Carrying Capacity Atribute as Instrument of Sustainable Marginal Shrimp Pond Management at Lowita Minapolitan Estate, District of Pinrang

  • Authors

    • Muhammad Hattah Fattah
    • Asbar Sitti Rahbiah
    • dan Firmansyah Putra
    https://doi.org/10.14419/ijet.v8i1.9.30092
  • carrying capacity, pond, shrimp, marginal, sustainable

  • The period of pond shrimp and fish cultivation recovery potentially triggers cultivation area extention exceeding environmental carrying capacity and leads to massive harvest failure. The research was conducted in Lowita Minopolitan Estate, district of Pinrang, South Sulawesi province. The analysis of environmental carrying capacity was conducted through capacity of dissolved oxygen availability. These approaches result in different pond extentions based on technology levels; intensive, semi-intensive, and traditional. The daily volume of sea water available on the beach for the cultivation is 3,154,765 m3 dy-1 in Lotang Solo village, 6,688,442 m3 dy-1 in Wiringtasi, and 3,590,424 m3 dy-1 in Tasiwalie. The waters environment carrying capacity is categorized as low at intensive cultivation pond. In case all pond areas are developed for traditional cultivation in Tasiwalie, Wiringtasi, and Lotang Salo with optimum production of 250 kg ha-1 CS-1, the allowed pond area that does not exceed the carrying capacity will successively be 1,966.18 ha, 557.37 ha, and 157.73 ha.

     

  • References

    1. [1] Boers, J. (2001). Sustainable coastal aquaculture. The Economic and Enviromental Rehabilitation of Traditional Aquaculture Ponds at Sinjai, South Sulawesi, Indonesia. Collaborative Enviromental Project in Indonesia, Jakarta. 64 pp.

      [2] Boyd, C.E. (1990). Water quality in ponds for aquaculture. Alabama Agricultural Experiment Station, Auburn University, Alabama. 482 p.

      [3] Charles, A.T. (2001). Sustainable fishery systems. Blackwell Science, London. UK.

      [4] Fattah,M.H., Saenong, M., Asbar, and Busaeri, S.R. (2014a). Production of endemic microcrustacean Phronima suppa (Phronima sp) to subtitute Artemia salina in tiger prawn cultivation. J. Aquac. Res. Development 5 : 257.

      [5] Fattah, M.H., Busaeri, S.R., Sabir, T.,and Atjo, A.S. (2014b). Pond marginal farmers empowerment through Phronima suppa (Phronima sp) development. Indonesian Aquaculture (Indoaqua). Seminar, August 26-29, 2014, Jakarta, 14 p.

      [6] Fattah, M.H., Asbar, and Busaeri, S.R. (2015). Dynamics of endemic habitats microcrastacea Phronima suppa (Phronima sp) as determinants of artificial production development. Journal of Life Science and Technologies (JOST) .Vol 3 No 1 and 2, 26-31.

      [7] Hardjowigeno, S dan Widiatmaka. (2011). Evaluasi kesesuaian lahan dan perencanaan tata guna lahan. Cetakan Kedua. Gajah Mada University Press. 352 hal.

      [8] SE (Scottish Executive). (2002). Review and synthesis of the enviromental impacts of aquaculture. Scottish Executive Central Research Unit. Edinburgh. 71 p. www.scotland.gov.uk/cru/kd01/green/reis-10,asp[21 Februari 2003]

      [9] Meade, J.W. (1989). Aquaculture management. An Avi Book, Van Nostrand Reinhold, 175 p.

      [10] Wedmeyer, G.A. (1996). Physiologi of fish in intensif culture system. Chapman and Hall, New York. 232 p.

      [11] Widigdo, B., dan Pariwono, J. (2003). Daya dukung perairan Pantai Utara Jawa Barat untuk budidaya udang (Studi Kasus di Kabupaten Subang, Teluk Jakarta, dan Serang), Jurnal Ilmu-Ilmu Parairan dan Perikanan Indonesia. Hal. 10 – 17.

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  • How to Cite

    Hattah Fattah, M., Sitti Rahbiah, A., & Firmansyah Putra, dan. (2019). Carrying Capacity Atribute as Instrument of Sustainable Marginal Shrimp Pond Management at Lowita Minapolitan Estate, District of Pinrang. International Journal of Engineering & Technology, 8(1.9), 705-708. https://doi.org/10.14419/ijet.v8i1.9.30092