Friday, May 15, 2020

Facts About the Ambulocetus Prehistoric Whale

Ambulocetus dates from the early Eocene epoch, about 50 million years ago, when the ancestors of modern whales were literally just dipping their toes into the water: this long, slender, otter-like mammal was built for an amphibious lifestyle, with webbed, padded feet and a narrow, crocodile-like snout. Name: Ambulocetus (Greek for walking whale); pronounced AM-byoo-low-SEE-tussHabitat: Shores of the Indian subcontinentHistorical Epoch: Early Eocene (50 million years ago)Size and Weight: About 10 feet long and 500 poundsDiet:Â  Fish and crustaceansDistinguishing Characteristics: Webbed feet; narrow snout; internal rather than external ears Oddly, an analysis of Ambulocetus fossilized teeth shows that this walking whale thrived in both fresh and saltwater lakes, oceans and rivers, a characteristic shared only with a single modern-day crocodile hailing from Australia (and no identified whales or pinnipeds). Given its slim, unprepossessing appearance--no more than 10 feet long and 500 pounds dripping wet-- how do paleontologists know that Ambulocetus was ancestral to whales? For one thing, the tiny bones in this mammals inner ears were similar to those of modern cetaceans, as was its ability to swallow underwater (an important adaptation given its fish-eating diet) and its whale-like teeth. That, plus the similarity of Ambulocetus to other identified whale ancestors like Pakicetus and Protocetus, pretty much seals the cetacean deal, though creationists and anti-evolutionists will always continue to doubt the missing link status of this walking whale, and its kinship to more recent beasts like the truly enormous Leviathan. One of the odd things about Ambulocetus, and its above-mentioned relatives is that the fossils of these ancestral whales have been discovered in modern-day Pakistan and India, countries otherwise not well known for their abundance of prehistoric megafauna. On the one hand, its possible that whales can trace their ultimate ancestry to the Indian subcontinent; on the other, its also possible that the conditions here were particularly ripe for fossilization and preservation, and early cetaceans had more of a worldwide distribution during the Eocene epoch.

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