EFFECT OF ARTIFICIAL FEED ON THE GROWTH AND SURVIVAL OF WHITE SHRIMP (Litopenaeus vannamei) AND MILKFISH (Chanos chanos) IN APPLICATION OF INNOVATIVE POLYCULTURE TECHNOLOGY

Authors

  • Istiyanto Samidjan Aquaculture Study Program, Faculty of Fisheries and Marine Science, Diponegoro University, Jl. Prof. Sudharto, Tembalang, Semarang 50275, Indonesia
  • Diana Rachmawati Aquaculture Study Program, Faculty of Fisheries and Marine Science, Diponegoro University, Jl. Prof. Sudharto, Tembalang, Semarang 50275, Indonesia

DOI:

https://doi.org/10.11113/jt.v78.8187

Keywords:

White shrimp [Litopenaeus vannamei(Boone, 1931)], milkfish [Chanos chanos (Forsskal, 1775)], growth, survival, polyculture

Abstract

The objective of this research was to investigate growth and survival of white shrimp (Litopenaeus vannamei) and milkfish (Chanos chanos) in the application of innovative polyculture technology. The material in this study was white shrimp with initial weight of (1.25 ± 0.025) g and milkfish of (3.25  ± 0.075) g, respectively and artificial feed containing 35 % of protein enriched with vitamin C (3 % biomass d–1). Completely Randomized Design was used with four treatments and three replications, i.e. T1 (15 individuals of white shrimp per m2 and 15 individuals of milkfish per m2), T2 (30 individuals of white shrimp and 15 individuals of milkfish per m2), T3 (15 individuals of white shrimp and 30 indviduals of milkfish per m2), T4 (30 individuals of white shrimp per m2 and 30 indviduals of milkfish per m2). Absolute weight of growth, survival, FCR, and water quality data (temperature, salinity, pH, O2, NO2, NH3) were analyzed by analysis of variance (F test) and descriptive analysis. The results elucidated significant effect (P < 0.05) on the growth and survival rate of white shrimp and milkfish. The highest absolute growth weight of white shrimp and milkfish were obtained from T4 treatment i.e (19.25 ± 1.015) g for white shrimp), for milkfish (185.71 ± 1.025) g. Survival rate of white shrimp was 95 % ± 2.5 % and for milkfish was 75 % ± 2.75 %.

References

Yuvaraj, D. ,R. Karthik and R. Muthezhilan. 2015. Crop Rotation as A Better Sanitary Practice for The Sustainable Management of Litopenaeus vannamei Culture. Asian Journal of Crop Science. 7(3):219-232.

Kementerian Kelautan dan Perikanan. 2004. Produksi Udang dan Ikan Bandeng di Jawa Tengah, Indonesia [Production of Shrimp and Milkfish in Fisheries Central Java, Indonesia]. Jakarta: KKP. [Bahasa Indonesia].

Marine and Fisheries Agency of Central Java Province. 2004. Basic Data Production Potential and Fisheries Central Java in The Figures. Semarang: Marine and Fisheries Agency.

Miroslav, C., T. Dejana, L. Dragana, Ä. Vesna. 2011. Meat Quality of Fish Farmed in Polyculture in Carp Ponds in Republic of Serbia. J. Tehnologija Mesa. 52(1): 106–121.

Jaspe, J. C., C. M. A, Caipang, and B. J. G. Elle.2011. Polyculture of White Shrimp, Litopenaeus vannamei and Milkfish, Chanos chanos as A Strategy for Efficient Utilization of Natural Food Production in Ponds. J. ABAH Bioflux. 3(2): 96–104.

Istiyanto, S., E. Arini, and D. Rachmawati. 2012. Aplikasi Ilmu dan Teknologi terhadap Kelompok Usaha Polikultur Udang, Ikan dan Rumput Laut (Gracyllaria sp.) berdasarkan Filter Biologis di Desa Mangkang Wetan Kecamatan Tugu, Semarang [Applicaton of Technology and Science in (IbM) Business Group Polyculture of Shrimp, Fish and Seaweed (Gracyllaria sp.) Based on The Biological Filter Mangkang Wetan Village, District Tugu, City Semarang]. Research Report. Semarang: Universitas Diponegoro. [Bahasa Indonesia].

Endrawati, H., S. Istiyanto, and A. Indarjo. 2001. Penerapan Teknologi Budidaya Polikultur ikan Nila Gift Pada Kelompok Pembudidaya Tambak [Application and Cultivation Technology Community Business Group Polyculture Nila Gift and Tiger Prawn in Ponds in An Effort to Empower Coastal Communities]. Journal Info. 4(1): 6–18. [Bahasa Indonesia].

Suyono, S. Istiyanto, D. Rachmawati, and T. Yasman. 2010. Penerapan Iptek pad Kelompok Usaha Budidaya Ikan Bandeng (Chanos chanos Forskal) dan Rumput Laut (Gracilaria sp.) di Kelurahan Muara Rejo Kecamatan Tegal Barat Kota Tegal [Application Science and Technology in (IbM) Groups of Fish Farming Milkfish and Seaweed (Gracylaria sp.) in The Village of Muara Church, West Tegal Tegal]. In Suyono, N. Isdarmawan, and N. Zuhri (eds.). Proceeding of National Seminar on Development Strategy for Environmentally-Based Fisheries and Marine. Pancasakti University, Tegal, Indonesia. 9 December 2011. 123– 46.

Effendie, M. I. 1979. Metode Biologi Perikanan [Methods of Fisheries Biology]. Bogor: Yayasan Dewi Sri. [Bahasa Indonesia].

Istiyanto, S. 2001. Efek dari Berbagai Variasi Kombinasi Pakan Alami (Tetraselmis chui, Chlorella sp., Brachionus plicatilis Muller, Artemia salina Leach) terhadap Pertumbuhan dan Survival Rate Mangrove Crab (Scylla paramamosain) [Effect of Various Combinations of Natural Feed (Tetraselmis chui, Chlorella sp, Brachionus plicatilis Muller, Nauplius Artemia salina Leach) on Growth and Survival Rate Mangrove Crab (Scylla paramamosain)]. Paper Presented at the National Seminar of Crustacean 2001. Institut Pertanian Bogor, Bogor. 20 – 21 July 2001. [Bahasa Indonesia].

Istiyanto, S. 2001. Pembesaran Kepiting Bakau (Scyla paramamosain) di Tambak dengan Diberi Pakan Rucah pada Dosis Berbeda [Enlargement of Mude Crabs (Scylla paramamosain) in Pond with Feed Trash in Different Dose]. Paper Presented at the National Seminar of Crustacean 2001. Institut Pertanian Bogor, Bogor. 20–21 July 2001. [Bahasa Indonesia].

Istiyanto, S. 2000. Combination Application Chaetoceros sp. and Brachionus plicatilis Muller Against The Growth of Larvae of Milkfish Chanos chanos Forskal. Journal of Marine Science. 19(5): 230–233.

Istiyanto, S. 2008. Engineering of Monoculture Technology for Superintensive System on Mudcrab (Scylla paramamosain) Using Different Feeds on The Growth and Survival Rate. In Hartoko, A. (ed.). Proceedings of International Conference, Geomatic, Fisheries and Marine Science for a Better Future and Prosperity Marine Geomatic Centre (MGC). Semarang, Indonesia. 21–22 October 2008.

Hepher, B. and Y. Praginin. 1981. Comercial Fish Farming. New York: John Wiley Sons.

Makwinja, R. and F. Kapute. 2015. Bio-economic Evaluation of Tank Raised Tilapia rendalli (Boulenger, 1896) Fed on Varying Dietary Protein Levels. Net Journal of Agricultural Science. 3(3): 62–67.

Murachman, N. Hanani, Soemarno, S. Muhammad. 2010. Polyculture Systrems of Tiger Shrimp (Penaeus monodon Fab), milkfish (Chanos chanos Forskal) and Seaweed (Gracillaria sp.) by Conventional Culture. Journal of Sustainable Development and Nature. 1(1): 2087–3522.

Mangampa, M. and Burhanuddin. 2014. Uji Lapang Teknologi Polikultur Udang Windu (Penaeus monodon Fabr.), Ikan Bandeng (Chanos chanos Forskal) dan Rumput Laut (Gracilaria verrucosa) di Tambak Desa Borimasunggu, Kabupaten Maros (Field Experiment of Polyculture Technology of Tiger Shrimp (Penaeus monodon Fabr.), Milkfish (Chanos chanos Forskal) and Seaweed (Gracilaria verrucosa) in Brackhiswater Water Pond of Borimasunggu Village, Maros Regency. Jurnal Saintek Perikannan. 10 (1): 30–36. [Bahasa Indonesia].

Hepher, B. 1988. Nutrition of Pond Fishes, Formerly of Fish and Aquaculture Research Station. Cambridge: Cambridge University Press.

Huet, M. 1971. Fish Culture, Breeding and Cultivation of Fish. London: Fishing New (Books) Ltd.

Furnichi, M. 1988. Dietary Requirement in Fish Nutrition in Marriculture. Japan: Japan International Coorporation Agency.

Akiyama, D. M., W. G. Dominy, and A. L. Lawrence. 1991. Penaid Shrimp Nutrition for The Commercial Feed Industry. In Akiyama, D. M. and R. K. H. Tan (eds.). Proceedings of the Aquaculture Feed Processing and Nutrition Workshop, Thailand and Indonesia. Singapore. 19–25 September 1991 American Soybean Association Singapore. 80–89.

Badan Pengkajian dan Penerapan Teknologi. 2007. Budidaya Udang Windu Secara Tradisional [Tiger Shrimp Cultivation Traditionally]. Research Report. Jakarta: BPPT. [Bahasa Indonesia]

Bautista, M. N. 1986. The Response of Penaeus monodon Juveniles to Varying Protein / Energy Ratios in Test Diets. Aquaculture. 3(3–4): 229–242.

Porchas, M. M, L. R. M. Cordova, M. A. P. Cornejo and J. A. L. Elias. 2010. Shrimp Polyculture: A Potential Provitable Sustainable, but Uncommon Aquacultural Practice. J. Reviews in Aquaculture. 2: 73–85.

Akegbejo and Y. Samsons. 1999. Growth Response and Nutrient Digestibility by Clarias gariepinus Fed Varying Levels of Dietary Periwinkle Flesh as Replacement for Fish Meal in Low-cost Diets. Appl. Trop. Agric. 49(1): 37–41.

Boyd, H. E., Burgess, Pronek and Walls. 1982. Water Quality in Warm Water Fish Pond. Auburn: Auburn University, Aquaculture Experiment Station.

De Silva, S. S. and F. Y. Anderson. 1995. Fish Nutrition in Aquaculture. New York: Chapman and Hall.

Halver, J. E. 1980. Fish Nutrition. New York: Academic Press Inc.

Halver, J. E. and T. Lovell. 1989. Nutrition and Feeding of Fish. New York: Van Nostrand Reinhold.

He, H. L. and R. Liv. 1992. Evaluation of Dietary Fat Solable Essential of Vitamins A, D, E and K for Penaeid Shrimp (Penaeus vannamei). Aquaculture. 103: 177–185.

Kanazawa, A. 1985. Nutrition of Penaeid and Shrimp. In: Taki, Y., J. H. Primavera, and J. A. Liobrera (eds). Proceedings of the First International Conference on Culture of Penaeid / Shrimp. Aquaculture Dept. SEAFDEC. Iloilo, Philipphines. 4–7 December 1984. 123–130.

Kurmaly, K. 1995. Shrimp Nutrition and Disease: Role of Vitamins and Astaxanthin. Bangkok: Roche Aquaculture Centre.

Nurjana, M. 2007. Potensi Budidaya Udang di Indonesia [Potency of Shrimp Farming in Indonesia]. In Sudaryono, A. (ed.). Proceedings of the National Seminar of, Aquaculture Society (MAI) Indonesia. Surabaya, Indonesia. 5–7 June 2007.

Steffens. 1989. Principles of Nutrition. England: Ellis Horwood Limited.

Stickney, R. R. 1979. Principle of Warm Water Aquaculture. New York: John Weley and Sons Inc.

Yang, Y. and K. Fitzsimmons. 2002. Tilapia Shrimp Polyculture in Thailand. Research Report. Thailand: Asian Institute of Technology.

Davis, J. 2011. Polyculture Opportunities in The Mid-hills of Nepal for Resource Poor Farmers. Ecological Aquaculture Studies & Reviews. Kingston: University of Rhode Island.

Xie, B., W. Jiang and H. Yang. 2011. Growth Performance and Nutrient Quality of Chinese Shrimp Penaeus chinensis in Organic Polyculture with Razor Clam Sinonovacula constricta or Hard Clam Meretrix meretrix. J. Bulgarian Journal of Agricultural Science. 17(6): 851–858.

Istiyanto. 2009. Pemanfaatan Berbagai Jenis Bakteri Probiotik sebagai Pakan Komersial dari Udang Vannamei [Use of Various Types of Probiotic Bacteria (Bacillus, Alcaligenes, Flavobacterium, and Lactobacillus) as The Commercial Feed in Crumble from Vannamei]. Research report] Semarang: Universitas Diponegoro. [Bahasa Indonesia] [In press].

Reksono, B. H., Hamdani and Yuniarti. 2012. Effect of Stocking Density of Gracilaria sp. on The Growth and Survival of Milkfish (Chanos chanos) on The Polyculture Farming System. Journal of Fisheries and Marine. 3(3): 41–49.

Nikolova, L. 2013. Impact of Some Technological Factors on The Growth of Carp Fish Cyprinidae Reared in Autochthonous Polyculture. J. Bulgarian Journal of Agricultural Science. 19(6): 1391–1395.

Yasin, M. 2013. Prospect of Business Organic Shrimp Farming in Polyculture Systems. Scientific Journal Edition March Agriba 1: 86–99.

Dirisu, S. O., B. Muinat and D. M. Yakubu. 2007. Polyculture and Fish Yield in Rice-cum-fish Culture System in Dadin Kowa, Gombe, Nigeria. Animal Research International. 4(3): 737–740.

Amal, S. H., S. H. Sayed, and E. M. Ibrahim. 2008. Effect of Stoking Rates and Supplementary Feed on The Growth Performance of Blue Tilapia (Oreochromis aureus) and Grass Carp (Ctenopharyngodon idella) Reared in Earthern Pond. In Elghobashy, H., K. Fitzsimmons, and A. S. Diab (eds). Proceedings of 8th International Symposium on Tilapia in Aquaculture. 12–24 October 2008. 949–964.

Aslam, A., G. S. Hossain, M. M. R. Biswas., S. K. Barman and K. Anisulhuq. 2009. Polyculture and Integrated Culture Pattern of Freshwater Prawn in Fresh to Hyposaline Water. Int.J. Sustain. Crop Prod. 4(4): 23–27.

Tacon. 1987. Nutrition and Farmed Fish and Shrimp. [Training Manual]. Brazil: The Essential Nutrients Food anf Agricultural Organization of the United Nations.

Watanabe. 1988. Fish Nutrition and Marineculture. Tokyo: Department of Aquatic Biosciences.

Li, D. S. and S. L. Dong. 2000. Summary of Studies on Closed-polyculture of Penaeid Shrimp with Fish and Moluscans. J. Chinese Journal of Oceanology and Limnology. 8: 61–66.

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Published

2016-04-12

Issue

Vol. 78 No. 4-2: Sustaining Fish Processing Industry to Support Global Maritime Axis

Section

Science and Engineering

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How to Cite

EFFECT OF ARTIFICIAL FEED ON THE GROWTH AND SURVIVAL OF WHITE SHRIMP (Litopenaeus vannamei) AND MILKFISH (Chanos chanos) IN APPLICATION OF INNOVATIVE POLYCULTURE TECHNOLOGY. (2016). Jurnal Teknologi, 78(4-2). https://doi.org/10.11113/jt.v78.8187