This study evaluated the influence of age at weaning on post-weaning growth performance and survival rates of different rabbit genotypes – New Zealand White (NZ), Chinchilla (CH), NZ×CH and CH×NZ in a completely randomized design. The weaning ages considered as treatments across the genotypes were 28 (T28), 42 (T42) and 56 (T56) days, respectively. Data from 67 kits NZ (19), CH (15), NZ×CH (17) and CH×NZ (16) were used for the study. Measurements taken from each genotype for 7 weeks after each weaning age include body weight (BW), body weight gain (BWG), feed efficiency (FE) and survival rate (%). The analysis of variance showed that there were significant differences (P < 0.05) among the different weaning ages on the growth parameters. Kits weaned at day 28 had significantly (P < 0.05) higher values for BW and BWG as well as better feed efficiency index followed by those weaned at 42 days and then 56 days. Estimates of BW both at the initial and final weeks were: NZ – 414, 809 (T28), 380, 766 (T42) and 234 ,447 (T56), CH – 443, 935 (T28), 436, 751 (T42) and 302, 500 (T56), NZ×CH – 432, 834 (T28), 394, 678 (T42) and 241, 417 (T56) and CH×NZ – 436, 917 (T28), 425, 717 (T42) and 261, 462 (T56). Significant (P < 0.05) differences were only observed for survival rate at the final week of measurement for the crossbred genotypes. Generally, however, the survival rates of kits of the different genotypes across all weaning ages were quite high. It ranged from 72.00 – 100 % (NZ), 75.00 – 100 % (CH), 87.70 – 100 % (NZ×CH) and     85.70 – 100 % (CH×NZ). Results of this study highly encouraged weaning at 28 days for optimum production efficiency in the study region. Weaning traits such as weights and survival/mortality rates are not affected greatly by additive gene action and thus can be improved by good management decisions among which is age at which rabbits are weaned.

Afifi, E.A., and M.E. Emara. 1988. Post-weaning viability of purebred and crossbred rabbits under Egyptian conditions. J. Appl. Rabbit Res. 1: 38 – 41.

Chen, C.P., D.R. Rao, G.R. Sunki, and W.M. Johnson. 1978. Effect of weaning and slaughter ages upon rabbit meat production: body weight, feed efficiency and mortality. J. Anim. Sci. 46: 573-577.

Duncan, D.B. 1955. Multiple ranges and multiple F-test. Biometrics. 11: 1 – 42.

Fonteh, F.A., A.T. Niba, A.C. Kudi, J. Tchoumboue, and J. Awah-Nduku. 2005. Influence of weaning age on the growth performance and survival of weaned guinea pigs. Livest.Res. Rural Dev. 17(12).

Fortun-Lamothe, L., B. Lamboey-Gauzere, and C. Banneliere. 2002. Prediction of body composition in rabbit females using electrical conductivity (TOBEC). Livest. Prod. Sci. 78: 133 – 142.

Gallois, M., T. Gidenne, and L. Fortun-Lamothe. 2003. Digestive development in the young rabbit: impact of a weaning at 21d. In: Proc. 3rd meeting of Workgroup 3rd and 4th COST Action 848, Prague, Czech Republic. p: 15.

Gallois, M., T. Gidenne, L. Fortun-Lamothe, I. Le Huerou-Luron, and J.P. Lalles. 2004. Weaning age and development of the small intestine mucosa in the young rabbit. In: Proc. 8th World Rabbit Congress. Pueble, Mexico. pp: 1079 – 1085.

Henry, A.J., S.N. Ibe and B.O. Asuquo. 2012. Effect of weaning age on growth and slaughter characteristics of grasscutter (Thryonomis swinderianus) raised under intensive management in the humid tropics. J. Agric. Sci. 4: 323 – 342.

Hoon, J.N., W.J. Oliver, and P.J. Griessel. 2010. The effect of different weaning practices on post-weaning growth of Angora kids and reproduction of Angora ewes. Grootfontein Agri. Bulletin. 8(1).

Manjeli, Y., J. Tchoumboue, R.M. Njiwe, and A. Tegui. 1998. Guinea pig production under traditional management. Trop. Anim. Health and Prod. 30:115-122.

Marongiu, M.L., W. Pinna, B. Floris, and A. Nizza. 2006. Rabbit meat production as affected by delayed-weaning technigue. In: A. Olaizola, J. Boutonnet, and P. Bernues (ed). Mediterranean livestock production: uncertainties and opportunities Zaragoza: CIHEAM/CITA/CITA. pp: 279 – 285.

McNitt, J.I., and S.D. Lukfahr. 1996. Genetic and environmental parameters for post-weaning growth traits of rabbits using an animal model. In: Proc. 6th World Rabbit Sci. Asso. Congr. Toulouse. France. p: 325.

Oshinowo, O.A., B.Y. Abubakar, and A.R. Trimnell. 1993. Genetic and phenotypic relationship between gestation length, litter size and litter birth weight in Yankasa sheep. Anim. Reprod. Sci. 34: 111 – 118.

Piattoni, F., L. Maertens, and D. Mazzoni. 1999. Effect of weaning age and solid feed distribution before weaning on performance and caecal traits of young rabbits. Cahiers Options Méditerranéennes. 41:85-91.

SPSS. 1999. Statistical procedure for the social sciences and facilities for release. Mcgraw-Hill Book Company, New York.

Trocina, A., G. Xicatto, A. Sartori, and P.I. Queaque. 2001. Effect of starter diet and weaning age on growth, caecal fermentation and body composition of young rabbits. In: Proc. 2nd meeting of Workgroup 3 and 4. COST Action 848. Godollo. Hungary.

Tůmovă, E., L. Zita, M. Marounek, V. Skřivanova, and A. Berladyn. 2006. The effect of weaning age on performance, nutrient digestibility and lipase activity in broiler rabbits. In: Proc. 3rd Rabbit Congress of the Americas. Maringa, Brasil.

Xiccato, G., A. Trocina, A. Sartori, and P.I. Queaque. 2003. Effect of weaning diet and weaning age on growth, body composition and caecal fermentation of young rabbits. Anim. Sci. 77: 101 – 111.

Xiccato, G., A. Trocino, A. Sartori, and P.I. Queaque. 2000. Early weaning of rabbits: effect of age and diet on weaning and post-weaning performance. In: Proc. 7th World Rabbit Congress. Valencia. Spain. pp: 483 – 490.