SOME HEAVY METALS IN SURFACE WATER, SEDIMENT AND FISH (Clarias gariepinus) FROM IKPOBA RIVER BENIN-CITY, EDO-STATE, NIGERIA

Authors

  • N. F. OLELE
  • E. D. FALODUN
  • O. M. WANGBOJE

DOI:

https://doi.org/10.51406/jagse.v13i1.1212

Keywords:

Heavy metals, Surface Water sample, Sediment, Clarias gariepinus, Ikpoba River

Abstract

Fumes from high vehicular traffic dense areas combined with mixed effluent sources, and run-off waters from some industrial areas channelled into water bodies are possible sources of metal pollutions. Specimens of Clarias gariepinus, surface water samples and sediments from Ikpoba River were collected from two stations, on monthly basis for six months: They were analyzed for concentrations of some heavy metals, using Atomic Absorption Spectrophotometer (AAS). Metal absorption in all three samples revealed a decreasing order of concentration as follows: fish>sediments>surface water. Total mean concentration of metals in samples also showed a decreasing order Zinc>Lead > Copper>Cadmium>Chromiun. ANOVA results revealed that all metals except Chromium and Copper, were higher in fish  harvested from station 1 than those from station 2. Samples of fish, water or sediment harvested in station 1, contained higher concentration of metals than those isolated from station 2. For instance,  Zinc (45.03mg/l) had the highest total mean concentration from fish in stations 1. Surface water in station 1 (0.111mg/l) had higher concentration of lead than station 2 (0.106mg/l) whereas station 2 (0.154mg/l) recorded higher concentration of Copper than station 1 (0.137mg/l). All metals analyzed in sediment samples were higher in station 1 than in station 2 except for Chromium where the value in station 2 (0.29mg/l) exceeded that in station 1 (0.15mg/l). Lead and Zinc concentrations from sediments were highest at station 1 (28.71mg/l) and (24.11mg/l) respectively. The observed concentrations of Lead and Cadmium in fish samples exceeded the WHO maximum permissible limits for aquatic lives, while other metals did not. The results suggest that Ikpoba River is polluted and Clarias gariepinus fish from the river may not be fit for human consumption.

 

References

Abduijaleel, S.A. and Shuhaimi-Othman, M. 2011. Metal concentrations in eggs of domestic avian and estimation of health risks from eggs consumption. Journal of Biological Sciences. 11: 448-453

Al-Khateeb, S.A. and Lellah, A.A. 2005. Heavy metals accumulation in the natural of Eastern province of Saudi Arabia. Journal of Biological Sciences. 5: 707-712.

Asegbelojin, J.N. and Ukoha, P.O. 2010. Assessment of toxic trace metals in selected fish species and parts of domestic animals. Nigerian Journal of Nutrition, 3: 212-215.

Biney, C.A. and Beeko, C.A. 1991. Trace metals concentrations in fish and sediment from wiwi, a small river urban river in Kumasi, Ghana. Tropical Ecology. 32(2): 197-206

Ekpo, K. E. , Asia, I. O. , Amayo, K. O. and Jegede, D. A. 2008. Determination of lead, cadmium and mercury in surrounding water and organs of some species of fish from Ikpoba river in Benin city, Nigeria. International Journal of Physical Sciences 3 (11): 289-292.

FAO (1985). Compilation of legal limits for Hazardous Substances in Fish and Fishery Products. Food and Agriculture Organisation. Fishery circular, No. 466: 5-10.

Igboanugo, A. C. and Chiejine, C. M. 2012. Pollution Survey of Ikpoba River, Benin City, Nigeria. Journal of Emerging Trends in Engineering and Applied Sciences (JETEAS) 3 (3): 567-571.

Kaplan, Yildrin, N. C. O. Yildrim, N. and Cimen, M. 2011. Toxic elements in animal products and Environmental health. Asian Journal of Animal and Health Advances 6: 228-232.

Kishe, M. A.; Machiwa, J. F. 2003. Distribution of heavy metals in sediments of wanza Gulf of Lake Victoria, Tanzania, Environment International 28: 619-625.

Idodo-Umeh, G. and Oronsaye, J. O. 2006. Heavy metal pollution of sediments from Eriora River in Olomoro town, Niger Delta, Nigeria. Journal of Sustainable Agricultural Resources, 21: 74-81.

Luoman, S.N. and Bryan, G.W. 1978. Trace metals bioavailability, modelling chemical and biological interactions of sediments-bound zinc. Pp. 414-431.

Mansour, S.A. and Sidky, M.M. 2002. Heavy metals contaminating water and fish from Fayoun Governorate, Egypt. Food Chemistry. 78: 15-22.

Nussey, G., Van Vuren, J.H.J. and Du-preez, H.H. 2000. Bioaccumulation of chromium, manganese, nickel and lead in the tissues of the moggel, Labeo umbratus (Cyprinidae) from Witbank Dam, Mpumanalnga water. S.A, 26: 269-284.

Nwabueze, A.A. 2011. Levels of some heavy metals in tissues of Bonga fish, Ethmallosa fimbriata (Bowdich, 1825) from Forcados River. Journal of Applied Environmental and Biological Sciences. 1: 44-47.

Obasohan, E.E and Oronsaye, J.A.O 2000. Heavy metals in water, sediment and some important commercial fish spp from Ikpoba River, Benin-city, Nigeria. Journal of Applied Science and Environmental Management. 4: 263-268.

Olaifa, F.E., Ayodele, I.A. 2004. Presence of hydrocarbon and heavy metals in some fish species in the cross river, Nigeria. Journal of Livestock Extension. 3: 90-95.

Oronsaye J. A. O. 1987. Uptake and loss of absorbed cadmium by stickleback (Gasterostens aceleatus). Ecotoxicology Environmental Safety. 17: 414-431.

Oronsaye, J. A. O., Wangboje, O. M., Oguzie, F. A. 2010. Trace metals in some benthic fishes of the Ikpoba river Dam, Benin City, Nigeria. African Journal of Biotechnology 9 (51): 8860-8864.

W.H.O (World Health Organisation) 1985. Guidelines for drinking water quality. Recommendation WHO: Geneva, p.130.

Downloads

Published

2015-07-06

Issue

Section

Original Manuscript