Giant reptiles that ruled dinosaur-era seas might have been warm-blooded, a new study says. Researchers found that ancient ocean predators possibly regulated their body temperatures, which allowed for aggressive hunting, deep diving, and fast swimming over long distances. "These marine reptiles were able to maintain a high body temperature independently of the water temperature where they lived, from tropical to cold-temperate oceanic domains," said study co-author Christophe Lécuyer, a paleontologist at Université Claude Bernand Lyon 1 in France.
The prehistoric reptiles may have had body temperatures as high as 95 to 102 degrees Fahrenheit (35 to 39 degrees Celsius)—comparable to those of modern dolphins and whales, Lécuyer noted.
(...) Since the modern oceans' top predators—such as tuna and swordfish—are to some degree warm-blooded, this made the team wonder if ancient marine reptiles might have been, too, Lécuyer said. Tuna and swordfish are homeothermic, or capable of keeping their body temperatures relatively constant, despite changing environmental temperatures. The predators are also partially endothermic, which means they can generate and retain enough heat to raise their body temperatures to high but stable levels.
Most animals thought of as warm-blooded, including mammals and birds, are also both homeothermic and endothermic.
(...) While dinosaurs dominated land during the Mesozoic period (251 million to 65 million years ago), three kinds of large swimming reptiles reigned in the seas—the dolphin-like ichthyosaurs, the serpentine mosasaurs, and the Loch Ness monster-like plesiosaurs.
By studying fossil teeth of fish that would have lived alongside these creatures, Lécuyer and colleagues were able to determine the teeth's oxygen isotopes, or atomic structures. The levels of oxygen isotopes in teeth reflect those of the blood, which in turn reflect animals' body temperatures. The team compared these results with oxygen-isotope compositions in modern-day fish that live in a variety of hot and cold environments. Since most modern fish are cold-blooded, this data helped the team figure out the ocean temperatures of the ancient species' habitat. Then the researchers compared oxygen-isotope data from the fossilized fish teeth with those seen in fossil-reptile teeth from the same areas.
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