Selection imposed by coinfection may vary with the mechanism of within-host competition between parasites. Exploitative competition is predicted to favor more virulent parasites, while interference competition may result in lower virulence. Here, we examine whether exploitative or interference competition determines the outcome of competition between two nematode species (Steinernema spp.), which in combination with their bacterial symbionts (Xenorhabdus spp.), infect and kill insect hosts. Multiple isolates of each nematode species, carrying their naturally associated bacteria, were characterized by (1) the rate at which they killed insect hosts, and by (2) the ability of their bacteria to interfere with each other’s growth via bacteriocid...
There is evidence of competition within and between helminth species, but the mechanisms involved ar...
Eukaryotes commonly host communities of heritable symbiotic bacteria, many of which are not essentia...
1. Competition of two species for the same resource is expected to result in competitive exclusion o...
Selection imposed by coinfection may vary with the mechanism of within-host competition between para...
Mutualistic symbionts can provide diverse benefits to their hosts and often supply key trait variati...
Cooperative secretion of virulence factors by pathogens can lead to social conflict when cheating mu...
The coevolution of interacting species can lead to codependent mutualists. Little is known about the...
1. Parasitism and competition are both ubiquitous interactions in ecological communities. The abilit...
Within-host competition between parasites, a consequence of infection by multiple strains, is predic...
Parasites frequently share their host populations with other parasites. However, little is known abo...
Background: Symbioses between invertebrates and prokaryotes are biological systems of particular int...
Species interactions can shift along the parasitism-mutualism continuum. However, the consequences o...
Theory suggests that symbionts can readily evolve more parasitic or mutualistic strategies with resp...
Host manipulation is a common strategy by which parasites alter the behaviour of their host to enhan...
There is evidence of competition within and between helminth species, but the mechanisms involved ar...
Eukaryotes commonly host communities of heritable symbiotic bacteria, many of which are not essentia...
1. Competition of two species for the same resource is expected to result in competitive exclusion o...
Selection imposed by coinfection may vary with the mechanism of within-host competition between para...
Mutualistic symbionts can provide diverse benefits to their hosts and often supply key trait variati...
Cooperative secretion of virulence factors by pathogens can lead to social conflict when cheating mu...
The coevolution of interacting species can lead to codependent mutualists. Little is known about the...
1. Parasitism and competition are both ubiquitous interactions in ecological communities. The abilit...
Within-host competition between parasites, a consequence of infection by multiple strains, is predic...
Parasites frequently share their host populations with other parasites. However, little is known abo...
Background: Symbioses between invertebrates and prokaryotes are biological systems of particular int...
Species interactions can shift along the parasitism-mutualism continuum. However, the consequences o...
Theory suggests that symbionts can readily evolve more parasitic or mutualistic strategies with resp...
Host manipulation is a common strategy by which parasites alter the behaviour of their host to enhan...
There is evidence of competition within and between helminth species, but the mechanisms involved ar...
Eukaryotes commonly host communities of heritable symbiotic bacteria, many of which are not essentia...
1. Competition of two species for the same resource is expected to result in competitive exclusion o...