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Histopathological alterations, biochemical responses and acetylcholinesterase levels in Clarias gariepinus as biomarkers of exposure to organophosphates pesticides.

Author information

Affiliations

  • 1. Environmental Biology unit, Department of Biological Science, Yaba College of Technology, Lagos, Nigeria.
      Authors
    • Doherty VF 1
    • Aneyo IA 1
    • Adeola A 1
    • Odulele WY 1
    (4 authors)
  • 2. Department of Polymer and Textile Technology, Yaba College of Technology, Lagos, Nigeria.
      Authors
    • Ladipo MK 2
    (1 author)

ORCIDs linked to this article

Environmental Monitoring and Assessment, 27 Apr 2016, 188(5):312
https://doi.org/10.1007/s10661-016-5299-y PMID: 27121169 

Abstract 

Organophosphate pesticides, commonly used in large scale farming, have been found to be major contaminants in aquatic environment. Clarias gariepinus was exposed to acute and sublethal concentrations of phostoxin and DD Force to evaluate single and joint action toxicity of the organophosphates. Effects of phostoxin and DD force on antioxidant enzymes, fish organs and acetylcholinesterase levels in fingerlings and juveniles of C. gariepinus were also investigated. The lethal concentrations (96 h LC50) for phostoxin and DD Force were 0.631 and 1.759 mg/l, respectively. The results obtained from the bioassay showed that phostoxin was 2.8× more toxic than DD Force after exposure of C. gariepinus. Joint action toxicity evaluations of phostoxin and DD Force showed that the interaction between the chemicals was synergistic (RTU >1). The biochemical responses in the exposed fish differed significantly (P < 0.05) from the control fish. The result of acetylcholinesterase study revealed significant difference between acetylcholinesterase levels in the exposed fish and control, with reduction in the acetylcholineterase level in fish exposed to sublethal concentrations of phostoxin and DD Force. Haematological studies revealed an increase in WBC, RBC, PCV and platelets in the exposed fish. Histopathology of the gills showed shortened primary lamellae, loss of secondary lamellae and loss of ceratobrachial bones. In the acute toxicity studies, respiratory stress, erratic swimming and instant death of fish were observed in the exposed fish. This study reveals that changes in histopathology and acetylcholinesterase level are good biomarkers and can be successfully used to detect exposure to organophosphates pesticides in fish.

Full text links 

Read article at publisher's site: https://doi.org/10.1007/s10661-016-5299-y

References 

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