JOURNAL OF ANIMAL SCIENCE AND VETERINARY MEDICINE
Integrity Research Journals
ISSN: 2536-7099
Model: Open Access/Peer Reviewed
DOI: 10.31248/JASVM
Start Year: 2016
Email: jasvm@integrityresjournals.org
Assessment of heavy metals in body muscles/organs of locally reared poultry in cocoa and non-cocoa producing areas of Cross River State, Nigeria
https://doi.org/10.31248/JASVM2017.046 | Article Number: 907712E83 | Vol.2 (3) - June 2017
Received Date: 20 March 2017 | Accepted Date: 11 May 2017 | Published Date: 30 June 2017
Authors: Williams, Mary Emmanuel* , Igile, Godwin O. , Usoro, Ofoninyene Okon and Offiong, Edem
Keywords: Bio-accumulation, local chicken, organs, tissues.
There is a growing concern about the impact of increased used of Agro-pesticide on public health and safety issues especially in farming community who pursue high agricultural productivity. Pesticide pollution is a subject of global concern and the extent of its poisoning is considered to be grossly under estimated. This study was conducted to assess the concentration of heavy metals (Cd, Pb, Hg, Cr, As and Ni) in muscle, liver, kidney and lungs of matured locally reared chickens. Sampling was carried out in two cocoa producing areas (Ikom and Etung) and non-cocoa producing area (Odukpani) in Cross River State, Nigeria, over a period of one year (November, 2013 to October, 2014). Determination of heavy metals was carried out using Atomic Absorption Spectrophotometer (ASS). Highest levels of cadmium (0.11±0.02 µg/g) and lead (0.26±0.11 µg/g) were recorded in liver simples from Etung and Ikom. The highest levels of chromium concentration (2.95±0.05 µg/g) was observed in kidney of chickens from Etung, while nickel (1.16±0.0404 µg/g) was highest in lung samples from Etung and Odukpani recorded the highest nickel concentration values (1.16±0.04 µg/g). The results show that higher levels of heavy metals can accumulate in the body tissues/organs of chickens in cocoa producing area. These are no exception since Etung is a cocoa producing area and the metals were found highest in kidney and lungs of chicken from this area. Generally, livers and kidneys were found to have the highly significant (P<0.5) levels of the metals than the muscles and lungs the lowest. However, the concentrations of all the metals studied were within the tolerance limits with exception of chromium and nickel which were respectively higher than their 0.10 µg/g and 0.5 µg/g tolerance limit. The results obtained in this study will be useful in formulating guidelines and standards for heavy metals in chicken products in cocoa-producing and non-cocoa producing areas of Nigeria.
| Akan, J. C., Abdulrahman, F. I., Sodipo, O. A., & Chiroma, Y. A. (2010). Distribution of Heavy metal in the liver, Kidney and meat of Beef, Mutton, caprine and hicken from Kasuwan Shanu Market in Maiduguri Metropolis Borno State, Nigeria. Res. J. of Applied sciences, Engineering and Technology, 2(8), 743 -748. | ||||
| ANZFA (2001). (Australia New zealand and Food Authority). Wellington N Z. 6036 May, 2001. Link |
||||
| Aranha, K. (1994). Environmental Chemistry. 3rd Edition, New Age International Ltd. Publisher, New Delhi, Pp. 213-219. | ||||
| ATSDR (2004). Agency for Toxic substances and Diseases Registry, Division of Toxicology, Clifton Road, NE, Atlanta, Ga. Link |
||||
| Baykov, B. D., Stoyanov, M. P., & Gugova, M. L. (1996). Cadmium and Lead Bioaccumulation in male chickens for high food concentrations. Toxical. Environmental Chemistry, 54,155-159. Crossref |
||||
| Belton, P. S. (2006). Trace Element Analysis of Food and Diet RSC Food ANALYSIS MONOGRAPHS Royal society of chemistry, Thomas Graham House Science Park, Milton Road, Cambridge, CBLOWF, UK. | ||||
| Charles, E., & Margaret, C.H. (1993). Environmental science, 3rd ed. Prentice - Hall Publishers, London, Pp. 258-263. | ||||
| Cunning ham, W. P., & Saigo, B. W. (1997) Environmental Science a Global concern. 4th Edn., WMC Brown Publisher, New York, p. 389. | ||||
| Danev, M., Serafimo vska, V., Sekulovski, P., Stojkovic, E., Kristic, B., & Zoric, M (1996). Cadmium contamination of beef. Technol. Mesa, 37, 19-21. | ||||
| Demirezen , D., & Uruoc, K. (2006). Comparative study of trace elements in certain fish, meat andmeat product. Meat Science; 74, 255-260. Crossref |
||||
| Doganoc, D. Z. (1996). Distribution of lead, cadmium and Zinc in tissues of hens and chicken from Sloeia. Bulletin of Environmental Contamination Toxicology, 57, 932-937. Crossref |
||||
| Duncan, D. B. (1980). Multiple Range and Multiple F - test. Biometrics 11, 1-42. Crossref |
||||
| FAO/WHO (2000). Report of the 32nd session of the codex committee of the food additives contaminants. Beijing people's Republic of China, 20 - 24 March. | ||||
| Ghita, M. V., Stanescu, L., Tudor, L. I., & Gallis, A. M. (2009). Determination of heavy metals content of meat and meat by products by using neutron activation analysis and atomic absorption spectrometry. Scientific works – University of Agronomical Science and Veterinary Medicine, Bucharest Series C. Veterinary Medicine, 55(3),140-146 | ||||
| González-Weller, D., Karlsson, L., Caballero, A., Hernández, F., Gutiérrez, A., González-Iglesias, T., Marino M., & Hardisson, A. (2006). Lead and cadmium in meat and meat products consumed by the population in Tenerife Island, Spain. Food additives and Contaminants, 23(8), 757-763. Crossref |
||||
| Iwegbue, C. M. A, Nwajei, G. E, Iyoha, E.N. (2008). Heavy metal residues of chicken meat and gizzard and turkey meat consumed in southern Nigeria. Bulg. J.vet.med.11(4), 275-280. | ||||
| John, H. H., & Jean, I. R. (1994). Food Additives, Contaminants and Natural Toxins. In : Maurice Modern Nutrition in Health and Disease. 8th Edn, part 11, Pp. 1597-1598. | ||||
| Johnson, C. L. (2004). In the environment: sources, Toxicities and prevention of exposure, Predator Ann. 33(7), 437-442. Crossref |
||||
| Koréneková, B., Skalieka, M., & Nad, P. (2002) Concentration of some heavy metals in cattle reared in the vicinity of metallurgic Industry. Veterinarski Arhiv, 72(5), 259-267. | ||||
| Krupa, J., & Swida, J. (1997). Concentration of certain heavy metal in the muscles, liver and kidney of goats fattened in the Beiszczady mountains. Anim. Sci, 15, 55-59. | ||||
| Lee, D. H., Lee, I. K., Song, K., steffes, M., Toscano, W., Baker, B. A., & Jacobs, O. R. (2006). A strong Dose Response Relation Between serum concentrations of persistent Organic Pollutant and Diabetes care, 29, 1638-1644. | ||||
| Magothe, T. M., Okeno, T. O., Muhuyi, W. B., & Kahi, A. K. (2012) Indigenous chicken production in Kenya. Current status. World Poultry Science Journal, 68(11), 119-132. Crossref |
||||
| Maldonado-Vega, M., Cerbon-Solorzano, J., Albores-Medina, A., Hernández-Luna, C., & Calderon-Salinas, J. V. (1996). Lead: intestinal absorption and bone mobilization during lactation. Human & experimental toxicology, 15(11), 872-877. Crossref |
||||
| Mariam, I., Igbal, S., & Nagra, S. A. (2004). Distribution of some trace and macrominerials in beef, mutton and Poultry. Int. J. Agric Bio., 1(6), 816-820. | ||||
| Miranda, M., Lopez-Alonso, M., Castillo, C., Hernández, J., & Benedito, J. L. (2005). Effects of moderate pollution on toxic and trace metal levels in calves from a polluted area of northern Spain. Environment International, 31(4), 543-548. Crossref |
||||
| Oforka, N. C., Osuji, L. C., & Onwuachu, U. I. (2012). Assessment of Heavy metal pollution in muscle and internal organs of chickens raised in River State, Nigeria. Journal of Emerging Treads in Engineering and Applied Science, 3(3), 406-411. | ||||
| Osuji, L., & Onojake, C. M (2004). Trace heavy metals associated with crude oil: a case study Ebocha - 8 oil - spill - polluted site in Niger Delta, Nigeria. Chemistry and Biodiversity, 1, 1708- 1715. Crossref |
||||
| Roga-Franc, M., Kosla, T., & Rokicki, E. (1996). Cadmium concentration in organs of dairy cows depending on that element meadow cover. Mengen Spurenelem, Arbeistag, Pp. 393-397. | ||||
| Samek, M., Zarski, T. P., & Debski, B. (1997). Distribution of mercury in the tissue of broiler chicken after Agronal Poisoning, Vet. Med, 20, 101-106. | ||||
| Spierenburg, T. J., De-Graaf, G. J., & Braars, A. J. (1988). Cadmium, Zinc, Lead and Copper in livers and kidney of cattle in the neighborhood of Zinc refineries. Environ. Monit. Asses. 11, 107-114 Crossref |
||||
| Stoyke, M., Doberschutz, K. D., & Lusky, K. (1995). Heavy metal contents (cadmium, lead and mercury) in selected feedstuffs, organs and tissue in cattle from different sites of Brandenburg. Mengen - Spurenelen. Arbeitstag, Pp. 269-276. | ||||
| Surtipanti, S., Suwirma, S., Yumiarti, S., & Mellawati, Y. (1995). Determination of Heavy Metals in Meat, Intestine, Liver, Eggs, and Chicken Using Neutron Activation Analysis and Atomic Absorption Spectrometry. Atom Indonesia, 21(1), 1-8. | ||||
| WHO (1996). World Health Organisation: Health critenia and other supporting information. In Guidelines for drinking water quality Vol 2, 2nd edu, Geneva. Pp. 31-38. | ||||
| Zarski, T. P., Zarska, H., Samek, M, and Siluk, I (1997). Mercury contamination of the tissues of cattle from various regions of Poland. Vet. Med, 20, 107-111. | ||||
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