Terrestrial plants seeds, spores and pollen are often dispersed by wind. Likewise, most eggs and larvae of marine organisms are dispersed by oceanic currents. It was historically believed that the spatial scale at which dispersal occurs was orders of magnitude smaller for plants than for fish. However, recent empirical estimates of seed and larval dispersal suggest that these dispersal scales are more alike than previously thought. The modeling approaches used to simulate aerial and aquatic dispersal are also converging. Similar biophysical models are developed, in which outputs of Eulerian models simulating the main physical forcing mechanism (wind or currents) are used as inputs to Lagrangian models that include biological components (suc...
Motivated by observational and experimental evidence, a theoretical model is proposed to relate the ...
Plant species around the world invest in seed dispersal by producing large numbers of seeds, with a ...
The exchange of genetic material between seagrass meadows is fundamental to maintaining their geneti...
Terrestrial plants seeds, spores and pollen are often dispersed by wind. Likewise, most eggs and lar...
Larval dispersal is arguably the most important but least understood demographic process in the sea....
Understanding the causes of larval dispersal is a major goal of marine ecology, yet most research fo...
Biophysical models simulate dispersal and connectivity in marine environments by combining numerical...
A Lagrangian stochastic larva tracking model based on a 3-dimensional (3D) high resolution wind-driv...
Pond apple invades riparian and coastal environments with water acting as the main vector for disper...
Abstract. Long-distance seed dispersal is an important topic in ecology, but notoriously difficult t...
We synthesise and update results from the suite of biophysical, larval-dispersal models developed in...
Predicting dispersal and quantifying ecological connectivity are increasingly referenced as fundamen...
Propagule dispersal is fundamental to the colonization of new habitats, metapopulation connectivity,...
Plant species around the world invest in seed dispersal by producing large numbers of seeds, with a ...
Motivated by observational and experimental evidence, a theoretical model is proposed to relate the ...
Plant species around the world invest in seed dispersal by producing large numbers of seeds, with a ...
The exchange of genetic material between seagrass meadows is fundamental to maintaining their geneti...
Terrestrial plants seeds, spores and pollen are often dispersed by wind. Likewise, most eggs and lar...
Larval dispersal is arguably the most important but least understood demographic process in the sea....
Understanding the causes of larval dispersal is a major goal of marine ecology, yet most research fo...
Biophysical models simulate dispersal and connectivity in marine environments by combining numerical...
A Lagrangian stochastic larva tracking model based on a 3-dimensional (3D) high resolution wind-driv...
Pond apple invades riparian and coastal environments with water acting as the main vector for disper...
Abstract. Long-distance seed dispersal is an important topic in ecology, but notoriously difficult t...
We synthesise and update results from the suite of biophysical, larval-dispersal models developed in...
Predicting dispersal and quantifying ecological connectivity are increasingly referenced as fundamen...
Propagule dispersal is fundamental to the colonization of new habitats, metapopulation connectivity,...
Plant species around the world invest in seed dispersal by producing large numbers of seeds, with a ...
Motivated by observational and experimental evidence, a theoretical model is proposed to relate the ...
Plant species around the world invest in seed dispersal by producing large numbers of seeds, with a ...
The exchange of genetic material between seagrass meadows is fundamental to maintaining their geneti...