Evaluation of hemopoietic responses in Labeo rohita Hamilton following acute copper toxicity |
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Authors: | M. Som N. Kundu S. Bhattacharyya |
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Affiliation: | 1. Aquatic Bio-Resource Research Laboratory, Department of Zoology , University of Calcutta , Kolkata 700019, India;2. Department of Animal Physiology , Bose Institute , Kolkata 700054, India |
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Abstract: | Fish are often exposed to highly contaminated water, especially in areas where the dilution rate of waste water is low. Environmental pollutants or other stress may affect one or more of the immunological functions in fish. Effective control of toxic substances is essential for the success of fish culture, which requires fish health monitoring using biomarkers. This study evaluated the effects of heavy metal copper (Cu) at environmentally relevant concentrations on the hematopoiesis in Labeo rohita. L. rohita fingerlings were exposed to different Cu concentrations for 6, 24, 48, or 72 hr. Following exposure, percentage blast cells was found to be increased after 6 and decreased after 24, 48, and 72 hr both at sublethal and LC50 concentrations, whereas percentage mature erythrocytes decreased after 6 and increased after 24, 48, and 72 hr. Erythropoietic and leukopoietic efficiencies were also affected upon exposure. Erythropoietic and leucopoietic efficiencies increased markedly after 6, 24, and 48 hr but decreased after 72 hr in sublethal-treated fish. Erythropoietic efficiency decreased significantly after 6, 24 and 48 hr but increased after 72 hr in LC50-treated fish. Leukopoietic efficiency decreased significantly after 6 hr exposure and increased after 24 and 48 hr but decreased after 72 hr. Flow cytometric studies of head kidney cell cycle phase distribution revealed cell death and DNA synthesis. The percentage cell death increased in fish exposed to sublethal concentrations and rose further at LC50 during the earlier hours of exposure. Synthesis of DNA was increased at sublethal concentrations but was significantly reduced at LC50 dose. |
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Keywords: | haemopoiesis copper toxicity flow cytometry Labeo rohita |
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