Add to ORKGTree-dwelling mammals are potentially highly vulnerable to discontinuities in habitat created by roads. We used population modeling to assess the viability of a metapopulation of Australia’s largest gliding marsupial, the greater glider (Petauroides volans), occurring in forest remnants in the fastest-urbanizing region of Australia, where habitat is dissected by major roads. Crossing structures for arboreal mammals (consisting of a land bridge with wooden poles for gliding and adjacent rope canopy bridges) have been installed over an arterial road that separates two of these remnants (one large, one small). It is currently unknown whether this species will use the crossing structures, but available tree height and spacing do not allow a gli...
We investigated the use of inexpensive aerial bridges (rope canopy bridges) above roads and a highwa...
Millions of dollars are spent on wildlife crossing structures intended to reduce the barrier effects...
Gliding mammals may be susceptible to habitat fragmentation due to increased vulnerability to predat...
Tree-dwelling mammals are potentially highly vulnerable to discontinuities in habitat created by roa...
Context: Urbanisation is recognised as a primary cause of biodiversity loss. Roads are an inherent e...
An understanding of the ecological effects of roads and related traffic in highly fragmented landsca...
Roads and traffic reduce landscape connectivity and increase rates of mortality for many species of ...
Tree-dwelling mammals may be vulnerable to road mortality if forced to cross canopy gaps on the grou...
The network of highways, freeways, and other major roads in Australia and around the world continues...
The mahogany glider (Petaurus gracilis) is one of the most threatened arboreal mammals in Australia....
Gliding mammals are sensitive to habitat fragmentation that produces canopy gaps beyond their glidin...
Wildlife crossing structures are commonly used to mitigate the barrier and mortality impacts of road...
Context Wildlife crossing structures are installed to mitigate the impacts of roads on animal popula...
Artificial linear structures can cause habitat fragmentation by restricting movements of animals and...
Habitat corridors that facilitate functional connectivity are a fundamental component of wildlife co...
We investigated the use of inexpensive aerial bridges (rope canopy bridges) above roads and a highwa...
Millions of dollars are spent on wildlife crossing structures intended to reduce the barrier effects...
Gliding mammals may be susceptible to habitat fragmentation due to increased vulnerability to predat...
Tree-dwelling mammals are potentially highly vulnerable to discontinuities in habitat created by roa...
Context: Urbanisation is recognised as a primary cause of biodiversity loss. Roads are an inherent e...
An understanding of the ecological effects of roads and related traffic in highly fragmented landsca...
Roads and traffic reduce landscape connectivity and increase rates of mortality for many species of ...
Tree-dwelling mammals may be vulnerable to road mortality if forced to cross canopy gaps on the grou...
The network of highways, freeways, and other major roads in Australia and around the world continues...
The mahogany glider (Petaurus gracilis) is one of the most threatened arboreal mammals in Australia....
Gliding mammals are sensitive to habitat fragmentation that produces canopy gaps beyond their glidin...
Wildlife crossing structures are commonly used to mitigate the barrier and mortality impacts of road...
Context Wildlife crossing structures are installed to mitigate the impacts of roads on animal popula...
Artificial linear structures can cause habitat fragmentation by restricting movements of animals and...
Habitat corridors that facilitate functional connectivity are a fundamental component of wildlife co...
We investigated the use of inexpensive aerial bridges (rope canopy bridges) above roads and a highwa...
Millions of dollars are spent on wildlife crossing structures intended to reduce the barrier effects...
Gliding mammals may be susceptible to habitat fragmentation due to increased vulnerability to predat...