AI Article Synopsis
- Visual systems help animals spot predators, prey, and mates by detecting motion, especially when they themselves are stationary.
- When animals move, it becomes trickier to identify other moving objects because their own motion creates a confusing visual flow.
- The study found that live flies freeze in response to objects moving towards them (regressive motion) but ignore those moving away (progressive motion), suggesting a broader pattern that might apply to other moving animals.
Article Abstract
An important role of visual systems is to detect nearby predators, prey, and potential mates, which may be distinguished in part by their motion. When an animal is at rest, an object moving in any direction may easily be detected by motion-sensitive visual circuits. During locomotion, however, this strategy is compromised because the observer must detect a moving object within the pattern of optic flow created by its own motion through the stationary background. However, objects that move creating back-to-front (regressive) motion may be unambiguously distinguished from stationary objects because forward locomotion creates only front-to-back (progressive) optic flow. Thus, moving animals should exhibit an enhanced sensitivity to regressively moving objects. We explicitly tested this hypothesis by constructing a simple fly-sized robot that was programmed to interact with a real fly. Our measurements indicate that whereas walking female flies freeze in response to a regressively moving object, they ignore a progressively moving one. Regressive motion salience also explains observations of behaviors exhibited by pairs of walking flies. Because the assumptions underlying the regressive motion salience hypothesis are general, we suspect that the behavior we have observed in Drosophila may be widespread among eyed, motile organisms.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4638419 | PMC |
| http://dx.doi.org/10.1016/j.cub.2012.05.024 | DOI Listing |
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