Article Details: Received: 2020-11-09 | Accepted: 2021-01-28 | Available online: 2021-06-30

https://doi.org/10.15414/afz.2021.24.02.155-160

The Saris Giant Rabbit (Šo) is a hitherto unrecognized breed of rabbit. The aim of this study was to analyse the Saris Giant rabbit and hybrids with a German Giant Spot (NoS) (50 – 12.5 %) to selected parameters (reproduction, production) in small stud. All rabbits used for research were raised within a home environment. Number of live born kits in litter was 6.73±2.57 (NoS 50) – 7.38±2.41 (Šo). Number of weaned kits in litter was 6.18±2.55 (NoS 50) – 6.73±2.50 (Šo). Without statistically significant differences. Number of live born kits and weaned kits in litter was without statistically significant differences. The average daily gains up to the age of 240 days were Šo - 22.39 g, NoS 50 - 26.08 g, NoS 25 – 24.27 g, NoS 12.5 – 23.10 g. Carcass yield in Saris Giant rabbit breed were 54.69 ± 1.80 and 53.28 ± 2.24 – 54.91 ± 1.42 % in hybrids (Nos 25 – NoS 50). Without statistically significant differences.

Keywords: Saris Giant rabbit, growth intensity, extensive breeding, rabbit meat

References

Bača, M. (2013). Saris giant rabbit. Bachelor thesis. Slovak University of Agriculture, Nitra. In Slovak.

Bača, M. (2015). Saris giant rabbit. Master thesis. Slovak University of Agriculture, Nitra. In Slovak.

Bianospono, E. et al. (2004) Growth traits and dressing percentage of straightbred and crossbred rabbits. In Proceedings of the 7th World Rabbit Congress, September 7–10, 2004, Puebla, Mexico (pp. 1360–1365). Retrieved November 5, 2020 from http://world-rabbit-science.com/WRSA-Proceedings/Congress2004-Puebla/Papers/Meat%20Quality/Q-Bianospono-2.pdf

Bízková, Z. & Tůmová, E. (2009). Evaluation of rabbit meat yield. Maso, 20(5), 48–50.

Blasco, A. & Ouhayoun, J. (1996). Harmonization of criteria and terminology in rabbit meat research. Revised proposal. World rabbit science, 4(2), 93–99. https://dx.doi.org/10.4995/wrs.1996.278

Bolet G. et al. (2000). Evaluation and utilisation of European rabbit (Oryctolagus cuniculus) genetic resources. First results and inferensces. In Proceedings of the 7th World Rabbit Congress, 4–7 July 2000, Valencia, Spain (30 p). Retrieved November 5, 2020 from http://world-rabbit-science.com/WRSA-Proceedings/Congress-2000-Valencia/Papers/Genetics/G00-Bolet.pdf

Bolet, G. et al. (2004). Evaluation of the reproductive performance of eight rabbit breeds on experimental farms. Animal Research, 53(1), 59–65. https://dx.doi.org/10.1051/animres:2003043

Dalle Zotte, A. (2000). Main factors influencing the rabbit carcass and meat quality. In Proceedings of the 7th World Rabbit Congress, 4–7 July 2000, Valencia, Spain (30 p). Retrieved November 5, 2020 from http://world-rabbit-science.com/WRSAProceedings/Congress-2000-Valencia/Papers/Growth&%20 Meat/Q00-DalleZotte.pdf

Dalle Zotte, A. (2002). Perception of rabbit meat quality and major factors influencing the rabbit carcass and meat quality. Livest. Prod. Sci., 75, 11–32. https://dx.doi.org/10.1016/s0301-6226(01)00308-6

Dokoupilová, A. et al. (2006). Use of traditional breeds for breeding and hybridization of broiler rabbit. In Current trends in broiler rabbit breeding. Research institute for animal production Nitra (pp. 31–38).

Fik, M. (2016). Analysis of several traits of Saris giant rabbit. Animal biotechnology, Research Institute for Animal Production, Nitra.

Fik, M. et al. (2018). Reproduction performances, growth and slaughter traits analysis of rabbit of Nitra breed. Acta fytotechn zootechn, 21(4), 162–165.

Jenisová, E. (2013). Quality of broiler rabbit carcass from small stud. Slovak University of Agriculture, Nitra. In Slovak.

Lukefahr, S.D. et al. (1983). Appraisal of nine genetic groups of rabbits for carcass and lean yield traits. Journal of Animal Science, 57, 899–907.

Mach, K., Majzlík, I. & Zavadilová, L. (2006). The fattening and slaughter value of the final hybrids ♂PS59x♀PS19 depending on slaughter weight. In Current trends in broiler rabbit breeding. Research institute for animal production Nitra (pp. 21–30).

Mach, K. (1992). Selected genetic and production aspects of rabbit meat production. Association professor thesis. Czech University of Life Sciences, Faculty of Agronomy, Prague. In Czech.

Skřivanová, V. et al. (2000). Performance, carcass yield and quality of meat in broiler rabbits: a comparison of six genotypes. Czech Journal of Animal Science, 45, 91–95.

Šmehýl, P. (2010). The breeding of specialized broiler rabbit lines for intensive farming. Slovak University of Agriculture, Nitra. 

Šmehýl, P. (2017). Growth traits of synthetic broiler rabbit lines. Slovak University of Agriculture, Nitra. In Slovak.

Topczewska, J., Rogowska, A. & Gacek, L. A. (2013). The effect of breed on reproductive performance in commodity rabbit production. Journal of Central European Agriculture, 14(2), 828–835. https://dx.doi.org/10.5513/jcea01/14.2.1271

Tůmová, E., Martinec, M. & Chodová, D. (2011). Analysis of Czech rabbit genetic resources. Scientia agriculturae bohemica, 42(3), 113–118.

Tůmová, E. & Hrstka, Z. (2013). Comparison of the quality of nutria meat and rabbit. Maso, 24(5), 47–50. In Czech.

Tůmová, E. et al. (2013). A study of growth and some blood parameters in Czech rabbits. World Rabbit Science, 21(4), 251– 256. https://dx.doi.org/10.4995/wrs.2013.1320

Vašíčková, K. et al.(2016). Genetic characterization of Nitra rabbits and Zobor rabbit. Slovak Journal of Animal Science, 49(3), 104–111.

Volek, Z. et al. (2013). Influence of feed restriction on performance, quality of meat and carcass of Czech Albino rabbits. Maso, 24(2), 55–57. In Czech.

Zawiślak, J. et al. (2015). Analysis of factors affecting the final body weight in selected rabbit breeds. Journal Central European Agriculture, 16(2), 28–37. https://dx.doi.org/10.5513/jcea01/16.2.1582