Tag Archives: smilodon

Saber-tooth cats grew their fangs faster than human fingernails

Saber-tooth cats, the bane of early humans (and pretty much every creature that co-existed with them), roamed the Earth for 42 million years before going extinct at the end of the ice age. Now, a new study has found that their trademark teeth may have evolved later in their evolutionary stage, but when they grew, they grew fast.

Skeleton of Smilodon (Smilodon fatalis). Exhibit in the National Museum of Nature and Science, Tokyo, Japan.

The saber-tooth cats were found worldwide from the Eocene epoch (42 million years ago) to about 11,000 years ago – the earliest human cultures might have actually seen them in action. Despite the “cat” in their name, these animals are not closely related to modern cats, belonging to a different evolutionary tree. The most well known saber-tooth cat is the Smilodon, who emerged 2.5 million years ago and weighed up to 440 kg.

With their incredibly long teeth, they have fascinated us for centuries, and researchers have been striving to understand how, and why these teeth evolved. Now, they are one step closer, after learning that these teeth grew incredibly fast.

“For predators such as big cats, an important determinant of an individual’s full hunting ability is the time required to grow their weapons—their teeth,” explains Z. Jack Tseng, who is a National Science Foundation and Frick Postdoctoral Fellow in the American Museum of Natural History’s Division of Paleontology. The study co-author goes on to say, “This is especially crucial for understanding sabertoothed predators such as [the species] Smilodon.”

The sabers they developed were a remarkable adaptation, and Tseng wanted to see just how long it took for a specimen to grow its teeth. So he and his team conducted chemical analysis on fossils and meticulously analyzed the chemical composition and structure of the sabers. They came up with a stunning results: the saber teeth grew by 6 mm per month – twice as fast as human fingernails!

“Timing of development is critical for many aspects of vertebrate ecology and evolution,” reports New York State Museum Pleistocene vertebrate paleontology curator Robert Feranec and study co-author. “Changes in the timing of life-history events can have major effects on an organism’s adult features and final appearance. For extinct species, we can usually only determine the relative sequence of development events. This technique will permit the determination of absolute developmental age not only for Smilodon, but other extinct species.”

Reconstruction o saber-tooth cat by Marcus Dublin.

So even though they had huge fangs, much longer than those of today’s lions, they didn’t take so much time to grow them. However, when it comes to biting, tooth size isn’t everything. Using computer models, scientists estimated the bite strength that saber cats use and found that it was actually weaker than their gripping force – so it seems likely that they killed their prey by gripping, not biting. However, the long canines were extremely efficient at biting the neck.

Saber tooth cat mostly hunted large, slow prey. The Smilodon for example was an apex predator and primarily hunted large mammals like bison, camels, horses and even mammoths. They were experts at ambushing and used their large mass to disrupt the balance of their prey, making it vulnerable. They would likely still be alive today, if most of their prey hadn’t gone extinct.

The study is published in the journal Proceedings of the National Academy of Sciences.


Saber-toothed Cat [Science ABC]


saber tooth

It is largely believed that the sabre-toothed cat Smilodon is a fierce, strong and very dangerous predator. Along side the Tyrannosaurus rex it is regarded as a nearly flawless killing machine. The upper canines which are built like knives support that theory.

But an Australian study, published recently in the US Proceedings of the National Academy of Science, hopes to lay the arguments to rest. The scientists at the University of New South Wales and University of Newcastle have used a very interesting technique called Finite Element Analysis (FEA) to test the bite force and feeding mechanics of the fearsome predator.

“Skulls are much more complex then most man-made structures, and to apply the technique to a fossil big cat required some tricks engineers usually have to handle,” says the University of Newcastle’s Colin McHenry, lead author on the paper. “Historically there have been a number of interpretations about how Smilodon killed,” says UNSW palaeontologist Dr Steve Wroe. “Early researchers thought it had a weak bite. More recently, people have suggested that the bite was strong.”. The results showed that the Smilodon had a relatively weak bite – about one third as powerful as a lion of similar size. “For all its reputation, Smilodon had a wimpy bite” says Dr Wroe. “It bit like a moggy.”.

So this limits the big toothed fossil cat cat to a very specific range of killing behaviours.

But just the fact that the bite was weak does not mean that it was not a formidable predator.

“Anything but,” says Dr Wroe. “Smilodon was an awesome beast — and what it lacked in bite force it more than made up for elsewhere.”. The body was very powerful and it was made for wrestling with the prey until the weak bite was applied to the neck.Dr Wroe describes the lion as a “better all rounder” in the hunting stakes. Smilodon was massively over-engineered for the purposes of taking small prey, but a ruthlessly efficient hunter of big game.”.

So even with a weaker bite than previously believed, it retains its seat among the most dangerous predators our planet has seen. Even though it is sometimes called the saber-toothed cat, or tiger, it is not related to felines at all. It was on top of the food chain, preying on a wide variety of large game including bison, tapirs, deer,  horses and ground sloths.