Invasion of natural ecosystems by exotic species is a major threat to biodiversity globally. We assessed two alternative (but not exclusive) hypotheses to explain the success of exotic species in urban bushland on low fertility sandstone-derived soils in Sydney, Australia. These were that success of exotic species is promoted by: (1) plant attributes in particular disturbance types; and (2) freedom from herbivores. We tested these at sites subject to different types of disturbance: nutrient and water enrichment (below stormwater outlets), nutrient enrichment (riparian zones of creeks with an urban catchment) and physical disturbance (tracks), and control sites. At each site we estimated percentage cover of all species and surveyed leaves fo...
Invasive exotic plant species often have fewer natural enemies and suffer less damage from herbivore...
Exotic species dominate many communities; however the functional significance of species' biogeograp...
Exotic species are widely assumed to thrive because they lack natural enemies in their new ranges. H...
Understanding the processes underlying the transition from introduction to naturalization and spread...
© 2014 The Authors.Theories to explain the success of alien species often assume that they are inher...
1. In their colonized ranges, exotic plants may be released from some of the herbivores or pathogens...
1. Leaf trait relationships of native and exotic invasive species from a range of habitats were comp...
Biological invasions are a major threat to native ecosystems globally, yet in some landscapes they c...
Invasive species represent one of the most important threats to biodiversity worldwide, with consequ...
Invasive species represent one of the most important threats to biodiversity worldwide, with consequ...
Natural dispersal mechanisms and biogeographical barriers have shaped species\u27 native distributio...
We provide a brief overview of progress in our understanding of introduced plant species. Three main...
Invasive exotic plant species often have fewer natural enemies and suffer less damage from herbivore...
The need to predict potential invasion impact of plant species is important for setting weed-managem...
Exotic species dominate many communities; however the functional significance of species’ biogeograp...
Invasive exotic plant species often have fewer natural enemies and suffer less damage from herbivore...
Exotic species dominate many communities; however the functional significance of species' biogeograp...
Exotic species are widely assumed to thrive because they lack natural enemies in their new ranges. H...
Understanding the processes underlying the transition from introduction to naturalization and spread...
© 2014 The Authors.Theories to explain the success of alien species often assume that they are inher...
1. In their colonized ranges, exotic plants may be released from some of the herbivores or pathogens...
1. Leaf trait relationships of native and exotic invasive species from a range of habitats were comp...
Biological invasions are a major threat to native ecosystems globally, yet in some landscapes they c...
Invasive species represent one of the most important threats to biodiversity worldwide, with consequ...
Invasive species represent one of the most important threats to biodiversity worldwide, with consequ...
Natural dispersal mechanisms and biogeographical barriers have shaped species\u27 native distributio...
We provide a brief overview of progress in our understanding of introduced plant species. Three main...
Invasive exotic plant species often have fewer natural enemies and suffer less damage from herbivore...
The need to predict potential invasion impact of plant species is important for setting weed-managem...
Exotic species dominate many communities; however the functional significance of species’ biogeograp...
Invasive exotic plant species often have fewer natural enemies and suffer less damage from herbivore...
Exotic species dominate many communities; however the functional significance of species' biogeograp...
Exotic species are widely assumed to thrive because they lack natural enemies in their new ranges. H...