Understanding how variation in hosts, parasites, and the environment shapes patterns of disease is key to predicting ecological and evolutionary outcomes of epidemics. Yet in spatially structured populations, variation in host resistance may be spatially confounded with variation in parasite dispersal and environmental factors that affect disease processes. To tease apart these disease drivers, we paired surveys of natural epidemics with experiments manipulating spatial variation in host susceptibility to infection. We mapped epidemics of the wind-dispersed powdery mildew pathogen Podosphaera plantaginis in five populations of its plant host, Plantago lanceolata. At 15 replicate sites within each population, we deployed groups of healthy po...
Variation in individual-level disease transmission is well documented, but the underlying causes of ...
Ecological dynamics can produce a variety of striking patterns. On ecological time scales, pattern f...
1. The relative importance of bottom-up versus top-down control of population dynamics has been the ...
Understanding how variation in hosts, parasites, and the environment shapes patterns of disease is k...
The inherently variable nature of epidemics renders predictions of when and where infection is expec...
The inherently variable nature of epidemics renders predictions of when and where infection is expec...
| openaire: EC/H2020/281517/EU//PATHEVOLThe inherently variable nature of epidemics renders predicti...
The inherently variable nature of epidemics renders predictions of when and where infection is expec...
Many devastating pathogens are passively dispersed, and their epidemics are characterized by variati...
Both theory and experimental evolution studies predict migration to influence the outcome of antagon...
Theory indicates that spatial scale and habitat configuration are fundamental for coevolutionary dyn...
While the negative effects that pathogens have on their hosts are well-documented in humans and agri...
The extent and speed at which pathogens adapt to host resistance varies considerably. This presents ...
Predicting and controlling infectious disease epidemics is a major challenge facing the management o...
Variation in individual-level disease transmission is well documented, but the underlying causes of ...
Ecological dynamics can produce a variety of striking patterns. On ecological time scales, pattern f...
1. The relative importance of bottom-up versus top-down control of population dynamics has been the ...
Understanding how variation in hosts, parasites, and the environment shapes patterns of disease is k...
The inherently variable nature of epidemics renders predictions of when and where infection is expec...
The inherently variable nature of epidemics renders predictions of when and where infection is expec...
| openaire: EC/H2020/281517/EU//PATHEVOLThe inherently variable nature of epidemics renders predicti...
The inherently variable nature of epidemics renders predictions of when and where infection is expec...
Many devastating pathogens are passively dispersed, and their epidemics are characterized by variati...
Both theory and experimental evolution studies predict migration to influence the outcome of antagon...
Theory indicates that spatial scale and habitat configuration are fundamental for coevolutionary dyn...
While the negative effects that pathogens have on their hosts are well-documented in humans and agri...
The extent and speed at which pathogens adapt to host resistance varies considerably. This presents ...
Predicting and controlling infectious disease epidemics is a major challenge facing the management o...
Variation in individual-level disease transmission is well documented, but the underlying causes of ...
Ecological dynamics can produce a variety of striking patterns. On ecological time scales, pattern f...
1. The relative importance of bottom-up versus top-down control of population dynamics has been the ...