Costs of reproduction can explain the correlated evolution of semelparity and egg size: theory and a test with salmon

Species’ life history traits, including maturation age, number of reproductive bouts, offspring size and number, reflect adaptations to diverse biotic and abiotic selection pressures. A striking example of divergent life histories is the evolution of either iteroparity (breeding multiple times) or s...

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Bibliographic Details
Published in:Ecology letters 2016-06, Vol.19 (6), p.687-696
Main Authors: Kindsvater, Holly K., Braun, Douglas C., Otto, Sarah P., Reynolds, John D.
Format: Article
Language:English
Subjects:
Adaptation
Age
Animal behavior
Animals
Biological Evolution
Body Size
Breeding
Clutch Size
Constraints
Correlation
Costs
Costs of reproduction
Data processing
demography
Divergence
Eggs
Evolution
Female
Hypotheses
Iteroparity
Life history
life history theory
Mathematical models
Maturation
Models, Biological
Offspring
offspring size
Ovum - physiology
Parity
Populations
Reproduction
Reproduction - physiology
Salmon
Salmon - physiology
Salmonids
Semelparity
Survival
Tradeoffs
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Summary:Species’ life history traits, including maturation age, number of reproductive bouts, offspring size and number, reflect adaptations to diverse biotic and abiotic selection pressures. A striking example of divergent life histories is the evolution of either iteroparity (breeding multiple times) or semelparity (breed once and die). We analysed published data on salmonid fishes and found that semelparous species produce larger eggs, that egg size and number increase with salmonid body size among populations and species and that migratory behaviour and parity interact. We developed three hypotheses that might explain the patterns in our data and evaluated them in a stage‐structured modelling framework accounting for different growth and survival scenarios. Our models predict the observation of small eggs in iteroparous species when egg size is costly to maternal survival or egg number is constrained. By exploring trait co‐variation in salmonids, we generate new hypotheses for the evolution of trade‐offs among life history traits.
ISSN:1461-023X
1461-0248
DOI:10.1111/ele.12607