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Consequences of rearing feeding programme on the performance of rabbit females from 1st to 2nd parturition

Published online by Cambridge University Press:  28 March 2019

E. Martínez-Paredes
Affiliation:
Instituto de Ciencia y Tecnología Animal, Universitat Politècnica de València, Camino de Vera s/n, 46022 Valencia, Spain
D. Savietto
Affiliation:
GenPhySE, Université de Toulouse, INRA, INP, ENVT, 31326 Castanet Tolosan, France
L. Ródenas
Affiliation:
Instituto de Ciencia y Tecnología Animal, Universitat Politècnica de València, Camino de Vera s/n, 46022 Valencia, Spain
C. Cervera
Affiliation:
Instituto de Ciencia y Tecnología Animal, Universitat Politècnica de València, Camino de Vera s/n, 46022 Valencia, Spain
E. Blas
Affiliation:
Instituto de Ciencia y Tecnología Animal, Universitat Politècnica de València, Camino de Vera s/n, 46022 Valencia, Spain
G. Brecchia
Affiliation:
Dipartimento di Scienze Biopatologiche ed Igiene delle Produzioni Animali e Alimentari, Universita‘ degli Studi di Perugia, Via S. Costanzo 4, 06126 Perugia, Italy
C. Boiti
Affiliation:
Dipartimento di Scienze Biopatologiche ed Igiene delle Produzioni Animali e Alimentari, Universita‘ degli Studi di Perugia, Via S. Costanzo 4, 06126 Perugia, Italy
J. J. Pascual*
Affiliation:
Instituto de Ciencia y Tecnología Animal, Universitat Politècnica de València, Camino de Vera s/n, 46022 Valencia, Spain
*
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Abstract

To evaluate how rearing programmes could affect resources allocation and reproductive performance of primiparous rabbit females, a total of 118 rabbit females were used to evaluate the effects of five rearing feeding programmes on their performance from 1st to 2nd parturition: CAL, fed ad libitum C diet (11.0 MJ digestible energy (DE), 114 g digestible protein (DP) and 358 g NDF/kg dry matter (DM) until 1st parturition; CR, fed ad libitum with C diet until 12 weeks of age and then C diet restricted (140 g/day) until 1st parturition; F, fed ad libitum with F diet (8.7 MJ DE, 88 g DP and 476 NDF/kg DM) until 1st parturition; FC, fed with F diet ad libitum until 16 weeks of age, and C diet ad libitum until 1st parturition; FCF, fed with F diet ad libitum until 16 weeks of age, then C diet ad libitum until 20 weeks and then F diet ad libitum until 1st parturition. From 1st parturition, C diet was ad libitum offered to all the experimental groups until 2nd parturition. CAL females presented lower feed intake than females of F, FC and FCF groups in the 1st week of lactation (on av. −16.6%; P<0.05). During 1st lactation, the perirenal fat thickness change in CAL females was not different from 0 (+0.02 mm), while in the other four groups it increased (on av. +0.44 mm; P<0.05). Plasma of females fed with F diet during rearing (F, FC and FCF) had lower non-esterified fatty acids content than those exclusively fed with C diet (–0.088 and –0.072 mmol/l compared to CAL and CR, respectively; P<0.05). FCF litters had higher weight than F litters at day 21 of lactation (+247 g; P<0.05), but FCF litter had significantly lower weight than FC litters at weaning (+170 g; P<0.05). CR females had the shortest average interval between the 1st and 2nd parturition (49 days) and FCF females the longest (+ 9 days compared to CR; P<0.05). At 2nd parturition, liveborn litters of F females were larger and heavier than litters of FCF females (+2.22 kits and +138 g; P<0.05), probably due to the lower mortality at birth of F litters (–16.5 percentage points; P<0.05). In conclusion, rearing females on fibrous diets seems to increase the ability of primiparous rabbit females to obtain resources, especially at the onset of lactation.

Type
Research Article
Copyright
© The Animal Consortium 2019 

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References

Arnau-Bonachera, A, Cervera, C, Blas, E, Larsen, T, Martínez-Paredes, E, Ródenas, L and Pascual, JJ 2018. Long-term implications of feed energy source in different genetic types of reproductive rabbit females: I. Resource acquisition and allocation. Animal 12, 1867–1876.CrossRefGoogle Scholar
Association of Official Analytical Chemist 1999. Official methods of analysis, 18th edition, 5th revision. AOAC, Gaithersburg, MD, USA.Google Scholar
Bonnano, A, Mazza, F, Di Grigoli, A and Alicata, ML 2004. Effects of restricted feeding during rearing, combined with a delayed first insemination, on reproductive activity of rabbit does. In Proceedings of the 8th World Rabbit Congress, 7–10 September 2004, Puebla, México, pp. 224–230.Google Scholar
Brecchia, G, Bonanno, A, Galeati, G, Federici, C, Maranesi, M, Gobbetti, A, Zerani, M and Boiti, C 2006. Hormonal and metabolic adaptation to casting: effects on the hypothalamic-pituitary-ovarian axis and reproductive performance of rabbit does. Domestic Animal Endocrinology 31, 105122.CrossRefGoogle Scholar
Daly, ME, Vale, C, Walker, M, Alberti, KGMM and Mathers, JC 1997. Dietary carbohydrates and insulin sensitivity: a review of the evidence and clinical implications. American Journal of Clinical Nutrition 66, 10721085.CrossRefGoogle ScholarPubMed
De Blas, C and Mateos, GG 2010. Feed formulation. In Nutrition of the rabbit (ed. C De Blas and J Wiseman), pp. 222232. CABI Publishing, Wallingford, UK.CrossRefGoogle Scholar
Federation Internationale de Lacterie 1993. Determination de la teneur en azote. FIL Standard: 20B. Secrétariat General Federation Internationale de Lacterie, Brussels, Belgium.Google Scholar
Fernández-Carmona, J, Blas, E, Pascual, JJ, Maertens, L, Gidenne, T, Xiccato, G and García, J 2005. Recommendations and guidelines for applied nutrition experiments in rabbits. World Rabbit Science 13, 209228.Google Scholar
Friggens, NC, Brun-Lafleur, L, Faverdin, P, Sauvant, D and Martin, O 2011. Advances in predicting nutrient partitioning in the dairy cow: recognizing the central role of genotype and its expression through time. Animal 7 (suppl. 1), 89101.CrossRefGoogle ScholarPubMed
Littell, RC, Henry, PR and Ammerman, CB 1998. Statistical analysis of repeated measures data using SAS procedures. Journal of Animal Science 76, 12161231.CrossRefGoogle ScholarPubMed
Manal, AF, Tony, MA and Ezzo, OH 2010. Feed restriction of pregnant nulliparous rabbit does: consequences on reproductive performance and maternal behaviour. Animal Reproduction Science 120, 179186.CrossRefGoogle ScholarPubMed
Martínez-Paredes, E, Ródenas, L, Martínez-Vallespín, B, Cervera, C, Blas, E, Brecchia, G, Boiti, C and Pascual, JJ 2012. Effects of feeding programme on the performance and energy balance of nulliparous rabbit does. Animal 6, 10861095.CrossRefGoogle ScholarPubMed
Martínez-Paredes, E, Ródenas, L, Pascual, JJ and Savietto, D 2018. Early development and reproductive lifespan of rabbit females: implications of growth rate, rearing diet and body condition at first mating. Animal 12, 2347–2355.CrossRefGoogle Scholar
Nizza, A, Di Meo, C and Esposito, L 1997. Influence of diet used before and after the first mating on reproductive performance of rabbit does. World Rabbit Science 5, 107110.Google Scholar
Pascual, JJ, Blanco, J, Piquer, O, Quevedo, F and Cervera, C 2004. Ultrasound measurements of perirenal fat thickness to estimate the body condition of reproducing rabbit does in different physiological states. World Rabbit Science 12, 731.Google Scholar
Pascual, JJ, Castella, F, Cervera, C, Blas, E and Fernández-Carmona, J 2000. The use of ultrasound measurement of perirenal fat thickness to estimate changes in body condition of young female rabbits. Animal Science 70, 435442.CrossRefGoogle Scholar
Pascual, JJ, Cervera, C, Blas, E and Fernández-Carmona, J 1999. Effect of high fat diets on the performance, milk yield and milk composition of multiparous rabbit does. Animal Science 68 (suppl. 1), 151162.CrossRefGoogle Scholar
Pascual, JJ, Cervera, C and Fernández-Carmona, J 2002. A feeding program for young rabbit does based on all lucerne diets. World Rabbit Science 10, 713.Google Scholar
Pascual, JJ, Savietto, D, Cervera, C and Baselga, M 2013. Resources allocation in reproductive rabbit does: a review of feeding and genetic strategies for suitable performances. World Rabbit Science 21, 123144.CrossRefGoogle Scholar
Quevedo, F, Cervera, C, Blas, E, Baselga, M, Costa, C and Pascual, JJ 2005. Effect of selection for litter size and feeding programme on the performance of young rabbit females during rearing and first pregnancy. Animal Science 80, 161168.CrossRefGoogle Scholar
Rebollar, PG, Pereda, N, Schwarz, BF, Millán, P, Lorenzo, PL and Nicodemus, N 2011. Effect of feed restriction or feeding high-fibre diet during the rearing period on body composition, serum parameters and productive performance of rabbit does. Animal Feed Science and Technology 163, 6776.CrossRefGoogle Scholar
Rommers, JM, Meijerhof, R, Noordhuizen, JPTM and Kemp, B 2004. Effect of feeding program during rearing and age at first insemination on performances during subsequent reproduction in young rabbit does. Reproduction Nutrition and Development 44, 321332.CrossRefGoogle ScholarPubMed
Rosell, JM 2000. Enfermedades de menor presentación. Enfermedades metabólicas. In Enfermedades del conejo (ed. JM Rosell), pp. 399454. Mundiprensa, Madrid, Spain.Google Scholar
Statistical Analysis System (SAS) 2002. SAS/SAT user’s guide (release 9.1). SAS Institute Inc., Cary, NC, USA.Google Scholar
Savietto, D, Cervera, C, Ródenas, L, Martínez-Paredes, E, Baselga, M, García-Diego, FJ, Larsen, T, Friggens, NC and Pascual, JJ 2014. Different resource allocation strategies result from selection for litter size at weaning in rabbit does. Animal 8 (suppl. 4), 618628.CrossRefGoogle ScholarPubMed
Verdelhan, S, Bourdillon, A, David, JJ, Huirtaurd, JJ, Lédan, L, Renouf, B, Roulleau, X and Salaun, JM 2005. Comparaison de deux programmes alimentaires pour la préparation des futures reproductrices. In Proceedings of the 11émes Journées de la Recherche Cunicole, 29–30 November 2005, Paris, France, pp. 119–122.Google Scholar
Viudes-de-Castro, P, Santacreu, MA and Vicente, JS 1991. Effet de la concentration énergétique de l’alimentation sur les pertes embryonnaires et foetales chez la lapine. Reproduction Nutrition and Development 31, 529534.CrossRefGoogle Scholar
Xiccato, G, Bernardini, M, Castellini, C, Dalle Zotte, A, Queaque, PI and Trocino, A 1999. Effect of postweaning feeding on the performance and energy balance of female rabbits at different physiological states. Journal of Animal Science 77, 416426.CrossRefGoogle ScholarPubMed