King M.A., Sogbanmu T.O., Osibona A.O., Doherty F., Otitoloju A.A.
Toxicological evaluation and usefulness of lipid peroxidation as biomarker of exposure to crude oil and petroleum products tested against african catfish, clarias gariepinus and hermit crab, clibanarius africanus
Department of Zoology, Environmental Toxicology and Pollution Management Unit, University of Lagos, Akoka, Lagos, Nigeria; Department of Marine Sciences, Faculty of Science, University of Lagos, Akoka, Lagos, Nigeria; Department of Biological Sciences, Ya
King, M.A., Department of Zoology, Environmental Toxicology and Pollution Management Unit, University of Lagos, Akoka, Lagos, Nigeria; Sogbanmu, T.O., Department of Zoology, Environmental Toxicology and Pollution Management Unit, University of Lagos, Akoka, Lagos, Nigeria; Osibona, A.O., Department of Marine Sciences, Faculty of Science, University of Lagos, Akoka, Lagos, Nigeria; Doherty, F., Department of Biological Sciences, Yaba College of Technology, Yaba, Lagos, Nigeria; Otitoloju, A.A., Department of Zoology, Environmental Toxicology and Pollution Management Unit, University of Lagos, Akoka, Lagos, Nigeria
The toxicological evaluations of crude oil, petrol, kerosene and diesel were carried out against the African Catfish (Clarias gariepinus) fingerlings and Hermit crab (Clibanarius africanus). On the basis of 96hr LC 50 value, petrol (LC 50 = 2.449 mL/L) was found to be the most toxic followed by diesel (LC50 = 7.839 mL/L), kerosene (LC 50 = 8.095 mL/L), and crude oil (LC 50= 9.355 mL/L) to Clarias gariepinus. For Clibanarius africanus also, petrol (LC 50 = 4.569mL/L) was the most toxic followed by kerosene (LC 50 = 8.705 mL/L), diesel (LC 50 = 13.852 mL/L) and (LC 50 = 35.955 mL/L). On the basis of the computed susceptibility factor, hermit crab was found to be 2x, 2x, 6.1x and slightly more tolerant than catfish when exposed to petrol, diesel, crude oil and kerosene respectively. The results of the lipid peroxidation assay against juveniles of C. gariepinus showed that the level of malondialdehyde (MDA) in the liver of fish exposed to sublethal concentrations of all the test chemicals increased significantly when compared to control animals. The observed increase in MDA levels in the liver tissues of test animals exposed to crude oil and refined petroleum products was recommended as a good biomarker for early detection of oil related pollution during biomonitoring programmes.
African catfish; Biomonitoring; Clarias gariepinus; Hermit crab; Lipid peroxidation; Liver tissue; Malondialdehyde; Toxicological evaluation; Aldehydes; Biomarkers; Computer system firewalls; Fish; Gasoline; Kerosene; Oxidative stress; Petroleum products; Petroleum refining; Pollution detection; Shellfish; Tissue; Crude oil; biomarker; biomonitoring; crab; crude oil; lipid; pollution exposure; sublethal effect; teleost; toxicology; Animalia; Clarias gariepinus; Clibanarius; Decapoda (Crustacea)