The inherently variable nature of epidemics renders predictions of when and where infection is expected to occur challenging. Differences in pathogen strain composition, diversity, fitness, and spatial distribution are generally ignored in epidemiological modeling and are rarely studied in natural populations, yet they may be important drivers of epidemic trajectories. To examine how these factors are linked to epidemics in natural host populations, we collected epidemiological and genetic data from 15 populations of the powdery mildew fungus, Podosphaera plantaginis, on Plantago lanceolata in the Åland Islands, Finland. In each population, we tracked spatiotemporal disease progression throughout one epidemic season and coupled our survey o...
While the negative effects that pathogens have on their hosts are well-documented in humans and agri...
The interaction among multiple microbial strains affects the spread of infectious diseases and the e...
Genetic variation in pathogen populations may be an important factor driving heterogeneity in diseas...
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...
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...
Understanding how variation in hosts, parasites, and the environment shapes patterns of disease is k...
Many devastating pathogens are passively dispersed, and their epidemics are characterized by variati...
Predicting and controlling infectious disease epidemics is a major challenge facing the management o...
Both theory and experimental evolution studies predict migration to influence the outcome of antagon...
Co-infections by multiple pathogen strains are common in the wild. Theory predicts co-infections to ...
Infection by multiple pathogens of the same host is ubiquitous in both natural and managed habitats....
Genetic variation in pathogen populations may be an important factor driving heterogeneity in diseas...
The extent and speed at which pathogens adapt to host resistance varies considerably. This presents ...
While the negative effects that pathogens have on their hosts are well-documented in humans and agri...
The interaction among multiple microbial strains affects the spread of infectious diseases and the e...
Genetic variation in pathogen populations may be an important factor driving heterogeneity in diseas...
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...
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...
Understanding how variation in hosts, parasites, and the environment shapes patterns of disease is k...
Many devastating pathogens are passively dispersed, and their epidemics are characterized by variati...
Predicting and controlling infectious disease epidemics is a major challenge facing the management o...
Both theory and experimental evolution studies predict migration to influence the outcome of antagon...
Co-infections by multiple pathogen strains are common in the wild. Theory predicts co-infections to ...
Infection by multiple pathogens of the same host is ubiquitous in both natural and managed habitats....
Genetic variation in pathogen populations may be an important factor driving heterogeneity in diseas...
The extent and speed at which pathogens adapt to host resistance varies considerably. This presents ...
While the negative effects that pathogens have on their hosts are well-documented in humans and agri...
The interaction among multiple microbial strains affects the spread of infectious diseases and the e...
Genetic variation in pathogen populations may be an important factor driving heterogeneity in diseas...