The development of the digestive system in broiler chickens at different levels of selenium into the mixed fodder


Keywords: selenium, dose, mixed fodder, broiler chickens, intestines, muscular stomach, liver

Abstract

Scientific studies of foreign and domestic scientists convincingly proved that selenium is a vitally necessary trace element for farm animals and birds with a wide range of biological effects. It performs unique multifunctional functions in the body – structural, catalytic, regulatory, possesses antioxidant, anti-carcinogenic radioprotective, immunostimulant, antiviral, anti-mutagenic, anti-toxic and adaptogenic properties, participates in the formation of mechanisms that determine the reproductive function of animals and birds, affects osteogenesis, participates in the processes of growth and development. In the scientific and economic research the influence of additives of various doses of selenium into mixed fodder on the development of the digestive system in broiler chickens was studied. As a source of selenium, selenite sodium was used. The research was conducted in the production conditions on broiler chickens of the COOB 500 cross. The duration of the experiment corresponded to the period of growing the young for meat and was 42 days. It was established that the use of selenium in the composition of mixed fodder for broiler chickens at doses of 0.3; 0.4 and 0.5 mg/kg positively influenced the development of the digestive system in young, in particular, contributed to an increase in the mass (by 4.111.6%) and total length (1.33.5%) of the intestine in general, and its thin and thick parts in particular, as well as the mass of the muscular stomach (17.323.2%) and liver (3.610.0%). The best macromorphological parameters of the digestive system development were chicken broilers, which, during the entire period of growing, mixed fodder, were enriched with selenium at a rate of 0.3 mg/kg. Comparison of the live weight of broiler chickens of experimental groups with indicators of intestinal development, muscular stomach and liver allows us to assume that the digestive systems in them have been developed better and during the growing period they function more actively.

References

Grygor'jev, S.O. (2016). Suchasnyj stan vyrobnyctva produkcii' ptahivnyctva v Ukrai'ni. Naukovyj visnyk Uzhgorods'kogo universytetu. Serija «Ekonomika». 1(47), 131–135 (in Ukrainian).

Hunchak, A., Ratych, I., Gutyj, B., & Paskevych, H. (2016). Metabolic effects of iodine in poultry for its deficiency or excess in the diet. Scientific Messenger of LNU of Veterinary Medicine and Biotechnologies, 18(2(67), 70–76. doi: 10.15421/nvlvet6716.

Richards, J.D., Zhao, J., Harreil, R.J., Atwell, C.A., & Dibner, J.J. (2010). Trace mineral nutrition in poultry and swine. Asian-Australasian Journal of Animal Sciences. 23(11), 1527–1534. doi: 10.5713/ajas.2010.r.07.

Taylor-Pickard, J.A., & Tucker, L.A. (2005). Redefining mineral nutrition. Nottingham University Press. Nottingham.

Medvid, S., Hunchak, A., Gutyj, B., & Ratych, I. (2017). Prospects of rational security chicken-broilers with mineral substances. Scientific Messenger of LNU of Veterinary Medicine and Biotechnologies. 19(79), 127–134. doi: 10.15421/nvlvet7925

Bratishko, N.I., Ionov, I.A., Ibatullin, I.I., Prytulenko, O.V., Klymenko, T.Je., Kotyk, A.M., Katerynych, O.O., Zhukors'kyj, O.M., Gavilej, O.V., Poljakova, L.L., & Grycenko R.B. (2013). Efektyvna godivlja sil's'kogospodars'koi' ptyci. Agrarna nauka. Kyi'v (in Ukrainian).

Reilly, C. (2013). Selenium in Food and Health. Springer. Boston. doi: 10.1007/978-0-387-33244-4

Khariv, I., Gutyj, B., Hunchak, V., Slobodyuk, N., Vynyarska, A., Sobolta, A., Todoriuk, V., & Seniv, R. (2017). The influence of brovitatoxide in conjunction with milk thistle fruits on the immune system of turkeys for eimeriozic invasion. Scientific Messenger of LNU of Veterinary Medicine and Biotechnologies. 19(73), 163–168. doi: 10.15421/nvlvet7334.

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 Ukrainian Journal of Ecology. 8(1), 654–665. doi: 10.15421/2017_263.

Surai, P., & Fisinin, V.I. (2014). Selenium in poultry breeder nutrition: An update. Animal Feed Science and Technology. 191. 1–15. doi: 10.1016/j.anifeedsci.2014.02.005.

Sobolev, А., Gutyj, B., Grynevych, N., Bilkevych, V., Mashkin, Y. (2017). Enrichment of meat products with selenium by introducing mixed feeds for birds in their compound. Regulatory Mechanisms in Biosystems. 8(3), 417–422. doi: 10.15421/021764.

Surai, P., Kochish, I.І., Fisinin, V.I., & Velichko, O.A. (2017). Selenium in poultry nutrition: from sodium selenite to organic selenium sources. The Journal of Poultry Science. doi: 10.2141/jpsa.0170132.

Lilburn, M.S., & Loeffler, S. (2015). Early intestinal growth and development in poultry. Poultry Science. 94(7), 1569–1576. doi: 10.3382/ps/pev104.

Kuleshov, K.A. (2010). Postnatal'nyj morfogenez organov zheludochno-kishechnogo trakta kur pri primenenii selensoderzhashhih preparatov. Veterinarnaja patologija, 1, 57–66 (in Russian).

Okolelova, T., & Savchenko, S. (2005). Sel-pleks – stimuljator razvitija remontnogo molodnjaka kur. Pticevodstvo. 12, 23–24 (in Russian).

Soboliev, O.I. (2016). Rozvytok orhaniv shlunkovo-kyshkovoho traktu u kacheniat, shcho vyroshchuiutsia na miaso, za riznoho rivnia selenu v kombikormakh. Tekhnolohiia vyrobnytstva i pererobky produktsii tvarynnytstva. 2, 34–38 (in Ukrainian).

Sobolev, A., Gutyj, B., Petryshak, O., Golodjuk, I., Petryshak, R., & Naumyuk, O. (2017). Morphological and biochemical blood indicators of ducklings, which are raised for the purpose of meat with the different level of selenium in feeding-stuffs. Scientific Messenger of LNU of Veterinary Medicine and Biotechnologies. 19(74), 57–62. doi: 10.15421/nvlvet7413.

Soboliev, O.I., & Povoznikov, M.H. (2016). Vplyv dobavok selenu v kombikormy na rozvytok travnoi systemy u huseniat, shcho vyroshchuiutsia na miaso. Ahrarna nauka ta kharchovi tekhnolohii. 3, 100–105 (in Ukrainian)

Fisinin, V.I. (2013). Metodika provedenija nauchnyh i proizvodstvennyh issledovanij po kormleniju sel'skohozjajstvennoj pticy : rekomendacii. VNIITIP, Sergiev Posad (in Russian).

Galіbarenko, M., Smirnov, O., Pasichnyi, V., Riabokon, Yu., Ivko, I., Melnyk, B., Pudov, V., Kulbaba, C., Duiunov, B., Sokhatskyi, M., Vashkulat, M., Kyreieva, I., Bulyha, N., & Demydenko, V. (2005). VNTP–APK–04. 05. Pidpryiemstva ptakhivnytstva. Ministerstvo ahrarnoi polityky. Kyiv. http://online.budstandart.com/ua/catalog/doc-page.html?id_doc=73513 (in Ukrainian).

DSTU 3136-95 (1996). Ptytsia silskohospodarska dlia zaboiu. Tekhnichni umovy. Derzhstandart Ukrainy. Kyiv (in Ukrainian).

Lukashenko, V.S. (2013). Metodika provedenija anatomicheskoj razdelki tushek, organolepticheskoj ocenki kachestva mjasa i jaic sel'skohozjajstvennoj pticy i morfologii jaic : metodicheskoe rukovodstvo. VNIITIP. Sergiev Posad (in Russian).

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Published
2018-03-28
How to Cite
Sobolev, O., Gutyj, B., Petryszak, R., Golodjuk, I., Naumyuk, O., & Petryszak, O. (2018). The development of the digestive system in broiler chickens at different levels of selenium into the mixed fodder. Scientific Messenger of LNU of Veterinary Medicine and Biotechnologies. Series: Agricultural Sciences, 20(84), 83–87. https://doi.org/10.15421/nvlvet8415

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