Species invading new habitats experience novel selection pressures that can lead to rapid evolution, which may contribute to invasion success and/or increased impact on native community members. Many studies have hypothesized that plants in the introduced range will be larger than those in the native range, leading to increases in competitive ability. There is mixed support for evolution of larger sizes in the introduced range, but few studies have explicitly tested whether evolutionary changes result in decreased competitive responses or increased competitive effects on other species in the community. Here we show that introduced Medicago polymorpha genotypes produced 14% more aboveground and 41% more belowground biomass than genotypes fro...
Ecologists have had limited success in understanding which introduced species may become invasive. A...
The invasion success of introduced plants is frequently explained as a result of competitive interac...
1. Invasive alien plants, together with organisms introduced for biological control, are ideal study...
Species invading new habitats experience novel selection pressures that can lead to rapid evolution,...
Species invading new habitats experience novel selection pressures that can lead to rapid evolution,...
The Enemy Release Hypothesis posits that invasion of novel habitats can be facilitated by the absenc...
1.A long‐standing explanation for invasion success is that invasive plants could evolve to be more c...
Biotic resistance to invasion arises from strong species interactions that decrease the fitness and ...
Mutualists may play an important role in invasion success. The ability to take advantage of novel mu...
1. The evolution of increased competitive ability (EICA) hypothesis predicts that release from speci...
The success of invasive plants has often been attributed to their rapid evolution at the introduced ...
1. The evolution of increased competitive ability (EICA) hypothesis proposes that release from enemy...
Herbivores, competitors, and predators can inhibit biological invasions ("biotic resistance" sensu E...
Invasive plant species threaten biological communities globally. However, relatively little is known...
Ecologists have had limited success in understanding which introduced species may become invasive. A...
The invasion success of introduced plants is frequently explained as a result of competitive interac...
1. Invasive alien plants, together with organisms introduced for biological control, are ideal study...
Species invading new habitats experience novel selection pressures that can lead to rapid evolution,...
Species invading new habitats experience novel selection pressures that can lead to rapid evolution,...
The Enemy Release Hypothesis posits that invasion of novel habitats can be facilitated by the absenc...
1.A long‐standing explanation for invasion success is that invasive plants could evolve to be more c...
Biotic resistance to invasion arises from strong species interactions that decrease the fitness and ...
Mutualists may play an important role in invasion success. The ability to take advantage of novel mu...
1. The evolution of increased competitive ability (EICA) hypothesis predicts that release from speci...
The success of invasive plants has often been attributed to their rapid evolution at the introduced ...
1. The evolution of increased competitive ability (EICA) hypothesis proposes that release from enemy...
Herbivores, competitors, and predators can inhibit biological invasions ("biotic resistance" sensu E...
Invasive plant species threaten biological communities globally. However, relatively little is known...
Ecologists have had limited success in understanding which introduced species may become invasive. A...
The invasion success of introduced plants is frequently explained as a result of competitive interac...
1. Invasive alien plants, together with organisms introduced for biological control, are ideal study...