Armoured dinosaur used nose to transfer heat
A new study shows that armour-plated dinosaurs (ankylosaurs) had the capacity to modify the temperature of the air they breathed in an exceptional way: by using their long, winding nasal passages as heat transfer devices.
London: A new study shows that armour-plated dinosaurs (ankylosaurs) had the capacity to modify the temperature of the air they breathed in an exceptional way: by using their long, winding nasal passages as heat transfer devices.
Modern mammals and birds use scroll-shaped bones called conchae or turbinates to warm inhaled air.
But ankylosaurs seem to have accomplished the same result with a completely different anatomical construction.
There are two ways that animal noses transfer heat while breathing.
One is to pack a bunch of conchae into the air field, like most mammals and birds do -- it is spatially efficient.
"The other option is to do what lizards and crocodiles do and simply make the nasal airway much longer. Ankylosaurs took the second approach to the extreme," explained paleontologist Jason Bourke from the Ohio University.
Bourke and colleague used CT scans to document the anatomy of nasal passages in two different ankylosaur species.
The team then modelled airflow through 3D reconstructions of these tubes.
Bourke found that the convoluted passageways would have given the inhaled air more time and more surface area to warm up to body temperature by drawing heat away from nearby blood vessels.
As a result, the blood would be cooled, and shunted to the brain to keep its temperature stable.
"By simulating airflow through these noses, we found that these stretched airways were effective heat exchangers. They would have allowed these multi-tonne beasts to keep their multi-ounce brains from overheating," added study co-author Lawrence Witmer.
Like our own noses, ankylosaur noses likely served more than one function.
Even as it was conditioning the air it breathed, the convoluted passageways may have added resonance to the low-pitched sounds the animal uttered, allowing it to be heard over greater distances, researchers concluded.
The paper appeared in the Journal of Vertebrate Paleontology.