After all, when birds get cold, we often see them hide their beak in their feathers to stay warm.
Schraft admits that this can seem counterintuitive. Instead, the bill serves as a radiator when it needs to cool down-the equivalent of humans sweating on a hot summer day. “We thought this might be the case because previous research has shown this to be the case in toucans and hornbills, bird species who also have very large bills.”īecause of its feathers, a bird’s body is very well insulated so thermoregulation can’t happen through sweating. “We tried to figure out whether puffins use their impressively large beaks to dump extra body heat when they fly,” says Schraft, now a postdoctoral fellow at Université du Québec à Montréal. We think this also an example of exaptation, which means that an external structure is amplified to serve a new function much in the same way the desert hare’s ears became bigger to help them cool down,” Elliott adds. “Our results support the idea that body heat regulation has played a role in shaping some bird beaks. To illustrate, lead author Hannes Schraft, formerly a doctoral student in the biology department at the University of California, Davis, says that “thick-billed murres (and presumably puffins) produce about as much heat as a light bulb when they are flying.” “The avian bill is a classic example of how evolution shapes morphology.” This produces significant amounts of heat, suggesting that some birds evolved a large bill to help them cool down when they fly, Elliott says. During flight, the thick-billed murre-closely related to the puffin-has an energy expenditure 31 times greater than when resting, the largest ever measured in vertebrates. Puffin bills and desert hare earsīut why would puffins have evolved such a large bill? It could have to do with the energy they use when they fly, says senior author Kyle Elliott, a professor in McGill University’s natural resource sciences department.Įnergetically speaking, flying is very taxing to birds. The beak “accounted for 10-18% of total heat exchange despite making up only 6%” of the bird’s total surface area,” according to the study. Their data showed that within 30 minutes of landing, temperature of the puffin beaks dropped 5☌ (25☌ to 20☌), while the heat radiating from their backs hardly changed. Tufted puffins can regulate their body temperature thanks to their large bills, an evolutionary trait that might explain their capacity to fly for long periods in search of food, researchers report.įor a new study in the Journal of Experimental Biology, the researchers used thermal imaging cameras to measure heat dissipation off the bodies and beaks of wild tufted puffins in the minutes after flying.
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