Sibling differences in litter huddle position contribute to overall variation in weaning mass in a small mammal

Abstract

In altricial, litter-bearing species, huddling together with siblings during early life is a vital strategy to maintain a sufficiently high and stable body temperature. In this context, individual differences in huddling behavior within litters have been emphasized, as pups regularly occupying more central positions have relatively higher body temperatures, have quicker access to the mother’s nipples during nursing, and consequently show greater growth. However, it is not known whether such positive effects of a central litter huddle position on within-litter differences in growth translate into an overall higher weaning mass, taking into account strong contributors to among-litter growth variation, such as litter size and maternal parity. We used path analysis to investigate causal relations among these variables, based on data from 150 domestic rabbit pups from 24 litters. Our results confirmed positive, indirect effects of pups’ central litter huddle position on within-litter differences in early growth. This positive effect of a central litter huddle position also contributed to explaining a significant part of the overall across-litter variance in weaning body mass, apparent even when controlling for the direct negative effect of litter size, the direct positive effects of birth mass, and the lower offspring growth in primiparous compared to multiparous mothers. Thus, the results underline the key role of individual differences in litter huddle position in shaping within-litter but also overall variation in early growth. This might constitute an important mechanism accounting for how the positive association between body mass at birth and early growth is mediated in altricial, polytocous mammals. Huddling together with siblings during early life saves energy and thus can contribute to early growth in small, altricial mammals. However, this strategy can also lead to individual differences within the litter, as heavier pups typically occupy energetically more favorable positions in the center of the huddle. In our study, we show and compare the different causal pathways underlying this effect. Most importantly, our analysis shows that advantages in early growth arising from a more central position in the litter huddle are also apparent when comparing pups across all litters—even though there is typically a notable variation in growth among different litters, for example due to litter size and maternal (parity) effects. In conclusion, the results underline the key role of sibling interactions within the litter in shaping differences in early growth, with potential fitness consequences during later life.