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Possible Heavy Metal Residues in Poultry and Their Products that Are Bred Around Cement Industry

DOI: http://dx.doi.org/10.14269/2318-1265/jabb.v3n2p63-68

http://www.jabbnet.com/ 

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İsmail E. Ersoy1, Ahmet Uzatıcı2 & Ertuğrul Bilgücü2

 

Abstract: Industry is an efficient tool for industrial development that is present in human lives and that mobilizes local and regional economies. When inspected from this aspect, industrial regions provide economic and social benefits for the societies. However on the other hand, they leave harmful effects to the environment and they may cause health and safety threats for communities. Mismanaged industrial regions may cause air and water pollution, noise problems and industrial accidents. One of the main purposes of this investigation is to determine the heavy metal (Pb, Cd, Cu, Cr, Co, Mo and Ni) levels in the liver, thigh and chest tissues of the chickens bred around the cement factory in a residential area. It is determined that the heavy metal levels in the livers of poultries bred in these areas are quite high (P<0,01) and also in the heavy metal analyses performed, the values obtained from the samples taken from the egg, thigh and chest tissues of the poultries are specified as high (P<0,01).

Key words: ICP-AES (Atomic Emission Spectrophotometry), Heavy Metal, Liver, Poultry, Blood

 

Resumo: A indústria é uma ferramenta eficiente para o desenvolvimento  industrial, que está presente em vidas humanas  e que mobiliza a economia local e regional. Quando  inspecionados a partir deste aspecto, as regiões industriais  proporcionam benefícios econômicos e sociais para as sociedades. No entanto, por outro lado, elas deixam  os efeitos  nocivos no meio ambiente e podem causar ameaças de segurança e saúde para as comunidades. Regiões  industriais mal administradas podem causar poluição do   ar e da água, problemas de ruído e acidentes industriais. Um dos  principais objetivos deste trabalho é determinar os níveis de  metais pesados (Pb, Cd, Cu, Cr, Co, Mo e Ni) nos tecidos do  fígado, coxas e peito de frangos criados em torno da fábrica  de cimen to em uma área residencial. Determinou-se que os níveis de metais pesados  no fígado de frangos criados nestes domínios  são bastante elevados (P <0,01) e também, na análise de metais pesados realizada, os valores obtidos para  as amostras tomadas a partir  do ovo, coxa e peito das aves de capoeira são especificados como elevada (P <0,01).

Palavras-chave: ICP-AES (Espectrofotometria de emissão atômica), metal pesado, fígado, aves domésticas, sangue

 

1 District Directorate of Food, Agriculture and Animal Husbandry, Ezine, Çanakkale, Turkey 
2 Vocational High School, University of Çanakkale Onsekiz Mart, Çanakkale, Turkey. E-mail: kamapua@hotmail.com

 

Literatura Citada

Akova İ (2008) Renewable Energy Sources, Nobel Publication Distribution, Ankara.

Pekin A (2009) http://www.e-kutuphane.imo.org.tr/pdf/12323.pdf.

Henry PR and Miles RD (2001) Heavy Metals – Vanadium Poultry. Ciência Animal Brasileira 2 :11-26.

WHO (2006) Protecting Groundwater for Health. Managing the Quality of Drinking-water Sources.TJ International (Ltd), Padstow, Cornwall, UK .

Bigersson B, Sterner O, Zimerson E (1988) Chemie und Gesundheit. Eine Verst 2ndliche Einführung in die Toxikologie. VCHV erlagsgeselschaft. 

Kahvecioğlu Ö, Kartal G, Güven A, Timur S, (2004a) Metals Environmental Effects-I. Journal of Metallurgy 47-53.

Raikwar MK, Kumar P, Singh M, Singh A (2008) Toxic Effect of Heavy Metals in Livestock Health. Veterinary World, 1, 28-30. doi

Shen J (2003) “Biosorption of cupric and cadmium ions by corncob particles” (Master Thesis). Ottawa University, Canada.

Dündar Y, Aslan R (2005) The effects of heavy metals of surrounding of the life. Kocatepe Medical Journal 6:1-5.

Kahvecioğlu Ö, Kartal G, Güven A, Timur, S (2004b) Metals Environmental Effects II .Metallurgy Journal, 137:46-51.

Gültakti Y (2006) The research of heavy metal contents on some grain and legumes that grown in Van lake basin. Master Thesis. Yüzüncü Yıl University, Van.Turkey.

Yarsan E, Özdemir M, Turhan E (1996) The case of the acute poisoning with lead on cattles.

Özbek T (1993) Agrology, Cukurova University, Faculty of Agriculture. No: 458 Adana, 225.

Işıklı B, Demir TA, Akar T, Berber A, Ürer SM, Kalyoncu C, Canbek M (2006) Cadmium Exposure From The Cement Dust Emissions: A Field Study in Rural Residence. Chemosphere 63:1546-1552. doi

Thornton I (1990) Metal contamination of soils in urban areas. In Bullock P and Gregory PJ (ed) Soils in the urban environment. Springer-Verlag, New York.

Newman JR (1979) Effects of Industrial Air Pollution on Wildlife. Biol. Conserv 15:181-190. doi

Demirbaş A (1999) Proximate and Heavy Metal Composition in Chicken Meat and Tissues. Food Chemistry 67:27-31. doi

Paone P (2008) Heavy Metals in the Cement Industry: A Look at Volatile Cycles and Simple Mitigation Techniques. IEEE/PCA Cement Industry Technical Conference.

Nicholson FA, Chambers BJ, Williams JR, Unwin RJ (1999) Heavy Metal Contents of Livestock Feeds and Animal Manures in England and Wales. Bioresource Technology 70:23-31. doi

Sınıgoj-Gancnık K, Doganoc DZ (2000) Contamination of Farm Animals and Fishesfrom Slovenia With Heavy Metals and Sulfonamides Bull. Environ Contam Toxicol 64:235-241. doi

Holeman A, Smodis B, Anke M, Meissner D, Mills CF (1993) Heavy metal content in hens eggs. Trace elements in Man and Animals TEMA 8,Proc. 8th Int Symp. on Trace Elemants in Man and Animals, 249-250, Gersord Germany.

Şekeroğlu A and Akmaz Y (2009) The effect of the distance of the highways on the heavy metal content of the egg. Anatolia Agricultural Sciences Dergisi 24:103-107.

Fınley MT and Dıeter MP (1978) Influence of Laying on Lead Acumalation in Bone of Mallard Ducks. J Toxicology Environ Health 4:123-128. doi

Ozan K and Ünsal A (1996) General Toxicology. Istanbul University Veterinary Faculty Publication 48:2-70, Istanbul.

Humphereys DJ (1991) Effects of Exposure to Excessive Quantıtıes of Lead on Animals. British Veterinary Journal 147:18-30. doi

Roberts RD, Johnson MS, Hutton M (1978) Lead Contamination of Small Mammalsfrom Abondoned Metalliferus Mines. Environ Pollut 15: 61-69. doi

Bakallı RI, Pestı GM, Ragland WL, Konjufca V (1995) Dietary Copper in Excess of Nutritional Requirement Reduces Plasma and Breast Muscle Cholesterol of Baldwin DR, Marshall WJ. “Heavy Metal Poisoning and Its Laboratory Investigation” (Review Article), Annals of Clinical Biochemistry (1999); 36:267-300.

Buggıanı SS and Rındı S (1992) Lead Toxicosis and Salt Glands in Domestic Ducks. Bull. Environ. Contam. Toxicol. 24:152-155. Cadmium Environmental Aspects. Geneva. doi

World Health Organızation (1992) IPCS Environmental Health Criteria No: 34.

Irwin JC and Karstad LH (1989) The Toxicity for Ducks of Disintegrad Lead Shot in a Simulated-Mars Environment. Ġn: Lead –Environmental aspects. Environmental Healt Criteria 85. World Health Organization, Geneva.

Osbom D and Every WIJ, Bull KR (1983) The Toxicity of Trialkyl Lead Compounds to Birds. Environ Pollut 31:261-275. doi

Taylor A and Brown A (1983) Simple and Rapid Procedure fort the Determination of Lead Whole Blood by use of a Slotted Tube and Dicrete Nebulisation Flame Atomik Absorption Spectrometry. Analyst September 7:1159-1161. doi

Salısbury Craıg DC, Chan W, Saschenbrecker PW (1991) Multielement Schroeder H., A., 1974.The poisons around us. Toxic metals in food, air and water. Indiana University Press, Bloomington, London.

Soltanpour PN and Workman SM (1981) Use of inductivelycoupled plasma spectroscopy for the simultaneous determination of macro and micronutrients in NH HCO–DPTA extracts of soils. In Barnes R.M. (ed). Developments In Atomic Plasma Analysis, USA, pp.673-680.