Shark Savers - 450 Million Years of Sharks

450 Million Years of Sharks

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450 Million Years of Sharks
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Origin of Modern sharks

Hybodus. Illustration by R. Aidan Martin

Sharks enjoyed another period of adaptive radiation throughout the Jurassic and Cretaceous periods, beginning about 200 million years ago. Modern families of sharks have their roots in this radiation, although no clear lineage has been established. Among the groups of sharks that thrived during this time are the Hybodonts, one of which was an 8 foot shark named Hybodus, that lived in shallow seas 180 million years ago. Hybodonts have been considered a candidate for from which modern sharks are derived, but this is often discounted, now. Another early shark that may have given rise to modern sharks is Mcmurdodus, which had an even earlier start of 390 million years ago.

Most of the early sharks of this period were near-shore predators. By the mid-Cretaceous, about 100 million years ago, many sharks had evolved into fast-swimming, off-shore predators. It is during this period that modern shark families originated. At the end of the Cretaceous, about 65 million years ago, another global catastrophe destroyed a mass number of species, including the dinosaors. The sharks who survived that extinction include the modern sharks of today.

Sixgill, Sevengill and Frilled Sharks

Among the longest existing of modern sharks are the cow sharks (sixgill, sevengill), and frilled sharks (orders Hexanchiformes and Chlamydoselachiformes, respectively). Cow sharks date back 190 million-years ago, during the early Jurassic. The eel-like Frilled Shark shows fossil evidence from 95 million years ago. Most of these animals live in deep waters.

Filter feeders

Sometime during the Tertiary Period, 65 to 35 million years ago, several different orders evolved from being predators to filter feeding plankton. The Carpet shark lineage (order Orectolobiformes) gave rise to the modern Whale Shark (Rhincodon typus), two distinct lineages of Mackerel shark (Lamniformes) gave rise to the Basking (Cetorhinus maximus) and Megamouth (Megachasma pelagios) sharks.

Lamnoids

Cretoxyrhina. Illustration by R. Aidan Martin

Lamnoids (order Lamniformes) include some of the best known sharks, such as the ‘Great’ White, thresher sharks, Basking, the Goblin Shark, and Sandtiger. What may be the earliest of the lamnoids, Paleocarcharias stromeri, was found from the upper Jurassic in deposits about 155 million years old. There is limited fossil evidence of the early lamnoids beyond their teeth, but there is enough to suggest that there were several bursts of adaptive radiation producing much diversity. Several complete skeletons have been found of Cretoxyrhina mantelli, a lamnoid about the size of a modern Great White, living about 100 million years ago during the late Cretaceous.

Megalodon. Illustration: R. Aidan Martin

Megalodon was a shark that was perhaps 50 feeet long, much larger than the Great White, with teeth measuring 7 inches compared to up to three inches for the White. Megalodon most likely evolved from Cretolamna appendiculata, which existed between 100 and 60 million years ago. The fossil record of Megalodon lasts only between 16 million years ago and about 1.6 million years ago, when they suddenly died out. But there were significant similarities to tempt comparison. Both species share the famous searrated teeth that are able to bite, taste-test, and tear apart large animals. While some paleontologists believe the Megalodon may share a distant relative, it is now accepted that the Great White is not a direct descendent and, in fact, coexisted for about 10 million years. It is suggested that these two predators kept out of each other’s way by feeding on different prey - megalodon on whales, the white shark on seals - and living in different areas - Megalodon in warm water, the White Shark in cooler water.

Where did the Great White Shark, itself, come from? There are differing schools of thought on this question and much revolves around the study of teeth--smooth vs. serrated, and which path the Great White took. If Great Whites evolved from the same line as the huge Megalodon, then we might look to a potential common ancestor, the Cretolamna appendiculata, found in late Cretaceous to the mid-Paleocene about 100 to 60 million years ago. Opposing that theory is one that says Great White teeth are more similar to the mako, and trace ancestry to the Isurus hastalis, whose teeth were found In Oligocene deposits from about 30 million years ago. Whatever the origin, the modern White Shark, Carcharodon carcharias, first appeared about 11 million years ago.

Hammerheads

Hammerheads (family Sphyrnidae of the order Carcharhiniformes, or Ground Sharks) is perhaps the most unusual of modern sharks. Hammerheads are also among the most recent. Hammerhead teeth first appear in mid-to-late Eocene deposits, from about 50 to 35 million years ago.

Sharks evolutionary challenge: Perfection vs. Man

We began this article by describing sharks as perfect predators. Sharks have certainly developed remarkable capabilities to find and catch its prey. But these capabilities, as well as the ability to reproduce and flourish, work best in a stable environment with no highly effective natural predators. Enter man. Man’s recent rapacious slaughter of sharks does not mesh well with shark reproductive capacity. Most sharks take years to reach sexual maturity and raise few pups in a lifetime. This makes them ill equipped to respond to man. Thus, the 450 million year legacy of sharks may well be meeting its greatest challenge.

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