Active dispersal is driven by extrinsic and intrinsic factors at the three stages of departure, transfer and settlement. Most empirical studies capture only one stage of this complex process, and knowledge of how much can be generalized from one stage to another remains unknown. Here we use genetic assignment tests to reconstruct dispersal across 5 years and 232 habitat patches of a Glanville fritillary butterfly (Melitaea cinxia) metapopulation. We link individual dispersal events to weather, landscape structure, size and quality of habitat patches, and individual genotype to identify the factors that influence the three stages of dispersal and post-settlement survival. We found that nearly all tested factors strongly affected departure pr...
Habitat fragmentation is expected to impose strong selective pressures on dispersal rates. However, ...
Dispersal is important for determining both a species ecological processes, such as population viabi...
Dispersal is important for determining both a species ecological processes, such as population viabi...
Active dispersal is driven by extrinsic and intrinsic factors at the three stages of departure, tran...
Dispersal, i.e. movements potentially leading to gene flow, is central in evolutionary ecology. Many...
There is now clear evidence that species across a broad range of taxa harbour extensive heritable va...
There is now clear evidence that species across a broad range of taxa harbor extensive heritable var...
Dispersal has recently gained much attention because of its crucial role in the conservation and evo...
Dispersal is a key ecological process linking metapopulation dynamics in the landscape to distributi...
Several factors might influence an organism’s tendency or willingness to leave a given patch. One su...
Dispersal is important for determining both species ecological processes, such as population viabili...
As dispersal plays a key role in gene flow among populations, its evolutionary dynamics under enviro...
Habitat fragmentation is expected to impose strong selective pressures on dispersal rates. However, ...
Dispersal is important for determining both a species ecological processes, such as population viabi...
Dispersal is important for determining both a species ecological processes, such as population viabi...
Active dispersal is driven by extrinsic and intrinsic factors at the three stages of departure, tran...
Dispersal, i.e. movements potentially leading to gene flow, is central in evolutionary ecology. Many...
There is now clear evidence that species across a broad range of taxa harbour extensive heritable va...
There is now clear evidence that species across a broad range of taxa harbor extensive heritable var...
Dispersal has recently gained much attention because of its crucial role in the conservation and evo...
Dispersal is a key ecological process linking metapopulation dynamics in the landscape to distributi...
Several factors might influence an organism’s tendency or willingness to leave a given patch. One su...
Dispersal is important for determining both species ecological processes, such as population viabili...
As dispersal plays a key role in gene flow among populations, its evolutionary dynamics under enviro...
Habitat fragmentation is expected to impose strong selective pressures on dispersal rates. However, ...
Dispersal is important for determining both a species ecological processes, such as population viabi...
Dispersal is important for determining both a species ecological processes, such as population viabi...