期刊
JOURNAL OF ANIMAL ECOLOGY
卷 90, 期 10, 页码 -出版社
WILEY
DOI: 10.1111/1365-2656.13542
关键词
adaptation by time; adaptive; life history; migration; phenology; phenotypic plasticity; seasonality; spawn
资金
- Svenska Forskningsradet Formas [2017-00346, 2018-00605]
- EcoChange
- Vinnova [2017-00346, 2018-00605] Funding Source: Vinnova
- Formas [2017-00346, 2018-00605] Funding Source: Formas
Life history theory suggests that organisms should time their reproduction to maximize fitness. This study found that differences in breeding time among individuals in a perch population were associated with changes in hatching success and reproductive allocation strategies, as well as variation in offspring performance linked to temperature. These time-dependent adaptive differences within the population could influence the population's ability to cope with environmental challenges, such as global warming and exploitation.
Life history theory posits that organisms should time their reproduction to coincide with environmental conditions that maximize their fitness. Population-level comparisons have contributed important insights on the adaptive value of reproductive timing and its association to environmental variation. Yet, despite its central role to ecology and evolution, the causes and consequences of variation in reproductive timing among individuals within populations are poorly understood in vertebrates other than birds. Using a combination of observational field studies and a split-brood experiment, we investigated whether differences in breeding time were associated with changes in hatching success, reproductive allocation and reaction norms linking offspring performance to temperature within an anadromous Baltic Sea population of perch Perca fluviatilis. Field observations revealed substantial variation in reproductive timing, with the breeding period lasting almost 2 months and occurring in temperatures ranging from 10 to 21celcius. The hatching success of perch decreased as the reproductive season progressed. At the same time, the reproductive allocation strategy changed over the season, late breeders (the offspring of which were introduced into a high resource environment and increased predation pressure) produced more and smaller eggs that resulted in smaller larvae, compared with early breeders. The split-brood experiment in which eggs were incubated in different temperatures (10, 12, 15, 18 degrees C) showed that differences in reproductive timing were associated with a change in the shape of the reaction norm linking offspring performance to water temperature indicative of adaptive phenotypic plasticity, with the offspring of early breeders performing best in low temperatures and the offspring of late breeders performing best in high temperatures. The seasonal changes in reproductive traits and the shape of the thermal performance suggest time-dependent adaptive differences among individuals within the population. Management actions aimed at preserving and restoring variation in the timing of reproductive events will thus likely also influence variation in associated life history traits and thermal performance curves, which could safeguard populations against environmental challenges and changes associated with exploitation and global warming.
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