Modeling effect of selenium on broiler chickens’ body


  • O. I. Sobolev Bila Tserkva National Agrarian University, Bila Tserkva, Ukraine https://orcid.org/0000-0003-3239-0560
  • B. V. Gutyj Stepan Gzhytskyi National University of Veterinary Medicine and Biotechnologies, Lviv, Ukraine https://orcid.org/0000-0002-5971-8776
  • Y. V. Zasukha Bila Tserkva National Agrarian University, Bila Tserkva, Ukraine
  • P. M. Karkach Bila Tserkva National Agrarian University, Bila Tserkva, Ukraine https://orcid.org/0000-0003-3315-3508
  • V. F. Fesenko Bila Tserkva National Agrarian University, Bila Tserkva, Ukraine
  • V. V. Bilkevych Bila Tserkva National Agrarian University, Bila Tserkva, Ukraine
  • P. I. Kuzmenko Bila Tserkva National Agrarian University, Bila Tserkva, Ukraine
  • Y. O. Mashkin Bila Tserkva National Agrarian University, Bila Tserkva, Ukraine https://orcid.org/0000-0001-7401-6732
  • S. V. Sobolieva Bila Tserkva National Agrarian University, Bila Tserkva, Ukraine https://orcid.org/0000-0001-9102-9666
Keywords: selenium, feed, broiler chickens, productive qualities, correlations

Abstract

In recent years, based on new scientific data, many countries worldwide have been revising the existing standards for introducing trace elements in mixed feed for highly productive broiler chicken crosses. This also applies to selenium, which is recognized as an indispensable biotic ultramicroelement with a wide range of biological action according to modern classification. However, some aspects of the selenium effects on poultry have not been elucidated yet. We have conducted comprehensive research to deepen and expand modern ideas about the biological role of selenium, its impact on the interior and productive qualities of broiler chickens in the post-embryonic period of ontogenesis. One of the tasks was to study the causal relationship between the level of selenium consumption by broiler chickens and the studied indicators. The research was conducted on broiler chickens of the Cobb 500 cross. During the rearing period, the feeding of broiler chickens of all groups was carried out with dry full-fledged mixed feeds following the existing norms. The poultry of the first control group did not receive selenium supplementation. The poultry of the second experimental group was additionally injected with Selenium at the rate of 0.2 mg/kg, the third of 0.3, and the fourth of 0.4 mg/kg. When conducting a correlation analysis of the obtained experimental data, it was found that there are different levels and directions of relationship between internal and economically valuable features included in the study, which may vary depending on the selenium content in mixed feed for broiler chickens. A scheme of modeling the effect of selenium on broiler chickens’ bodies is proposed.

References

Bratyshko, N. I., Gorobec', A. I., & Prytulenko, O. V. (2005). Rekomendacii' z normuvannja godivli sil's'-kogospodars'koi' ptyci. Birky: Instytut ptahivnyctva UAAN (in Ukrainian).

CFIA (2018). Consultation Summary on Maximum Nutrient Values in Poultry (Chicken and Turkey).

Cobb 500 (2018). Broiler performance nutrition supplement. Cobb-Vantress.coom.

DSTU ISO 1442:2005 (2008). M`jaso ta m`jasnі produkty. Metod vyznachennja vmіstu vologi (kontrol'nyi metod) (ISO 1442:1997, IDТ). [Chynnyj vid 2008-03-01]. Kyi’v. Derzhstandart Ukrai'ny. (Nacional'nyj standart Ukrai'ny) (in Ukrainian).

DSTU ISO 1443:2005 (2008). M`jaso ta m`jasnі produkty. Metod vyznachennja zagal'nogo vmіstu zhyru (ISO 1443:1973, IDТ). [Chynnyj vid 2008-03-01]. Kyi’v, Derzhspozhyvstandart Ukrai'ny. (Nacional'nyj standart Ukrai'ny) (in Ukrainian).

DSTU ISO 5983-1:2014 (2015). Korm dlja tvaryn. Vyznachannja vmistu azotu ta obchyslennja vmistu syrogo protei'nu. Chastyna 1. Metod K’jel'dalja (ISO 5983-1:2005, IDT). [Chynnyj vid 2015-07-01]. Kyi’v. Derzhspozhyvstandart Ukrai'ny. (Nacional'nyj standart Ukrai'ny) (in Ukrainian).

DSTU ISO 5984:2004 (2006). Kormy dlja tvaryn. Vyznachennja vmistu syroi' zoly (ISO 5984:2002, IDT). [Chynnyj vid 2006-01-01]. Kyi’v. Derzhspozhyvstandart Ukrai'ny. (Nacional'nyj standart Ukrai'ny) (in Ukrainian).

DSTU ISO 6492:2003 (2005). Kormy dlja tvaryn. Vyznachennja vmistu zhyru (ISO 6492:1999, IDT).[Chynnyj vid 2005-07-01]. Kyi’v. Derzhspozhyvstandart Ukrai'ny. (Nacional'nyj standart Ukrai'ny) (in Ukrainian).

DSTU ISO 6496:2005 (2006). Korm dlja tvaryn. Vyznachennja vmistu vology ta inshyh letkyh rechovyn (ISO 6496:1999, IDT). [Chynnyj vid 2006-07-01]. Kyi’v. Derzhspozhyvstandart Ukrai'ny. (Nacional'nyj standart Ukrai'ny) (in Ukrainian).

DSTU ISO 6865:2004 (2006). Kormy dlja tvaryn. Vyznachennja vmistu syroi' klitkovyny metodom promizhnogo fil'truvannja (ISO 6865:2000, IDT). [Chynnyj vid 2006-04-01]. Kyi’v. Derzhspozhyvstandart Ukrai'ny. (Nacional'nyj standart Ukrai'ny) (in Ukrainian).

DSTU ISO 936:2008 (2008). M'jaso ta m'jasnі produkty. Metod vyznachennja masovoi chastky zagal'noi zoly (ISO 936:1998, IDT). [Chynnyj vid 2008-09-01]. Kyi’v. Derzhspozhyvstandart. (Nacional'nyj standart Ukrai'ny) Ukrainy (in Ukrainian).

DSTU ISO 937:2005 (2007). M’jaso ta m’jasnі produkty. Vyznachennja vmіstu azotu (kontrol'nyi metod) (ISO 937-1978, IDT). [Chynnyj vid 2007-07-01]. Kyi’v. Derzhspozhyvstandart Ukrai'ny. (Nacional'nyj standart Ukrai'ny) (in Ukrainian).

Ejdrygevych, E. V., & Raevskaja, V. V. (1966). Ynter'er sel'skohozjajstvennyh zhyvotnyh. Moskva. Kolos (in Russian).

Ermachenko, L. A. (1997). Atomno-absorbcionnyj analiz v sanitarno-gigienicheskih issledovanijah: metodicheskoe posobie. Moskva. Chuvashija (in Russian).

Fisinin, V.I. (2005). Selen v kormlenii pticy. Sergiev Posad: VNITIP (in Russian).

Górniak, W., Cholewinska, P., & Konkol, D. (2018). Feed additives produced on the basis of organic forms of micronutrients as a means of biofortification of food of animal origin. Journal of Chemistry, 2018, 1–8. doi: 10.1155/2018/8084127.

Graupner, A., Eide, D.M., Instanes, C., Andersen, J.M., Brede, D.A., Dertinger, S.D., Lind, O.C., Brandt-Kjelsen, A., Bjerke, H., Salbu, B.,Oughton, D., Brunborg, G., & Olsen, A. K. (2016). Gamma radiation at a human relevant low dose rate is genotoxic in mice. Scientific Reports, 6, 32977. doi: 10.1038/srep32977.

Holak, W. (1980). Analysis of foods for lead, cadmium, copper, zinc, arsenic, and selenium, using closed system sample digestion: collaborative study. Association of Official Analytical Chemists, 63(3), 485–495. URL: https://pubmed.ncbi.nlm.nih.gov/7430035.

Huang, Z., Rose, A. H., & Hoffmann, P. R. (2012). the role of selenium in inflammation and immunity: from molecular mechanisms to therapeutic opportunities. Antioxid Redox Signaling, 16(7), 705–743. doi: 10.1089/ars.2011.4145.

Kuršvietienė, L., Mongirdienė, A., Bernatonienė, J., Šulinskienė, J., & Stanevičienė, I. (2020).Selenium anticancer properties and impact on cellular redox status. Antioxidants (Basel), 9(1), 80. doi: 10.3390/antiox9010080.

Levchenko, V. I., Novozhyc'ka, Ju. M., Sahnjuk, V. V. Tyshkivs'kyj, M. Ja., Golovaha, V. I., Moskalenko, V. P., Vovkotrub, N. V., Rozumnjuk, A. V., Golub, O. Ju., Tyshkivs'ka, N. V., Slivins'ka, L. G., Fasolja, V. P., & Zhyla, I. A. (2004). Biohimichni metody doslidzhennja krovi tvaryn: metodychni rekomendacii' dlja likariv himiko-toksykologichnyh viddiliv derzhavnyh laboratorij veterynarnoi' medycyny Ukrai'ny, sluhachiv fakul'tetiv pidvyshhennja kvalifikacii' ta studentiv fakul'tetu veterynarnoi' medycyny. Kyi'v (in Ukrainian).

Maslieva, O. I. (1967). Metodika provedenija opytov i tehnika raschetov perevarimosti kormov i balansa pitatel'nyh veshhestv v organizme pticy. V knige : Metodiki nauchnyh issledovanij po kormleniju sel'skohozjajstvennoj pticy. Moskva. VYESH (in Russian).

Mikitjuk, P. V., Bukalova, N. V., Dzhmіl', V. І., Hіc'ka, O. A., Dzhmіl', O. M., Sljusarenko, S. V., & Utechenko, M. V. (2004). Metodychnі vkazіvky (mіkrometod) shhodo vykorystannja іnfuzorii Tetrahіmena pіriformіs dlja toksyko-bіologіchnoi ocіnky sіl's'-kogospodars'kyh produktіv ta vody. Bіla Cerkva (in Ukrainian).

Mughal, M. J., Peng, X., Kamboh, A. A., Zhou, Y., & Fang, J. (2017). Aflatoxin B1 induced systemic toxicity in poultry and rescue effects of selenium and zinc. Biological Trace Element Research, 178, 292–300. doi: 10.1007/s12011-016-0923-9.

Navidshad, B., Mohammadrezaei, M., Zarei, M., Valizadeh, R., Karamati, S., Rezaei, F., Jabbari, S., Kachoei, R., & Esmaeilinasab, P. (2019). The new progresses in trace mineral requirements of broilers, a review. Iranian Journal of Applied Animal Science, 9(1), 9–16. URL: http://ijas.iaurasht.ac.ir/article_663518.html.

Nys, Y., Schlegel, P., Durosoy, S., Jondreville, C., & Narcy, A. (2018). Adapting trace mineral nutrition of birds for optimising the environment and poultry product quality. World's Poultry Science Journal, 74(2), 225–238. doi: 10.1017/S0043933918000016.

Ponomarenko, Ju. (2007). Selen i jod v racionah brojlerov. Pticevodstvo, 4, 38–39 (in Russian).

Provatorov, G. V., & Provatorova, V. O. (2015). Godivlja sil's'kogospodars'kyh tvaryn: pidruchnyk. Sumy, Universytets'ka knyga (in Ukrainian).

Ross Broiler (2019). Nutrition Specifications. Aviagen, Huntsville.

Rostagno, H. S., Albino, L. F. T., Donzele, J. L., Gomes, P. C., de Oliveira, R. F., Lopes, D. C., Ferreira, A. S., Barreto, S. L. T, & Euclides, R. F. (2011). Brazilian tables for poultry and swine : composition of feedstuffs and nutritionalrequirements. 3 ed. Santiago Rostagno.Viçosa, MG: UFV, DZO.

Shakeri, M., Oskoueian, E., Le, H. H., & Shakeri, M. (2020). Strategies to combat heat stress in broiler chickens: unveiling the roles of selenium, vitamin E and vitamin C. Veterinary sciences, 7(2), 71. doi: 10.3390/vetsci7020071.

Shojadoost, B., Kulkarni, R. R., Yitbarek, A., Laursen, A., Taha-Abdelaziz, K., Negash Alkie, T., Barjesteh, N., Quinteiro-Filho, W. M., Smith, T. K., & Sharif, S. (2019). Dietary selenium supplementation enhances antiviral immunity in chickens challenged with low pathogenic avian influenza virus subtype H9N2. Vet Immunol Immunopathol. 207, 62–68. doi: 10.1016/j.vetimm.2018.12.002.

Sobolev, O. I., Lisohurska, D. V., Pyvovar, P. V., Topolnytskyi, P. Р., Gutyj, B. V., Sobolievа, S. V., Borshch, О. O., Liskovich, V. А., Verkholiuk, M. M., Petryszak, O. Y., Kuliaba, O. V., Golodiuk, I. P., Naumjuk, O. S., Petryszak, R. A., & Dutka, H. I. (2021). Modeling the effect of different dose of selenium additives in compound feed on the efficiency of broiler chicken growth. Ukrainian Journal of Ecology, 11 (2), 292–299. doi: 10.15421/2021_113.

Sobolev, O., Gutyj, B., Petryshak, R., Pivtorak, J,. Kovalskyi, Y., Naumyuk, A,. Petryshak, O., Semchuk, I., Mateusz, V., Shcherbatyy, A., & Semeniv, B. (2018). Biological role of selenium in the organism of animals and humans. Ukrainian Journal of Ecology, 8(1), 654–665. doi: 10.15421/2017_263.

Surai, P. F., Kochish, I. I., Fisinin, V. I., & Velichko, O. A. (2018). Selenium in Poultry Nutrition: from Sodium Selenite to Organic Selenium Sources The journal of poultry science, 55(2), 79–93. doi: 10.2141/jpsa.0170132.

Zoidis, E., Seremelis, I., Kontopoulos, N., & Danezis, G. P. (2018). Selenium-dependent antioxidant enzymes: actions and properties of selenoproteins. Antioxidants, 7(5), 66. doi: 10.3390/antiox7050066.

Abstract views: 108
PDF Downloads: 63
Published
2021-12-11
How to Cite
Sobolev, O., Gutyj, B., Zasukha, Y., Karkach, P., Fesenko, V., Bilkevych, V., Kuzmenko, P., Mashkin, Y., & Sobolieva, S. (2021). Modeling effect of selenium on broiler chickens’ body. Scientific Messenger of LNU of Veterinary Medicine and Biotechnologies. Series: Agricultural Sciences, 23(95), 128-135. https://doi.org/10.32718/nvlvet-a9519

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