Add to ORKGCane toads are native to warm humid landscapes of the Americas, but since its introduction to Australia, the rapid geographic spread has exposed toads to climatic conditions well outside those of the native range, with many Australian sites hotter and seasonally drier than those in which the species evolved. I investigated the impacts of temperature and hydration on aspects of dispersal behaviour and physiological traits of toads, to clarify the ways in which toads may have changed as a result of encountering novel environments within their invaded range, by comparing populations within the native range (Brazil) to ones introduced to Hawai’i and Australia. When stimulated to run at high or low temperatures, or when dehydrated, Australian t...
Biological invasions can stimulate rapid shifts in organismal performance, via both plasticity and a...
As an invasive organism spreads into a novel environment, it may encounter strong selective pressure...
Human activities are changing habitats and climates, and causing species' ranges to shift. Range ex...
Phenotypic evolution in the invasive cane toad (Rhinella marina): adaptations for dispersal Abstrac...
Understanding which traits drive the success of invasive species is vital to mitigate their impacts....
Plasticity or evolution in behavioural responses are key attributes of successful animal invasions. ...
Invasive species provide a robust opportunity to evaluate how animals deal with novel environmental ...
Many invasive species have evolved behavioural and morphological characteristics that facilitate the...
The process of biological invasion exposes a species to novel pressures, in terms of both the enviro...
Species introduced by human activities can alter the normal functioning of ecosystems promoting nega...
Biological invasions often involve rapid modification of phenotypic traits, presumably in response t...
The process of biological invasion exposes a species to novel pressures, in terms of both the enviro...
In invasive species, geographically variable evolutionary and ecological pressures can cause the rap...
Temperature has pervasive effects on physiological processes and is critical in setting species dist...
Biological invasions can stimulate rapid shifts in organismal performance, via both plasticity and a...
As an invasive organism spreads into a novel environment, it may encounter strong selective pressure...
Human activities are changing habitats and climates, and causing species' ranges to shift. Range ex...
Phenotypic evolution in the invasive cane toad (Rhinella marina): adaptations for dispersal Abstrac...
Understanding which traits drive the success of invasive species is vital to mitigate their impacts....
Plasticity or evolution in behavioural responses are key attributes of successful animal invasions. ...
Invasive species provide a robust opportunity to evaluate how animals deal with novel environmental ...
Many invasive species have evolved behavioural and morphological characteristics that facilitate the...
The process of biological invasion exposes a species to novel pressures, in terms of both the enviro...
Species introduced by human activities can alter the normal functioning of ecosystems promoting nega...
Biological invasions often involve rapid modification of phenotypic traits, presumably in response t...
The process of biological invasion exposes a species to novel pressures, in terms of both the enviro...
In invasive species, geographically variable evolutionary and ecological pressures can cause the rap...
Temperature has pervasive effects on physiological processes and is critical in setting species dist...
Biological invasions can stimulate rapid shifts in organismal performance, via both plasticity and a...
As an invasive organism spreads into a novel environment, it may encounter strong selective pressure...
Human activities are changing habitats and climates, and causing species' ranges to shift. Range ex...