Add to ORKGHosts and their parasites are bound up in an intimate and perpetual arms race. Hosts are under selection to develop resistance towards costly parasite infections. A parasite’s fitness in turn rests entirely on it being able to overcom
Coevolutionary interactions, such as those between host and parasite, predator and prey, or plant an...
Background: That pathogens and hosts coevolve is a powerful concept with broad theoretical and appl...
Coevolutionary negative frequency-dependent selection has been hypothesized to maintain genetic vari...
Host populations are under continual selection by parasites due to reduced fitness of infected indiv...
Host-parasite species pairs are known to coevolve, but how multiple parasites coevolve with their ho...
Host populations are under continual selection by parasites due to reduced fitness of infected indiv...
Genetically specific interactions between hosts and parasites can lead to coevolutionary fluctuation...
A crucial factor in the study of coevolution is the specific evolutionary adaptations of a parasite ...
Most models for coevolution of hosts and parasites are based on the assumption that resistance of ho...
Understanding the coevolution of hosts and parasites is a long‐standing goal of evolutionary biology...
Background Host-parasite coevolution can lead to local adaptation of either parasite or host if the...
Parasites can promote diversity by mediating coexistence between a poorer and superior competitor, i...
Coevolution is relationship between two or more species reciprocally affect each other's evolution. ...
This paper examines a mathematical model for the coevolution of parasite virulence and host resistan...
Host-pathogen coevolution increases genetic variation in susceptibility to infectio
Coevolutionary interactions, such as those between host and parasite, predator and prey, or plant an...
Background: That pathogens and hosts coevolve is a powerful concept with broad theoretical and appl...
Coevolutionary negative frequency-dependent selection has been hypothesized to maintain genetic vari...
Host populations are under continual selection by parasites due to reduced fitness of infected indiv...
Host-parasite species pairs are known to coevolve, but how multiple parasites coevolve with their ho...
Host populations are under continual selection by parasites due to reduced fitness of infected indiv...
Genetically specific interactions between hosts and parasites can lead to coevolutionary fluctuation...
A crucial factor in the study of coevolution is the specific evolutionary adaptations of a parasite ...
Most models for coevolution of hosts and parasites are based on the assumption that resistance of ho...
Understanding the coevolution of hosts and parasites is a long‐standing goal of evolutionary biology...
Background Host-parasite coevolution can lead to local adaptation of either parasite or host if the...
Parasites can promote diversity by mediating coexistence between a poorer and superior competitor, i...
Coevolution is relationship between two or more species reciprocally affect each other's evolution. ...
This paper examines a mathematical model for the coevolution of parasite virulence and host resistan...
Host-pathogen coevolution increases genetic variation in susceptibility to infectio
Coevolutionary interactions, such as those between host and parasite, predator and prey, or plant an...
Background: That pathogens and hosts coevolve is a powerful concept with broad theoretical and appl...
Coevolutionary negative frequency-dependent selection has been hypothesized to maintain genetic vari...