The toothiest prehistoric predators also had beefier arm bones, according to results of a study published recently in the journal Paleobiology.
Saber-toothed tigers may come to mind, but these extinct cats weren't the only animals with fearsome fangs.
Take the false saber-toothed cats -- also known as nimravids -- and their catlike cousins, a family of carnivores called the barbourofelids.
These mammal groups lived millions of years before cats came to be, and had knife-like canines along with well-built arm bones, said Julie Meachen, a paleontologist at the National Science Foundation (NSF) National Evolutionary Synthesis Center (NESCent) in Durham, North Carolina.
This killer combination arose repeatedly in different saber-toothed predators over time, presumably because it gave them an advantage when catching and killing prey, Meachen found.
"This is a nice demonstration that selection usually operates on suites of traits to generate solutions to environmental challenges," said Saran Twombly, program director in NSF's Directorate for Biological Sciences, which funds NESCent.
"In this case, the key to being an efficient predator integrated canines and forelimbs across different groups of felids and led to the development of different combinations of these traits," said Twombly. "It was the combination, rather than any single trait, that allowed a diverse group of organisms to thrive as predators."
The long, thin teeth of saber-toothed cats look formidable, but they're fragile compared with those of felines today.
"Cats now have canines that are short and round in cross-section, so they can withstand forces in all directions," Meachen said.
"That comes in handy for hunting -- their teeth are better able to withstand the stress and strain of struggling prey without breaking."
In contrast, the elongated canines of saber-toothed cats were flattened side-to-side and were more oval, which made them more vulnerable to fracture.
In previous results published in 2010, Meachen reported that the saber-toothed cat Smilodon fatalis had exceptionally thick arm bones when compared with its feline cousins.
"Thick, robust bones are an indicator of forelimb strength," Meachen said.
The results suggest that these animals may have relied on their forelimbs to help catch and kill their prey without fracturing their fangs.
In studying the fossil skeletons of other saber-toothed predators, Meachen had a hunch that the combination of fragile knife-like canines and beefy arm bones might not have been unique to saber-toothed cats.
Earth was once home to a number of toothy carnivores that no longer roam the wilds.
Nimravids were meat-eaters that flourished for almost 35 million years, from about 42 to 7 million years ago, alongside another group of extinct predators, the barbourofelids, which lived from 17 to 9 million years ago, when they died out.
"If you saw one of these animals you'd probably think it was a cat, but true cats didn't evolve until millions of years later," Meachen said.
The animals left no living descendants, but thanks to fossilized bones scientists know that their upper canines came in a wide range of shapes and sizes.
Some species had canines that were short and round; others were long, flattened and more oval. Some were serrated "like a steak knife," Meachen said.
To find out if saber-toothed predators with longer, thinner teeth and delicate dentition generally had thicker forelimbs, Meachen measured the fossilized arm bones and upper canines of hundreds of museum specimens of extinct cats, nimravids and barbourofelids that once roamed North America.
She also measured the teeth and arm bones of 13 cat species living today -- such as the tiger and the clouded leopard -- all of which have conical teeth.
When she compared the dimensions of the teeth to those of the arms, she found that each group of animals gradually converged on the same solution--the longer the teeth, the thicker the forelimbs.
The results held up even after taking into account that larger species generally have bigger bones.
She attributes the striking similarities among the species to convergent evolution.
"The same correlated sets of traits arose repeatedly through time," Meachen said.
Read more at Science Daily
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