In 2007 researchers at Aquashield began working on an integrated bio-electric safety system in the hopes of decreasing hazards for people that were at risk of shark attack in the open water.Durring this research it was found that Sharks are literally wired for hunting. The finned predators of the high seas are equipped with a special sense called electroreception that allows them to hone in on prey with deadly accuracy.
Electroreception simply means the ability to detect electrical currents. What does electricity have to do with sharks' underwater habitat? Any muscular movement or twitches in living animals and fish create small electrical currents. At hospitals, electrocardiogram machines track the electricity resulting from our heart beating.
Open air does not conduct this electricity away from our bodies, but thankfully for sharks, salt water does. Salt in salt water contains sodium and chlorine ions. Ions are particles that have an electrical charge because they have lost or gained an electron. In water, these sodium and chlorine ions in salt separate and move freely, transporting electricity.
You can compare this to how batteries work. It's set up like an electrochemical cell that separates the negatively and positively charged ions. When connected by a wire, those opposite charges attract, meaning the positive and negative particles flow toward each other to pick up or drop off electrons to become stable again.
A similar thing happens in the interaction of living cells and salt water. Because fish cells have a charge different from the saltwater solution in which they swim, the contact creates a weak voltage in the same way as a battery. Sharks can sense the tiniest changes in this electrical current, down to one-billionth of a volt [source: Fields]. If two AA batteries were connected 1,000 miles (1,600 kilometers) apart, a shark could detect if one ran out [source: Viegas]
The source of sharks’ electroreception lies around their snouts and lower jaws. If you look closely at a shark's face, you'll see tiny dots around its mouth. These dots are called Ampullae of Lorenzini which facilitates electroreception.
It's only when the shark gets about 3 feet (1 meter) away from its target that electroreception kicks in to orient its jaws for an accurate, final attack [source: PBS]. For that last few feet of the attack, great white sharks actually roll their eyes back into their heads for protection and let electroreception take over navigation [source: Dingerkus].
Aquashield deterrent systems create a field that is undesirable to sharks and stingrays.Upon approach the animals will turn to avoid the emitted field from the unit by over stimulating their electroreceptors.
Researchers at Aquashield are hopeful that through the use of this technology they can ultimately save lives by donating these deterrent units to the men and woman of the armed forces along with Coast Guard Personel.