Study of quality indicators for meat raw materials and the effectiveness of a protective technological method under conditions of different content of heavy metals in a pig diet

Authors

DOI:

https://doi.org/10.15587/1729-4061.2019.174154

Keywords:

pork, lard, quality, heavy metals, moisture retaining ability, experimental plant additive

Abstract

The paper report results of research related to studying a change in the qualitative indicators and technological properties of meat and lard of swine under conditions of different diet compositions, specifically, with the addition of lead and cadmium (combined and separately) at the dose of 20 maximum permissible concentrations. The evaluation of effectiveness of the protective technological method (feeding experimental plant additive) at the simultaneous arrival of heavy metals with feed was given in order to restore the quality of swine production. It was found that lead and cadmium, both at combined and at separate arrival with feed to the organisms of young pigs had a negative impact on the nutritional and biological value of pork and its technological properties. Their influence led to a decrease in the caloricity of meat, retaining protein, fat, dry substances in it, while the most sufficient changes were observed in the animals of group IV, where lead and cadmium arrived at the same time. Active acidity of meat and its moisture-retaining capability of animals of all groups were within the norm. However, in animals that received elevated doses of heavy metals with feed, the pH of meat changed slightly toward the neutral medium (pH is 5.3–5.5, while control value of pH is 5.1), the moisture-retaining ability of the meat of the studied animals ranged from 55.1 % to 56.5 % (control was 55.1 %). The influence of diets with different composition resulted in a change of the qualitative indicators of lard of the studied animals, at this, there was a reliable increase in the percentage of dry matter (up to 2.84 %) and fat (up to 2.79 %) compared with the control. Feeding animals with the experimental plant additive along with the feed that contained heavy metals contributed to the enhancement of the calorie content of meat (up to 19.4 %), dry matter (up to 9.4 %), the protein-quality indicator (up to 5.9 %) compared with the animals that received heavy metals with the feed, but without the application of this technological method. This technological method also contributed to the technological improvement of the qualitative indicators of lard of the animal. Specifically, we noted an increase in the percentage of dry matter (from 0.4 % to 2.5 %), fat (from 0.7 % to 3.2 %) and a decrease of cell membranes in lard (from 8.6 % to 25 %) in comparison with the indicators of animals of groups I–IV and their approaching the control indicators.

Author Biographies

Olga Chalaya, Kharkiv Petro Vasylenko National Technical University of Agriculture Alchevskykh str., 44, Kharkiv, Ukraine, 61002

PhD, Associate Professor

Department of Agrotechnology and Ecology

Alexander Nanka, Kharkiv Petro Vasylenko National Technical University of Agriculture Alchevskykh str., 44, Kharkiv, Ukraine, 61002

PhD, Professor, Rector

Andriy Paliy, Kharkiv Petro Vasylenko National Technical University of Agriculture Alchevskykh str., 44, Kharkiv, Ukraine, 61002

Doctor of Agricultural Sciences, Associate Professor

Department of Technical Systems and Animal Husbandry Technologies

Sergey Nagornij, Kharkiv Petro Vasylenko National Technical University of Agriculture Alchevskykh str., 44, Kharkiv, Ukraine, 61002

PhD, Associate Professor

Department of Technical Systems and Animal Husbandry Technologies

Oleksandr Chalyi, Kharkiv State Zooveterinary Academy Academichna str., 1, smt. Mala Danylivka, Dergachi district, Kharkiv reg., Ukraine, 62341

PhD, Associate Professor

Department of Livestock and Poultry Technologies

References

  1. Lebret, B. (2008). Effects of feeding and rearing systems on growth, carcass composition and meat quality in pigs. Animal, 2 (10), 1548–1558. doi: https://doi.org/10.1017/s1751731108002796
  2. Bokova, T. I. (2011). Ekologicheskie osnovy innovatsionnogo sovershenstvovaniya pischevyh produktov. Novosibirsk: Izd-vo NGAU, 284.
  3. Basiladze, G. V., Kalandiya, E. G. (2017). Vliyanie zagryaznennogo tyazhelymi metallami moloka na bezopasnost' molochnyh produktov. Innovatsionnye tekhnologii v APK: teoriya i praktika: sbornik statey V Mezhdunarodnoy nauchno-prakticheskoy konferentsii. Penza: RIO PGAU, 10–13.
  4. Kuranova, A. P., Ivanova, E. B. (2010). Tyazhelye metally kak ekotoksikanty. Prikladnaya toksikologiya, 1 (2), 14–17.
  5. Ashok Kumar, G. (2015). Effects of Heavy Metals and Preventive Measures. Research & Reviews: Journal of Ecology and Environmental Sciences, 3 (1), 10–20.
  6. Titov, A. F., Kaznina, N. M., Talanova, V. V. (2014). Tyazhelye metally i rasteniya. Petrozavodsk: Karel'skiy nauchnyy tsentr RAN, 194.
  7. Derevitskaya, O. K., Aslanova, M. A. (2016). Ekologicheski chistoe myasnoe syr'e dlya proizvodstva produktov detskogo pitaniya. Pischevaya promyshlennost', 8, 43–45.
  8. Molnar, D. I., Soskida, I. M. (2016). Bezpeka produktiv kharchuvannia. Ekonomika i suspilstvo, 6, 266–271.
  9. Samokhina, G. O., Naumenko, N. V. (2016). Nutrition as the main factor of health maintenance. Problemy stareniya i dolgoletiya, 25 (2), 204–214, 25 (2), 204–214.
  10. 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, 305–380.
  11. Chen, Q. Y., DesMarais, T., Costa, M. (2019). Metals and Mechanisms of Carcinogenesis. Annual Review of Pharmacology and Toxicology, 59 (1), 537–554. doi: https://doi.org/10.1146/annurev-pharmtox-010818-021031
  12. Akoto, O., Bortey-Sam, N., Ikenaka, Y., Nakayama, S. M. M., Baidoo, E., Yohannes, Y. B., Ishizuka, M. (2017). Contamination Levels and Sources of Heavy Metals and a Metalloid in Surface Soils in the Kumasi Metropolis, Ghana. Journal of Health and Pollution, 7 (15), 28–39. doi: https://doi.org/10.5696/2156-9614-7.15.28
  13. López Alonso, M., Benedit, J. L. (2002). Interactions Between Toxic and Essential Trace Metals in Cattle from a Region with Low Levels of Pollution. Archives of Environmental Contamination and Toxicology, 42 (2), 165–172. doi: https://doi.org/10.1007/s00244-001-0012-7
  14. Hu, B., Zhao, R., Chen, S., Zhou, Y., Jin, B., Li, Y., Shi, Z. (2018). Heavy Metal Pollution Delineation Based on Uncertainty in a Coastal Industrial City in the Yangtze River Delta, China. International Journal of Environmental Research and Public Health, 15 (4), 710. doi: https://doi.org/10.3390/ijerph15040710
  15. Kasozi, K. I., Natabo, P. C., Namubiru, S., Tayebwa, D. S., Tamale, A., Bamaiyi, P. H. (2018). Food Safety Analysis of Milk and Beef in Southwestern Uganda. Journal of Environmental and Public Health, 2018, 1–7. doi: https://doi.org/10.1155/2018/1627180
  16. Chalaia, O. S., Mamenko, O. M. (2013). Faktory ta intensyvnist vplyvu na mihratsiiu Pliumbumu ta Kadmiyu z kormiv u orhanizm svynei. Visnyk Tsentru naukovoho zabezpechennia APV Kharkivskoi oblasti, 15, 200–204.
  17. Chalaia, O. S. (2013). Vplyv riznykh rivniv kadmiyu ta svyntsiu v ratsioni molodniaku svynei na produktyvnist i zabiyni yakosti. Tavriyskyi naukovyi visnyk, 83, 196–202.
  18. Chalaia, O. S., Mamenko, O. M. (2015). Khimichnyi sklad ta tekhnolohichni vlastyvosti miasa i sala svynei za umov vmistu u ratsioni vazhkykh metaliv. Problemy zooinzheneriyi ta veterynarnoi medytsyni, 30 (1), 260–266.
  19. Tsereniuk, O. M., Chalyi, O. I. (2010). Yakist miaso-salnoi produktsiyi novykh henotypiv svynei. Problemy zooinzheneriyi ta veterynarnoi medytsyny, 20 (1), 180–184.
  20. Kosobryuhov, A. N. (1965). Mikroelementy kak veterinarno-sanitarnaya problema. Tez. dokl. Vsesoyuz. sovesch. po mikroelementam. Riga, 66–68.
  21. Il'yazov, R. G., Aleksahin, R. M., Fisinin, V. I., Smirnov, A. M., Gusmanov, U. G. (2010). Metodologiya issledovaniy i eksperimentov v agroekosfere pri razlichnyh tipah tekhnogeneza. Sel'skohozyaystvennaya biologiya, 2, 3–17.
  22. 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, 9 (3), 152–158. doi: https://doi.org/10.3923/rjes.2015.152.158
  23. Al-Zuhairi, W. Sh., Farhan, M. A., Ahemd, M. A. (2015). Determine of heavy metals in the heart, kidney and meat of beef, mutton and chicken from baquba and howaydir market in baquba, diyala province. International Journal of Recent Scientific Research, 6 (8), 5965–5967.
  24. Tsereniuk, O., Tsereniuk, M., Akimov, O., Paliy, A., Nanka, O., Shkromada, O., Pomitun, I. (2018). Dependence of sows’ productivity on the reason of their culling, in index selection. Porcine Research, 8 (1), 17–23. URL: http://www.porc.bioflux.com.ro/docs/2018.17-23.pdf
  25. Mottalib, M. A., Zilani, G., Suman, T. I., Ahmed, T., Islam, S. (2018). Assessment of Trace Metals in Consumer Chickens in Bangladesh. Journal of Health and Pollution, 8 (20), 181208. doi: https://doi.org/10.5696/2156-9614-8.20.181208
  26. Zhai, Q., Narbad, A., Chen, W. (2015). Dietary Strategies for the Treatment of Cadmium and Lead Toxicity. Nutrien, 7 (1), 552–571.
  27. Butsiak, H. A., Cherevko, M. V., Sukhorska, O. P. (2010). Use of adsorbents and toxicides as preventive of warning of toksikoziv. Naukovyi visnyk Lvivskoho natsionalnoho universytetu veterynarnoi medytsyny ta biotekhnolohiy im. Gzhytskoho, 12 (3 (45)), 120–128.
  28. Shkromada, O., Skliar, O., Paliy, A., Ulko, L., Gerun, I., Naumenko, O. et. al. (2019). Development of measures to improve milk quality and safety during production. Eastern-European Journal of Enterprise Technologies, 3 (11 (99)), 30–39. doi: https://doi.org/10.15587/1729-4061.2019.168762
  29. Mitina, E. A., Bykova, T. O. (2016). Ecologically clean products: the issues of standardization, certification and state support of the producers. Food Policy and Security, 3 (2), 91–104. doi: https://doi.org/10.18334/ppib.3.2.35796
  30. Tomme, M. F. (1956). Metody zootekhnicheskogo analiza. Moscow: Kolos, 28.
  31. Lukashik, N. A., Taschilin, V. A. (1965). Zootekhnicheskiy analiz kormov. Moscow: Kolos, 278.
  32. Pochernyaev, F. K. (1977). Metodiki issledovaniy po svinovodstvu. Kharkiv: Sots. Harkіvschina, 153.
  33. Katsukova, A. A. (1965). Metodiki issledovaniya v zhivotnovodstve. Kyiv: Urozhay, 188.
  34. Werbicki, E. (1979). Effect of confinement on reproduction. The American Land racu the universal beed, 2, 43–52.
  35. Volovinskaya, V. P., Merkulova, V. K. (1958). Metody opredeleniya vlagopoglaschaemosti myasa. Byuro tekhnicheskoy informatsii i propagandy VNIIMPa, 21, 84.
  36. Baranovskyi, D. I., Hetmanets, O. M., Khokhlov, A. M. (2017). Biometriya v prohramnomu seredovyshchi MS Excel. Kharkiv: SPD FO Brovin O. V., 90.
  37. Lebed'ko, E. Ya., Hohlov, A. M., Baranovskiy, D. I., Getmanets, O. M. (2018). Biometriya v Excel. Sankt-Peterburg: EBS Lan', 172.

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Published

2019-07-25

How to Cite

Chalaya, O., Nanka, A., Paliy, A., Nagornij, S., & Chalyi, O. (2019). Study of quality indicators for meat raw materials and the effectiveness of a protective technological method under conditions of different content of heavy metals in a pig diet. Eastern-European Journal of Enterprise Technologies, 4(11 (100), 74–81. https://doi.org/10.15587/1729-4061.2019.174154

Issue

Vol. 4 No. 11 (100) (2019): Technology and Equipment of Food Production

Section

Technology and Equipment of Food Production

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Copyright (c) 2019 Olga Chalaya, Alexander Nanka, Andriy Paliy, Sergey Nagornij, Oleksandr Chalyi

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