1. Predicting spread of non-indigenous species requires an understanding of where propagules are being transported, and whether these propagules can survive in the novel habitat and successfully integrate into the recipient community. In this study, we model potential spread of invading Cabomba caroliniana in Ontario, Canada, using a combination of passive and active dispersal models coupled with an environmental suitability model, thereby considering the first two stages of the invasion process. 2. Measures of propagule pressure incorporated both human-mediated dispersal via trailered boats, and advective flow from invaded to non-invaded systems, while habitat suitability was forecasted by combining native and global data sets and using bo...
Understanding how invasive species spread is of particular concern in the current era of globalisati...
Biological invaders can have dramatic effects on the environment and the economy. To most effectivel...
Efficient management and prevention of species invasions requires accurate prediction of where speci...
Humans play a major role in the global spread of nonindigenous species (NIS). Predicting spread of N...
Aim Predictions of spread of non-indigenous species allow for greater efficiency in managing invasio...
The ability to predict spatially explicit dispersal by non-indigenous species is a difficult but inc...
Effective monitoring, prevention and impact mitigation of nonindigenous aquatic species relies upon ...
Abstract We built a family of hierarchical risk models for the spread of invasions by the spiny wate...
A leading conceptual model of the invasion process suggests that nonindigenous species (NIS) must pa...
Although the number of invasive bryophytes is much lower than that of higher plants, they threaten h...
Human introduction of nonindigenous species constitutes a serious threat to many ecosystems, particu...
Humans play a critical role in the dispersal of exotic invasive species. Estimating pathways for non...
Cabomba caroliniana is a submersed macrophyte that has become a serious invader. Cabomba predominant...
Invasive species cause substantial economic and ecological harm throughout the world. Species distri...
This study employed a doubly-constrained gravity model to track the dispersal, and hence assess the ...
Understanding how invasive species spread is of particular concern in the current era of globalisati...
Biological invaders can have dramatic effects on the environment and the economy. To most effectivel...
Efficient management and prevention of species invasions requires accurate prediction of where speci...
Humans play a major role in the global spread of nonindigenous species (NIS). Predicting spread of N...
Aim Predictions of spread of non-indigenous species allow for greater efficiency in managing invasio...
The ability to predict spatially explicit dispersal by non-indigenous species is a difficult but inc...
Effective monitoring, prevention and impact mitigation of nonindigenous aquatic species relies upon ...
Abstract We built a family of hierarchical risk models for the spread of invasions by the spiny wate...
A leading conceptual model of the invasion process suggests that nonindigenous species (NIS) must pa...
Although the number of invasive bryophytes is much lower than that of higher plants, they threaten h...
Human introduction of nonindigenous species constitutes a serious threat to many ecosystems, particu...
Humans play a critical role in the dispersal of exotic invasive species. Estimating pathways for non...
Cabomba caroliniana is a submersed macrophyte that has become a serious invader. Cabomba predominant...
Invasive species cause substantial economic and ecological harm throughout the world. Species distri...
This study employed a doubly-constrained gravity model to track the dispersal, and hence assess the ...
Understanding how invasive species spread is of particular concern in the current era of globalisati...
Biological invaders can have dramatic effects on the environment and the economy. To most effectivel...
Efficient management and prevention of species invasions requires accurate prediction of where speci...