Occurrence of Heavy Metals (Cd, Pb, As, Hg) in the Liver of Wild Boars in the Republic of North Macedonia

Amici A., Danieli P. P., Russo C., Primi R., Ronchi B. (2012): Concentrations of some toxic and trace elements in wild boar (Sus scrofa) organs and tissues in different areas of the Province of Viterbo, Central Italy. Italian Journal of Animal Science, 11(4): e65. Search in Google Scholar

Annual Plan (2020): The annual plan for monitoring residues and illegal substances in live animals, products and raw materials of animal origin for 2020. Skopje. Official Gazette of the Republic of North Macedonia, no. 26/2020. Search in Google Scholar

Berzas Nevado J.J., Rodríguez Martín-Doimeadios R.C., Mateo R., Rodríguez Fariñas N., Rodríguez-Estival J., Patiño Ropero M.J. (2012): Mercury exposure and mechanism of response in large game using the Almadén mercury mining area (Spain) as a case study. Environmental Researchl, 112: 58-66. Search in Google Scholar

Beuković D, Vukadinović M, Krstović S, Polovinski-Horvatović M, Jajić I, Popović Z, Lavadinović V, Beuković M, (2022): The European Hare (Lepus europaeus) as a Biomonitor of Lead (Pb) and Cadmium (Cd) Occurrence in the Agro Biotope of Vojvodina, Serbia. Animals, 12(10): 1249. Search in Google Scholar

Bielińska E.J. & Mocek-Płóciniak A. (2010): Impact of ecochemical soil conditions on selected heavy metals content in garden allotment vegetables. Polish Journal of Environmental Studies, 19(5): 895-900. Search in Google Scholar

Bilandžić N., Sedak M., Dokić M., Simić B. (2010): Wild boar tissue levels of cadmium, lead and mercury in seven regions of continental Croatia. Bulletin of Environmental Contamination Toxicology, 84(6): 738-743. Search in Google Scholar

Bilandžić N., Sedak M., Vratarić D., Perić T., Simić B. (2009): Lead and cadmium in red deer and wild boar from different hunting grounds in Croatia. Science of the Total Environment, 407(14): 4243-4247. Search in Google Scholar

Brzezicha-Cirocka J., Mędyk M., Falandysz J., Szefer P. (2016): Bio-and toxic elements in edible wild mushrooms from two regions of potentially different environmental conditions in eastern Poland. Environmental Science and Pollution Research, 23: 21517-21522. Search in Google Scholar

CEN (2002a): E, Foodstuffs – Determination of trace elements – Pressure digestion, European Committee for Standardization, 2002. Search in Google Scholar

CEN (2002b): EN 13086, Foodstuffs – Determination of trace elements – Determination of mercury by cold-vapour atomic absorption spectrometry (CVAAS) after pressure digestion, European Committee for Standardization, 2002. Search in Google Scholar

CEN (2003): E, Foodstuffs – Determination of trace elements – Determination of lead, cadmium, zinc, copper and iron by atomic absorption spectrometry (AAS) after microwave digestion, European Committee for Standardization, 2003. Search in Google Scholar

Chiari M., Cortinovis C., Bertoletti M., Alborali L., Zanoni M., Ferretti E., Caloni F. (2015): Lead, cadmium and organochlorine pesticide residues in hunted red deer and wild boar from northern Italy. Food Additives & Contaminants: Part A, 32(11): 1867-1874. Search in Google Scholar

Crnić A.P., Šuran J., Madunić H.C., Božić F. (2015): Cadmium concentrations in the tissues of young wild boar (Sus scrofa L.) from Moslavina and Slavonia in lowland Croatia. Veterinarski Arhiv, 85: 323-334. Search in Google Scholar

Danieli P., Serrani F., Primi R., Ponzetta M., Ronchi B., Amici A. (2012): Cadmium, lead, and chromium in large game: a local-scale exposure assessment for hunters consuming meat and liver of wild boar. Archives of environmental contamination and toxicology, 63: 612-627. Search in Google Scholar

de Souza Reginato G., Barbosa G.K., Ferreira A.O., Vasconcelos B.G., Rici R.E.G., Watanabe I.S., Ciena A.P. (2020): Morphological and ultrastructural characteristics of the tongue of wild boar. European Journal of Histochemistry, 64(2): 3128. Search in Google Scholar

Dobrowolska A. & Melosik M. (2002): Mercury contents in liver and kidneys of wild boar (Sus scrofa) and red deer (Cervus elaphus). Zeitschrift für Jagdwissenschaft, 48(1): 156-160. Search in Google Scholar

Dobrowolska A. & Melosik M. (2008): Bullet-derived lead in tissues of the wild boar (Sus scrofa) and red deer (Cervus elaphus). European Journal of Wildlife Research, 54: 231-235. Search in Google Scholar

Durkalec M., Szkoda J., Kolacz R., Opalinski S., Nawrocka A., Zmudzki J. (2015): Bioaccumulation of Lead, Cadmium and Mercury in Roe Deer and Wild Boars from Areas with Different Levels of Toxic Metal Pollution. International Journal of Environmental Research, 9(1): 205-212. Search in Google Scholar

EC (2006): Commission Regulation (EC) No. 1881/2006 of 19 December 2006 setting maximum levels for certain contaminants in foodstuffs. The Official Journal of the European Union, 364: 5-24. Search in Google Scholar

EC (2007): Commission Regulation (EC) 333/2007 of 28 March laying down the methods of sampling and analysis for the official control of the levels of lead, cadmium, mercury, inorganic tin, 3-MCDP and benzo(a)pyrene in foodstuffs, The Official Journal of the European Union, L88, 29.3.2007 Search in Google Scholar

EC (2008): Commission Regulation (EC) No. 149/2008 of 29 January 2008 amending Regulation (EC) No. 396/2005 of the European Parliament and of the Council by establishing Annexes II, III and IV setting maximum residue levels for products covered by Annex I thereto. The Official Journal of the European Union. Search in Google Scholar

Eltsova L. & Ivanova E. (2021): Total mercury level in tissues of commercial mammalian species (wild boar, moose) of the Russky Sever National Park (North-West of Russia). E3S Web of Conferences, 265: 05009. Search in Google Scholar

Florijančić T., Ozimec S., Jelkić D., Vukšić N., Bilandžic N., Bošković G., Bošković I. (2015): Assessment of heavy metal content in wild boar (Sus scrofa L.) hunted in eastern Croatia. Journal of Environmental Protection and Ecology, 16(2): 630-636. Search in Google Scholar

Gašparík J., Binkowski Ł.J., Jahnátek A., Šmehýl P., Dobiaš M., Lukáč N., Massanyi P. (2017): Levels of Metals in Kidney, Liver, and Muscle Tissue and their Influence on the Fitness for the Consumption of Wild Boar from Western Slovakia. Biological Trace Element Research, 177(2): 258-266. Search in Google Scholar

Giżejewska A., Spodniewska A., Barski D., Fattebert J. (2015): Beavers indicate metal pollution away from industrial centers in northeastern Poland. Environmental Science and Pollution Research, 22(5): 3969-3975. Search in Google Scholar

Giżejewska A., Szkoda J., Nawrocka A., Żmudzki J., Giżejewski Z. (2017): Can red deer antlers be used as an indicator of environmental and edible tissues’ trace element contamination? Environmental Science and Pollution Research, 24(12): 11630-11638. Search in Google Scholar

Gómez-Ramírez P., Shore R. F., Van den Brink N.W., Van Hattum B., Bustnes J. O., Duke G., Sonne C. (2014): An overview of existing raptor contaminant monitoring activities in Europe. Environmental International, 67: 12-21. Search in Google Scholar

Goyer R. (1996): Toxic effects of metals. In: Klaassen CD. Casarett & Doull’s Toxicology. New York: McGraw-Hill., pp. 811-867. Search in Google Scholar

Lee S.M. & Lee E.J. (2019): Diet of the wild boar (Sus scrofa): implications for management in forest-agricultural and urban environments in South Korea. PeerJ, 7: e7835. Search in Google Scholar

Lénárt Z., Bartha A., Abonyi-Tóth Z., Lehel J. (2023): Monitoring of metal content in the tissues of wild boar (Sus scrofa) and its food safety aspect. Environmental Science and Pollution Research, 30(6): 15899-15910. Search in Google Scholar

Liu Z.P. (2003): Lead poisoning combined with cadmium in sheep and horses in the vicinity of non-ferrous metal smelters. Science of the Total Environment, 309(1-3): 117-126. Search in Google Scholar

Mulero R., Cano-Manuel J., Ráez-Bravo A., Pérez J. M., Espinosa J., Soriguer R., Romero D. (2016): Lead and cadmium in wild boar (Sus scrofa) in the Sierra Nevada Natural Space (southern Spain). Environmental Science and Pollution Research, 23: 16598-16608. Search in Google Scholar

Nawrocka A., Durkalec M., Szkoda J., Filipek A., Kmiecik M., Żmudzki J., Posyniak A. (2020): Total mercury levels in the muscle and liver of livestock and game animals in Poland, 2009-2018. Chemosphere, 258: 127311. Search in Google Scholar

Pajak M. & Jasik M. (2011) Heavy metal (Zn, Pb, Cd) concentration in soil and moss (Pleurozium schreberii) in the Brynica district, southern Poland. iForest-Biogeosciences and Forestry, 4(4): 176-180. Search in Google Scholar

Piskorová L., Vasilková Z., Krupicer I. (2003): Heavy metal residues in tissues of wild boar (Sus scrofa) and red fox (Vulpes vulpes) in the Central Zemplin region of the Slovak Republic. Czech Journal of Animal Science, 48(3): 134-138. Search in Google Scholar

Reglero M.M., Taggart M.A., Monsalve-Gonzalez L., Mateo R. (2009): Heavy metal exposure in large game from a lead mining area: effects on oxidative stress and fatty acid composition in liver. Environmental Pollution, 157(4): 1388-1395. Search in Google Scholar

Santiago D., Motas-Guzmán M., Reja A., María-Mojica P., Rodero B., García-Fernández A.J. (1998): Lead and cadmium in red deer and wild boar from Sierra Morena Mountains (Andalusia, Spain). Bulletin of Environmental Contamination Toxicology, 61(6): 730-737. Search in Google Scholar

Santiago D., Motas M., Reja A., María-Mojica P., Rodero B., García-Fernández A. (1999): Lead and Cadmium in Red Deer and Wild Boar from Sierra Morena Mountains (Andalusia, Spain). Bulletin of Environmental Contamination Toxicology, 61: 730-737. Search in Google Scholar

Satarug S., Baker J. R., Urbenjapol S., Haswell-Elkins M., Reilly P. E., Williams D. J., Moore M. R. (2003): A global perspective on cadmium pollution and toxicity in non-occupationally exposed population. Toxicology letters, 137(1-2): 65-83. Search in Google Scholar

Wolkers H., Wensing T., Groot Bruinderink G. W. (1994): Heavy metal contamination in organs of red deer (Cervus elaphus) and wild boar (Sus scrofa) and the effect on some trace elements. Science of the Total Environment, 144(1-3): 191-199. Search in Google Scholar