In a new 3D modelling study published this week in Science Advances, we show that the giant extinct shark, Otodus megalodon, was a true globetrotting super-predator.
It was capable of covering vast distances in short order, and could eat the largest of modern living super-predators, the killer whale, in five gargantuan bites. It could have swallowed a great white shark whole.
Megalodon was the largest shark that ever lived, and it was around for a long time – from around 23 million to 2.6 million years ago. At one time its range was enormous: its fossilised teeth have been found on every continent except Antarctica. These teeth are not hard to recognise if you come across them, as they can be up to 18 centimetres long.
Just why this formidable predator went extinct remains a mystery. It could have been linked to global cooling, or competition from other predators such as orcas (killer whales). This is just one of many unanswered questions.
One thing we know for sure is that the megalodon was big – but just how big has remained a point of contention among scientists, because previous estimates have been effectively based on just fragmentary remains.
Car-crushing bite force
I’ve long had an interest in megalodon. I published a paper with colleagues back in 2007 wherein we built a computer simulation to predict its bite force.
Our estimate – a car-crushing 18 tonnes – was dependent on the assumed body mass of the animal, so I was delighted when colleagues from overseas asked me to help with an attempt to develop a more accurate model of the whole shark. From there, we could more reliably determine its size.
Previous estimates of the body mass and proportions of megalodon have largely just extrapolated on data from single fossilised vertebrae, which leaves a lot of room for error. Others were based on direct comparison with the living great white shark; however, it’s now pretty clear that the two weren’t closely related.
In our new study, we based our estimates on 3D modelling of the most complete specimen known, represented by a largely intact vertebral column held in a Belgian museum. We quantified its total length, weight, and the size of its gape from the complete digital model.
Lastly, we estimated the megalodon’s cruising speed, the volume of its stomach, its daily energetic demands and the rate at which it likely encountered prey.
We concluded that this particular megalodon was around 16 metres long and weighed in at more than 61 tonnes. This is considerably larger than recent estimates of a mere 48 tonnes.
A whale for breakfast
Based on other isolated fossil vertebrae, it’s likely the largest megalodon grew to 20 metres in length. We further determined that the Belgian specimen’s maximum gape was around 1.8 metres and that its stomach could have held 9.5 cubic metres of food.
This suggests it could have entirely consumed the largest of living killer whales (around 8 metres) in just five bites.
Hypothetically, it could have eaten another iconic super-predator, the Tyrannosaurus rex, in just three bites. As for great white sharks, a megalodon could have swallowed a large one whole.
Our results suggest megalodon could have comfortably cruised at over 5 kilometres per hour. This is much faster than the largest living fish, the filter-feeding whale shark, or even the great white shark, which cruises at around 3 kilometres per hour.
This ocean-spanning super-predator could travel vast distances in short order, increasing prey encounter rates and allowing it to quickly move to take advantage of seasonal changes in prey abundance.
Results from our analysis of energetics suggest that having eaten a big killer whale for breakfast, this megalodon could have travelled around 7,000km before needing to feed again.
In short, our results show that megalodon really was the super-predator it’s been cracked up to be, and more.
No creature, no matter its size, was safe from the jaws of this super shark. Its extinction likely sent tremendous cascading effects through marine environments of the time.
By Stephen Wroe, Associate Professor, University of New England.
This article is republished from The Conversation under a Creative Commons license. Read the original article.
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