Stripes for warning and stripes for hiding:spatial frequency and detection distance
| Autor: | Kaitlin Merrison, Innes C. Cuthill, Thomas McPhee, Annabelle S. Redfern, Robert Owen, Nicholas E. Scott-Samuel, Annabel Hopes, Thomas Courty, Thien Ho, James B. Barnett, Robin Bhattacharyya-Dickson, Olivia Clifton |
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| Jazyk: | angličtina |
| Rok vydání: | 2017 |
| Předmět: |
0106 biological sciences
0301 basic medicine Aposematism Biology background matching 010603 evolutionary biology 01 natural sciences coloration 03 medical and health sciences camouflage Computer vision aposematism Ecology Evolution Behavior and Systematics Orientation (computer vision) business.industry detection distance 030104 developmental biology Background matching Camouflage predation Visual Perception Cognitive Science Animal Science and Zoology Spatial frequency Artificial intelligence business |
| Zdroj: | Barnett, J, Redfern, A, Bhattacharyya-Dickson, R, Clifton, O, Courty, T, Ho, T, Hopes, A, McPhee, T, Merrison, K, Owen, R, Scott-Samuel, N & Cuthill, I 2017, ' Stripes for warning and stripes for hiding : spatial frequency and detection distance ', Behavioral Ecology, vol. 28, no. 2, pp. 373-381 . https://doi.org/10.1093/beheco/arw168 |
| Popis: | Striped patterns are common in nature and are used both as warning signals and camouflage. Their effectiveness in either role depends on their color and spatial frequency, and how these compare to the background. Although this general principle is well established, the specific detail of how visual texture influences defensive coloration remains untested in the field. For aposematic patterns, especially, little work has focused on how pattern components, as opposed to color, affect warning signal efficacy. By presenting artificial moth-like stimuli, pinned to tree bark, to wild avian predators, and human observers, we examine how the spatial frequency and orientation of stripes affects the survival and detectability of yellow-and-black (aversive) and olive-and-black (cryptic) patterns. For the cryptic stripes, we find that matching the dominant spatial frequency and orientation of the background increases survival against bird predation and decreases the distance from which humans first detect the target. For aversive stripes, however, survival against birds peaked at spatial frequencies that neither matched the dominant background spatial frequency nor maximized the mismatch between target and background. This peak in survival at intermediate spatial frequencies did not match detectability by humans: there was no difference in the initial detection distance between stripes of different spatial frequencies, although the distance at which stripes could be resolved did differ. We suggest that, although the best cryptic strategy is to match the dominant components of the background as closely as possible, the optimal aposematic signal is one that balances signal distinctiveness and recognition at a distance. |
| Databáze: | OpenAIRE |
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