Pigeons: These Unremarkable Birds Are Remarkably Smart
September 11, 2013
By Dr. Becker
Unlike many people who view pigeons as pervasive flying poop machines, I really love them. Last year, I wrote about a study that proved pigeons are able to learn abstract mathematical rules, and in fact are the only non-humans other than rhesus monkeys with the ability.
Now a newly published study1 by psychologists at the University of Iowa suggests pigeons are “capable of making highly intelligent choices, sometimes with problem-solving skills to match.”
So the next time you’re cursing the constant cooing overhead or stepping gingerly around copious piles of pigeon poo, it might help to remember you’re not dealing with just any old bird. As it turns out, pigeons may be the rocket scientists of the avian world.
Pigeons Ace the 'String Task' Up to 90 Percent of the Time
Edward Wasserman, a professor of experimental psychology at UI, and colleagues gave laboratory pigeons what is known as the “string task,” which is a well-recognized test of basic intelligence. It involves attaching a food treat to one of two strings to judge whether study participants have the smarts to access the treat by pulling on the correct string.
In Wasserman’s experiment, however, the strings and treat bowls (one empty, one full) were virtual – they were on a computer touch screen. The image depicted the bowls at one end of each string, and at the other end were square buttons. The pigeons were placed in front of the screens, and each time they pecked the correct button, the image of the full bowl moved closer, until ultimately they were rewarded with a real food treat.
In many cases, the pigeons appeared to be scanning the length of the string as they looked up at the full bowl and pecked at the correct button.
Researchers concluded the pigeons chose the correct string between 74 and 90 percent of the time using three variations of the task. According to study authors, “These results… demonstrate that pigeons can concurrently contend with a broad range of demanding patterned-string problems, thereby eliminating many alternative interpretations of their behavior.”