Thursday, 12 May 2016

Further evidence found against ancient 'killer walrus' theory


Date: May 9, 2016
Source: University of Otago

A team of scientists using techniques from the field of dentistry is shedding new light on the evolution of walruses, fur seals and sea lions. The researchers have cast further doubt on previous claims that an ancient 'killer walrus' was a marine mammal eater. The multidisciplinary research team analyzed the internal structure of tooth enamel in a fossil walrus from California, Pelagiarctos thomasi, and in teeth of New Zealand fur seals and sea lions.

An Otago-led team of scientists using techniques from the field of dentistry is shedding new light on the evolution of walruses, fur seals and sea lions. The researchers have cast further doubt on previous claims that an ancient "killer walrus" was a marine mammal eater.

In a newly published article in the international journal The Science of Nature the multidisciplinary team of researchers report their analysis of the internal structure of tooth enamel in a fossil walrus from California, Pelagiarctos thomasi, and in teeth of modern pinnipeds the New Zealand fur seal and sea lion.

Study co-author Dr Carolina Loch says this was the first time the enamel ultrastructure of fur seals and sea lions, as well as the extinct walrus Pelagiarctos, was studied using scanning electron microscopy.

"Pelagiarctos was originally thought to have been a "killer walrus" that fed on large prey such as other marine mammals, but we found it has an enamel layer reasonably similar to that of modern New Zealand fur seals and sea lions, which are fish and squid eaters," Dr Loch says.

The enamel structure the researchers identified in Pelagiarctosmeant the walrus was unlikely to be up to crunching through large bones without cracking its teeth -- suggesting that it was a dietary generalist like the modern New Zealand pinnipeds studied, she says.

Dr Loch says the study showed how using techniques and methods commonly employed in dentistry can answer questions with broader implications in the biology and evolution of animal species.

"Features and structures of the enamel layer have long been associated with differences in diet and tooth usage among animals, and can also help in the understanding the relationships among fossil and living species.

"Teeth are not only the focus of modern dentistry, but also valuable tools for biologists, archaeologists and paleontologists," Dr Loch says.


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