Energy balance and body reserves in rabbit females selected for longevity

Abstract

<p>The aim of this study was to compare the energy balance and dynamic of body reserves in rabbit females divergently selected for longevity. One hundred and twenty-nine females from a high longevity line (HL) and 131 females of a low longevity line (LL) were studied from the 1<sup>st</sup> to the 3<sup>rd</sup> kindling. Litter size and weight and female body weight were measured at kindling (1<sup>st</sup>, 2<sup>nd</sup> and 3<sup>rd</sup>), insemination (2<sup>nd</sup> and 3<sup>rd</sup>) and at weaning (1<sup>st</sup> and 2<sup>nd</sup>). The total body electric conductivity (TOBEC) method was used to estimate the body reserves in all females at artificial insemination and at weaning, and at kindling in females that achieved parturition. Energy balance between the 11<sup>th</sup> and the 21<sup>th</sup> d of lactation was also calculated for these females. No significant difference was found for fertility or for the number of offspring born alive and weaned. However, the total number of offspring born was higher in the LL line than in the HL line at the 2<sup>nd</sup> parturition (+1.12±0.46 g; P<0.05). Consequently, the number of stillborn offspring was higher in the LL line. LL females were 4% heavier than HL females at the first parturition (P<0.05), but then HL females had a higher live weight gain than LL females from the 1st parturition to the 2<sup>nd</sup> artificial insemination (+107.0±29 g; P=0.049), leading to a similar weight between the lines at the 2<sup>nd</sup> artificial insemination. There was no significant difference between lines for estimated energy used for growth between the 11<sup>th</sup> and the 21<sup>th</sup> d of lactation, or for estimated milk production (2365±30 g in HL line vs. 2398±30 g in LL line), estimated using the weight gain of the kits between the 11<sup>th</sup> and 21<sup>st</sup> d of lactation, for feed intake measured during this period (351±5 g/d in HL line vs. 359±5 g/d in LL line) or for energy balance (–6.11±0.3 MJ in HL line vs. –6.30±0.3 MJ in LL line). However, body energy content was higher in HL females than in LL (+2.72±0.64 MJ; P=0.001). In conclusion, selection for higher functional longevity results in a better ability of females to use body reserves in their early reproductive life.</p>