Species interact with the physical world in complex ways, and life-history strategies could cause species to differ in how they experience the connectedness of the same landscape. As a consequence, dispersal limitation might be present but not captured by distance-based measures of connectivity. To test these ideas, we surveyed plant communities that live on discrete patches of serpentine habitat embedded within an invaded nonserpentine habitat matrix. Species in these communities differ in dispersal mode (gravity, animal, or wind); thus we used satellite imagery to quantify landscape features that might differentially influence connectivity for some dispersal- mode groups over others (surface streams, animal paths). Our data yielded two ke...
Habitat loss and fragmentation are leading causes of species declines, driven in part by reduced dis...
International audienceHow connectivity affects plant assemblages is a central issue in landscape eco...
Dispersal is essential for species to survive the threats of habitat destruction and climate change....
Connectivity is classically considered an emergent property of landscapes encapsulating individuals’...
Landscape connectivity can be viewed from two perspectives that could be considered as extremes of a...
Local plant communities can only function within a metacommunity context if they are connected by ap...
A conceptual model of movement ecology has recently been advanced to explain all movement by conside...
International audienceQuestions: How does connectivity affect animal-dispersed plant assemblages in ...
International audienceAims: Landscape fragmentation has strong negative consequences on biodiversity...
Recent theoretical studies suggest that the distribution of species in space has important implicati...
Landscape fragmentation and exotic species invasions are two modern-day forces that have strong and ...
Ecological theory posits that dispersal among habitat patches links local communities and is a key "...
Metacommunity theory predicts that increasing patch size and patch connectivity can alter local spec...
Habitat loss and fragmentation are leading causes of species declines, driven in part by reduced dis...
International audienceHow connectivity affects plant assemblages is a central issue in landscape eco...
Dispersal is essential for species to survive the threats of habitat destruction and climate change....
Connectivity is classically considered an emergent property of landscapes encapsulating individuals’...
Landscape connectivity can be viewed from two perspectives that could be considered as extremes of a...
Local plant communities can only function within a metacommunity context if they are connected by ap...
A conceptual model of movement ecology has recently been advanced to explain all movement by conside...
International audienceQuestions: How does connectivity affect animal-dispersed plant assemblages in ...
International audienceAims: Landscape fragmentation has strong negative consequences on biodiversity...
Recent theoretical studies suggest that the distribution of species in space has important implicati...
Landscape fragmentation and exotic species invasions are two modern-day forces that have strong and ...
Ecological theory posits that dispersal among habitat patches links local communities and is a key "...
Metacommunity theory predicts that increasing patch size and patch connectivity can alter local spec...
Habitat loss and fragmentation are leading causes of species declines, driven in part by reduced dis...
International audienceHow connectivity affects plant assemblages is a central issue in landscape eco...
Dispersal is essential for species to survive the threats of habitat destruction and climate change....