Highly fecund mothers sacrifice offspring survival to maximize fitness

Einum, Sigurd; Fleming, Ian A.

doi:10.1038/35014600

Cited by 363 publications

(363 citation statements)

References 20 publications

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“…This is not surprising since a very shallow slope makes the difference in survival between different propagule sizes negligible and variation in size of little value. The exact shape of the survival function in natural systems can be very hard to measure (but see Einum & Fleming 2000), but our results point at its potential importance for which type of strategy evolves.…”

Section: Discussionmentioning

confidence: 99%

Bet-hedging as an evolutionary game: the trade-off between egg size and number

2009

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Bet-hedging theory addresses how individuals should optimize fitness in varying and unpredictable environments by sacrificing mean fitness to decrease variation in fitness. So far, three main bet-hedging strategies have been described: conservative bet-hedging (play it safe), diversified bet-hedging (don't put all eggs in one basket) and adaptive coin flipping (choose a strategy at random from a fixed distribution). Within this context, we analyse the trade-off between many small eggs (or seeds) and few large, given an unpredictable environment. Our model is an extension of previous models and allows for any combination of the bet-hedging strategies mentioned above. In our individual-based model (accounting for both ecological and evolutionary forces), the optimal bet-hedging strategy is a combination of conservative and diversified bet-hedging and adaptive coin flipping, which means a variation in egg size both within clutches and between years. Hence, we show how phenotypic variation within a population, often assumed to be due to non-adaptive variation, instead can be the result of females having this mixed strategy. Our results provide a new perspective on bet-hedging and stress the importance of extreme events in life history evolution.

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Section: Discussionmentioning

confidence: 99%

Bet-hedging as an evolutionary game: the trade-off between egg size and number

2009

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“…2 populations is necessary to show that differences are unlikely to be explained by population Â habitat interactions unrelated to divergent selection (discussed by Kawecki & Ebert [1]). Non-genetic maternal effects can influence offspring performance in nature [48]; however, our results are unlikely to reflect maternal contributions as the beneficial effects of egg size erode quickly with age [32]. We attempted to minimize the influence of any lingering maternal effects by rearing individuals for several months in common-laboratory conditions prior to their release into the wild, and controlled for individual body size and condition on survival.…”

Section: Discussionmentioning

confidence: 99%

Fine-scale local adaptation in an invasive freshwater fish has evolved in contemporary time

2013

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Adaptive evolutionary change in only a few generations can increase the ability of non-native invasive species to spread, and yet adaptive divergence is rarely assessed in recently established populations. In this study, we experimentally test for evidence of fine-scale local adaptation in juvenile survival and growth among three populations of an invasive freshwater fish with reciprocal transplants and common-garden experiments. Despite intrinsic differences in habitat quality, in two of three populations we detected evidence of increased survival in 'home' versus 'away' environments with a Bayesian occupancy model fitted to mark -recapture data. We found support for the 'local' versus 'foreign' criterion of local adaptation as 14 of 15 pairwise comparisons of performance were consistent with local adaptation ( p , 0.001). Patterns in growth were less clear, though we detected evidence of location-and population-level effects. Although the agents of divergent ecological selection are not known in this system, our results combine to indicate that adaptive divergence-reflected by higher relative survival of local individuals-can occur in a small number of generations and only a few kilometres apart on the landscape.

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“…The extrapolation of results from experiments to entire populations can be problematic because parental influences might be expressed differently in the wild than in captivity (Bernardo 1996;Chambers & Leggett 1996), or might affect the relative fitness of individual adults (Einum & Fleming 2000) without affecting the reproductive rate of a population (Charlesworth 1980). While the dynamics of exploited fish stocks can behave in ways that are consistent with effects of parental influences on offspring survival (Marteinsdottir & Thorarinsson 1998;Marshall & Frank 1999;Hsieh et al 2006Hsieh et al , 2008, direct evidence of this phenomenon is limited to one study of a population of Atlantic cod (Gadus morhua) in which recruitment varied positively with the proportion of eggs spawned by older fish ( Vallin & Nissling 2000).…”

Section: Introductionmentioning

confidence: 99%

Evidence for harvest-induced maternal influences on the reproductive rates of fish populations

2008

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Knowledge of the relationship between the number of offspring produced (recruitment) and adult abundance is fundamental to forecasting the dynamics of an exploited population. Although small-scale experiments have documented the importance of maternal quality to offspring survival in plants and animals, the effects of this association on the recruitment dynamics of exploited populations are largely unknown. Here, we present results from both a simple population model and a meta-analysis of time-series data from 25 species of exploited marine fishes that suggest that a population of older, larger individuals has a higher maximum reproductive rate than an equivalent population of younger, smaller individuals, and that this difference increases with the reproductive lifespan of the population. These findings (i) establish an empirical link between population age structure and reproductive rate that is consistent with strong effects of maternal quality on population dynamics and (ii) provide further evidence that extended age structure is essential to the sustainability of many exploited fish stocks.

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Highly fecund mothers sacrifice offspring survival to maximize fitness

Cited by 363 publications

References 20 publications

Bet-hedging as an evolutionary game: the trade-off between egg size and number

Bet-hedging as an evolutionary game: the trade-off between egg size and number

Fine-scale local adaptation in an invasive freshwater fish has evolved in contemporary time

Evidence for harvest-induced maternal influences on the reproductive rates of fish populations

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