Both theory and experimental evolution studies predict migration to influence the outcome of antagonistic coevolution between hosts and their parasites, with higher migration rates leading to increased diversity and evolutionary potential. Migration rates are expected to vary in spatially structured natural pathosystems, yet how spatial structure generates variation in coevolutionary trajectories across populations occupying the same landscape has not been tested. Here, we studied the effect of spatial connectivity on host evolutionary potential in a natural pathosystem characterized by a stable Plantago lanceolata host network and a highly dynamic Podosphaera plantaginis parasite metapopulation. We designed a large inoculation experiment t...
Theory predicts that hosts and pathogens will evolve higher resistance and aggressiveness in systems...
Predicting the emergence, spread and evolution of parasites within and among host populations requir...
International audienceThere is growing theoretical evidence that spatial structure can affect the ec...
Both theory and experimental evolution studies predict migration to influence the outcome of antagon...
While the negative effects that pathogens have on their hosts are well-documented in humans and agri...
Theory indicates that spatial scale and habitat configuration are fundamental for coevolutionary dyn...
Understanding how variation in hosts, parasites, and the environment shapes patterns of disease is k...
Ecological dynamics can produce a variety of striking patterns. On ecological time scales, pattern f...
Natural, agricultural and human populations are structured, with a proportion of interactions occurr...
The extent and speed at which pathogens adapt to host resistance varies considerably. This presents ...
The inherently variable nature of epidemics renders predictions of when and where infection is expec...
Theory predicts that hosts and pathogens will evolve higher resistance and aggressiveness in systems...
Predicting the emergence, spread and evolution of parasites within and among host populations requir...
International audienceThere is growing theoretical evidence that spatial structure can affect the ec...
Both theory and experimental evolution studies predict migration to influence the outcome of antagon...
While the negative effects that pathogens have on their hosts are well-documented in humans and agri...
Theory indicates that spatial scale and habitat configuration are fundamental for coevolutionary dyn...
Understanding how variation in hosts, parasites, and the environment shapes patterns of disease is k...
Ecological dynamics can produce a variety of striking patterns. On ecological time scales, pattern f...
Natural, agricultural and human populations are structured, with a proportion of interactions occurr...
The extent and speed at which pathogens adapt to host resistance varies considerably. This presents ...
The inherently variable nature of epidemics renders predictions of when and where infection is expec...
Theory predicts that hosts and pathogens will evolve higher resistance and aggressiveness in systems...
Predicting the emergence, spread and evolution of parasites within and among host populations requir...
International audienceThere is growing theoretical evidence that spatial structure can affect the ec...