Human introduction of nonindigenous species constitutes a serious threat to many ecosystems, particularly lakes. Recent attempts to predict invasions have focused on the supply of propagules of nonindigenous species to recipient ecosystems from source populations. Here we develop a spatially explicit “gravity” model to test this concept for Bythotrephes longimanus, a crustacean waterflea from Eurasia that is rapidly invading lakes in Ontario, Canada. The gravity model predicted spread of Bythotrephes based upon seven identified risk factors (e.g., use of contaminated fishing or boat anchor line) that may allow dispersal of either live individuals or their resting eggs from invaded to noninvaded lakes, as well as based on the spatial arrange...
A thorough assessment of aquatic nonindigenous species’ risk facilitates successful monitoring and p...
The spiny cladoceran (Bythotrephes longimanus) is an invasive, predaceous zooplankter that is expand...
The Laurentian Great Lakes have an extensive history of species introductions, many of which occurre...
Human introduction of nonindigenous species constitutes a serious threat to many ecosystems, particu...
A leading conceptual model of the invasion process suggests that nonindigenous species (NIS) must pa...
The ability to predict spatially explicit dispersal by non-indigenous species is a difficult but inc...
This study employed a doubly-constrained gravity model to track the dispersal, and hence assess the ...
Abstract We built a family of hierarchical risk models for the spread of invasions by the spiny wate...
Biological invaders can have dramatic effects on the environment and the economy. To most effectivel...
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...
Efficient management and prevention of species invasions requires accurate prediction of where speci...
Predicting dispersal of nonindigenous species (NIS) is an essential component of risk analysis and m...
Estimating the risk associated with species and pathogen movements involves considerable uncertainty...
Estimating the probability of establishment of non-indigenous species is a crucial element in managi...
A thorough assessment of aquatic nonindigenous species’ risk facilitates successful monitoring and p...
The spiny cladoceran (Bythotrephes longimanus) is an invasive, predaceous zooplankter that is expand...
The Laurentian Great Lakes have an extensive history of species introductions, many of which occurre...
Human introduction of nonindigenous species constitutes a serious threat to many ecosystems, particu...
A leading conceptual model of the invasion process suggests that nonindigenous species (NIS) must pa...
The ability to predict spatially explicit dispersal by non-indigenous species is a difficult but inc...
This study employed a doubly-constrained gravity model to track the dispersal, and hence assess the ...
Abstract We built a family of hierarchical risk models for the spread of invasions by the spiny wate...
Biological invaders can have dramatic effects on the environment and the economy. To most effectivel...
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...
Efficient management and prevention of species invasions requires accurate prediction of where speci...
Predicting dispersal of nonindigenous species (NIS) is an essential component of risk analysis and m...
Estimating the risk associated with species and pathogen movements involves considerable uncertainty...
Estimating the probability of establishment of non-indigenous species is a crucial element in managi...
A thorough assessment of aquatic nonindigenous species’ risk facilitates successful monitoring and p...
The spiny cladoceran (Bythotrephes longimanus) is an invasive, predaceous zooplankter that is expand...
The Laurentian Great Lakes have an extensive history of species introductions, many of which occurre...