Because parental care has a heritable basis, the benefits of receiving increased
parental provisioning early in life are genetically linked to the costs of providing
increased parental provisioning at adulthood. Reproductive strategies thus result in
distinct cost-benefit syndromes across the life course that may shape individual
health ...
Because parental care has a heritable basis, the benefits of receiving increased
parental provisioning early in life are genetically linked to the costs of providing
increased parental provisioning at adulthood. Reproductive strategies thus result in
distinct cost-benefit syndromes across the life course that may shape individual
health and ageing trajectories. Here we used an artificial selection approach in
Japanese quail (Coturnix japonica) to test how reproductive strategies affect
telomere length, a biomarker of somatic state, at different life stages. We show that
males, but not females, from lines selected for low maternal investment (i.e.
developing in a relatively small egg) had shorter telomeres at birth. These patterns
were still weakly present at the end of the juvenile growth period. In contrast,
significantly shorter telomeres were found in reproductively active adult birds from
the high investment lines, suggesting that telomere attrition was accelerated in these
individuals once they had become reproductively active. Our study shows that
reproductive strategies differentially affect telomere dynamics across the life course,
highlighting the role of cross-generational constraints in shaping individual ageing
trajectories.
