Shark Anatomy
When people think of sharks, they generally imagine an animal like the one in this picture. The tall dorsal fin, torpedo-shaped body and giant teeth of this great white shark are familiar to most everybody. But there are actually more than 400 different shark species alive today, and they vary considerably in size and appearance. In fact, roughly 50 percent of shark species are less than a meter long. So what makes a shark a shark?

Photo courtesy Carl Roessler
One of the most well-known sharks, the great white

Shark Diversity

Photo courtesy Carl Roessler
A cat shark, characterized by a stocky body and flowing fins

Sharks come in all shapes and sizes. One of the smallest sharks, the spined pigmy, is only 6 inches long when fully grown. The largest shark, the whale shark, can grow to more than 40 feet long. Highly active sharks tend to be torpedo-shaped, but many less active sharks are fairly flat, like rays.

Sharks are also very diverse in their habits and habitats. They live all over the world and swim at every ocean depth. Larger, more active sharks tend to hunt in the middle and upper depths of the ocean, while many smaller sharks stay near the ocean bottom. Some sharks swim long distances every day, while others live a relatively sedentary life, sticking to a small area.

Sharks, along with rays and chimeras, are distinguished from other fish primarily by their body composition. Most other fish have skeletons made of bone, just like mammals, reptiles, amphibians and birds. Sharks and rays, on the other hand, have skeletons made entirely of cartilage, the same flexible material in your nose and ears. Cartilage is sturdy like bone, but it has a much lower density. This material keeps sharks relatively lightweight, so they don't sink in the ocean and they don't need an air bladder like other fish.

Sharks also have a very unique skin texture. They don't have the large, prominent scales found in bony fish. Instead they're covered with smaller, tooth-like scales called denticles. These tough, protective denticles are aligned so that they channel water over the shark's body, minimizing drag due to friction.

Like bony fish, sharks breathe by extracting dissolved oxygen from water. The water enters the mouth, passes through the gills and is expelled through gill slits behind the head. In bony fish, these slits are covered, but in most sharks you can see them clearly. As the water flows through the gill opening, it passes tiny gill filaments. These filaments are covered with microscopic blood vessel capillaries, which have a lower oxygen content than the water around them. This imbalance causes oxygen in the water to diffuse into the shark's bloodstream, where it is distributed throughout the body.

Some sharks have a gill pump, a set of muscles that suck in water and push it past the gills. This works something like our lungs -- the shark can continuously gather oxygen while it is in a still position. Most sharks also extract oxygen using ram ventilation, passing water over the gills by moving forward. Some highly-active sharks depend on ram ventilation almost entirely, which means they stay in motion most of the time!

Photo courtesy Carl Roessler
A nurse shark photographed off the coast of Australia: Nurse sharks, which hunt mostly at the ocean bottom, have a gill pump that lets them breathe without moving through the water.

Sharks also differ from most bony fish in the way they move. In the next section, we'll find out how sharks swim so quickly and gracefully through the ocean.