Journal of Animal Science and Veterinary Medicine

JOURNAL OF ANIMAL SCIENCE AND VETERINARY MEDICINE
Integrity Research Journals

ISSN: 2536-7099
Model: Open Access/Peer Reviewed
DOI: 10.31248/JASVM
Start Year: 2016
Email: jasvm@integrityresjournals.org

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Reproductive, growth and carcass performance of two breeds of rabbit and their reciprocal crosses in the south-south zone of Nigeria

https://doi.org/10.31248/JASVM2020.210   |   Article Number: 693486262   |   Vol.5 (4) - August 2020

Received Date: 15 June 2020   |   Accepted Date: 13 July 2020  |   Published Date: 30 August 2020

Authors:  Sam, Idorenyin Meme , Ekpo, Joseph Sylvester and Evans, Emem Iboro

Keywords: growth, carcass, genetic group, reproduction, rabbit, reciprocal crosses.

ABSTRACT

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The study was conducted to evaluate reproductive, growth and carcass traits of two breeds of rabbit and their reciprocal crosses. Two purebred Chinchilla (CHA) and New Zealand White (NZW) and their reciprocal crossing; CHA sire x NZW dam (CHA x NZW) and NZW sire x CHA dam (NZW X CHA) were used in the study. Four genotypes “CHA x CHA, NZW x NZW, CHA x NZW and NZW x CHA” were generated to obtain one hundred and twenty-six (126) kittens. The growth traits studied was body weight (BWT) while reproductive traits studied were gestation length (GL), litter size at birth (LSB), litter size at weaning (LSW), average birth weight (ABWT), average weaning weight (AWWT) and percent mortality (% mortality). The carcass traits evaluated were dressed weight, dressing percentage, weights of liver, heart, lungs, kidney, foreleg, thoracic, loin, hind leg and skin. The data obtained were subjected to analysis of variance and significant means were separated using Duncan new multiple range test. The results indicated that genetic group had significant (p<0.05) influenced on growth, reproductive and carcass traits performances evaluated. The NZW x CHA genetic group had significantly (p<0.05) heavier body weight than the other three genetic groups CHA x CHA, NZW x NZW and CHA x NZW in both the pre-weaning and post-weaning phases of growth. Similar trends were observed for reproductive and some carcass (dress weight, fore leg, thoracic, loin, hind leg and skin) trait performances; the NZW x CH genetic group was superior to every other group. However, percentage mortality was highest in NZW x NZW (50.28±5.78) and lowest in NZW x CHA (5.71±8.69). It was concluded that NZW x CHA had the best performance in most of the traits measured (growth, reproductive and carcass traits) in the study area and therefore using NZW males to cross with CHA females is recommended in the study area to produce rabbits with better performances in term of reproduction, growth and carcass.

Apori, S. O., Hagun, J. K., & Osei, Y. D. (2015). Growth and reproductive performance of two rabbit breeds reared under intensive system in Ghana. Tropical Animal Health and Production, 47(1), 221-224.
Crossref
 
Bawa, G. S., Sani, O. P., & Olugbemi, T. S. (2009). Effects of varying levels of maize cobs supplemented with Allzyme or Maxigrain on growth performance and carcass characteristics of young rabbits. In: Proceedings of the 34th Annual Conference of the Nigerian Society for Animal Production (NSAP), 34, 156-158.
 
Biobaku, W. O., & Oguntona E. B. (1997). The effects of feeding Multi Nutrient Mini Blocks and Pelleta diet on the Growth of Rabbits. Nigeria Journal of Animal Production 24(2), 147-149.
 
Chineke, C. A. (2006). The relationship among body weight and lives dimensions in rabbit breeds and crosses. Journal of Animal and Veterinery Advances, 4(9), 775-784.
 
Ekpo, J. S., Udia, V. S., Ogundu, E. C., & Eyoh, G. D. (2016). Carcass traits of crossbred rabbit bucks fed diets supplemented with pumpkin stem waste. European Journal of Advances Research in Biological and Life sciences,4(3), 1-7.
 
Fadare, A. O., & Fatoba, T. J. (2018). Reproductive performance of four breeds of rabbit in the humid tropics. Livestock Research for Rural Development, 30(7):1-7.
 
Fayeye, T. R. (2013). Heterosis for preweaning litter characteristics in Nigerian rabbit crosses, International Journal of Agricultural and Food Research, 2(2), 1-6.
Crossref
 
Hassanien, H. H. M., & Baiomy, A. A. (2011). Effect of breed and parity on growth performance, litter size, litter weight, conception rate and semen characteristics of medium size rabbits in hot climates. Egyptian Poultry Science Journal, 31(1), 97-110.
 
Ibe, S. N. (1998). An Introduction to Genetics and Animal Breeding. Longman, Nigeria PLC Lagos, Nigeria.
 
Kabir M., Akpa G. N., Nwagu B. I., & Adeyinka I. A. (2012). Estimating additive and dominance variance for litter traits in purebred California white kits using different models. Nigerian Veterinary Journal, 33(2), 448-454.
 
Kabir, M., Akpa, G. N., Nwagu, B. I., & Adeyinka, I. A. (2016). Heterosis and maternal effects for carcass traits in three breeds of rabbit. Journal of Animal Production Research, 28(1), 104-111
 
Kaps, M., & Lamberson, W. R. (2004). Biostatistics for Animal Science. CABI Publishing, Wallingford, United Kingdom.
Crossref
 
Larzul, C., & de Rochambeau, H. (2004). Comparison of ten rabbit lines of terminal bucks for growth, feed efficiency and carcass traits. Animal Research, 53(6), 535-545.
Crossref
 
Lazzaroni, C., Biagini, D., Redaelli, V., & Luzi, F. (2012). Year, season, and parity effect on weaning performance of the Carmagnola Grey Rabbit breed. World Rabbit Science, 20(1), 57-60.
Crossref
 
Maj, D., Bieniek, J., Łapa, P., & Sternstein, I. (2009). The effect of crossing New Zealand White with Californian rabbits on growth and slaughter traits. Archives Animal Breeding, 52(2), 205-211.
Crossref
 
Marykutty, T., & Nandakumar, P. (2000). Factors influencing litter traits and body weight up to 12 weeks among temperate rabbit breeds in humid tropics. World Rabbit Science, 8(2) 67-70.
Crossref
 
Moustafa, H. A., El-Raffa, A, Shebl, M. K., El-Delebshany, A., & El-Sayed N. A. (2014). Genetic evaluation of some economic traits in a maternal line of rabbits. Egyptian Poultry Science, 34(1), 85-98.
Crossref
 
Nofal, R., Saleh, K., Younis, H., & Abou Khadiga, G. (2005). Evaluation of Spanish synthetic line V, Baladi Black rabbits and their crosses under Egyptian conditions. In: Proceeding 4th International Conference Rabbit Production Hot Climates, 24-27 February, Sharm El-Sheikh, Egypt. Pp. 23-29.
 
Nofal, R., Szendro, Z. S., Kenessey, A., Jensen, J. E. (2004). Crossbreeding effects on carcass traits at 12 weeks of age in Pannon and Danish White rabbits and their reciprocal crosses. In: Proceeding of 8th World Rabbit Congress, 2004, September, Pueba, Mexico. Pp. 102-109.
 
Obike, O. M., & Ibe, S. N. (2010). Effect of genotype on pre-weaning growth performance of the domestic rabbit in a humid tropical environment. Global Veterinaria, 4(4), 388-393.
 
Odeyinka, S. M., Oyedele, O. J., Adeleke, T. O., & Odedire, J. A. (2008). Reproductive performance of rabbits fed Moringa oleifera as a replacement for Centrosema pubescens. In Proceedings of the 9th World Rabbit Congress, Verona, Italy, 10-13 June 2008 (pp. 411-416). World Rabbit Science Association.
 
Oke, U. K., Herbert, U., Nwichi, C., Onyiro, O. M., & Okocha, C. N. (2010). Effect of breed of sire on growth performance of crossbred rabbits in a humid tropical environment. In: Proceedings of the 35th Annual Conference of the Nigerian Society for Animal Production (NSAP). Pp. 15-17.
 
Ologbose, F. I., Ajayi, F. O., & Esenowo, E. S (2018). Influence of genotypes and litter size on body weight and linear body measurements of rabbits. Applied Science Reports, 21(3), 88-93.
 
Ortiz Hernández, J. A., Lozano, R., & Lozano, M. R. (2001). Effect of breed and sex on rabbit carcass yield and meat quality. World Rabbit Science, 9(2), 51-56.
Crossref
 
Oseni, S. O., Odubote, I. K., & Akinokun, O. (1999). Evaluation of purebred and crossbred rabbits for fertility and pre-weaning litter performance in the humid tropics. In Proceedings, 24th Annual Conference of the Nigerian Society for Animal Production (NSAP) (pp. 22-25).
 
Ouyed, A., & Brun, J. M. (2008). Heterosis, direct and maternal additive effects on rabbit growth and carcass characteristics. In: Proceedings of 9th World Rabbit Congress, June 10- 13, Verona, Italy.
 
Ozimba, C. E., & Lukefahr, S. (1990). Evaluation of purebred and crossbred rabbits for carcass merit. Journal of Applied Rabbit Research, 13(3-4), 193-198.
 
Ozimba, C. E., & Lukefahr, S. D. (1991). Comparison of rabbit breed types for postweaning litter growth, feed efficiency, and survival performance traits. Journal of Animal Science, 69(9), 3494-3500.
Crossref
 
Piles, M., Rafel, O., Ramon, J., & Gómez, E. A. (2004). Crossbreeding parameters of some productive traits in meat rabbits. World Rabbit Science, 12(3), 139-148.
Crossref
 
Rashwan, A. A., & Marai, I. F. M. (2000). Mortality in young rabbits: A review. World Rabbit Science, 8(3), 111-124.
Crossref
 
Rochambeau, H. D. (1988, October). Genetics of the rabbit for wool and meat production. In Proceeding of 4th World Rabbit Congress (Vol. 2, pp. 1-68).
 
Sorensen, P., Kjaer, J. B., Brenoe, U. T., & Su, G. (2001). Estimates of genetic parameters in Danish White rabbits using an animal model: II. Litter traits. World Rabbit Science, 9(1), 33-38.
Crossref
 
South Africa Medical Research council (SAMRC) (2004). Guidelines on ethics for medical research: use of animal in research and training. Cape Town, South African.
Link
 
SPSS (2007). Statistical Package for Social Scienes. Released 16.0 for windows 2008; IL60611. Chicago.
 
Szendrő, Z. (2008). Improving of reproductive performance of rabbit does in small and medium scale rabbit farms. Recommendations for developing countries. Acta Agraria Kaposváriensis, 12(1), 1-23.
 
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.
Crossref
 
Wikipedia (2017). Akwa Ibom State.
Link
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