Zooplankton Composition and its Relationship with Water Environment Parametersin the Aquaculture Area of Soc Trang Province

Received: 18-03-2021

Accepted: 10-01-2022

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Issue: Vol. 20 No. 2 (2022)

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CHĂN NUÔI – THÚ Y – THỦY SẢN

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Lien, N., Hoa, A., Giang, T., Ut, V., & Giang, H. (2024). Zooplankton Composition and its Relationship with Water Environment Parametersin the Aquaculture Area of Soc Trang Province. Vietnam Journal of Agricultural Sciences, 20(2), 213–225. http://testtapchi.vnua.edu.vn/index.php/vjasvn/article/view/953

Zooplankton Composition and its Relationship with Water Environment Parametersin the Aquaculture Area of Soc Trang Province

Nguyen Thi Kim Lien (*) 1 , Au Van Hoa 1 , Tran Trung Giang 1 , Vu Ngoc Ut 1 , Huynh Truong Giang 1

  • 1 Khoa Thủy sản, Đại học Cần Thơ

    • Keywords

    Zooplankton, nutrient concentration, aquaculture, Soc Trang province

    Abstract


    The objective of this study was to assess the effect of nutrient concentration on zooplankton distribution in the aquaculture area of Soc Trang province. A total of 4 sampling times was conducted from March to December 2019. At each sampling time, the nutrient parameters and qualitative and quantitative data of zooplankton were collected at 10 locations in the aquaculture zones. The results showed that species composition of zooplankton in the rainy season was higher than that in the dry season. The highest zooplankton abundance was recorded at stations in the tributary, in which protozoa was the most dominant class in most sampling stations. The contents of total suspended solids (TSS), total nitrogen (TN), phosphate (PO43-) and total phosphorus (TP) were not closely correlated with the composition of zooplankton. However, the nitrate (NO3-) concentration was positively correlated (P <0.05) with the component and abundance of Rotifera, Cladoceraand Copepoda. The results of the study could be the basic data source to support the management of surface water resources and the sustainable development of brackish aquaculture in Soc Trang province.

    References

    Abu Hena M.K. & Hishamuddin O.(2012). Food selection preference of different ages and sizes of black tiger shrimp, Penaeus monodonFabricius, in tropical aquaculture ponds in Malaysia. African Journal of Biotechnology.11(22): 6153-6159.

    APHA (1995). Standard Methods for the Examination of Water and Wastewater, 19th Edition, American Public Health Association Inc., New York.

    Berzins B. & Pejler B. (1987). Rotifer occurrence in relation to pH. Hydrobiologia, 182: 171-182.

    Bombeo T.I., Guanzon N.G.J. & Schroeder G.L. (1993). Production of Penaeus monodon(Fabricius) using four natural food types in an extensive system.Aquaculture. 112(1): 57-65.

    Boyd C.E. & Tucker C.S. (1992). Water quality and Pond soil analyses for Aquaculture. Auburn University, Alabama.

    Charles J.P. & Earl P.T. (1992). Methods of analysis by the U.S. Geological survey national water quality laboratory-determination of total phosphorus by a Kjeldahl digestion method and an automated colorimetric finish that includes dialysis. Open-File Report. pp. 92-146.

    Chen Q.H., Tam N.F.Y., Shin P.K.S., Cheung S.G. & Xu R.L. (2009). Ciliate communities in a constructed mangrove wetland for wastewater treatment. Mar. Pollut. Bull. 58(5): 711-719.

    Đặng Ngọc Thanh, Thái Trần Bái & Phạm Văn Miên (1980). Định loại động vật không xương sống nước ngọt miền Bắc Việt Nam. Nhà xuất bản Khoa học và Kỹ thuật Hà Nội.

    Ferdous Z. & Muktadir A.K.M. (2009). A Review: Potentiality of Zooplankton as Bioindicator. American Journal of Applied Sciences. 6(10): 1815-1819.

    Golmarvi D., Kapourchali M.F., Moradi A.M., Fatemi M. & Nadoshan R.M. (2017). Influence of physico-chemical Factors, zooplankton species biodiversity and seasonal abundance in Anzali International Wetland, Iran. Open Journal of Marine Science. 7: 91-99.

    Kalff J. (2002). Limnology: Inland water ecosystems, Prentice Hall publications.New Jersey, USA.

    Kitto M.R. & Bechara G.P. (2004). Business agriculture in Kuwait: challenges and solutions. World Aquaculture. 35(2): 56.

    Nguyễn Văn Khôi (2001). Phân lớp chân mái chèo- Copepoda, biển, Động vật chí Việt Nam. Nhà xuất bản Khoa học và Kỹ thuật, Hà Nội.

    Orsi J.J. & Mecum W.L. (1986). Zooplankton distribution and abundance in the Sacramento - San Joaquin Delta in Relation to Certain Environmental Factors. Estuaries. 9(4B): 326-339.

    Park G.S. & Marshal H.G. (2000). Estuarine relationships between zooplankton community structure and trophic gradients.J. Plank. Res. 22: 121-135.

    Phan Doan Dang, Nguyen Van Khoi, Le Thi Nguyet Nga, Đang Ngoc Thanh & Ho Thanh Hai (2015). Identification Handbook of Freshwater Zooplankton of the Mekong River and its Tributaries. Mekong River Commission, Vientiane.

    Pontin R.M. & Langley J.M. (1993). The use of rotifer communities to provide a preliminary national classification of small water bodies in England.Hydrobiologia. 225: 411-419.

    Rakshit D., Mohanty A.K., Satpathy K.K., Jonathan M.P., Murugan K. & Sarkar S.K. (2017). Bioindicator role of tintinnid (Protozoa: Ciliophora) for water quality monitoring in Kalpakkam, Tamil Nadu, south east coast of India. . ): 134-143.

    Shirota A. (1966). The plankton of South Vietnam-Freshwater and marine plankton. Oversea Technical Cooperation Agency, Japan.

    Whitman R.L., Nevers M.B., Goodrich M.L., Murphy P.C. & Davis B.M. (2004). Characterization of lake Michigan coastal lakes using zooplankton assemblages. Ecological Indicators. 4: 277-286.