Shark anatomy begins with the skin. If you've ever felt the rough, harsh texture of sandpaper, you can undoubtedly imagine how it would feel to caress the skin of a shark. Yes, sharks are known for the menacing teeth in their mouths, but many do not even realize that their skin is made up of dermal denticles; these are miniscule placoid scales that are similar to teeth. These dermal denticles are even covered in enamel, called vitro-dentine, and they also include dentine and a pulp cavity; they are extremely comparable with teeth.
Unfortunately, people kill sharks for their unique skin to make shagreen, a type of sandpaper, and various leather products. So when you think about it, if you have felt sandpaper, it is very possible that you have touched what was once part of a shark.
Vortices and whirlpools are often formed behind the placoid scales as a shark swims. This helps the sharks swim efficiently. The fact that sharks are completely covered in tooth-like structures may seem alarming, but not only are they resourceful when it comes to swimming, but they also form a barrier of protection. Interestingly enough, however, while the dermal denticles are arranged in a pattern on the shark, they do not grow as the shark grows. Instead, the shark just sprouts more placoid scales as necessary. Therefore, age estimation cannot be determined by the scales of the shark, although, the ages of other fish can be calculated this way.
Here's one of the more well known areas of shark anatomy. The fins of a shark are easily recognizable, and immensely important. Most sharks have five different types of fins, while some sharks only have four. These types of fins include:
At the front of the shark (anterior) behind its head, are the pectoral fins. Sharks use these fins to lift and
steer them while they swim.
Behind the pectoral fins, are the pelvic fins; these
keep the shark stabilized while it swims. In male sharks, pelvic fins are also used as
claspers, which are necessary for the reproduction process.
Dorsal fins are the ones
that most people are familiar with; these fins are often seen when a shark is at the
water's surface. Oftentimes, sharks have a first and second dorsal fin. These fins are
also used for stability during swimming.
For some sharks, these fins are not enough
to completely stabilize them. Therefore, the anal fin is present to provide additional
stability to the sharks that possess them. The anal fin is located between the pelvic
and caudal fins on the bottom, or ventral, part of the shark.
When it comes to the shark having the ability to propel itself through the water, they utilize what is called the caudal fin. This fin, also known as the tail fin, has an upper and lower lobe that, depending on the type of shark, can vary in shape and size. The upper lobe of the caudal fin produces the majority of the shark's thrusting abilities. The tail fin is one of the most important parts of the entire shark anatomy.
Because of all of these different types of fins in the shark anatomy, they are able to maneuver swiftly through the water while staying stabilized.
Spines are included in the shark anatomy as a form of protection. For many sharks and most rays, spines are included in their anatomy to defend them against potential predators. Although many associate sharks and rays as venomous, antagonistic bullies, defense mechanisms such as spines are used precisely for that, defense. Spines are not used aggressively. Many sharks have spines on their dorsal fins.
Like other fish, the shark anatomy includes gills to aid in respiration. Located on the side of a shark's head are five to seven gill slits; in order for gas exchange to occur correctly, water has to consistently flow over the gill slits. Once the shark allows water to enter their mouth, it goes through the pharynx, over the gills, and finally leaves through the actual gill slits.
In some sharks, Spiracles are present as first gill slits. These slits are located behind the eyes, and they are used to send blood through a separate, unique blood vessel immediately to the eyes and brain of the shark. Although this feature of a shark's anatomy sounds very useful, they are not present on many sharks. Spiracles are mainly found on sharks that typically dwell near the seabed, otherwise known as sedentary sharks. The faster swimming sharks usually do not posses this feature, and if they do happen to have Spiracles, they are most likely small in size.
You many have noticed that the bodies of sharks are typically rounded and tapered at both ends. This type of shape causes them to have what is called a fusiform body. This body shape is exceedingly helpful because it minimizes drag, and it enables sharks to swim efficiently while using the least amount of energy possible.
The coloration of sharks is enormously unique and important; not only is it yet another form of protection from their predators, but it also aids them when capturing prey. The dorsal (top) side of a shark is a lighter color than the ventral (bottom) side. This coloration is a type of camouflage called counter shading. When viewed from above, the dark side of the shark blends in with the depths of the ocean. When viewed from below, the light ventral side blends in with the ocean's surface. This enables sharks to slip past predators, and sneak-up on prey. Talk about convenience!
If you were to look inside the body of a shark, you would notice many of the same organs that humans have. Both sharks and humans have stomachs (although human trash can often be found in a shark's stomach) spleens, pancreas, rectums, and liver.
There is a huge difference between the human liver and the shark liver however. The liver is usually the first thing one would notice when peering inside and seeing the shark anatomy. A shark's liver can take up approximately 25% of the total body weight. The liver is detrimental to the shark, and it has two purposes. Fatty reserves are kept in the liver, thus causing it to be a store of energy. In addition, the liver actually keeps the shark from sinking. Buoyancy is what works against the tendency of sinking; because the liver stores oils that are lighter than water, the density of the shark's body is lighter, thus supplying the needed buoyancy for the shark. Due to this particular function, the liver is considered to be a hydrostatic organ.
The shark anatomy includes an intestine that is used for digestion. The shark's intestine is shortened, but it also spirals so that it takes up the least amount of space possible. When a shark needs to get rid of waste, it utilizes its kidneys, genitals, and cloaca. The cloaca is an opening that the kidneys and genitals empty into.
The skeleton of a shark is entirely composed up of cartilage. It is a bit alarming, but sharks do not have bones. The fact that sharks have cartilage instead of bone is extremely beneficial. Cartilage is lighter than bone; this helps the shark stay afloat. Because cartilage is also extensively durable and flexible, sharks have the ability to have tight radius turns. The skull of a shark, which is also comprised of cartilage, can vary in shape. In fact, there are numerous ways in which a shark's jaw can be connected to the cranium; the method in which the shark feeds, determines how the jaw will attach to the cranium.
The mouth of a shark, one of its most recognizable features, is usually located on the ventral side. The inside of a shark's mouth is full of rows and rows of teeth. Like a shark's skin, massive placoid scales make up the teeth of a shark. Because sharks don't have a literal jawbone for the teeth to attach themselves to, they are connected to the skin that covers the jaw cartilage. Sharks are constantly replacing their teeth; believe it or not, some sharks use more than 30,000 teeth over a life span. When a new tooth grows, the skin maneuvers the tooth into a proper position.
Although an extensive amount of information has not been found about sharks, we do know that they have taste buds. Some sharks spit things out after they have bit into them; this is most likely due to the fact that they did not like the particular taste. Sharks have the reputation of devouring almost anything and anyone, but they are certainly pickier than many people realize.
Without a doubt, sharks use more than their eyes and ears to track down prey. Around a shark's head is an entire sensory network called the ampullae of Lorenzini, a very unique part of the shark anatomy. Each ampulla is composed of a cluster of sensory cells that ultimately enables sharks to detect prey that may be hiding in the sand, and even possibly notice changes in the water's temperature, pressure, salinity, magnetic fields, and mechanical stimuli. The lateral line is another sensory system that works simultaneously with the ampullae of Lorenzini. Together, they make up the electrosensory portion of the shark's sensory system. Neuromasts are structures that make up the lateral line, and they alert the shark whenever there's movement from prey. The lateral line is similar to ears because it detects low-frequency vibrations. Vibrations from a distance can be detected easily by the lateral line, and the direction of water flow can also be determined by the lateral line.
Because sharks use the sense sound to find their food, ears are needed in addition to the ampullae of Lorenzini and the lateral line. Sharks have an inner ear that is used to pick up acceleration and gravity in addition to sound.
Sharks have exceptional eyes that enable them to see acutely, even in low light. Behind their retina, is the tapetum lucidum; this is a layer that is comprised of silver guanine crystals that reflects light as it exits the eye. This is the part of the shark anatomy that enables sharks to have the ability to see in low light.
The eyelids of some sharks are certainly not typical. There are sharks that have what is called a nictating membrane. This feature provides a substantial amount of protection for the eye. When sharks get relatively close to a particular object, or when they are feeding, the nictating membrane closes, thus acting as a shield for the eye. Some sharks, like the great white shark, actually have a set of muscles that roll the eye into its socket whenever the eye needs protection.
The eyesight of bony fish pales in comparison to the sight of a shark. The shark anatomy allows them to see in dim light, they can detect the contrasts of light and shadow, and their pupils can dilate and contract.
The nostrils of a shark are and external part of the shark anatomy, and on the ventral side of their bodies. Some species of sharks have barbells, otherwise known as whiskers, near their nostrils. A shark's sense of smell is unbelievably keen. For example, they can detect a drop of blood hundreds of feet away. Certain chemicals with a concentration as low as one part per billion, can be detected by the nostrils of a shark.
I could go on forever, but hopefully you learned a few cool things about the shark anatomy. Keep browsing this site for even more info about sharks!
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