Mutualists may play an important role in invasion success. The ability to take advantage of novel mutualists or survive and reproduce despite a lack of mutualists may facilitate invasion by those individuals with such traits. Here, we used two greenhouse studies to examine how soil microbial communities in general and mutualistic rhizobia in particular affect the performance of a legume species (Medicago polymorpha) that has invaded five continents. We performed two plant growth experiments with Medicago polymorpha, inoculating them with soil slurries in one experiment or rhizobial cultures in another experiment. For both experiments, we compared the growth of Medicago in competition with conspecific or heterospecific plants and examined va...
The majority of terrestrial plants form mutualistic associations with arbuscular mycorrhizal fungi (...
Microbial symbionts exhibit broad genotypic variation in their fitness effects on hosts, leaving hos...
Species invading new habitats experience novel selection pressures that can lead to rapid evolution,...
Mutualists may play an important role in invasion success. The ability to take advantage of novel mu...
Mutualistic interactions can strongly influence species invasions, as the inability to form successf...
Biotic resistance to invasion arises from strong species interactions that decrease the fitness and ...
1.Mutualistic interactions, such as the relationship between legumes and rhizobia, can affect commun...
The performance of introduced plants can be limited by the availability of soil mutualists outside t...
Genetic variation for partner quality in mutualisms is an evolutionary paradox. One possible resolut...
Soil microbiota can either slow down or facilitate plant invasions through their effects on plant pe...
Herbivores, competitors, and predators can inhibit biological invasions ("biotic resistance" sensu E...
Species interactions play a critical role in biological invasions. For example, exotic plant and mic...
Efficient host control predicts the extirpation of ineffective symbionts, but they are nonetheless w...
Invasive plants negatively impact native communities by altering ecosystem processes and reducing sp...
The availability and quality of mutualists beyond a species' range edge may limit range expansion. W...
The majority of terrestrial plants form mutualistic associations with arbuscular mycorrhizal fungi (...
Microbial symbionts exhibit broad genotypic variation in their fitness effects on hosts, leaving hos...
Species invading new habitats experience novel selection pressures that can lead to rapid evolution,...
Mutualists may play an important role in invasion success. The ability to take advantage of novel mu...
Mutualistic interactions can strongly influence species invasions, as the inability to form successf...
Biotic resistance to invasion arises from strong species interactions that decrease the fitness and ...
1.Mutualistic interactions, such as the relationship between legumes and rhizobia, can affect commun...
The performance of introduced plants can be limited by the availability of soil mutualists outside t...
Genetic variation for partner quality in mutualisms is an evolutionary paradox. One possible resolut...
Soil microbiota can either slow down or facilitate plant invasions through their effects on plant pe...
Herbivores, competitors, and predators can inhibit biological invasions ("biotic resistance" sensu E...
Species interactions play a critical role in biological invasions. For example, exotic plant and mic...
Efficient host control predicts the extirpation of ineffective symbionts, but they are nonetheless w...
Invasive plants negatively impact native communities by altering ecosystem processes and reducing sp...
The availability and quality of mutualists beyond a species' range edge may limit range expansion. W...
The majority of terrestrial plants form mutualistic associations with arbuscular mycorrhizal fungi (...
Microbial symbionts exhibit broad genotypic variation in their fitness effects on hosts, leaving hos...
Species invading new habitats experience novel selection pressures that can lead to rapid evolution,...