Skip to main navigation menu Skip to main content Skip to site footer
JASBB Baner text

Vol. 32 No. 4 (2014)

Articles

Effect of the breed and the maintenaning system on selected parameters of blood and meat in sheep

Submitted: August 6, 2019
Published: 2014-12-17

Abstract

Experiments were conducted on 360 lambs of three genotypes (Czarnogłówka, or Blackheaded Mutton Sheep; Polish Merino; and Wrzosówka, or Polish Heath), 120 for each genotype (ram lambs and ewe lambs). The aim of the experiments was to search for a connection between the parameters of meat quality traits in lambs reared in different housing and feeding systems on the one hand, and between the genetic and physiological blood parameters on the other. The study demonstrated the effect of feeding intensity on muscle and fat content. Feeding also significantly influenced the fat content in the longissimus dorsi muscle, and the saturated-tounsaturated fatty acid ratio, which is decisive of the tastiness of meat and its health-promoting values, as shown by other studies. The conducted studies also revealed wide variability of blood types and polymorphic variants of transferrin and hemoglobin in the tested groups of sheep breeds. However, due to the small numbers of animals used in the experiment, this variability does not justify an unequivocal conclusion about these relations that could enable a practical use of the chosen genetic and physiological parameters for breeding-selection work. These results should be considered as preliminary in the search for genetic traits of meatiness and the traits decisive of the tissue fat level (including the saturated-to-unsaturated fatty acid ratio) in lamb.

References

  1. Belury M.A., 2002. Dietary conjugated linoleic acid in health: Physiological effects and mechanisms of action. Ann. Rev. Nutr. 22, 505–531.
  2. Bodkowski R., Patkowska-Sokoła B., Zawadzki W., 2010. An improvement of lamb meat quality by supplementing with thermally processed rape seed (part II). Acta Sci. Pol., Medicina Veterinaria 9, 3–10.
  3. Bojczuk H., Bojczuk B., Żurkowski M., 1991. Dystans genetyczny między rasami i liniami syntetycznymi owiec. Zesz. Nauk. PTZ 4, 8–15.
  4. Borys B., Borys A., 2009. Wybrane zagadnienia z zakresu jakości mięsa jagnięcego na 54. Międzynarodowym Kongresie Nauki i Technologii Mięsa w Kapsztadzie. Wiad. Zoot. 4, 57–66.
  5. Buis R.C., Tucker E.M., 1983. Relationship between rere breeds sheep in the Netherlands as based on blood typing. Anim. Blood Groups Biochem. Genet. 14, 17–26.
  6. Dankowski A., 1994. Wstępne badania wartości rzeźnej jagniąt ubijanych w różnym wieku i masie ciała. Prz. Hod. Zesz. Nauk. 13, 149–157.
  7. Drożdż A., 2008. Linia mięsna owiec dla regionu karpackiego. Wiad. Zoot. 3, 23–28.
  8. Niedziółka R., Pieniak-Lendzion K., 2005. Wstępne badania współzależności między poziomem wybranych kwasów tłuszczowych a oceną sensoryczną mięsa koziołków i tryczków. Żywność 3, 169–176.
  9. Nowicki B., Kosowska B., 1995. Genetyka i podstawy hodowli zwierząt. PWRiL, Warszawa, 92–98.
  10. O'Quinn P.R., Nelssen J.L., Goodband R.D., Tokach M.D., 2000. Conjugated linoleic acid. Anim.
  11. Health Res. Rev. 1, 35–46.
  12. Szewczuk M., Czerniawska-Piątkowska E., Lachowski W., Żychlińska–Buczek J., 2009. Wybrane czynniki warunkujące jakość mięsa jagnięcego. Wiad. Zoot. 2, 25–31.
  13. Szymański P., Borys A., Tyszkiewicz S., 2008. 54 Międzynarodowy Kongres Nauki o Mięsie i Technologii. Gosp. Mięs. 12, 34–43

Downloads

Download data is not yet available.

Similar Articles

<< < 5 6 7 8 9 10 11 12 13 14 > >> 

You may also start an advanced similarity search for this article.