Sharp claws helped ancient seals conquer the oceans
Hocking
If you’ve ever seen seals frolicking in the water, you know they're agile swimmers, with perfectly adapted paddle-like limbs. But if you think those flippers are just for swimming, then think again.
In a study published in Royal Society Open Science, we took a fresh look at how one group of seals – the northern true seals, including grey and harbour seals – use their forelimbs to process and eat their prey. This behaviour is rare among living marine mammals, and shows how ancient seals evolved to feed in water.
What’s in a flipper?
Seals are best-known for having long, streamlined forelimb flippers, much like those of a dolphin.
Flippers and fins are great for steering and swimming, and independently evolved in many aquatic vertebrates: fish, seals, whales, dolphins, turtles, and extinct marine reptiles such as plesiosaurs and ichthyosaurs.
But northern seals are an exception. Rather than wing-like, their hands are short, with mobile fingers that end in large protruding claws.
Instead of flippers, they really have paws – more like a dog than a dolphin. The question is: why?
The clawed seals of the north
The answer has to do with how these animals eat. When watching how northern seals feed, both in captivity and in the wild, we found that they don’t just take a bite out of their catch.
Claws in the deep
The use of claws to process prey harks back to the ancient past, and tells us how ancient seals switched from feeding on land to hunting in water.
Seals originally descended from a land-dwelling predator, distantly related to bears and wolverines.
Early seals probably first took to the water in pursuit of food, where they would have faced the challenge of stopping slippery prey from floating away.
Clues as to how they mastered this task are provided by Enaliarctos, an ancestral seal that lived more than 20 million years ago along the ancient shores of northwest America.
Like the living northern seals, Enaliarctos had long claws and flexible finger joints, suggesting that it would have been able to grasp prey during feeding. But unlike living seals, Enaliarctos also had sharp cutting teeth similar to those found in its meat-eating, land-dwelling cousins.
To use these teeth effectively, Enaliarctos needed to place food carefully in its mouth. This is a difficult task when floating in water, but holding onto prey with its hands would certainly have helped. Perhaps Enaliarctos even still brought its quarry ashore, much like living river otters.
Later seals lost the sharp cutting teeth of Enaliarctos, but retained the ability to grasp prey.
This gradual transition helped to smooth the switch from feeding on land to hunting underwater. Rather than changing all at once, the behaviour and anatomy of early seals changed gradually, remaining effective at each step along the way.
Clawed forelimbs: a relic of the ancient past or useful modern adaptation?
Given the importance of clawed forelimbs to ancient seals, why are northern true seals the only ones that still use them?
The answer, partly, is simply because they could. Unlike their close relatives, the fur seals and sea lions, northern seals primarily swim with their hind limbs. Their paws thus remained free to perform other tasks, and simply kept doing what they always had done.
For years, scientists have noted carcasses of harbour porpoises and various seals with peculiar spiral injuries. The true nature and cause of these wounds was revealed only recently.
Grey seals prey on other marine mammals, using their paws and claws in the process. Somewhat shockingly, they even fed on members of their own kind.
Their claws connect northern seals with their ancient past, and help us understand how their ancestors conquered the ocean. Cases like the grey seals also show that claws are not just an evolutionary hangover. Instead, they remain a key tool, allowing northern seals to exploit niches not – or perhaps no longer – available to most of their kin.
This article originally appeared on The Conversation.
About the Authors
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David hocking
Senior Curator of Vertebrate Zoology and Palaeontology, Tasmanian Museum and Art Gallery; former postdoctoral fellow, Monash University
David is a Research Fellow at Monash and Museum Victoria, studying the evolution of foraging behaviour in aquatic mammals.
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