Hostname: page-component-78c5997874-8bhkd Total loading time: 0 Render date: 2024-11-20T04:29:14.976Z Has data issue: false hasContentIssue false

Effects of dietary energy level and source on foetal development and energy balance in concurrently pregnant and lactating primiparous rabbit does

Published online by Cambridge University Press:  02 September 2010

L. Fortun-Lamothe
Affiliation:
INRA Station de Recherches Cunicoles, BP 27, 31326 Castanet Tolosan, France
F. Lebas
Affiliation:
INRA Station de Recherches Cunicoles, BP 27, 31326 Castanet Tolosan, France
Get access

Abstract

The aim of this experiment was to study the effects of dietary energy level and source on foetal growth and survival and mobilization of body stores in concurrently pregnant and lactating primiparous rabbit does. Does were given a moderate-energy diet (≍9·9 MJ digestible energy (DE) per kg dry matter (DM); group M, no. = 23) or a high-energy diet (-12·2 MJ DE per kg DM). In this latter case, additional energy came from starch (group S, no. = 23) or starch and fat (group F, no. = 22). Primiparous rabbit does were mated within 12 h after parturition and were slaughtered on day 28 of gestation-lactation. During the first 21 days, the DE intake and milk production were higher in the group F than in the groups S and M (P < 0·05). On day 28 of pregnancy, the weight of adipose tissues and liver, as well as the lipid content of the carcass, were higher in the groups S and F than in the group M (P < 0·05). Foetal survival and weight were similar in the three groups. These results indicate that increased energy level of the diet did not improve foetal survival or growth in concurrently pregnant and lactating primiparous does. On the contrary, it could reduce the mobilization offat stores, especially if the energy source is starch.

Type
Research Article
Copyright
Copyright © British Society of Animal Science 1996

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Barreto, G. and Bias, J. C. de. 1993. Effect of dietary fibre and fat content on the reproductive performance of rabbit does bred at two remating times during two seasons. World Rabbit Science 1:7781.Google Scholar
Castellini, C. and Battaglini, M. 1991. [Effect of dietary energy and remating interval on does performance]. Proceedings of Congresso Nazionale A.S.P.A., Roma, vol. I, pp.477488.Google Scholar
Cervera, C., Fernandez-Carmona, J., Viudes, P. and Bias, E. 1993. Effect of remating interval and diet on the performance of female rabbits and their litters. Animal Production 56:399405.Google Scholar
Conover, W. J. 1980. Practical nonparametric statistics. 2nd edition. J. Wiley and Sons Inc., New York.Google Scholar
Elphick, M. C. and Hull, D. 1977. The transfer of free fatty acids across the rabbit placenta. journal of Physiology 264:751766.CrossRefGoogle ScholarPubMed
Fortun, L., Prunier, A., Etienne, M. and Lebas, F. 1994. Influence of the nutritional deficit on foetal survival and growth and plasma metabolites in rabbit does. Reproduction Nutrition Development 34:201211.CrossRefGoogle ScholarPubMed
Fortun, L., Prunier, A. and Lebas, F. 1993. Effects of lactation on fetal survival an d development in rabbit does mated shortly after parturition. Journal of Animal Science 71:18821886.CrossRefGoogle Scholar
Fraga, M. J., Lorente, M., Carabano, R. M. and Bias, J. C. de. 1989. Effect of diet and of remating interval on milk production and milk composition of the doe rabbit. Animal Production 48:459466.Google Scholar
Lebas, F. 1969. [Milk feeding and rabbit growth before weaning]. Annales de Zootechnie 18:197208.CrossRefGoogle Scholar
Lebas, F. 1986. Feeding conditions for top performances in the rabbit. In CEC-seminar Turin, report EUR 10983, pp.2741.Google Scholar
Maertens, L. and de Groote, G. 1988. The influence of the dietary energy content on the performances of post partum breeding does. Proceedings of the fourth world rabbit congress, Budapest, vol. 3, pp.4252.Google Scholar
Parigi-Bini, R., Xiccato, G., Cinetto, M. and Dalle Zotte, A. 1992. Energy and protein utilization and partition in rabbit does concurrently pregnant and lactating. Animal Production 55:153162.Google Scholar
Partridge, G. G., Lobley, G. E. and Fordyce, R. A. 1986. Energy and nitrogen metabolism of rabbits during pregnancy, lactation, and concurrent pregnancy and lactation. British Journal of Nutrition 56:199207.CrossRefGoogle ScholarPubMed
Perez, J. M., Lebas, F., Gidenne, T., Maertens, L., Xiccato, G., Parigi-Bini, R., Dalle Zotte, A., Cossu, M. E., Carazzolo, A., Villamide, M. J., Carabano, R., Fraga, M. J., Ramos, M. A., Cervera, C., Bias, E., Fernandez, J., Falcaoe Cunha, L. and Bengala Freire, J. 1995. European reference method for in vivo determination of diet digestibility in rabbits. World Rabbit Science 3:4143.Google Scholar
Statistical Analysis Systems Institute. 1987. SAS user's guide: statistics. Statistical Analysis Systems Institute Inc., Cary, NC.Google Scholar
Viudes de Castro, P., Santacreu, M. A. and Vicente, J. S. 1991. Effects of dietary energy level on the embryonic and foetal losses in the doe. Reproduction Nutrition Development 31:529534.Google Scholar
Xiccato, G., Parigi-Bini, R., Dalle Zotte, A., Carazzolo, A. and Cossu, M. E. 1995. Effect of dietary energy level, addition of fat and physiological state on performance and energy balance of lactating and pregnant rabbit does. Animal Science 61:387398.Google Scholar