Black widows are notorious for their toxic bite and their red hourglass-shaped mark on the female’s underside.
The red warns would-be predators such as birds to stay away, unless they want their next meal to be their last.
But how do black widows broadcast their built-in chemical weapons to birds, without blowing their cover with their insect prey? Researchers say it has to do with the differences in how birds and insects see color.
To investigate it, scientists placed plastic 3D-printed spiders on bird feeders to see how birds would respond.
The template for the spider mannequins came from a 3D image of a black widow designed for video game developers. “Video game developers love to put black widows in their games because they’re scary,” says Nicholas Brandley, a former PhD student at Duke University who is now a visiting assistant professor at Colorado College.
Birds were three times less likely to peck or grab a spider model with a red hourglass than one without.
Half of the eight fake spiders were painted all black, and half were painted black with a red hourglass to match the reflectance of real black widows. The spider models were placed one at a time, belly-up, at seven backyard bird feeders in Durham, North Carolina.
Models with a red hourglass were less attractive to birds looking for a snack. Birds were three times less likely to peck or grab a spider model with a red hourglass than one without, the researchers found.
Small, short-beaked birds such as house finches and chickadees were more easily spooked. “The birds would see a spider model with red markings and get startled and jump back, like ‘Oh no man, get me out of here,’” says Brandley, lead author of the study published in Behavioral Ecology.
Next they estimated how the specific red and black hues used by black widows appear to birds compared to how they might be seen by insects such as crickets, beetles, and ants, which black widows catch in their sticky webs.
Insects and birds are sensitive to different wavelengths of light. Bird eyes have a photoreceptor for long wavelengths of light that that most insects lack.
“Insects can still detect red light, but not as well as mammals or birds,” Brandley says.
The researchers used an instrument called a spectroradiometer to objectively measure the wavelengths reflected by two of the three black widow species found in North America. Then they calculated how much of that light the photoreceptors in the eyes of birds and insects would be able to absorb.
The researchers discovered that black widows’ warning colors are more visible to birds than insects. The color contrast is more than two times greater for birds, Brandley says.
The researchers suspected that differences in viewing angle play a role, too. Black widows usually hang underneath their horizontal webs with their bellies facing the sky. This puts their red hourglass in full view of birds flying overhead but partially hidden from insects crawling below.
To test the idea, the researchers did an experiment where they let two species of North American black widows build webs in 20-inch-tall cages in the lab over the course of three days. The species that preferred to build its web furthest from the ground—thus visible to birds hunting from above or below—also happens to be the only North American black widow with red marks on its back in addition to its belly, they found.
Most studies of animal warning colors focus on how well they deter potential predators, but far fewer have examined whether the same signals help their bearers avoid detection by parasites, prey, or competitors, the researchers say.
“Potential eavesdroppers may be an underappreciated force shaping these signals,” Brandley says.
Matthew Johnson and Sönke Johnsen of Duke were also authors on this study.
Source: Duke University
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