Analisis Performa Kualitas Air Pada Panerapan Konsep Budidaya CBIB Di Tambak Udang Pola Intensif

Abdul Wafi; Abdul  Muqsith; Ach  Khumaidi; Tholibah  Mujtahidah

doi:10.35316/jsapi.v15i1.4920

Abdul Wafi Fakultas Sains dan Teknologi, Universitas Ibrahimy, Situbondo, Jawa Timur
Abdul Muqsith Fakultas Sains dan Teknologi, Universitas Ibrahimy, Situbondo, Jawa Timur
Ach Khumaidi Fakultas Sains dan Teknologi, Universitas Ibrahimy, Situbondo, Jawa Timur
Tholibah Mujtahidah Fakultas Pertanian, Universitas Tidar, Magelang, Jawa Tengah

10.35316/jsapi.v15i1.4920

Abstract

Water quality standard criteria for shrimp farming, as regulated by the CBIB, are a crucial aspect in intensive farming operations. This research aims to assess the suitability of water quality parameters in intensive cultivation of vaname shrimp (L. vannamei) with CBIB standards (Good Fish Cultivation Methods). The research method uses an ex post facto causal design during one shrimp cultivation cycle, with a focus on the condition of water quality parameters compared with CBIB standards in accordance with Minister of Maritime Affairs and Fisheries Regulation Number 75 of 2016. The research results show that most of the water quality parameters during the cultivation period in accordance with CBIB standards, except for alkalinity and organic matter exceeding the thresholds set by CBIB. Abnormal conditions in these two parameters are caused by unpredictable natural and seasonal factors, as seen in unstable fluctuations in temperature and salinity. However, overall, the cultivation system at the research location still complies with the cultivation quality standards set by CBIB. From this discussion, it can be concluded that the water quality parameters at the research pond location are mostly in accordance with CBIB quality standards, with the exception of alkalinity and organic matter which slightly exceed the limits set by CBIB..

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References

Amirkolaie. (2011). Reduction in the environmental impact of waste discharged by fish farms through feed and feeding. Reviews in Aquaculture 3, 19–26.

Apud, F.D. (1985). Extensive and Semi-Intensive Culture of Prawn and Shrimp in the Philippines. Proceedings of the First International Conference on the Culture of Penaeid Prawns/Shrimps, Iloilo City, Philippines, SEAFDEC, 105-113.

Ariadi, H., Fadjar, M., Mahmudi, M. (2019). Financial Feasibility Analysis Of Shrimp Vannamei (Litopenaeus Vannamei) Culture In Intensive Aquaculture System With Low Salinity. ECSOFiM: Journal of Economic and Social of Fisheries and Marine 07(01), 81-94.

Ariadi, H., Fadjar, M., Mahmudi, M., Supriatna. (2019). The relationships between water quality parameters and the growth rate of white shrimp (Litopenaeus vannamei) in intensive ponds. AACL Bioflux, 12(6), 2103-2116.

Ariadi, H., Mahmudi, M., Fadjar, M. (2019). Correlation between Density of Vibrio Bacteria with Oscillatoria sp. Abundance on Intensive Litopenaeus vannamei Shrimp Ponds. Research Journal of Life Science, 6(2), 114-129.

Ariadi, H., Wafi, A., Mahmudi, M., Fadjar, M. (2020). Tingkat Transfer Oksigen Kincir Air Selama Periode Blind Feeding Budidaya Intensif Udang Putih (Litopeneus vannamei). Journal of Fisheries and Marine Research, 4(1), 7-15.

Ariadi, H., Wafi, A., Supriatna. (2020). Hubungan Kualitas Air Dengan Nilai FCR Pada Budidaya Intensif Udang Vanname (Litopenaeus vannamei). Samakia: Jurnal Ilmu Perikanan, 11 (1) , 44-50.

Bintoro, A., dan Abidin, M. (2014). Pengukuran Total Alkalinitas Di Perairan Estuari Sungai Indragiri Provinsi Riau. Buletin Teknik Litkayasa Sumberdaya dan Penangkapan, 11(1), 11-14.

Boyd, C.E., Tucker, C.S., Viriyatum, R. (2011). Interpretation of pH, Acidity, and Alkalinity in Aquaculture and Fisheries. North American Journal of Aquaculture, 73, 403–408.

Boyd, C.E., Tucker, C.S., Somridhivej, B (2016). Alkalinity and Hardness: Critical but Elusive Concepts in Aquaculture. Journal Of The World Aquaculture Society, 47(1), 6-41.

Buckle, L.F., Baron, B., Hernandez, M. (2006). Osmoregulatory capacity of the shrimp Litopenaeus vannamei at different temperatures and salinities, and optimal culture environment. Revista de Biología Tropical, 54 (3) , 745-753.

Burford, M.A., dan Lorenzen, K. (2004). Modeling nitrogen dynamics in intensive shrimp ponds: the role of sediment remineralization. Aquaculture, 229, 129 – 145.

Cullum, J., Stevens, D.P., Joshi, M.M. (2016). Importance of ocean salinity for climate and habitability. Proceedings of the National Academy of Sciences, 113(16), 4278–4283.

D'Addezio, J.M., Subrahmanyam, B., Nyadjro, E.S., Murty, V.S.N. (2015). Seasonal Variability of Salinity and Salt Transport in the Northern Indian Ocean. American Meteorological Society, 1947-1966.

de los Santos, C.B., Olive, I., Moreira, M., Silva, A., Freitas, C., Luna, R.A., Quental-Ferreira, H., Martins, M., Costa, M.M., Silva, J., Cunha, M.E., Soares, F., Pousao-Ferreira, P., Santos, R. (2020). Seagrass meadows improve inflowing water quality in aquaculture ponds. Aquaculture, 528 , 735502.

Hlordzi, V., Kuebutornye, F.K.A., Afriyie, G., Abarike, E.D., Lu, Y., Chi, S., Anokyewaa, M.A. (2020). The use of Bacillus species in maintenance of water quality in aquaculture: A review. Aquaculture Reports, 18, 100503.

Huang, X., Du, S., Zhang, H., Chen, C., Xiao, G., Huang, L., Zhang, D. (2020). Temporal patterns of bacterial communities in shrimp (Litopenaeus vannamei) culture systems loaded with oyster shells. Aquaculture, 526, 735424.

Jayanthi, M., Balasubramaniam, A.A.K., Suryaprakash, S., Veerapandian, N., Ravisankar, T., Vijayan, K.K. (2021). Assessment of standard aeration efficiency of different aerators and its relation to the overall economics in shrimp culture. Aquacultural Engineering, 92, 102142.

Khan, M.I.R. (2018). Shrimp Toilet: A novel way for disposal of organic waste in Aquaculture systems. Aqua International, 52-54.

Martinez-Garcia, E., Carlsson, M.S., Sanchez-Jerez, P., Sanchez-Lizaso, J.L., Sanz-Lazaro, C., Holmer, M. (2015). Effect of sediment grain size and bioturbation on decomposition of organic matter from aquaculture. Biogeochemistry, 125, 133–148.

Nugroho, L. R., Sukardi., Triyatno, B. (2016). Penerapan Cara Budidaya Ikan yang Baik pada Pembesaran Udang Vaname (Litopenaeus vanname) di Pesisir Daerah Istimewa Yogyakarta. Jurnal Perikanan Universitas Gadjah Mada, 18(2), 47-53.

Paez-Osuna, F. (2001). The Environmental Impact of Shrimp Aquaculture: Causes, Effects, and Mitigating Alternatives. Environmental Management, 28(1), 131-140.

Peraturan Menteri Kelautan dan Perikanan Republik Indonesia. (2016). Pedoman Umum Pembesaran Udang Windu (Penaeus monodon) Dan Udang Vaname (Litopenaeus vannamei). Kementerian Kelautan dan Perikanan, 1-43.

Qin, J., Lin, C., Almebayedh, H., Albader, M. (2019). Decomposition of long-chain petroleum hydrocarbons by Fenton‐like processes: Effects of ferrous iron source, salinity and temperature. Ecotoxicology and Environmental Safety, 169, 764-769.

Reid, G.K., Gurney-Smith, H.J., Marcogliese, D.J., Knowler, D., Benfey, T., Garber, A.F., Forster, I., Chopin, T., Brewer-Dalton, K., Moccia, R.D., Flaherty, M., Smith, C.T., De Silva, S. (2019). Climate change and aquaculture: considering biological response and resources. Aquaculture Environment Interactions, 11, 569–602.

Sau, F., Sarma, M., Trilaksani, W. (2017). Penerapan Cara Pembenihan Ikan yang Baik dalam Meningkatkan Kinerja UMKM Pembenihan Udang di Kabupaten Barru, Provinsi Sulawesi Selatan. Manajemen IKM,moch 12(1), 15-24.

Somridhivej, B., dan Boyd, C.E. (2017). Likely Effects of the Increasing Alkalinity of Inland Waters on Aquaculture. Journal Of The World Aquaculture Society, 48(3), 496-502.

Triyanti, R., dan Hikmah. (2015). Analisis Kelayakan Usaha Budidaya Udang Dan Bandeng: Studi Kasus Di Kecamatan Pasekan Kabupaten Indramayu. Buletin Ilmiah Marina Sosial Ekonomi Kelautan dan Perikanan, 1 (1), 1-10.

Wafi, A., Ariadi, H., Muqsith, A., Mahmudi, M., Fadjar, M. (2021). Oxygen Consumption of Litopeneus vannamei in Intensive Ponds Based on the Dynamic Modeling System. Journal of Aquaculture and Fish Health, 10(1), 17-24.

Wigiani et al. (2019). Status Keberlanjutan Kawasan Pesisir Berbasis Budidaya Udang Vaname Di Kecamatan Indramayu. Journal of Fisheries and Marine Research 3(2) , 144-154.

Yulisti, M., Mulyawan, I., Deswati, R.H., Luhur, E.S. (2021). Dampak Sertifikasi Cbib Terhadap Efisiensi Teknis Budidaya Tambak Udang Vannamei. Jurnal Sosial Ekonomi Kelautan Perikanan, 16(1) , 89-102.