Consumers face numerous risks that can be minimized by incorporating different life-history strategies. How much and when a consumer adds to its energetic reserves or invests in reproduction are key behavioral and physiological adaptations that structure much of how organisms interact. Here we develop a theoretical framework that explicitly accounts for stochastic fluctuations of an individual consumer's energetic reserves while foraging and reproducing on a landscape with resources that range from uniformly distributed to highly clustered. First, we show that optimal life-history strategies vary in response to changes in the mean productivity of the resource landscape, where depleted environments promote reproduction at lower energetic sta...
The proportion of time an animal spends actively foraging in a day determines its long-term fitness....
This dissertation attempts to identify ecological relationships useful for understanding large-scale...
Most habitats are distributed heterogeneously in space, forcing animals to move according to both ha...
Consumers face numerous risks that can be minimized by incorporating different life-history strategi...
The fundamental constraints governing the flow of energy through consumer-resource systems ultimatel...
SYNOPSIS. Risk-sensitive foraging may occur whenever feeding success has non-linear effects on fitne...
Long-term environmental stochasticity is known to affect the adaptive evolution of life history trai...
International audienceThe interplay between individual adaptive life histories and populations dynam...
Energy flow through consumer-resource interactions is largely determined by body size. Allometric re...
Landscape heterogeneity is a general feature of natural environments, strongly affected by habitat f...
The negative scaling of plant and animal abundance with body mass is one of the most fundamental rel...
Question: How are competing foragers expected to distribute their lifetime foraging effort on a gra...
For species that inhabit environments where resource availability may be unpredictable, balance of r...
We analyze an age-, size- and sex-structured model to investigate how the interplay between individu...
Phenotypic plasticity has important ecological and evolutionary consequences. In particular, behavio...
The proportion of time an animal spends actively foraging in a day determines its long-term fitness....
This dissertation attempts to identify ecological relationships useful for understanding large-scale...
Most habitats are distributed heterogeneously in space, forcing animals to move according to both ha...
Consumers face numerous risks that can be minimized by incorporating different life-history strategi...
The fundamental constraints governing the flow of energy through consumer-resource systems ultimatel...
SYNOPSIS. Risk-sensitive foraging may occur whenever feeding success has non-linear effects on fitne...
Long-term environmental stochasticity is known to affect the adaptive evolution of life history trai...
International audienceThe interplay between individual adaptive life histories and populations dynam...
Energy flow through consumer-resource interactions is largely determined by body size. Allometric re...
Landscape heterogeneity is a general feature of natural environments, strongly affected by habitat f...
The negative scaling of plant and animal abundance with body mass is one of the most fundamental rel...
Question: How are competing foragers expected to distribute their lifetime foraging effort on a gra...
For species that inhabit environments where resource availability may be unpredictable, balance of r...
We analyze an age-, size- and sex-structured model to investigate how the interplay between individu...
Phenotypic plasticity has important ecological and evolutionary consequences. In particular, behavio...
The proportion of time an animal spends actively foraging in a day determines its long-term fitness....
This dissertation attempts to identify ecological relationships useful for understanding large-scale...
Most habitats are distributed heterogeneously in space, forcing animals to move according to both ha...