Add to ORKGWe investigate harvest-induced adaptive changes in age and size at maturation by modeling both plastic variation and evolutionary trajectories. Harvesting mature individuals displaces the reaction norm for age and size at maturation toward older ages and larger sizes and rotates it clockwise, whereas harvesting immature individuals has the reverse qualitative effect. If both immature and mature individuals are harvested, the net effect has generally the same trend as when harvesting immature individuals only. This stems from the sensitivity of the evolutionary response that depends on the maturity state of harvested individuals, but also on the type of harvest mortality (negatively or positively density-dependent, density-independent) and t...
Fishing is very likely to create selective pressures inducing adaptive changes in the life histories...
Today, fishing is the dominant source of mortality in most commercially exploited fish stocks. Life...
Phenotypic plasticity is predicted to evolve in more variable environments, conferring an advantage ...
We investigate harvest-induced adaptive changes in age and size at maturation by modelling both plas...
Models and experiments of the evolution of age/ or size-at-maturation in response to population harv...
The potential of harvesting to induce adaptive changes in exploited populations is now increasingly ...
Maturation age and size have important fitness consequences through their effects on survival probab...
There are concerns that anthropogenic harvesting may cause phenotypic adaptive changes in exploited ...
In many organisms survival depends on body size. We investigate the implications of such size-select...
There is increasing evidence that the environment experienced early in life can strongly influence a...
Mortality caused by harvesting can select for life history changes in the harvested stock. Should th...
We use an individual-based eco-genetic model to examine the demographic and evolutionary consequence...
Models and experiments of the evolution of age/ or size-at-maturation in response to population harv...
We study the evolution of age-at-maturity in a semelparous life history with two age-classes. An ind...
Understanding the consequences of environmental change on ecological and evolutionary dynamics is in...
Fishing is very likely to create selective pressures inducing adaptive changes in the life histories...
Today, fishing is the dominant source of mortality in most commercially exploited fish stocks. Life...
Phenotypic plasticity is predicted to evolve in more variable environments, conferring an advantage ...
We investigate harvest-induced adaptive changes in age and size at maturation by modelling both plas...
Models and experiments of the evolution of age/ or size-at-maturation in response to population harv...
The potential of harvesting to induce adaptive changes in exploited populations is now increasingly ...
Maturation age and size have important fitness consequences through their effects on survival probab...
There are concerns that anthropogenic harvesting may cause phenotypic adaptive changes in exploited ...
In many organisms survival depends on body size. We investigate the implications of such size-select...
There is increasing evidence that the environment experienced early in life can strongly influence a...
Mortality caused by harvesting can select for life history changes in the harvested stock. Should th...
We use an individual-based eco-genetic model to examine the demographic and evolutionary consequence...
Models and experiments of the evolution of age/ or size-at-maturation in response to population harv...
We study the evolution of age-at-maturity in a semelparous life history with two age-classes. An ind...
Understanding the consequences of environmental change on ecological and evolutionary dynamics is in...
Fishing is very likely to create selective pressures inducing adaptive changes in the life histories...
Today, fishing is the dominant source of mortality in most commercially exploited fish stocks. Life...
Phenotypic plasticity is predicted to evolve in more variable environments, conferring an advantage ...