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Data for: Adaptive seasonal shift towards investment in fewer, larger offspring: Evidence from field and laboratory studies


1. Seasonal changes in reproduction have been described for many taxa. As reproductive seasons progress, females often shift from greater energetic investment in many small offspring towards investing less total energy into fewer, better provisioned (i.e. larger) offspring. The underlying causes of this pattern have not been assessed in many systems. 2. Two primary hypotheses have been proposed to explain these patterns. The first is an adaptive hypothesis from life history theory: early offspring have a survival advantage over those produced later. Accordingly, selection favors females that invest in offspring quantity early in the season and offspring quality later. The second hypothesis suggests these patterns are not intrinsic but result from passive responses to seasonal changes in the environment experienced by reproducing females (i.e. maternal environment). 3. To disentangle the causes underlying this pattern, which has been reported in brown anole lizards (Anolis sagrei), we performed complementary field and lab studies. The lab study carefully controlled maternal environments and quantified reproductive patterns throughout the reproductive season for each female. The field study measured similar metrics from free ranging lizards across an entire reproductive season. 4. In the lab, females increased relative effort per offspring as the reproductive season progressed; smaller eggs were laid earlier, largest eggs were laid later. Moreover, we observed significant among-individual variation in seasonal changes in reproduction, which is necessary for traits to evolve via natural selection. Because these patterns consistently emerge under controlled lab conditions, they likely represent an intrinsic and potentially adaptive adjustment of reproductive effort as predicted by life history theory. 5. The field study revealed similar trends, further suggesting that intrinsic patterns observed in the lab are strong enough to persist despite the environmental variability that characterizes natural habitats. The observed patterns are indicative of an adaptive seasonal shift in parental investment in response to a deteriorating offspring environment: allocating greater resources to late-produced offspring likely enhances maternal fitness.