Abstract
Concentrations of cadmium, lead, iron, zinc, copper, chromium, nickel, aluminium and arsenium were analysed in blood serum of cattle from organic (n = 20) and conventional (n = 21) farms. The elements were determined by inductively coupled plasma atomic emission spectrometry using an Optima 2000 DV instrument (Perkin Elmer Inc.). Animals from the organic farm were characterised by significantly lower (P < 0.01) serum concentrations of Pb, Zn, Fe, Cu, Cr, Ni, As and Al compared to animals from the conventional farm. The concentration of Cd was similar in animals from both organic and conventional farms. The concentration of toxic elements in cattle from organic and conventional farms studied was very low. The trace essential elements were generally within the adequate ranges except Zn and Cu, which were deficient. In organically reared animals, also serum Fe content was below the critical level for diagnosing iron deficiency. Pb was significantly correlated with Cd, Zn, Fe, Cu and Ni. A significant positive correlation between the concentration of Cd and Zn, Cu and Ni concentrations was only observed in cows from the organic farm. The present results suggest that organically raised animals are less exposed to harmful environmental influences such as the environmental pollution with heavy metals. On the other hand, these animals are at a greater risk of mineral deficiency compared to animals kept on conventional farms.
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Kertész V, Bakonyi G, Farkas B (2006) Water pollution by Cu and Pb can adversely affect mallard embryonic development. Ecotoxicol Environ Saf 65(1):67–73
Li J, Xie Z, Xu J, Sun Y (2006) Risk assessment for safety of soils and vegetables around a lead/zinc mine. Environ Geochem Health 28:37–44
De Vries W, Römkens P, Schütze G (2007) Critical soil concentration of cadmium, lead, and mercury in view of health effects on humans and animals. Rev Environ Contam Toxicol 191:91–130
Soghoian S, Sinert R (2009) Toxicity, heavy metals. Available at http://emedicine.medscape.com/article/814960-overview. Accessed Jan 2009
Keen CL, Gershwin ME (1990) Zinc deficiency and immune function. Ann Rev Nutr 10:415–431
Kincaid RL, Chew BP, Cronrath JD (1997) Zinc oxide and amino acids as sources of dietary zinc for calves: effects on uptake and immunity. J Dairy Sci 80:1381–1388
Ozmen O, Mor F (2004) Acute lead intoxication in cattle housed in an old battery factory. Vet Hum Toxicol 46:255–256
Wang Q, Zhao H, Chen J, Gu K, Zhang Y, ZhuY ZY, Ye L (2009) Adverse health effects of lead exposure on children and exploration to internal lead indicator. Sci Total Environ 407(23):5986–5992
Dasari S, Yuan Y (2009) Low level postnatal methylmercury exposure in vivo alters developmental forms of short-term synaptic plasticity in the visual cortex of rat. Toxicol Appl Pharmacol 240(3):412–422
Chester R, Nimmo M, Fones GR, Keyse S, Zhang Z (2000) Trace metal chemistry of particulate aerosols from the UK mainland coastal rim of the NE Irish Sea. Atmosph Environ 34:949–958
Babel S, Del Mundo DD (2006) Heavy metal removal from contaminated sludge for land application: a review. Waste Manage 26:988–1004
Manno E, Varrica D, Dongarrà G (2006) Metal distribution in road dust samples collected in an urban area close to a petrochemical plant at Gela, Sicily. Atmosph Environ 40:5929–5941
Grytsyuk N, Arapis G, Perepelyatnikova L, Ivanova T, Vynogradska V (2006) Heavy metals effects on forage crops yields and estimation of elements accumulation in plants as affected by soil. Sci Total Environ 354(2-3):224–231
Koréneková B, Skalická M, Naï P (2002) Concentration of some heavy metals in cattle reared in the vicinity of a metallurgic industry. Veterinarski Arh 72(5):259–267
Kottferova J, Korenekova B (1995) The effect of emissions on heavy metals concentrations in cattle from the area of an industrial plant in Slovakia. Arch Environ Contam Toxicol 29(3):400–405
López Alonso M, Benedito J, Miranda M, Castillo C, Hernández J, Shore R (2002) Cattle as biomonitors of soil arsenic, copper, and zinc concentrations in Galicia (NW Spain). Arch Environ Contamin Toxicol 43(1):103–108
Fakayode S, Olu-Owolabi I (2003) Trace metal content and estimated daily human intake from chicken eggs in Ibadan, Nigeria. Arch Environ Health 58(4):245–251
Somasundaram J, Krishnasamy R, Savithri P (2005) Biotransfer of heavy metals in Jersey cows. Indian J Anim Sci 75(11):1257–1260
López Alonso M, Montaña F, Miranda M, Castillo C, Hernández J, Benedito J (2004) Interactions between toxic (As, Cd, Hg and Pb) and nutritional essential (Ca, Co, Cr, Cu, Fe, Mn, Mo, Ni, Se, Zn) elements in the tissues of cattle from NW Spain. Biometals 17:389–397
Magnusson MK, Arvola A, Hursti UK et al (2003) Choice of organic foods is related to perceived consequences for human health and to environmentally friendly behaviour. Appetite 40:109–117
Darnhofer I, Lindenthal T, Bartel-Kratochvil R, Zollitsch W (2010) Conventionalisation of organic farming practices: from structural criteria towards an assessment based on organic principles. Agron Sustain Dev 30:67–81. doi:10.1051/agro/2009011
Olsson IM, Jonsson S, Oskarsson A (2001) Cadmium and zinc in kidney, liver, muscle and mammary tissue from dairy cows in conventional and organic farming. J Environ Monit 3(5):531–538
Lindén A, Andersson K, Oskarsson A (2001) Cadmium in organic and conventional pig production. Arch Environ Contam Toxicol 40(3):425–431
Strzetelski JA, Bilik K, Niwińska B, Szyndler J (2004) Organic farming of dairy cattle. National Centre for Organic Farming—Regional Advisory Centre for Agriculture and Rural Development in Radom, p 21
Gabryszuk M, Słoniewski K, Metera E, Sakowski T (2010) Content of mineral elements in milk and hair of cows from organic farms. J Elementol 15(2):259–267
Erdogan S, Celik S, Erdogan Z (2004) Comparison of selected toxic elements in cow serum and milk samples from industrial and rural regions. Bull Environ Contam Toxicol 72:931–936
Puls R (1994) Mineral levels in animal health: diagnostic data, 2nd edn. Sherpa, Clearbrook
Patra RC, Swarup D, Sharma MC, Naresh R (2006) Trace mineral profile in blood and hair from cattle environmentally exposed to lead and cadmium around different industrial units. J Vet Med 53:511–517
McDowell LR (1992) Minerals in animal and human nutrition. Academic, London
de Souza M, de Souza VM, Zandim B, Fernandes R, Fontes M (2009) Heavy metals in cattle biological samples. Cienc Rural 39(6):1774–1781. doi:10.1590/S0103-84782009005000088
Erdogan S, Celik S, Erdogan Z (2004) Seasonal and locational effects on serum, milk, liver and kidney chromium, manganese, copper, zinc, and iron concentrations of dairy cows. Biol Trace Elem Res 98:51–61
Yokus B, Cakir UD (2006) Seasonal and physiological variations in serum chemistry and mineral concentrations in cattle. Biol Trace Elem Res 109:255–266
Underwood EJ (1983) Minerals in cattle nutrition. Acribia, Zaragoza, pp 107–169
Winnicka A (2008) Reference values of basic laboratory tests in veterinary medicine. SGGW, Warsaw
WHO (1996) Trace elements in human nutrition and health. WHO, Geneva
Goyer RA (1995) Factors influencing metal toxicity. In: Goyer RA, Klaassen CD, Waalkes MP (eds) Metal toxicology. Academic, San Diego, pp 31–45
Barceloux D (1999) Nickel. Clin Toxicol 37:239–258
Spears J, Harvey R, Samsell L (1986) Effects of dietary nickel and protein on growth, nitrogen metabolism and tissue concentrations of nickel, iron, zinc, manganese and copper in calves. J Nutr 116:1873–1882
Spears J, Hatfield W, Forbes RM (1978) Interrelationship between nickel and zinc in the rat. J Nutr 108:307–312
Nielsen FH, Zimmerman TJ (1981) Interactions among nickel, copper and iron in rats. Biol Trace Elem Res 3:83–98
Nielsen FH, Shuler TR, McLeod TG, Zimmerman TJ (1984) Nickel influences iron metabolism through physiologic, pharmacologic and toxicologic mechanisms in the rat. J Nutr 114:1280–1288
Jaerup GL, Pershagen G (1991) Arsenic exposure, smoking, and lung cancer in smelter workers; a case–control study. Am J Epid 1346:545–551
López Alonso M, Benedito J, Miranda M, Castillo C, Hernández J, Shore R (2000) Arsenic, cadmium, lead, copper and zinc in cattle from Galicia, NW Spain. Sci Total Environ 246:237–248
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Tomza-Marciniak, A., Pilarczyk, B., Bąkowska, M. et al. Heavy Metals and Other Elements in Serum of Cattle from Organic and Conventional Farms. Biol Trace Elem Res 143, 863–870 (2011). https://doi.org/10.1007/s12011-010-8910-z
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DOI: https://doi.org/10.1007/s12011-010-8910-z