Adaptive plasticity is expected to evolve when informative cues predict environmental variation. However, plastic responses can be maladaptive even when those cues are informative, if prediction mistakes are shared across members of a generation. These fitness costs can constrain the evolution of plasticity when initial plastic mutants use cues of only moderate reliability. Here we model the barriers to the evolution of plasticity produced by these constraints and show that dispersal across a metapopulation can overcome them. Constraints are also lessened, though not eliminated, when plastic responses are free to evolve gradually and in concert with increased reliability. Each of these factors can be viewed as a form of bet-hedging: by less...
All organisms are faced with environmental uncertainty. Bet-hedging theory expects unpredictable sel...
Ecological species can spread their extinction risk in an uncertain environment by adopting a bet-he...
In ecology, species can mitigate their extinction risks in uncertain environments by diversifying in...
Genotypes can persist in unpredictable environments by ‘hedging their bets’ and producing diverse ph...
Adaptive phenotypic plasticity evolves when cues reliably predict fitness consequences of life-histo...
Adaptive responses to autocorrelated environmental fluctuations through evolution in mean reaction n...
Children vary in the extent to which their development is shaped by particular experiences (e.g. mal...
Children vary in the extent to which their development is shaped by particular experiences (e.g. mal...
In order to understand how organisms cope with ongoing changes in environmental variability, it is n...
Decision-making under uncertain conditions favors bet-hedging (avoidance of fitness variance), where...
Understanding how organisms adapt to environmental variation is a key challenge of biology. Central ...
Genotypes that hedge their bets can be favored by selection in an unpredictably varying environment....
All organisms are faced with environmental uncertainty. Bet-hedging theory expects unpredictable sel...
Ecological species can spread their extinction risk in an uncertain environment by adopting a bet-he...
In ecology, species can mitigate their extinction risks in uncertain environments by diversifying in...
Genotypes can persist in unpredictable environments by ‘hedging their bets’ and producing diverse ph...
Adaptive phenotypic plasticity evolves when cues reliably predict fitness consequences of life-histo...
Adaptive responses to autocorrelated environmental fluctuations through evolution in mean reaction n...
Children vary in the extent to which their development is shaped by particular experiences (e.g. mal...
Children vary in the extent to which their development is shaped by particular experiences (e.g. mal...
In order to understand how organisms cope with ongoing changes in environmental variability, it is n...
Decision-making under uncertain conditions favors bet-hedging (avoidance of fitness variance), where...
Understanding how organisms adapt to environmental variation is a key challenge of biology. Central ...
Genotypes that hedge their bets can be favored by selection in an unpredictably varying environment....
All organisms are faced with environmental uncertainty. Bet-hedging theory expects unpredictable sel...
Ecological species can spread their extinction risk in an uncertain environment by adopting a bet-he...
In ecology, species can mitigate their extinction risks in uncertain environments by diversifying in...