Social interactions are thought to be a critical driver in the evolution of cognitive ability. Cooperative interactions, such as pair bonding, rather than competitive interactions have been largely implicated in the evolution of increased cognition. This is despite competition traditionally being a very strong driver of trait evolution. Males of many species track changes in their social environment and alter their reproductive strategies in response to anticipated levels of competition. We predict this to be cognitively challenging. Using a Drosophila melanogaster model, we are able to distinguish between the effects of a competitive environment versus generic social contact by exposing flies to same-sex same-species competition versus dif...
Sexual selection is responsible for the evolution of male ornaments and armaments, but its role in t...
Background: Animals can exhibit remarkable reproductive plasticity in response to their social surr...
To resolve the mechanisms that switch competition to cooperation is key to understanding biological ...
Social interactions are thought to be a critical driver in the evolution of cognitive ability. Coope...
The social environment provides males with information about the likelihood of reproductive competit...
0022-0949 (Print) Comparative Study Journal Article Research Support, Non-U.S. Gov'tSocial interacti...
Sexual selection is responsible for the evolution of male ornaments and armaments, but its role in t...
Males of many species use social cues to predict sperm competition and tailor their reproductive str...
Competition for mates is a wide-spread phenomenon affecting individual reproductive success. The abi...
In Drosophila melanogaster, biological rhythms, aggression and mating are modulated by group size an...
Males compete over mating and fertilization, and often harm females in the process. Inclusive fitnes...
Sexual selection frequently promotes the evolution of aggressive behaviours that help males compete ...
In Drosophila melanogaster, natural genetic variation in the foraging gene affects the foraging beha...
International audienceIndividuals of many species, including invertebrates, have been shown to use s...
Competition for mates can be a major source of selection, not just on secondary sexual traits but ac...
Sexual selection is responsible for the evolution of male ornaments and armaments, but its role in t...
Background: Animals can exhibit remarkable reproductive plasticity in response to their social surr...
To resolve the mechanisms that switch competition to cooperation is key to understanding biological ...
Social interactions are thought to be a critical driver in the evolution of cognitive ability. Coope...
The social environment provides males with information about the likelihood of reproductive competit...
0022-0949 (Print) Comparative Study Journal Article Research Support, Non-U.S. Gov'tSocial interacti...
Sexual selection is responsible for the evolution of male ornaments and armaments, but its role in t...
Males of many species use social cues to predict sperm competition and tailor their reproductive str...
Competition for mates is a wide-spread phenomenon affecting individual reproductive success. The abi...
In Drosophila melanogaster, biological rhythms, aggression and mating are modulated by group size an...
Males compete over mating and fertilization, and often harm females in the process. Inclusive fitnes...
Sexual selection frequently promotes the evolution of aggressive behaviours that help males compete ...
In Drosophila melanogaster, natural genetic variation in the foraging gene affects the foraging beha...
International audienceIndividuals of many species, including invertebrates, have been shown to use s...
Competition for mates can be a major source of selection, not just on secondary sexual traits but ac...
Sexual selection is responsible for the evolution of male ornaments and armaments, but its role in t...
Background: Animals can exhibit remarkable reproductive plasticity in response to their social surr...
To resolve the mechanisms that switch competition to cooperation is key to understanding biological ...