Composition of fatty acids in the muscle and fat tissue of young sheep

The article presents the results of studies of the content of fatty acids in the lipids of the muscle tissue of young rams, and the composition of fatty acid of the internal fat of young rams, obtained from purebred genotypes (Soviet merino) and crossbred sheep genotypes: Soviet merino x Dzhalginsky merino and Soviet merino x Stavropol variety. Sheep were raised by moderate fattening. For the purposes of research the control group of sheep was slaughtered at the age of 8 months. As a result of analyzing the composition of fatty acid in the samples of muscle tissue and internal fat of the considered animals, 13 and 11 fatty acids, respectively, were identified. The lipids of muscle tissue showed an increased share of saturated fatty acids (53.93–56.34%) in reference to the total composition of fatty acids. In all studied groups, the internal fat of young rams contained a large amount of saturated fatty acids: from 64.46 (purebred) to 67.71% (crossbred). The calculated atherogenicity indices of muscle tissue (IA = 0.99–1.18) and fat tissue (IA = 1.11–1.21) in all groups of animals were at a low level; thrombogenicity indices of muscle tissue (IT = 1.98–2.28) and fat tissue (IT = 2.97–3.71) proved to be higher.

1. Kaić, A., Mioč, B. (2016). Fat tissue and fatty acid composition in lamb meat. Journal of Central European Agriculture, 17(3), 856-873. https://doi.org/10.5513/JCEA01/17.3.1783

2. Sazonova, I. A. (2016). Biological value of meat in rams of edilbaevskaya breed farmed in two сlimatic zones of Volga region. Problems of Productive Animal Biology, 1, 76-83. (In Russian)

3. Dmitrik, I. I., Ovchinnikova, E. G. (2018). Food evaluation of young sheep meat of the Stavropol breed. Agricultural Journal, 1(11), 56-61. https://doi.org/10.25930/0372-3054-2018-1-11-65-71 (In Russian)

4. Sazonova, I. A. (2015). The nutritional value of the meat of the Volgograd breed of sheep, grown in the conditions of the Volga region. Sheep, Goats, Wool Business, 3, 7-9. (In Russian)

5. Sazonova, I. A. (2015). Meat productivity and ecological safety of meat of sheep of the Tsigai breed depending on the natural and climatic zone of the Saratov region. Sheep, Goats, Wool Business, 3, 18-20. (In Russian)

6. Junkuszew, A., Nazar, P., Milerski, M., Margetin, M., Brodzki, P., Bazewicz, K. (2020). Chemical composition and fatty acid content in lamb and adult sheep meat. Archives Animal Breeding, 63(2), 261-268. https://doi.org/10.5194/aab-63-261-2020

7. Kolosov, Yu. A., Degtyar, E. A., Ganzenko, A. S (2015). The influence of the mutton genotype on the quality characteristics of meat. Sheep, Goats, Wool Business, 4, 7-9. (In Russian)

8. Kosilov, V. I., Shkilev, P. N. Nikonova, E. A., Andreenko, D. A., Gazeev, I. R. (2011). Features of the formation of slaughter qualities of young sheep of different directions of productivity. Sheep, Goats, Wool Business, 1, 19-21. (In Russian)

9. Lushnikov, V. P., Fomin, A. V., Sarbaev, M. G. (2016). Meat productivity of sheep of various genotypes. Sheep, Goats, Wool Business, 4, 19-20. (In Russian)

10. Öner, Y., Üstüner, H., Orman, A., Yilmaz, O., Yilmaz, A. (2014). Genetic Diversity of Kıvırcık Sheep Breed reared in different regions and their relationship to other sheep breeds in Turkey. Italian Journal of Animal Science 13(3), 588-593. https://doi.org/10.4081/ijas.2014.3382

11. Aboneev, V. V., Gorkovenko, L. G., Kulikova, A. Y., Tsapkina, N. I. (2016). Meat productivity of different origin young sheep. Zootechnia, 4, 16-17. (In Russian)

12. Karabaeva, M. E., Kolotova N. A. (2015). Meat productivity and quality of young sheep meat of different genotypes Sheep, Goats, Wool Business, 4, 23-26. (In Russian)

13. Serdyukov, I. G., Aboneev, V. V., Pavlov, M. B., Pavlov, A. M., Marchenko, V. V. (2017) Meat productivity of sheep of the Dzhalginsky merino breed with various wool tones. Sheep, Goats, Wool Business, 1, 34-36. (In Russian)

14. Khamiruev, T. N., Volkov, I. V. (2015). Meat productivity of Hangil sheep of the Trans-Baikal fine-wool breed Agricultural Bulletin of Stavropol Region, 2(18), 162-165. (In Russian)

15. Byamba, D., Biltuev, S (2017). Intensity of growth of young Khalkha sheep and Khalkha-Suffolk crossbreeds in their grass fattening. Vestnik of Buryat State Academy of Agriculture named after V. Philippov, 3(48), 19-25. (In Russian)

16. Kolosov Yu. A., Degtyar A. S., Semenchenko S. V. (2014). Qualitative characteristics of meat crossbred lambs. Bulletin of the Don State Agrarian University, 1(11), 11-15. (In Russian)

17. Belhaj, K., Mansouri, F., Moumen, A. B., Fauconnier, M. -L., Boukharta, M., Caid, H. S. et al. (2018). Physicochemical and nutritional characteristics of Béni Guil lamb meat raised in eastern Morocco. Mediterranean Journal of Nutrition and Metabolism, 11(2), 175-185. https://doi.org/10.3233/MNM-17195

18. Junkuszew, A., Nazar, P., Milerski, M., Margetin, M., Brodzki, P., Bazewicz, K. (2020). Chemical composition and fatty acid content in lamb and adult sheep meat. Archives Animal Breeding, 63(2), 261-268. https://doi.org/10.5194/aab-63-261-2020

19. Kashirina, N. A., Shatalova, E. M. (May 17-18, 2016). The chemical analysis and biological value of buck lambs of various breed affiliation. Processing of the IV International Scientific and Practical Conference. Voronezh: Voronezh State Agrarian University named after Emperor Peter I, 2016. (In Russian)

20. Gonzales-Barron, U, Popova, T., Bermúdez Piedra, R., Tolsdorf, A., Geß, A., Pires, J. et al. (2021). Fatty acid composition of lamb meat from Italian and German local breeds. Small Ruminant Research, 200, Article 106384. https://doi.org/10.1016/j.smallrumres.2021.106384

21. Costa, J. B., Oliveira, R. L., Silva, T. M., Barbosa, A., Borja, M. S., de Pellegrini, C. B. et al. (2018). Fatty acid, physicochemical composition and sensory attributes of meat from lambs fed diets containing licuri cake. PLoS ONE, 13(11), Article e0206863. https://doi.org/10.1371/journal.pone.0206863

22. Cividini, A., Levart, A., Žgur, S., Kompan, D. (2014). Fatty acid composition of lamb meat from the autochthonous Jezersko-Solčava breed reared in different production systems. Meat Science, 97(4), 480-485. http://doi.org/10.1016/j.meatsci.2013.12.012

23. Boughalmi, A., Araba, A. (2016). Effect of feeding management from grass to concentrate feed on growth, carcass characteristics, meat quality and fatty acid profile of Timahdite lamb breed. Small Ruminant Research, 144, 158-163. https://doi.org/10.1016/j.smallrumres.2016.09.013

24. Budimir, K., Mozzon, M., Toderi, M., D’ottavio, P., Trombetta, M. F. (2020). Effect of breed on fatty acid composition of meat and subcutane ous adipose tissue of light lambs. Animals, 10(3), Article 535. https://doi.org/10.3390/ani10030535

25. Hopkins, D. (2015). Sheep Quality. Effect of breed, genetic type, gender and age on meat quality. Chapter in a book: Meat quality: genetic and environmental factors. New York: CRC Press, 2015. https://doi.org/10.1201/b19250

26. Blasco, M., Campo, M. M., Balado, J., Sanudo, C. (2019). Effect of Texel crossbreeding onproductive traits, carcass and meat quality of Segurena lambs. Journal of the Science of Food and Agriculture, 99(7), 3335-3342. https://doi.org/10.1002/jsfa.9549

27. Yarali, E., Yilmaz, O., Cemal, I., Karaca, O., Taşkin T. (2014). Meat quality character-ristics in Kivircik lambs. Turkish Journal of Veterinary and Animal Sciences, 38(4), 452-458. https://doi.org/10.3906/vet-1309-79

28. Kolosov, Yu. A., Nemashkalov, G. P., Shtrykov, A. N. (2017). Rostov region: the state of the base of pedigree sheep breeding. Sheep, Goats, Wool Business, 4, 14-16. (In Russian)

29. Selionova, M. I., Bobryshova, G. T., Gadzhiev, Z. K., Izmalkov, S. A. (2017). The economy of sheep breeding: pros and cons. Sheep, Goats, Wool Business, 1, 5-9. (In Russian)

30. Bagirov, V. A., Iolchiev B. S., Klenovitsky, P. M., Zinoveva, N. A. (2015). Рroduction of viable interspecies hybrids of domestic and wild sheep using cryopreserved Epididymal SPERT. Reproduction in Domestic Animals, 50(3), 44.

31. Latawiec, A. E., Strassburg, B. B. N., Valentim, J. F., Ramos, F., Alves-Pinto, H. N. (2014). Intensification of cattle ranching production systems: socioeconomic and environmental synergies and risks in Brazil. Animal, 8(8), 1255-1263. https://doi.org/10.1017/S1751731114001566

32. Giro, T. M., Molchanov, A. V., Kozin, A. N., Giro, A. V., Fat’yanov, E. V., Svetlov, V. V. (2021). Use of iodine and selenium enriched fodder rations for production of fortified young lamb. Theory and Practice of Meat Processing, 6(1), 46-55. https://doi.org/10.21323/2414-438X-2021-6-1-46-55

33. Orlova, O. N., Mkrtichyan, V. S., Skrypnik, L. V., Krichun, L. V. (2021). Research of the overall chemical and amino acid composition of meat from young animals of new sheep genotypes. Theory and Practice of Meat Processing, 6(3), 248-254. https://doi.org/10.21323/2414-438X-2021-6-3-248-254

34. Aboneev, V. V., Aboneev, D. V., Tarchokov, T. T., Sukhanova, S. F., Aboneev, E. V., Marchenko, V. V. (2019). Improving the competitiveness of finewool sheep usinglocal and world stud rams. IOP Conference Series: Earth and Environmental Science. Conference on Innovations in Agricultural and Rural Development. Article 012045. https://doi.org/10.1088/1755-1315/341/1/012045

35. Lisitsyn A. B., Chernukha I. M., Kuznetsova T. G., Orlova O. N., Mkrtichyan V. S. (2011). Chemical composition of meat: reference tables of general chemical, amino acid, fatty acid, vitamin, macro- and microelement compositions and nutritional (energy and biological) value of meat. Moscow: All-Russian Scientific Research Institute of Meat Industry named after V. M. Gorbatov Meat Research Institute, 2011. (In Russian)