МORPHOLOGICAL COMPOSITION OF CARCASES OF IMMUNO CASTED AND UNCASTRATED PIGS AT DIFFERENT РRE-SLAUGHTER MASS

Keywords: mumps, immune castration, deboning, morphological composition, bone tissue, muscle tissue, adipose tissue, meat and fat qualities of pigs

Abstract

The article describes a comparative assessment of the morphological composition of carcasses and the ratio of individual tissues in immunocastrated and uncastrated pigs at different pre-slaughter weight based on the results of previous scientific re-search. Pigs for the experiment were obtained from crossing local sows of Irish Landrace and Irish Yorkshire and boars of the MaxGro synthetic line. The study found the highest meat content in the carcass weight of 71,8% had uncastrated pigs at a pre-slaughter weight of 110 kg. Other experimental pigs had this figure was 71,1%. Immunocastrated pigs weighing 130 kg had the larg-est share of fat in the carcass of 19,2%, which is 0,2% more than uncastrated pigs of the same weight category. The smallest share of adipose tissue was found in the carcasses of uncastrated animals with a pre-slaughter weight of 110 kg, which is significantly 0,8% less than their immunocastrated counterparts. The proportion of bones in the carcasses of experimental animals in both weight categories showed a tendency to slightly reduce this figure in immunocastrated pigs. Thus, the proportion of bones in the carcasses of uncastrated animals at pre-slaughter weight of 110 kg and 130 kg was statistically incredibly higher by 0,1% and 0,2%, respective-ly, compared to their immunocastrated counterparts. Immunocastrated animals with the best pre-slaughter weight of 130 kg had the best ratio of meat to bones. Their carcasses had 7,33 times more muscle tissue than bone, which is 0,ht category of 110 kg, no dif-ference in meat-bone ratio was found. The meat-fat ratio was better in uncastrated pigs in both weight categories. Uncastrated ani-mals at pre-slaughter weight of 110 and 130 kg tended to improve this ratio by 0,21 and 0,04 units, respectively, compared with the analogues of the experimental group. The use of immune castration for pigs does not have a negative effect on the morphological composition of carcasses. Their pre-slaughter weight had a greater influence on the morphological composition of both uncastrated and immunocastrated pigs. As it increased, bone content decreased and fat content increased, while muscle content remained virtually stable.

References

Волощук В. М. Теоретичне обґрунтування і створення конкурентоспроможних технологій виробництва свинини: моногр. Полтава, 2012. 348 с.

Гарт В. В., Гудилин И. И, Кочнев Н. И. Восприимчивость к стрессу свиней разных генотипов. Генетика, разведе-ние и селекция свиней. 1988. С. 97–100.

ИМПРОВАК. URL: https://vicgroup.ru/catalog/p/preparaty-dlyaimmunologicheskoj-kastratcii/improvak/

Коваленко В. П. Внедрение нових технологий производства свинины. Свиноводство. 2000. № 6. С. 13–14.

Михалко О.Г. Сучасний стан та шляхи розвитку свинарства в світі та Україні. Вісник Сумського національного аг-рарного університету, серія «Тваринництво», 2021, Вип. 3(46), С. 61-78. http://repo.snau.edu.ua/bitstream/123456789/9537/1/6.pdf

Повод М.Г., Михалко О.Г., Вдовіченко Ю.В., Нечмілов В.М., Морфологічний склад туш свиней за різного типу годі-влі, тривалості утримання на дорощувані та передзабійної живої маси. Збірник наукових праць міжнародної нуково-практичної конференції «Аграрна наука та харчові технології», Вінницький НАУ , Вип. 3 (102). Вінниця, 2018, С. 47-56.

Селекція сільськогосподарських тварин / Ю. Ф. Мельник [та ін.]; за ред. Ю. Ф. Мельника. Київ: Інтас, 2008. C. 49–54.

Старков А., Девин К., Пономарев Н. Влияние условий содержания на здоровье и продуктивность животных. Свиноводство. 2004. № 6. С. 30–33

Сучасні методики досліджень у свинарстві. Полтава, 2005. 228 с.

Эстрадиол. URL: https://helix.ru/kb/item/08-120

Bahelka, I. [et al.] 2007. The effect of sex and slaughter weight on intramuscular fat content and its relationship to carcass traits of pigs. Czech J. Animal Science. 52(5):122–129.

Batorek N, Čandek-Potokar M, Bonneau M, Van Milgen J. Meta-analysis of the eect of immunocastration on production performance, reproductive organs and boar taint com-pounds in pigs. Animal. 2012;6:1330-1338. DOI: 10.1017/S1751731112000146

Batorek N, Noblet J, Bonneau M, Čandek-Potokar M, Labussiere E. Efect of dietary net energy content on performance and lipid deposition in immunocastrated pigs. In: Book of Abstracts of the 64th Annual Meeting of the European Federation of Animal Science; 26-30 August 2013; Nantes, France. Wageningen: Wageningen Academic Publishers; 2013. p. 560

Batorek N, Škrlep M, Prunier A, Louveau I, Noblet J, Bonneau M, Čandek-Potokar M. Efect of feed restriction on hormones, performance, carcass traits, and meat quality in immunocastrated pigs. Journal of Animal Science. 2012;90:4593-4603. DOI: 10.2527/jas2012-5330

Boyle L. A., Bjorklund L. Effects of fattening boars in mixed or single sex groups and split marketing on pig welfare // Anim. Welfare. 2007. Vol. 16. P. 259–262

Font-i-Furnols M, Gispert M, Soler J, Diaz M, Garcia-Regueiro JA, Diaz I, Pearce MC. Efect of vaccination against gonadotrophin-releasing factor on growth performance, carcass, meat and fat quality of male Duroc pigs for dry-cured ham production. Meat Science. 2012;91:148-154. DOI: 10.1016/j.meatsci.2012.01.008

Font-i-Furnols M, González J, Gispert M, Oliver MA, Hortós M, Pérez J, Guerrero L. Sensory characterization of meat from pigs vaccinated against gonadotropin releasing factor compared to meat from surgically castrated, entire male and female pigs. Meat Science. 2009;83:438-442. DOI: 10.1016/j.meatsci.2009.06.020

Levels of androstenone and skatole and the occurrence of boar taint in fat from young boars. URL: https://www.researchgate.net/publication/223892639_Levels_of_androstenоne_and_s katole_and_the_occurrence_of_boar_taint_in_fat_from_young_boars

Pinna A, Schivazappa C, Virgili R, Parolari G. Efect of vaccination against gonadotropin-releasing hormone (GnRH) in heavy male pigs for Italian typical dry-cured ham production. Meat Science. 2015;110:153-169. DOI: doi.org/10.1016/j.meatsci.2015.07.002

Povod M., Kravchenko O., Getya A., Zhmailov V, Mykhalko O., Korzh O. And Kodak T., (2020). Influence of pre-killing living weight of the quality of carcass of hybrid pigs in the conditions of industrial pork production in Ukraine. Journal Scientific Papers Series Management, Economic Engineering in Agriculture and Rural Development, Vol. 20 (4), pp. 431-437.

Samarakone T. S., Gonyou H. W. Productivity and aggression at grouping of grower-finisher pigs in large groups. Canadian Journal animal Science. 2008. Vol. 88. No 1. P. 9–17.

Škrlep M, Čandek-Potokar M, Batorek Lukač N, Prevolnik Povše M, Pugliese C, Labussiere E, Flores M. Comparison of entire male and immunocastrated pigs for dry-cured ham production under two salting regimes. Meat Science. 2016;111:27-36. DOI: 10.1016/j.meatsci.2015.08.010

Trefan L, Doeschl-Wilson A, Rooke JA, Terlouw C, Bünger L. Meta-analysis of efects of gender in combination with carcass weight and breed on pork quality. Journal of Animal Science. 2013;91:1480-1492. DOI: 10.2527/jas.2012-5200

Whittemore C. Feeding for lean times. Pig Farming. 1982. Vol. 30. P. 53–55.

Published
2022-01-05
How to Cite
Andrieieva, D. M., Povod, M. H., Verbelchuk, T. V., & Verbelchuk, S. P. (2022). МORPHOLOGICAL COMPOSITION OF CARCASES OF IMMUNO CASTED AND UNCASTRATED PIGS AT DIFFERENT РRE-SLAUGHTER MASS. Bulletin of Sumy National Agrarian University. The Series: Livestock, (4 (47), 49-54. https://doi.org/10.32845/bsnau.lvst.2021.4.8