March 13, 2026 3 min read Add Us On Google Add SciAm Raccoons will solve puzzles just for fun Raccoons might want to break into your trash can even without delicious leftovers inside By Meghan Bartels edited by Andrea Thompson A raccoon interacts with a lock hanging off one side of the multiaccess puzzle box used in the research, one of the most challenging access strategies tested. Hannah Griebling Join Our Community of Science Lovers! Sign Up for Our Free Daily Newsletter Enter your email I agree my information will be processed in accordance with the Scientific American and Springer Nature Limited Privacy Policy . We leverage third party services to both verify and deliver email. By providing your email address, you also consent to having the email address shared with third parties for those purposes. Sign Up For a raccoon, breaking into your garbage might be just as satisfying as cracking a crossword puzzle or a Sudoku is for you, according to new research. These meddlesome “trash pandas” have dexterous paws and considerable brain power that have helped them thrive in a human-dominated world—even showing early signs of domestication —constantly thwarting attempts to keep them from ransacking waste bins for tasty morsels. “Raccoons have very dense brains, and that likely explains their heightened ability to solve problems and to be behaviorally flexible,” says Lauren Stanton, a cognitive ecologist at the University of California, Berkeley. But new research published in Animal Behaviour suggests raccoons will try to solve problems even when they don’t expect a food reward for the work . The scientists describe the behavior as foraging for information, rather than food, in preparation for facing future challenges. On supporting science journalism If you're enjoying this article, consider supporting our award-winning journalism by subscribing . By purchasing a subscription you are helping to ensure the future of impactful stories about the discoveries and ideas shaping our world today. The study relied on what researchers call a multiaccess puzzle box, a clear plastic box that has multiple doors and windows—sometimes equipped with locks and latches of various levels of difficulty—that an animal must opento get at a treat inside. (The scientists let the captive raccoons they were working with pick between marshmallows, sardines and dates dipped in sardine juice as their reward; marshmallows were far and away the most popular choice.) Usually, scientists give the puzzle box, see what solution the animal finds and then give them the box again, this time with the first solution disabled. They want to see if the critter will find a new way to access their treat. In the new study, the researchers turned this formula on its head and gave the raccoons the unmodified (but refilled) box for multiple trials to see what the raccoons did. A raccoon taking part in the experiment solves one of the easy levels of the multiaccess puzzle box researchers tested. The experiments took place at night, when raccoons are most active, and researchers watched their exploits via video footage rather than in person to reduce stress on the animals. Hannah Griebling “Going into it, I was expecting they’ll open one solution, they’ll get the marshmallow out, and then they’ll leave the box alone, and then, when I give it back to them in their next trial with another marshmallow, maybe they’ll open another solution,” says study co-author Hannah Griebling, a Ph.D. candidate in cognitive ecology at the University of British Columbia. But the raccoons went above and beyond, nosing into the alternative solutions practically as soon as they’d nommed their marshmallow, not waiting for a refill. The continued investigations became less common as the solutions to the puzzle box became more complex, but they never fully stopped. Griebling and her colleagues call that continuing work on the puzzle boxes “information foraging”—essentially positing that the raccoons are taking advantage of the opportunity to investigate the additional entry mechanisms in case they run into the same situation in the future. Of course, “we can’t know what they’re thinking; we can only measure their behavior,” Griebling says. But the finding is striking proof that something besides their taste for marshmallows is driving the animals’ continued examination—and that it could be not too different from the kind of curiosity and satisfaction humans experience when problem-solving masquerades as puzzles. “We think there could be some sort of intrinsic motivation for that behavior,” Griebling says. Both Griebling and Stanton note that it would be valuable to repeat the work with wild raccoons, which may be more attuned to the risks of wasting time fiddling around with a lock they can’t figure out how to open.