Add to ORKGHypothesis: In parasites that use hosts for offspring development, adults may base oviposition decisions on a range of host traits related either to host quality or the co-evolutionary relationship between parasite and host. We examined whether host quality or co-evolutionary dynamics drive the use of hosts in the bitterling-mussel relationship. Organisms: Six species of bitterling fish (Acheilognathinae) and eight species of freshwater mussels (Unionidae, Corbiculidae) that are used by bitterling for oviposition. Site of experiments: Experimental tanks in Wuhan, China, at the site of the natural distribution of the studied species. Methods: Three experiments that controlled for host accessibility and interspecific interactions were conduct...
Freshwater mussels in the order Unionoida exhibit two outstanding attributes. Although only one of n...
Bitterling fishes and unionid mussels are involved in a two-sided co-evolutionary association. On th...
Understanding the limiting factors of the reproduction process in host-affiliate relationships is a ...
Host–parasite relationships are often characterized by the rapid evolution of parasite adaptations t...
Evidence of host specificity and congruence between phylogenies of bitterling and freshwater mussels...
Bitterling fishes deposit their eggs on the gills of living mussels using a long ovipositor. We exam...
1. The survival of affiliate (dependent) species in a changing environment is determined by the inte...
Coevolutionary relationships between parasites and hosts can elevate the rate of evolutionary change...
Interspecific symbiotic relationships involve a complex network of interactions, and understanding t...
Coevolutionary relationships between parasites and hosts can elevate the rate of evolutionary change...
A contemporary outcome of dynamic host-parasite coevolution can be driven by the adaptation of a par...
The impact of multiple invading species can be magnified due to mutual facilitation, termed “invasio...
Generalist parasites have the capacity to infect multiple hosts. The temporal pattern of host specif...
Bitterling fishes and unionid mussels are involved in a two-sided co-evolutionary association. On th...
Freshwater mussels in the order Unionoida exhibit two outstanding attributes. Although only one of n...
Bitterling fishes and unionid mussels are involved in a two-sided co-evolutionary association. On th...
Understanding the limiting factors of the reproduction process in host-affiliate relationships is a ...
Host–parasite relationships are often characterized by the rapid evolution of parasite adaptations t...
Evidence of host specificity and congruence between phylogenies of bitterling and freshwater mussels...
Bitterling fishes deposit their eggs on the gills of living mussels using a long ovipositor. We exam...
1. The survival of affiliate (dependent) species in a changing environment is determined by the inte...
Coevolutionary relationships between parasites and hosts can elevate the rate of evolutionary change...
Interspecific symbiotic relationships involve a complex network of interactions, and understanding t...
Coevolutionary relationships between parasites and hosts can elevate the rate of evolutionary change...
A contemporary outcome of dynamic host-parasite coevolution can be driven by the adaptation of a par...
The impact of multiple invading species can be magnified due to mutual facilitation, termed “invasio...
Generalist parasites have the capacity to infect multiple hosts. The temporal pattern of host specif...
Bitterling fishes and unionid mussels are involved in a two-sided co-evolutionary association. On th...
Freshwater mussels in the order Unionoida exhibit two outstanding attributes. Although only one of n...
Bitterling fishes and unionid mussels are involved in a two-sided co-evolutionary association. On th...
Understanding the limiting factors of the reproduction process in host-affiliate relationships is a ...