Abstract
The trade-off between offspring size and number is central to life history strategies. Both the evolutionary gain of parental care or more favorable habitats for offspring development are predicted to result in fewer, larger offspring. However, despite much research, it remains unclear whether and how different forms of care and habitats drive the evolution of the trade-off. Using data for over 800 amphibian species, we demonstrate that, after controlling for allometry, amphibians with direct development and those that lay eggs in terrestrial environments have larger eggs and smaller clutches, while different care behaviors and adaptations vary in their effects on the trade-off. Specifically, among the 11 care forms we considered at the egg, tadpole and juvenile stage, egg brooding, male egg attendance, and female egg attendance increase egg size; female tadpole attendance and tadpole feeding decrease egg size, while egg brooding, tadpole feeding, male tadpole attendance, and male tadpole transport decrease clutch size. Unlike egg size that shows exceptionally high rates of phenotypic change in just 19 branches of the amphibian phylogeny, clutch size has evolved at exceptionally high rates in 135 branches, indicating episodes of strong selection; egg and tadpole environment, direct development, egg brooding, tadpole feeding, male tadpole attendance, and tadpole transport explain 80% of these events. By explicitly considering diversity in parental care and offspring habitat by stage of offspring development, this study demonstrates that more favorable conditions for offspring development promote the evolution of larger offspring in smaller broods and reveals that the diversity of parental care forms influences the trade-off in more nuanced ways than previously appreciated.
Highlights
Life history theory [1,2] aims to explain how diverse life history strategies evolve under natural selection
We further evaluate the relative importance of each significant predictor (S4A Table) by examining the change in the model’s marginal likelihood when one predictor at a time is removed, which provides an estimate of effect sizes for each predictor (Methods, Identifying significant predictors of egg and clutch size evolution)
We have investigated 2 hypotheses proposing that parental care and/or more favorable terrestrial habitats for offspring development select for larger eggs [13,39,40,52], while accounting for allometric effects, direct development, and the trade-off with clutch size
Summary
Life history theory [1,2] aims to explain how diverse life history strategies evolve under natural selection. Central to the theory are trade-offs that optimize resource allocation to the competing demands of growth, reproduction, and self-maintenance, under the assumption that individual resources are finite. Drivers of the offspring size-number tradeoff in amphibians uploaded as S1 Data. The sources for the data are available in S1 Data and list in S3 Data. The phylogeny pruned from Pyron (2014) and used for the analysis is uploaded as S2 Data
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a callDisclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.
