1. The skeleton of elasmobranchs is made of cartilage.
a. The skeleton may be partially calcified to some extent with calcium phosphates and carbonates, particularly in the vertebral column. This calcified cartilage is not true bone.
b. The cartilage of a shark's skeleton may be important in future cancer research. Shark cartilage contains an active ingredient that has been known to inhibit tumor growth. In addition, sharks rarely develop cancer. c. A shark's cranium is a single compact cartilaginous block which encloses the brain, olfactory, and auditory capsules. Jaws are loosely attached to the cranium.
2. Vestigial ribs give no support.
A shark's skeleton is made of cartilage.
1 . Red muscle is aerobic: it needs oxygen to function. This muscle contains myoglobin, an oxygen-carrying pigment. Red muscle functions for cruising.
2. White muscle is anaerobic: it does not use oxygen. White muscle functions for sudden bursts of speed.
C. Digestive tract
1. The esophagus is short and wide, barely discernible from the stomach. A U-shaped stomach leads to a spiral valve in many species.
2. A spiral valve is the lower portion of the digestive tract. It is internally twisted or coiled to increase the surface area, which increases nutrient absorption.
3. After the spiral valve, the digestive tract leads to the rectum and to the cloaca. The cloaca is a common opening for the urinary, digestive, and reproductive systems.
D. Circulatory system
1 . A shark's heart is a two-chambered S-shaped tube, small in proportion to body size. Blood flows from the heart to the gills and then to body tissues.
2. Fast-swimming sharks, such as great whites and makos, have a body temperature that can be quite a bit higher than the surrounding water (up to 8*C or 14.4*F higher). This heat is due to the modified circulatory system associated with the red muscle.
a. As red muscle functions, it generates heat. Muscle-generated heat warms the blood circulating through the red muscle, which then travels back to the heart through veins. Thus, blood returning to the heart from the muscle is warmer than blood traveling from the heart to the muscle.
b. Due to the nearness of arteries and veins, heat passes from warmer veins to cooler arteries within the shark's body, rather than dissipating to the cooler environment. This modified circulatory system retains heat in the red muscle.
3. Sharks have low blood pressure. The walls of the pericardium (the membranous sac that encloses the heart) are rigid, creating a suction within the pericardium to maintain the flow of blood. To circulate blood throughout their bodies, many sharks must swim continuously.
E. Gills and respiration
1 . Water enters the gill chambers through the mouth or spiracles. In the past, it was assumed that all sharks must swim to move water into their mouth and over their gills to respire. We now know that sharks can respire by pumping water over their gills by opening and closing their mouths. However, many sharks do have to swim continuously: due to their low blood pressure, muscular contractions are needed to circulate their blood.
2. Blood in the gill filaments absorbs oxygen from the incoming water.
3. Gill rakers, cartilaginous projections on the gill support structure, protect the delicate gill filaments from particles in the water that might damage them.
4. Water exits through the gill slits.
A shark's delicate gill filaments are protected from particles in the water by gill rakers.
5. In species where they are present, spiracles provide oxygenated blood directly to the eye and brain through a separate blood vessel which is reduced or absent in active, fast-swimming sharks.
1 . A shark's liver is made of two large lobes that concentrate and store oils and fatty acids. The liver functions in energy storage and buoyancy.
2. A shark's liver is relatively large, making up 5% to 25% of its total body weight.
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