You are here

Головна » BTF №1 2022

Effect of different doses of heavy metals on quality and safety indices of meat and pig fat

The results of studies of the effect of toxic doses of heavy metals, namely Cadmium and Lead (jointly and separately) at the dose of 10 and 20 maximum allowable concentrations on the chemical composition and quality of the muscle and adipose tissues of pigs are presented. The assessment is given of the use of the experimental herbal supplement as protective agent for chronic intoxication with heavy metals. When animals consumed diets with the high level of heavy metals, both jointly and separately, there were changes in the chemical composition and technological properties of muscle tissue and bacon. The content of dry matter, fat, and protein in meat decreased, and these changes were more significant in the organisms of animals receiving increased doses of Cadmium in series I and when heavy metals were fed together in series II, where their content in diets was 20 maximum allowable concentrations. Along with this, in the meat of the animals of the experimental groups, compared with the control, the calorie content and protein-quality index decreased. The active acidity of meat and its water-retaining capacity in animals of all groups were within the normal range. However, in animals that received high doses of heavy metals with the diet, the pH of the meat slightly changed towards neutral environment (pH - 5.3 - 5.5, with pH control - 5.1 - 5.2), the water-holding capacity of the meat of experimental animals ranged from 55.24% to 56.5% (control - 55.0 - 55.1%). Studies of the qualitative indicators of pig bacon experimentally showed that under the influence of Cadmium and Lead there was the decrease in the amount of dry matter (up to 2.84%) and fat (up to 2.7%) in the bacon, the increase in moisture and % of cell membranes compared to control animal groups. With the increase in the dose of heavy metals, negative changes in the chemical composition and technological properties of the meat and bacon of experimental animals were more noticeable. The intake of heavy metals into the organism of animals led to the accumulation of these toxicants in meat, and with the increase in the dose of heavy metals, their accumulation also increased. Thus, the content of Cadmium and Lead in the meat of animals of the experimental groups in both series of experiments exceeded the established MPC for these toxicants, while the excess for Lead was maximum 1.9 times (Group II), and for Cadmium 4.0 times (Group IV). Feeding the experimental feed additive helped to improve the chemical composition and technological properties of meat and bacon of fattening pigs, and to reduce the accumulation of toxins in muscle tissue.

Key words: pork, bacon, quality, Cadmium, Lead, water-holding capacity, experimental herbal supplement.

CHALAYA O. https://orcid.org/0000-0003-0189-6657


CHALY O. https://orcid.org/0000-0001-6159-9908


NAHORNY S. https://orcid.org/0000-0001-7870-2342


  1. Kotelevich, V. A. (2018). Yakist ta prodovolcha bezpeka tvarinnitskoyi produktsiyi v Zhitomirskomu regioni [Quality and food safety of livestock products in the Zhytomyr region]. Organichne virobnitstvo i prodovolcha bezpeka [Organic production and food security]. Zhytomyr: Publisher O.O. Evenok, рp. 255–261.
  2. Lebret, B. (2008). Effects of feeding and rearing systems on growth, carcass composition and meat quality in pigs. Published online by Cambridge University Press. Vol. 2, Issue 10, pp. 1548–1558. DOI:10.1017/S1751731108002796
  3. Kovalenko, B. P., Shevchenko, O. B. (2021). Organolepticheskaya otsenka myasa raznyih genotipov sviney [Organoleptic evaluation of meat of different genotypes of pigs]. Veterinariya, tehnologiyi tvarinnitstva ta prirodokoristuvannya [Veterinary medicine, animal husbandry technologies and nature management]. № 7 рp. 47–52. DOI:10.31890/vttp.2021.07.07
  4. Obov’yazkoviy minimalniy perelik doslidzhen sirovini, produktsiyi tvarinnogo ta roslinnogo pohodzhennya, kombikormovoyi sirovini, kombikormiv, vitaminnih preparativ ta inshe, yaki slid provoditi v derzhavnih laboratoriyah veterinarnoyi meditsini i za rezultatami yakih vidaetsya veterinarne svidotstvo (F - 2) [Mandatory minimum list of studies of raw materials, products of animal and plant origin, feed materials, compound feeds, vitamin preparations, etc., which should be conducted in state laboratories of veterinary medicine and the results of which are issued veterinary certificate (F - 2)]. State dep. vet medicine. K., 1998, 32 р.
  5. Basiladze, G. V., Kalandiya, E. G. (2017). Vlijanie zagrjaznennogo tjazhjolymi metallami moloka na bezopasnost' molochnyh produktov [Impact of milk contaminated with heavy metals on the safety of dairy products]. Innovacionnye tehnologii v APK: teorija i praktika: sbornik statej V Mezhdunarodnoj nauchnoprakticheskoj konferencii [Innovative technologies in the agro-industrial sector: theory and practice: collection of articles of the V International Scientific and Practical Conference]. Penza: RIO PSAU, pp. 10–13.
  6. Kuranova, A. P., Ivanova, E. B. (2010). Tjazhjolye metally kak jekotoksikanty [Heavy metals as ecotoxicants]. Prikladnaja toksikologija [Applied Toxicology]. 1 (2), pp. 14–17.
  7. Dyman' T.M., Hrynevych N.Ye., Mazur T.H. (2022). Bezpeka harchovyh gidrobiontiv: pidruchnyk za nauk. red. T. Dyman' [Safety of food aquatic organisms: Textbook For science. ed. T. Diman.]. K.: VC "Academy" (Series "Alma Mater"), 256 p.
  8. Simahina, G. O., Naumenko, N. V. (2016). Harchuvannja jak osnovnyj chynnyk zberezhennja stanu zdorov’ja naselennja [Nutrition as the main factor in preserving the state of health of the population]. Problemy starenija i dolgoletija [Problems of aging and longevity]. 25 (2), pp. 204–214.
  9. Molnar, D. I., Soskida, I. M. (2016). Bezpeka produktiv harchuvannja [Food safety]. Ekonomika i suspil'stvo [Economy and society]. 6, pp. 266–271.
  10. Pinskiy, D. L., Motsik, A. (2001). Himiya tyazhelyih metallov v okruzhayuschey srede [Chemistry of heavy metals in the environment]. Zagryaznyayuschie veschestva v okruzhayuschey srede [Pollutants in the environment]. Nature in PushinoBratislava, рp. 75–115.
  11. Dyman' T.M., Mazur T.H. (2011). Bezpeka prodovol'choi' syrovyny i harchovyh produktiv [Safety of food raw materials and food products]. K.: VC "Academy" (Series "Alma Mater"), 520 p.
  12. Barcelo, I., Pochenrieder, Ch. (1990). Plant water relations as affect ted by heavy metal stress a review. I. Plant Nutr. рp. 1–37
  13. Mikroelementyi v pitanii cheloveka: dokl. komis. ekspertov VOZ [Trace elements in human nutrition: report. comis. WHO experts]. 1975, M.: Medicine, 74 р.
  14. Barbier, O., Jacquillet, G., Tauc, M. (2005). Effect of heavy metals on, and handling by, the kidney. Nephron Physiol. 99(4), pp. 105–110.
  15. Cadmium In: Safety Evaluation of Certain Food Additives and Contaminants, Fifty Fifth Meeting of the Joint FAO/WHO Expert Committee on Food Additives (JECFA). (2011). Geneva: WHO Food Additives Series, 46, World Health Organization, Geneva. pp. 305–380.
  16. Qiao, Yi Chen., Thomas, Des Marais., Max, Costa. (2019). Metals and Mechanisms of Carcinogenesis. Annu Rev Pharmacol Toxicol. no. 6 (59), pp. 537–554. DOI:10.1146/annurevpharmtox-010818-021031
  17. Bifeng, Hu., Ruiying, Zhao., Songchao, Chen., Yue, Zhou., Bin, Jin., Yan, Li., Zhou, Shi. (2018). Heavy Metal Pollution Delineation Based on Uncertainty in a Coastal Industrial City in the Yangtze River Delta, China. Int Journal Environ Res Public Health.Vol. 15 (4), 710 p. DOI:10.3390/ijerph15040710
  18. Keneth, I.K., Phyllis, C.N., Sarah, N., Dickson, S.T., Andrew, N., Pwaveno, H.B. (2018). Food Safety Analysis of Milk and Beef in Southwestern Uganda. Journal Environ Public Health. 13. DOI:10.1155/2018/1627180
  19. Zasekin, D. A. (2002). Monitoring vazhkih metaliv u dovkilli ta sposobi znizhennya yih nadlishku v organizmi tvarin: avtor. dis. doktora vet. nauk: 16.00.06. [Monitoring of important metals in dovkilli and ways to reduce their excess in the organisms of creatures: abstract of the thesis of a doctor of veterinary sciences: 16.00.06.]. NAU. K. 40 p.
  20. Chalaya, O. S. (2013). Vplyv riznyh rivniv kadmiju ta svyncju v racioni molodnjaku svynej na produktyvnosti ta zabijni jakosti [Influence of different levels of cadmium and lead in the diet of young pigs on productivity and slaughter quality]. Tavrijs'kyj naukovyj visnyk: naukovyj zhurnal [Tavriysky Scientific Bulletin: Scientific Journal]. Issue 83, pp. 196–202.
  21. BulavkIna, T. P.(1999). Perehid vazhkih metaliv z kormiv u produkti zaboyu sviney [Transition of heavy metals from feed to pig slaughter products]. Svinarstvo: mizhvidomchiy tematichniy naukoviy zbirnik [Pig breeding: interdepartmental thematic scientific collection]. K., Issue 54, рp. 129–132.
  22. Kosobryuhov, A. N. (1965). Mikrojelementy kak veterinarno-sanitarnaja problema [Microelements as a veterinary-sanitary problem]. Tez. dokl. Vsesojuz. soveshh. po mikrojelementam [Proc. report All-Union. meeting on trace elements]. Riga, рp. 66–68.
  23. Kosobryuhova, A. N. (1982). Veterinarno-sanitarnaya ekspertiza myasa i moloka, pri endemicheskih boleznyah, voznikayuschih u zhivotnyih, v usloviyah biogeohimicheskih provintsiy: problemnaya lektsiya [Veterinary and sanitary examination of meat and milk, with endemic diseases that occur in animals, in the conditions of biogeochemical provinces: a problematic lecture]. Troitsk, 26 р.
  24. Maclachlan, D. J., Budd, K., Connolly, J., Derrick, J., Tobin, T. (2016). Arsenic, cadmium, cobalt, copper, lead, mercury, molybdenum, selenium and zinc concentrations in liver, kidney and muscle in Australian sheep. Journal of Food Composition and Analysis. Vol. 50, pp. 97–107. DOI:10.1016/j.jfca.2016.05.015
  25. Chen, S. S., Lin, Y. W., Kao, Y. M., Shih, Y. C. (2013). Trace elements and heavy metals in poultry and livestock meat in Taiwan. Food Additives & Contaminants. Part B, Vol. 6, pp. 231–236. DOI:10.10 80/19393210.2013.804884
  26. Adzitey F., Kumah A., Mensah, S. B. K. (2015). Assessment of the Presence of Selected Heavy Metals and their Concentration Levels in Fresh and Grilled Beef. Guinea Fowl Meat in the Tamale Metropolis, Ghana. Research Journal of Environmental Sciences. Vol. 9 (3), pp. 152–158. DOI:10.3923/rjes.2015.152.158
  27. Bokova, T. I. (2011). Jekologicheskie osnovy innovacionnogo sovershenstvovanija pishhevyh produktov: monografija [Ecological foundations of innovative improvement of food products: maonograph]. Novosibirsk: Publishing House of the NSAU, 284 p.
  28. Kalashnikov, A. P., Kleymenov, N. I., Bakanov, V. N. (1985). Normyi i ratsionyi kormleniya selskohozyaystvennyih zhivotnyih [Norms and diets for feeding farm animals]. Moscow: Agropromizdat, 352 р.
  29. Baranovsky, D. I., Hetmanets, O. M., Khokhlov, A. M. (2017). Biometrija v programnomu seredovyshhi MS Excel: navchal'nyj posibnyk [Biometrics in the MS Excel software environment: tutorial]. Harkiv: SPD FO Brovin O. V. [Kharkiv: State Enterprise of the Federal District Brovin O. V.]. 90 p.
  30. Lebedko, E. Ya., Khokhlov, A. M., Baranovsky, D. I., Getmanets, O. M. (2018). Biometrija v Ehcel [Biometrics in Excel]. St. Petersburg: ELS Lan, 172 p.
  31. Chalaya, O. S. (2016). Rekomendacii' shhodo zastosuvannja kompleksnoi' fitodobavky pry vidgodivli svynej v umovah nadmirnogo ekocydnogo vplyvu [Recommendations for the use of complex phytonutrients in fattening pigs in conditions of excessive ecocidal exposure]. Naukovo-tehnichnyj bjuleten' № 115 [Scientific and technical bulletin № 115]. IT NAASU. Kharkiv, рp. 237–241.
AttachmentSize
PDF icon chalaya_1_2022.pdf543.44 KB
BTF №1 2022