Abstract:
Biomarkers can be considered as early warning signals for potential adverse effects on the biota. The present study
examined the feasibility of using selected biomarker responses of a model fish, Oreochromis niloticus under laboratory exposure
approach for identification of potential biological impacts of pollution in Kelani River. Laboratory acclimated O. niloticus were
exposed under static-renewal conditions to water samples collected from selected sites of the Kelani River basin with different
anthropogenic influences and biomarker responses (brain and muscle cholinesterase activities for neurotoxicity, erythrocyte
micronuclei and nuclear abnormalities for genotoxicity and liver histology for hepatic damage) were evaluated at 5 and 10 days of
exposure. Exposed water was physico-chemically characterized using standard analytical methods. The results revealed that
exposure of O. niloticus to the water from selected polluted sites which included canals and canal confluences resulted in significant
increases (p<0.05) in total erythrocyte nuclear abnormalities, evolution of erythrocyte micronuclei and induction of liver
histopathological indices in comparison to the fish exposed to the water from the upper reach of the river (reference site) in most
cases and the control fish exposed to the aged tap water in all cases. Brain cholinesterase activity was significantly inhibited
(p<0.05) in the fish exposed to the water from the most polluted site compared to the control fish exposed to the aged tap water.
Biomarker responses indicated that the fish populations inhabiting the polluted sites in the river may be under stress especially due
to hepatic damage and genotoxicity. Evaluation of “effect directed biomarker responses” of the model fish, O. niloticus following
laboratory exposure to the contaminated water can be a practically feasible approach for biomonitoring potential pollution impacts
associated with the riverine ecosystems.
