Many animal signals have introductory components that alert receivers. Examples from the acoustic and visual domains show that this effect is often achieved with high intensity, a simple structure and a short duration. Quantitative analyses of the Jacky dragon Amphibolurus muricatus visual display reveal a different design: the introductory tail-flick has a lower velocity than subsequent components of the signal, but a longer duration. Here, using a series of video playback experiments with a digitally animated tail, we identify the properties responsible for signal efficacy. We began by validating the use of the computer-generated tail, comparing the responses to digital video footage of a lizard tail-flick with those to a precisely matche...
Signal evolution is constrained by sensory properties. Recent work demonstrates that the design of b...
The syntactical structure of communicative signals inherently elicits social interaction between con...
Sensory exploitation occurs when signals address biases in the nervous system of potential receivers...
Many animals signals have introductory components that alert receivers. Examples from the acoustic a...
Design characteristics of signals, such as their duration, may have evolved to maximize signal effic...
The Jacky dragon (Amphibolurus muricatus) visual display comprises five distinct-motor patterns deli...
Visual systems are typically selective in their response to movement. This attribute facilitates the...
Selection for conspicuousness has been an important force on visual signal design. Although signal e...
Many animals signal their resource holding potential (RHP) to deter competitors from engaging them i...
Honest signals allow animals to assess an opponent without the injury risk of fighting. Playback exp...
The efficacy of any animal signal is constrained by the range over which it remains above the sensor...
Many animals signal their resource holding potential (RHP) to deter competitors from engaging them i...
Identifying perceptual thresholds is critical for understanding the mechanisms that underlie signal ...
The structure of animal signals reflects selection to modify the behaviour of others. To convey info...
Signal evolution is constrained by sensory properties. Recent work demonstrates that the design of b...
Signal evolution is constrained by sensory properties. Recent work demonstrates that the design of b...
The syntactical structure of communicative signals inherently elicits social interaction between con...
Sensory exploitation occurs when signals address biases in the nervous system of potential receivers...
Many animals signals have introductory components that alert receivers. Examples from the acoustic a...
Design characteristics of signals, such as their duration, may have evolved to maximize signal effic...
The Jacky dragon (Amphibolurus muricatus) visual display comprises five distinct-motor patterns deli...
Visual systems are typically selective in their response to movement. This attribute facilitates the...
Selection for conspicuousness has been an important force on visual signal design. Although signal e...
Many animals signal their resource holding potential (RHP) to deter competitors from engaging them i...
Honest signals allow animals to assess an opponent without the injury risk of fighting. Playback exp...
The efficacy of any animal signal is constrained by the range over which it remains above the sensor...
Many animals signal their resource holding potential (RHP) to deter competitors from engaging them i...
Identifying perceptual thresholds is critical for understanding the mechanisms that underlie signal ...
The structure of animal signals reflects selection to modify the behaviour of others. To convey info...
Signal evolution is constrained by sensory properties. Recent work demonstrates that the design of b...
Signal evolution is constrained by sensory properties. Recent work demonstrates that the design of b...
The syntactical structure of communicative signals inherently elicits social interaction between con...
Sensory exploitation occurs when signals address biases in the nervous system of potential receivers...