University of Minnesota Ph.D. dissertation. September 2015. Major: Ecology, Evolution and Behavior. Advisor: Antony Dean. 1 computer file (PDF); vii, 83 pages.Temporally variable environments are the norm rather than the exception in nature. Yet, the ecological consequences of this variability and the evolutionary responses it invokes remain poorly understood. In this thesis, a previously proposed theory of competitive coexistence was further developed that yielded a nonconventional prediction: fluctuating environments can support stable coexistence of competitors even in the absence of negative frequency-dependent selection. It was confirmed by laboratory competition using bacteria. After generalization of the theory by simulation, an al...
Selection forces that favor different phenotypes in different environments can change frequencies of...
This thesis provides a framework for describing a canonical evolutionary system. Populations of indi...
Ecology can strongly influence evolution. To fully understand the evolutionary history of a species,...
Evolution can be understood as an optimization mechanism on the fitness function, which is defined a...
Typically, systems biology focuses on the form and function of networks of biochemical interactions....
In environments that vary frequently and unpredictably, bet-hedgers can overtake the population. Div...
Natural environments are never constant but subject to spatial and temporal change on all scales, in...
Variability is inherently an important characteristic of natural ecosystems. Like any other paramete...
Evolution by natural selection is commonly described as ‘survival of the fittest,’ and this at first...
The environment changes constantly at various time scales and, in order to survive, species need to ...
Trophic interactions are an enduring framework for ecological thought. Broad and growing evidence fo...
In an era of rapid climate change, there is a pressing need to understand how organisms will cope wi...
University of Minnesota Ph.D. dissertation.August 2017. Major: Ecology, Evolution and Behavior. Adv...
Evolution via natural selection requires standing variation in a population while simultaneously dim...
Density-dependent habitat selection shapes the distribution and abundance of organisms and thus inf...
Selection forces that favor different phenotypes in different environments can change frequencies of...
This thesis provides a framework for describing a canonical evolutionary system. Populations of indi...
Ecology can strongly influence evolution. To fully understand the evolutionary history of a species,...
Evolution can be understood as an optimization mechanism on the fitness function, which is defined a...
Typically, systems biology focuses on the form and function of networks of biochemical interactions....
In environments that vary frequently and unpredictably, bet-hedgers can overtake the population. Div...
Natural environments are never constant but subject to spatial and temporal change on all scales, in...
Variability is inherently an important characteristic of natural ecosystems. Like any other paramete...
Evolution by natural selection is commonly described as ‘survival of the fittest,’ and this at first...
The environment changes constantly at various time scales and, in order to survive, species need to ...
Trophic interactions are an enduring framework for ecological thought. Broad and growing evidence fo...
In an era of rapid climate change, there is a pressing need to understand how organisms will cope wi...
University of Minnesota Ph.D. dissertation.August 2017. Major: Ecology, Evolution and Behavior. Adv...
Evolution via natural selection requires standing variation in a population while simultaneously dim...
Density-dependent habitat selection shapes the distribution and abundance of organisms and thus inf...
Selection forces that favor different phenotypes in different environments can change frequencies of...
This thesis provides a framework for describing a canonical evolutionary system. Populations of indi...
Ecology can strongly influence evolution. To fully understand the evolutionary history of a species,...