Visual signals, used for communication both within and between species, vary immensely in the forms that they take. How is it that all this splendour has evolved in nature? Since it is the receiver’s preferences that cause selective pressures on signals, elucidating the mechanism behind the response of the signal receiver is vital to gain a closer understanding of the evolutionary process. In my thesis I have therefore investigated how receivers, represented by chickens, Gallus gallus domesticus, respond to different stimuli displayed on a peck-sensitive computer screen. According to the receiver bias hypothesis, animals and humans often express biases when responding to certain stimuli. These biases develop as by-products of how the recogn...
Linguists generally agree that language is designed to convey information from signalers to receiver...
Biological communication signals often combine bright and dark colors, such as yellow and black, but...
The elaborate design of animal signals is challenging to explain. In 1991, Guilford and Dawkins publ...
Visual signals, used for communication both within and between species, vary immensely in the forms ...
The importance of receiver biases in shaping the evolution of many signalling systems is widely ackn...
Animal signals-involving combinations of acoustic, chemical, visual, and behavioral cues-are among t...
Many aspects of behaviour depend on recognition, but accurate recognition is difficult because the t...
Organisms can learn by individual experience to recognize relevant stimuli in the environment or the...
Animal color pattern phenotypes evolve rapidly. What influences their evolution? Because color patte...
Animal color pattern phenotypes evolve rapidly. What influences their evolution? Because color patte...
Much of the information in visual signals is encoded in motion, form, and texture. Current knowledge...
We trained chickens to react to an average human female face but not to an average male face (or vic...
Sexual selection, i.e. differential mating success due to contest competition or mate choice, has pr...
Animal communication is studied both by neurobiologists and by evolutionary biologists, but in very ...
Sensory generalization influences animals' responses to novel stimuli. Because color forms a percept...
Linguists generally agree that language is designed to convey information from signalers to receiver...
Biological communication signals often combine bright and dark colors, such as yellow and black, but...
The elaborate design of animal signals is challenging to explain. In 1991, Guilford and Dawkins publ...
Visual signals, used for communication both within and between species, vary immensely in the forms ...
The importance of receiver biases in shaping the evolution of many signalling systems is widely ackn...
Animal signals-involving combinations of acoustic, chemical, visual, and behavioral cues-are among t...
Many aspects of behaviour depend on recognition, but accurate recognition is difficult because the t...
Organisms can learn by individual experience to recognize relevant stimuli in the environment or the...
Animal color pattern phenotypes evolve rapidly. What influences their evolution? Because color patte...
Animal color pattern phenotypes evolve rapidly. What influences their evolution? Because color patte...
Much of the information in visual signals is encoded in motion, form, and texture. Current knowledge...
We trained chickens to react to an average human female face but not to an average male face (or vic...
Sexual selection, i.e. differential mating success due to contest competition or mate choice, has pr...
Animal communication is studied both by neurobiologists and by evolutionary biologists, but in very ...
Sensory generalization influences animals' responses to novel stimuli. Because color forms a percept...
Linguists generally agree that language is designed to convey information from signalers to receiver...
Biological communication signals often combine bright and dark colors, such as yellow and black, but...
The elaborate design of animal signals is challenging to explain. In 1991, Guilford and Dawkins publ...