Abstract
Through maternal effects, information about environmental conditions experienced in the maternal generation can be transmitted to subsequent generations. Although maternal effects have been described and quantified in many mammalian species, the underlying causal links are often under-studied. The close association between mother and neonate during the extended period of lactation in mammals provides a unique opportunity for mothers to influence offspring phenotype through nutrient provisioning of milk. The purpose of this study was to examine sources of inter-individual variation in milk composition and impacts on offspring phenotype and survival. Variation in fat content, protein content, and energy density of mother’s milk was associated with timing of reproduction. Mothers with intermediate birthdates produced milk that was higher in fat and energy density, but lower in protein than females with early or late birthdates. In turn, the pattern of change in milk composition affected juvenile overwinter survival. The protein content of Columbian ground squirrel milk typically increases to peak lactation and then declines before weaning. Pups consuming milk that was lower in protein in early lactation but then relatively high in protein at peak and late lactation had a higher probability of survival overwinter. Our results indicate that the interplay between the timing of reproduction and lactation performance has consequences for maternal and offspring fitness.
Highlights
Environmental conditions in the maternal generation can have substantial impacts on offspring phenotype, independent of additive genetic effects
We have previously shown that the concentration of most milk constituents increases from early to peak lactation (19 days postpartum) and decreases from peak to late lactation (25 days postpartum), there is substantial variation in temporal patterns among mothers (Skibiel and Hood, 2013)
Milk composition varied with lactation stage; the magnitude and direction of these relationships are reported elsewhere (Skibiel and Hood, 2013)
Summary
Environmental conditions in the maternal generation can have substantial impacts on offspring phenotype, independent of additive genetic effects. These maternal effects are ubiquitous in nature occurring across many taxa from maternal influences on seed mass and dispersal patterns in plants (Donohue and Schmitt, 1998) to the impact of maternal rank on offspring growth and age at reproductive maturity in mammals (reviewed in Holekamp and Dionak, 2009) In mammals, these effects can occur through two broad mechanisms- nutritionally, via food provisioning and nutrient transfer across the placenta or through milk, and non-nutritionally, through maternal care behaviors and the transfer of non-nutritive substances, such as antibodies or hormones, from mother to young. As a result, offspring fitness is likely to be at least partly dependent on a female’s ability to deliver adequate nutrients and energy through milk (Robbins et al, 1981)
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