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LI Li, MA Tao-Wu, WU Zhen-Bin. TOXIC EFFECT OF DOMESTIC SEWAGE ON RARE MINNOW (GOBIOCYPRIS RARUS)[J]. ACTA HYDROBIOLOGICA SINICA, 2004, 28(1): 40-44.
Citation: LI Li, MA Tao-Wu, WU Zhen-Bin. TOXIC EFFECT OF DOMESTIC SEWAGE ON RARE MINNOW (GOBIOCYPRIS RARUS)[J]. ACTA HYDROBIOLOGICA SINICA, 2004, 28(1): 40-44.
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TOXIC EFFECT OF DOMESTIC SEWAGE ON RARE MINNOW (GOBIOCYPRIS RARUS)

  • Institute of Hydrobiology, The Chinese Academy of Science, Wuhan430072

  • Received Date: February 13, 2003
  • Rev Recd Date: April 23, 2003
  • Published Date: January 24, 2004
    Graphical Abstract
    • Abstract
  • Many components in domestic sewage have been proved to have toxic effects,but it is far more enough to access the toxic effect of domest ic sewage according to the known effects of the limited compounds.Due to the co mplexity of domestic sewage,it is difficult to identify the toxic effect of diff erent components. Comparatively,it is more reliable to evaluate its toxic ef fect by using the whole sewage as a block in the toxic test.In the present study, dom estic sewage was collected from a main sewage entrance of Lake Donghu and used i n the experiment to investigate the toxic effects of domestic sewage. In order to test the potential toxic effect of domestic sewage, rare minnow(Gr obioc ypris rarus)was chosen as the experimental animal by the advantages of its sma ll size,short sexual maturation period,easy breeding in the lab and its sensitiv ity to toxic compounds. Different exposure experiments at different life periods were carried out and th e toxic effects were analyzed at morphological level and histological level.A 20 -day short time exposure experiment during the early life stage from fertilized eggs showed that domestic sewage at high concentration exerted acute toxic effect on rare minnow. The fertilized eggs could not hatch at the original concentra t ion of the sewage, and there was a decreasing hatching rate and survival rate of fry and an increasing abnormality of fry as the concentration of the domestic sewage increased. In the 30-day exposure experiment during the gonad development period,micrographs of the liver samples collected from the exposed fish showed g reat toxic effect of the domestic sewage on fish liver cells.Cell nucleus of the exposed fish metamorphosed, mitochondria and endoplasmic reticulum became uncle ar,and lipid droplets appeared.Additionally,the gonad development of rare minnow was delayed when the concentration of the domestic sewage increased.In the four months full life cycle exposure experiment, the results showed that the domestic sewage delayed the growth and gonad development of rare minnow even at low con centration. Micrographs of liver samples collected from the exposed fish also sh owed great toxic effects of domestic sewage on the fish hepatocytes. Cell nucleu s of the exposed fish metamorphosed,mitochondria and endoplasmic reticulum canno t be seen clearly,and many and large lipid droplets appeared. The results indicate that the original domestic sewage at the sewage entrance has acute toxic effect on the early life stage of fish. Directly discharging of the domestic sewage will affect the growth and gonad development of the fish near the sewage entrance.
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  • [1]
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    Sold(a)n P. Toxic risk of surface water pollution-six years of experience [J].Environment International,2002,966:1-6[2] Vega M M, Fern(a)ndez C,Bl(a)zquez T, et al. Biological and chemical tools in the toxicological risk assessment of Jayama River,Madrid, Spain[J].Environmental Pollution,1996,93(2):135-139[3] Sandra P,Guillam(o)n M,Barcel(o) D. Quantitative analysis of polycyclic aromatic hydrocarbons in sewage sludge from wastewater treatment plants[J].Journal of Chromatography 2001,938:57-65[4] Wang Z H,Yin Y W,Xu Z N.Acute and subchronic toxicity of pyrethroid insecticides to Gobiocypris rarus [J].Chinese Journal of Applied and Environmental Biology, 1998,4(4):379-382. [王朝晖,尹伊伟,许忠能.8种拟除虫菊酯农药对稀有(鱼句)鲫的急性、亚慢性毒性研究.应用与环境生物学报,1998,4(4):379-382][5] Werner I,Koger C S,Deanovic L A, et al. Toxicity of methyl-tert-butyl ether to freshwater organism [J].Environmental Pollution,2001 111:83-88[6] Nimrod A C,Benson W H.Reproduction and development of Japanese medaka following an early life stage exposure to xenoestrogens [J].Aquatic Toxicology, 1998 44:141-156[7] Sepulveda M S,Ruessler D S, Denslow N D, et al. Effects of paper mill effluents on the reproductive success of florida largemouth bass[C].In:Proceedings of the International Conference. Pulp and papermill research. 2000[8] Dizer H, Wittekindt E, Fischer B.The cytotoxic and gonotoxic potential of surface water and waster water effluents as determined by bioluminescence,umu-assays and selected biomarkers[J].Chemsphere, 2002,46:225-233[9] Pacheco M,Santos M A. Biotransformation, genotoxic, and histopathological effects of environmental contamninants in European ell (Anguilla anguilla L.)[J]. Ecotoxicology and Environmental Safty, 2002,53:331-347[10] Liu J K. Ecological research on lake Donghu Ⅱ[M].Beijing:Sciences Press,1995. [刘建康. 东湖生态学研究(二).北京:科学出版社,1995][11] Xie L Q,Xie P,Tang H J.The concentration and dynamics of sediment phosphorus in various lake regions of lake Donghu[J].Acta Hydrobiologica Scinica, 2001,25(4):305-310[谢丽强,谢平,唐汇娟.武汉东湖不同湖区底泥总磷含量及变化的研究.水生生物学报,2001,25(4):305-310]
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