Add to ORKGOrganisms can learn by individual experience to recognize relevant stimuli in the environment or they can genetically inherit this ability from their parents. Here, we ask how these two modes of acquisition affect signal evolution, focusing in particular on the exaggeration and cost of signals. We argue first, that faster learning by individual receivers cannot be a driving force for the evolution of exaggerated and costly signals unless signal senders are related or the same receiver and sender meet repeatedly. We argue instead that biases in receivers’ recognition mechanisms can promote the evolution of costly exaggeration in signals. We provide support for this hypothesis by simulating coevolution between senders and receivers, using art...
It has been suggested that the evolution of signals must be a wasteful process for the signaller, ai...
The genetic assimilation of learned behaviour was introduced to the wider evolutionary computation f...
SummaryInformation transfer plays a central role in the biology of most organisms, particularly soci...
Visual signals, used for communication both within and between species, vary immensely in the forms ...
Many aspects of behaviour depend on recognition, but accurate recognition is difficult because the t...
Organisms sometimes appear to use extravagant traits, or “handicaps”, to signal their quality to an ...
As any other biological trait, communication can be studied under at least four perspectives: mechan...
The evolution of communication requires the co-evolution of two abilities: the ability of sending us...
Recently, simple neural network models have been used to explain the evolution of important phenomen...
Animals use signals to coordinate a wide range of behaviours, from feeding offspring to predator avo...
The importance of receiver biases in shaping the evolution of many signalling systems is widely ackn...
Communication is an indispensable component of animal societies, yet many open questions remain rega...
The handicap principle has been the overarching framework to explain the evolution and maintenance o...
The interaction between phenotypic plasticity, e.g. learning, and evolution is an important topic bo...
The interaction between phenotypic plasticity, e.g. learning, and evolution is an important topic bo...
It has been suggested that the evolution of signals must be a wasteful process for the signaller, ai...
The genetic assimilation of learned behaviour was introduced to the wider evolutionary computation f...
SummaryInformation transfer plays a central role in the biology of most organisms, particularly soci...
Visual signals, used for communication both within and between species, vary immensely in the forms ...
Many aspects of behaviour depend on recognition, but accurate recognition is difficult because the t...
Organisms sometimes appear to use extravagant traits, or “handicaps”, to signal their quality to an ...
As any other biological trait, communication can be studied under at least four perspectives: mechan...
The evolution of communication requires the co-evolution of two abilities: the ability of sending us...
Recently, simple neural network models have been used to explain the evolution of important phenomen...
Animals use signals to coordinate a wide range of behaviours, from feeding offspring to predator avo...
The importance of receiver biases in shaping the evolution of many signalling systems is widely ackn...
Communication is an indispensable component of animal societies, yet many open questions remain rega...
The handicap principle has been the overarching framework to explain the evolution and maintenance o...
The interaction between phenotypic plasticity, e.g. learning, and evolution is an important topic bo...
The interaction between phenotypic plasticity, e.g. learning, and evolution is an important topic bo...
It has been suggested that the evolution of signals must be a wasteful process for the signaller, ai...
The genetic assimilation of learned behaviour was introduced to the wider evolutionary computation f...
SummaryInformation transfer plays a central role in the biology of most organisms, particularly soci...