Mutualism is ubiquitous in nature and plays an integral role in most communities. To predict the eco-evolutionary dynamics of mutualism it is critical to extend classic pair-wise analysis to include additional species. We investigated the effect of adding a third species to a pair-wise mutualism in a spatially structured environment. We tested the hypotheses that selection for costly excretions in a focal population (i) decreases when an exploiter is added (ii) increases when a third mutualist is added relative to the pair-wise scenario. We assayed the selection acting on Salmonella enterica when it exchanges methionine for carbon in an obligate mutualism with an auxotrophic Escherichia coli. A third bacterium, Methylobacterium extorquens, ...
Mutualisms are essential for life, yet it is unclear how they arise. A two-stage process has been pr...
The theory of species coexistence is a key concept in ecology that has received much attention. The ...
Anthropogenic changes can influence mutualism evolution; however, the genomic regions underpinning m...
Mutualism is ubiquitous in nature and plays an integral role in most communities. To predict the eco...
Mutualisms, cooperative partnerships between species, are among the most prevalent and economically ...
Conflict and cooperation between bacterial species drive the composition and function of microbial c...
Cooperative mutualisms are widespread and play fundamental roles in many ecosystems. Given that thes...
Many models of mutualisms show that mutualisms are unstable if hosts lack mechanisms enabling prefer...
A fundamental goal in ecology and evolutionary biology has been to understand how microevolutionary ...
Species interactions can play a major role in shaping evolution in new environments. In theory, spec...
Microbial interactions abound in natural ecosystems and shape community structure and function. Subs...
Thesis (Ph.D.)--University of Washington, 2018Microbial communities are ubiquitous and perform funct...
Mutualisms are essential for life, yet it is unclear how they arise. A two-stage process has been pr...
The theory of species coexistence is a key concept in ecology that has received much attention. The ...
Anthropogenic changes can influence mutualism evolution; however, the genomic regions underpinning m...
Mutualism is ubiquitous in nature and plays an integral role in most communities. To predict the eco...
Mutualisms, cooperative partnerships between species, are among the most prevalent and economically ...
Conflict and cooperation between bacterial species drive the composition and function of microbial c...
Cooperative mutualisms are widespread and play fundamental roles in many ecosystems. Given that thes...
Many models of mutualisms show that mutualisms are unstable if hosts lack mechanisms enabling prefer...
A fundamental goal in ecology and evolutionary biology has been to understand how microevolutionary ...
Species interactions can play a major role in shaping evolution in new environments. In theory, spec...
Microbial interactions abound in natural ecosystems and shape community structure and function. Subs...
Thesis (Ph.D.)--University of Washington, 2018Microbial communities are ubiquitous and perform funct...
Mutualisms are essential for life, yet it is unclear how they arise. A two-stage process has been pr...
The theory of species coexistence is a key concept in ecology that has received much attention. The ...
Anthropogenic changes can influence mutualism evolution; however, the genomic regions underpinning m...