp.) at different densities and sizes on production, water quality and nutrient recovery of intensive culture of white shrimp (Litopenaeus vannamei) in cement tanks. Aquaculture, 298 (2): 226–238.