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Insights into suckling rabbit feeding behaviour: acceptability of different creep feed presentations and attractiveness for sensory feed additives

Published online by Cambridge University Press:  13 February 2020

C. Paës
Affiliation:
GenPhySE, Université de Toulouse, INRAE, ENVT, Toulouse INP, F-31326Castanet-Tolosan, France CCPA, ZA du Bois de Teillay, F-35150Janzé, France
L. Fortun-Lamothe
Affiliation:
GenPhySE, Université de Toulouse, INRAE, ENVT, Toulouse INP, F-31326Castanet-Tolosan, France
G. Coureaud
Affiliation:
Centre de Recherche en Neurosciences de Lyon, CNRS, INSERM, Université Claude Bernard, Lyon 1, F-69675Bron Cedex, France
K. Bébin
Affiliation:
CCPA, ZA du Bois de Teillay, F-35150Janzé, France
J. Duperray
Affiliation:
EVIALIS, Lieu dit Talhouët, F-56250Saint Nolff, France
C. Gohier
Affiliation:
MiXscience, 2 avenue de Ker Lann, F-35170Bruz, France
E. Guené-Grand
Affiliation:
WISIUM, Rue de l’église, BP50019, F-02407Chierry, France
G. Rebours
Affiliation:
TECHNA, Route de St-Étienne-de-Montluc, F-44220Couëron, France
P. Aymard
Affiliation:
GenPhySE, Université de Toulouse, INRAE, ENVT, Toulouse INP, F-31326Castanet-Tolosan, France
C. Bannelier
Affiliation:
GenPhySE, Université de Toulouse, INRAE, ENVT, Toulouse INP, F-31326Castanet-Tolosan, France
A. M. Debrusse
Affiliation:
GenPhySE, Université de Toulouse, INRAE, ENVT, Toulouse INP, F-31326Castanet-Tolosan, France
T. Gidenne
Affiliation:
GenPhySE, Université de Toulouse, INRAE, ENVT, Toulouse INP, F-31326Castanet-Tolosan, France
S. Combes*
Affiliation:
GenPhySE, Université de Toulouse, INRAE, ENVT, Toulouse INP, F-31326Castanet-Tolosan, France
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Abstract

In young rabbit, digestive disorders are frequently observed around weaning. Stimulating the onset of feed intake in the suckling rabbit might be a way to promote gut health. The aim of this study was to determine the rabbit’s acceptability for different feed presentations and its preferences for flavours at an early stage of life. Two trials were conducted to evaluate the effects of physical form and flavouring on creep feed attractiveness. All the diets tested were provided in the nest from 3 to 17 days, and the daily intake per litter was recorded as of 8 days of age. In the first trial, five feed presentations were tested separately (n = 60 litters). Three dry presentations were chosen: commercial pellet (P), crumb from commercial pellet (cP) and crumb from beet pulp pellet (cBP). Hydrated feeds were also provided with either raw fodder beetroot (B) or a semi-solid feed in agar gel form produced with fodder beetroot juice and pulp (gB). In the second trial, double-choice tests were performed on four feed gels (n = 72 litters), leading to six comparison treatments. These agar gels were made of pellet mash without or with a sensory additive: one non-odorised control gel and three gels with 0.20% banana flavour, 0.06% red berry flavour and 0.10% vanilla flavour, respectively. In the first trial, kits ate more gB in fresh matter than other feed presentations (P < 0.001), with a total intake of 7.0 ± 1.8 g/rabbit from 8 to 17 days. In DM, the total consumption of pellets P (1.6 ± 0.4 g of DM/rabbit) was the highest together with the gB form (1.4 ± 0.4 g of DM/rabbit), whereas cBP was barely consumed (0.3 ± 0.1 g of DM/rabbit). Gel feed supplemented with vanilla was slightly more consumed than other flavoured and non-odorised gels (relative consumption of 57% when compared to control gel; P = 0.001). The gel feed intake was independent of the milk intake but was correlated with the litter weight at 3 days (r = 0.40, P < 0.001). In both trials, rabbit growth before and after weaning was not affected by the type of creep feed provided. Our results confirmed that providing creep feed promotes the solid intake of rabbits at early stages. Gel feed form motivated rabbits to eat and vanilla flavour supplementation increased the feed palatability. Those creep feed characteristics should be explored further for seeking effective stimulation of the onset of the feed intake in suckling rabbit.

Type
Research Article
Copyright
© The Animal Consortium 2020

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References

Bian, G, Ma, S, Zhu, Z, Su, Y, Zoetendal, EG, Mackie, R, Liu, J, Mu, C, Huang, R, Smidt, H and Zhu, W 2016. Age, introduction of solid feed and weaning are more important determinants of gut bacterial succession in piglets than breed and nursing mother as revealed by a reciprocal cross-fostering model. Environmental Microbiology 18, 15661577.CrossRefGoogle ScholarPubMed
Bilkó, Á, Altbäcker, V and Hudson, R 1994. Transmission of food preference in the rabbit: the means of information transfer. Physiology & Behavior 56, 907912.CrossRefGoogle ScholarPubMed
Brooks, PH and Tsourgiannis, CA 2003. Factors affecting the voluntary feed intake of the weaned pig. In Weaning the pig, concepts and consequences (ed. Pluske, JR, Le Dividich, J and Verstegen, MWA), pp. 81116. Wageningen Academic Publishers, Wageningen, the Netherlands.Google Scholar
Casado, C, Piquer, O, Cervera, C and Pascual, JJ 2006. Modelling the lactation curve of rabbit does: towards a model including fit suitability and biological interpretation. Livestock Science 99, 3949.CrossRefGoogle Scholar
Castellini, C, Cardinali, R, Rebollar, PG, Dal Bosco, A, Jimeno, V and Cossu, ME 2007. Feeding fresh chicory (Chicoria intybus) to young rabbits: performance, development of gastro-intestinal tract and immune functions of appendix and Peyer’s patch. Animal Feed Science and Technology 134, 5665.CrossRefGoogle Scholar
Clouard, C, Meunier-Salaün, M-C and Val-Laillet, D 2012. The effects of sensory functional ingredients on food preferences, intake and weight gain in juvenile pigs. Applied Animal Behaviour Science 138, 3646.CrossRefGoogle Scholar
Combes, S, Gidenne, T, Boucher, S, Fortun-Lamothe, L, Bolet, G and Coureaud, G 2018. Pour des lapereaux plus robustes au sevrage: des bases biologiques aux leviers d’action en élevage. INRA Productions Animales 31, 105116.CrossRefGoogle Scholar
Combes, S, Gidenne, T, Cauquil, L, Bouchez, O and Fortun-Lamothe, L 2014. Coprophagous behavior of rabbit pups affects implantation of cecal microbiota and health status. Journal of Animal Science 92, 652665.CrossRefGoogle ScholarPubMed
Coureaud, G, Fortun-Lamothe, L, Langlois, D and Schaal, B 2007. The reactivity of neonatal rabbits to the mammary pheromone as a probe for viability. Animal 1, 10261032.CrossRefGoogle ScholarPubMed
Coureaud, G, Fortun-Lamothe, L, Rödel, H, Monclús, R and Schaal, B 2008. Development of social and feeding behaviour in young rabbits. In Proceedings of the 9th World Rabbit Congress, 10–13 June 2008, Verona, Italy, pp. 11311146.Google Scholar
Coureaud, G, Schaal, B, Hudson, R, Orgeur, P and Coudert, P 2002. Transnatal olfactory continuity in the rabbit: behavioral evidence and short-term consequence of its disruption. Developmental Psychobiology 40, 372390.CrossRefGoogle ScholarPubMed
de Passillé, AM, Pelletier, G, Ménard, J and Morisset, J 1989. Relationships of weight gain and behavior to digestive organ weight and enzyme activities in piglets. Journal of Animal Science 67, 29212929.CrossRefGoogle ScholarPubMed
EGRAN 2001. Technical note: attempts to harmonise chemical analyses of feeds and faeces, for rabbit feed evaluation. World Rabbit Science 9, 5764.Google Scholar
Fekete, S and Lebas, F 1983. Effect of a natural flavour (Thyme extract) on the spontaneous feed ingestion, digestion coefficients and fattening parameters. Magyar Állatorvosok Lapja 38, 121125.Google Scholar
Fortun-Lamothe, L and Boullier, S 2007. A review on the interactions between gut microflora and digestive mucosal immunity. Possible ways to improve the health of rabbits. Livestock Science 107, 118.CrossRefGoogle Scholar
Fortun-Lamothe, L and Gidenne, T 2000. The effects of size of suckled litter on intake behaviour, performance and health status of young and reproducing rabbits. Annales de Zootechnie 49, 517529.CrossRefGoogle Scholar
Gidenne, T and Fortun-Lamothe, L 2002. Feeding strategy for young rabbits around weaning: a review of digestive capacity and nutritional needs. Animal Science 75, 169184.CrossRefGoogle Scholar
Gottlieb, G 1971. Ontogenesis of sensory function in birds and mammals. In The biopsychology of development (ed. Tobach, E, Aronson, LR and Shaw, E), pp. 67128. Academic Press, New York, NY, USA.Google Scholar
Guiraudie-Capraz, G, Slomianny, M-C, Pageat, P, Malosse, C, Cain, A-H, Orgeur, P and Nagnan-Le Meillour, P 2005. Biochemical and chemical supports for a transnatal olfactory continuity through sow maternal fluids. Chemical Senses 30, 241251.Google ScholarPubMed
Kacsala, L, Szendrő, Z, Gerencsér, Z, Radnai, I, Kovács, M, Kasza, R, Nagy, I, Odermatt, M, Atkári, T and Matics, Z 2018. Early solid additional feeding of suckling rabbits from 3 to 15 days of age. Animal: An International Journal of Animal Bioscience 12, 2833.CrossRefGoogle ScholarPubMed
Kovács, M, Szendrõ Zs, Milisits G, Biro-Nemeth, E, Radnai, I, Posa, R, Bonai, A, Kovacs, F and Horn, P 2006. Effect of nursing method and faeces consumption on the development of Bacteroides, Lactobacillus and coliform flora in the caecum of the newborn rabbits. Reproduction Nutrition Development 46, 205210.CrossRefGoogle ScholarPubMed
Langenbach, GE, Weijs, WA, Brugman, P and van Eijden, TM 2001. A longitudinal electromyographic study of the postnatal maturation of mastication in the rabbit. Archives of Oral Biology 46, 811820.CrossRefGoogle ScholarPubMed
Lebas, F 1968. Mesure quantitative de la production laitière chez la lapine. Annales de Zootechnie 17, 169182.CrossRefGoogle Scholar
Lebas, F 2011. Incidence de la présence accidentelle de formol dans l’alimentation sur le comportement alimentaire et les performances de croissance du Lapin. In Proceedings of 14. Journées de la Recherche Cunicole, 22–23 November, Le Mans, France, pp. 2931.Google Scholar
Lebas, F 2018. Performances moyennes des élevages cunicoles en France pour l’année 2017. Cuniculture Magazine 45, 22–26 (résultats RENACEB). Retrieved on 19 February 2019 from http://www.cuniculture.info/Docs/Magazine/Magazine2018/mag45-22-Renaceb.htmlGoogle Scholar
Maertens, L 1994. Infuence du diamètre du granulé sur les performances des lapereaux avant sevrage. In Proceedings of 6. Journées de la Recherche Cunicole, 6–7 December, La Rochelle, France, pp. 325332.Google Scholar
Maertens, L 2010. Feeding systems for intensive production. In Nutrition of the rabbit (ed. de Blas, C and Wiseman, J), pp. 253266. CABI Publishing, Wallingford, UK.CrossRefGoogle Scholar
Maertens, L, Lebas, F and Szendrö, Z 2006. Rabbit milk: a review of quantity, quality and non-dietary affecting factors. World Rabbit Science 14, 205230.Google Scholar
Marlier, D, Dewree, R, Delleur, V, Licois, D, Lassence, C, Poulipoulis, A and Vindevogel, H 2003. A review of the major causes of digestive disorders in the European rabbit. Annales de Medecine Veterinaire 147, 385392.Google Scholar
Paës, C, Fortun-Lamothe, L, Bébin, K, Duperray, J, Gohier, C, Guené-Grand, E, Rebours, G, Aymard, P, Bannelier, C, Debrusse, A-M, Gidenne, T and Combes, S 2019. Onset of feed intake of the suckling rabbit and evidence of dietary preferences according to pellet physical properties. Animal Feed Science and Technology 255, 114223.CrossRefGoogle Scholar
Pajor, EA, Fraser, D and Kramer, DL 1991. Consumption of solid food by suckling pigs: individual variation and relation to weight gain. Applied Animal Behaviour Science 32, 139155.CrossRefGoogle Scholar
Pluske, JR, Payne, HG, Williams, IH and Mullan, BP 2005. Early feeding for lifetime performance of pigs. Recent Advances in Animal Nutrition in Australia, 15, 171181.Google Scholar
R Core Team (2018). R: a language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. Retrieved on https://www.R-project.org/Google Scholar
Read, T, Fortun-Lamothe, L, Pascal, G, Le Boulch, M, Cauquil, L, Gabinaud, B, Bannelier, C, Balmisse, E, Destombes, N, Bouchez, O, Gidenne, T and Combes, S 2019. Diversity and co-occurrence pattern analysis of cecal microbiota establishment at the onset of solid feeding in young rabbits. Frontiers in Microbiology 10, 973. https://doi.org/10.3389/fmicb.2019.00973.CrossRefGoogle ScholarPubMed
Schaal, B, Marlier, L and Soussignan, R 1998. Olfactory function in the human fetus: evidence from selective neonatal responsiveness to the odor of amniotic fluid. Behavioral Neuroscience 112, 14381449.CrossRefGoogle ScholarPubMed
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