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Cockroaches Accumulate Light to See in the Dark

The household pests achieve night vision by pooling light signals over time

Cockroaches could inspire superheroes if they weren't so repulsive. Some species can hold their breath for as long as 40 minutes. Others can survive blasts of strong radiation, subsist on paper and dried glue, or live for weeks without a head. Recently researchers discovered another superpower: the nocturnal creatures can see in near–pitch black by pooling light signals over time, like time-lapse photography.

Physicists at the University of Oulu in Finland—where it is too cold for roaches to live outside of the laboratory—put about 30 American cockroaches through virtual-reality experiments to test their night vision. No, they did not make them wear tiny goggles. Instead they put each roach on a tracking ball surrounded by a spherical screen. Under increasingly dark conditions, the researchers projected images of black-and-white moving stripes onto the screen, triggering a reflex that made the roaches walk toward the stripes.

The scientists also harmlessly inserted a recording microelectrode into one of the roaches' nearly 360-degree compound eyes to record the electric blips triggered in the photoreceptor cells by photons, or particles of light. In conditions equivalent to a moonless night, the roach eye absorbed one photon every 10 seconds.


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Usually such conditions are too dim for vision. “That's an amazingly small amount of photons,” says Matti Weckström, a biophysicist who carried out the experiments. But the roaches could see just fine. Taking into account the size of the experiment's stripes, the optical properties of the roaches' eyes and the amount of photons available, the team concluded that the roach nervous system pools information from its thousands of photoreceptors over time—in effect, accumulating electrical neural signals and using the summation of those signals to see. The team reported its findings last December in the Journal of Experimental Biology.

Only a few other species, including a nocturnal bee and a dung beetle, are known to pool light signals. If researchers could figure out how these insects do it, Weckström says, they might be able to use that insight to improve existing night-vision technologies. The crunchable pest could be a type of hero after all, if not exactly super.

Rachel Nuwer is a freelance science journalist and author who regularly contributes to Scientific American, the New York Times and National Geographic, among other publications. Follow Nuwer on Twitter @RachelNuwer

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Scientific American Magazine Vol 312 Issue 3This article was originally published with the title “Household Pest Sees the Light” in Scientific American Magazine Vol. 312 No. 3 (), p. 20
doi:10.1038/scientificamerican0315-20