Great White

Since the first sharks evolved over 400 million years ago, ways of life in the sea have changed very little. As a result, many of today’s sharks are much like their ancient ancestors.  Modern sharks, such as the Great White Shark, can tell us a great deal about sharks that have been extinct for millions of years.

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Mankind is fascinated with sharks, especially man eaters like the Great White Shark. Known by scientists as Carcharodon carcharias, the Great White Shark has been swimming in Earth’s oceans since the end of the era of its gigantic, extinct cousin Megalodon. Though the great white shark’s teeth are smaller than megalodon teeth, they are no less deadly. Sharply serrated like a steak knife, Great White Shark Teeth can slice through flesh and bone like butter.

The White Shark is a member of the family Lamnidae, which includes three genera: Carcharodon, Isurus, and Lamna. In Oligocene deposits about 30 million years old, teeth have been found that are very similar to those of the White Shark but lack the serrations that characterize the genus Carcharodon. Since the extant mako sharks of the genus Isurus have teeth that are always smooth-edged, these fossils have traditionally been classified as Isurus hastalis. Miocene deposits, about 23 million years old, in Italy have yielded very similar teeth, but with faint serrations near the tip of the blade. These teeth were classified as Isurus escheri, and were regarded as ‘proof’ that the modern saw-toothed great white evolved gradually from smooth-toothed mako sharks of the genus Isurus.

But nature is often subtler than human ideas about how it ‘works’. Paleoichthyologist Henri Cappetta, one of the most distinguished researchers on fossil sharks, noticed that fossil teeth of ‘Isurus’ hastalis are very similar to those of the modern White Shark. In fact, Cappetta has remarked that the two are so similar that fossil Carcharodon carcharias teeth in which the serrations have been abraded away by geological activity are virtually impossible to differentiate from specimens of hastalis. In 1995, paleoichthyologist Mikael Siverson began to question the assignment of hastalis to the genus Isurus. Based on striking similarities between the root shape and overall structure of the tooth blade, Siverson now believes that hastalis and escheri are not makos at all, but direct ancestors of the modern White Shark. Siverson has therefore suggested that they should be re-assigned to the genus Cosmopolitodus. This view has also been adopted by paleontologist David Ward and seems to be gaining acceptance in at least some paleontological and fossil collecting circles.

The assumption that saw-toothed Carcharodon evolved from smooth-toothed Isurus is based on the idea that the appearance of serrations coincides with the origin of the genus Carcharodon. But it’s relatively easy to serrate a tooth, as shown by many clearly separate shark lineages which have independently evolved serrated teeth. A newer interpretation of the lamnoid fossil record holds that the Carcharodon lineage was originally smooth-toothed and is actually older than that of Isurus. According to this scenario, the Carcharodon lineage can be traced back to the smooth-toothed Isurolamna inflata, which lived about 65 to 55 million years ago. I. inflata gave rise to Macrorhizodus praecursor, which lived about 55 million years ago and had smooth edged but broader teeth than its ancestor. Praecursor gave rise to Cosmopolitodus hastalis, which lived about 35 million years ago and developed even braoder teeth. Hastalis, in turn, gave rise to Cosmopolitodus escheri, which lived about 25 to 20 million years ago and had weak serrations on its teeth. And finally, escheri gave rise to the modern White Shark, Carcharodon carcharias, which appeared some 11 million years ago and had the coarsely serrated teeth for which the genus is renowned today. Therefore, Carcharodon and Isurus both descended from Isurolamna inflata and many smooth-edged fossil teeth originally named Isurus are in fact part of the Carcharodon lineage.


Possible evolutionary sequence of the modern White Shark (Carcharodon carcharias)

Morphological studies of modern lamnids by systematist Leonard J.V. Compagno and others provide another source of evidence useful for tracing the group’s evolutionary history. Such studies not only support that Isurus derived from Carcharodon, but also suggest that Carcharodon derived from Lamna. Intriguing new evidence from molecular genetics fully supports this evolutionary hypothesis. It is not yet clear from the fossil record which lamnoid was the common ancestor of Lamna, Carcharodon, and Isurus. Some paleontological circles suspect the best candidate may be Isurolamna inflata or a similar as-yet undiscovered species. Other circles favor a species called Cretolamna appendiculata, known from fossil teeth dating from the late Cretaceous to the mid-Paleocene (about 100 to 60 million years ago). The teeth of Cretolamna are much more solidly built than those of any modern lamnid. But Cretolamna teeth resemble those of Lamna in being smooth-edged with well-developed basal cusplets (small secondary cusps on either side of the main blade). In addition to being a possible ancestor of the mighty great white, Cretolamna almost certainly gave rise to one of the most fearsome predators the ocean has ever produced, the giant-toothed shark known as Megalodon.