Rapidly looming objects are highly salient to most animal visual systems. The sensory processing of such stimuli is now well understood in birds and insects. We conducted the first analogous study in lizards, concentrating on the ecologically realistic challenge posed by an approaching aerial predator. In an initial experiment, video footage of a trained raptor flying towards the camera produced flight responses in Jacky dragons, Amphibolurus muricatus, but control sequences showing a retreating or stationary stimulus were ineffectual. Two additional experiments then explored the processing of motion and of morphological attributes separately. We presented a series of expanding disks, systematically manipulating area/time characteristics to...
Movement-based visual signals are widely distributed among animal species. They are used in a variet...
Territorial animals typically have the ability to discriminate between familiar and unfamiliar consp...
The efficacy of any animal signal is constrained by the range over which it remains above the sensor...
Rapidly looming objects are highly salient to most animal visual systems. The sensory processing of ...
Signal evolution is constrained by sensory properties. Recent work demonstrates that the design of b...
Identifying perceptual thresholds is critical for understanding the mechanisms that underlie signal ...
Signal evolution is constrained by sensory properties. Recent work demonstrates that the design of b...
Selection for conspicuousness has been an important force on visual signal design. Although signal e...
Sensory exploitation occurs when signals address biases in the nervous system of potential receivers...
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 Jacky dragon (Amphibolurus muricatus) visual display comprises five distinct-motor patterns deli...
The sensory systems of animals have evolved to meet the demands of functionally critical events. Ani...
Visual systems are typically selective in their response to movement. This attribute facilitates the...
The structure of animal signals reflects selection to modify the behaviour of others. To convey info...
Movement-based visual signals are widely distributed among animal species. They are used in a variet...
Territorial animals typically have the ability to discriminate between familiar and unfamiliar consp...
The efficacy of any animal signal is constrained by the range over which it remains above the sensor...
Rapidly looming objects are highly salient to most animal visual systems. The sensory processing of ...
Signal evolution is constrained by sensory properties. Recent work demonstrates that the design of b...
Identifying perceptual thresholds is critical for understanding the mechanisms that underlie signal ...
Signal evolution is constrained by sensory properties. Recent work demonstrates that the design of b...
Selection for conspicuousness has been an important force on visual signal design. Although signal e...
Sensory exploitation occurs when signals address biases in the nervous system of potential receivers...
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 Jacky dragon (Amphibolurus muricatus) visual display comprises five distinct-motor patterns deli...
The sensory systems of animals have evolved to meet the demands of functionally critical events. Ani...
Visual systems are typically selective in their response to movement. This attribute facilitates the...
The structure of animal signals reflects selection to modify the behaviour of others. To convey info...
Movement-based visual signals are widely distributed among animal species. They are used in a variet...
Territorial animals typically have the ability to discriminate between familiar and unfamiliar consp...
The efficacy of any animal signal is constrained by the range over which it remains above the sensor...