It turns out that blindfolding a shark or plugging its nose isn't enough to deter it from going after prey. When a shark gets hungry, it will use all the senses it has available to hunt down something to eat, a new study reveals.
The goal of the study was to figure out how sharks use their different senses together, rather than isolating one sense at a time. Researchers examined three species of sharks — blacktip, bonnethead and nurse sharks — in an artificial flow channel inside the Mote Marine Laboratory in Sarasota, Fla.
"The biggest motivation with this multisensory approach was to try to understand what they're really doing in a natural environment with sensory cues," said Jayne Gardiner, a postdoctoral fellow at Mote who led the study.
She added that researchers have been wanting to do this kind of work for decades, but the sheer amount of data, the size of the facility and the cost required to do this were challenges.
"We were looking at sharks approach food from 8 meters [26 feet] away, and that's not something that most facilities can do. That's one of the great benefits of doing this at Mote Marine," Gardiner said, adding that a large grant from the National Science Foundation helped knock down the cost. [See Video of Hunting Sharks]
Disabling the senses
The flow channel constructed in Mote's tank was just big enough to hold a shark on the move, along with a holding pen to contain it while the prey was tethered at the opposite end, upstream. (For nurse sharks and blacktips, the prey was pinfish, and for bonnetheads, it was shrimp.)
Once the shark was released, it would careen down the 7-foot-wide (2 meters) channel toward the prey. The researchers used high-speed cameras to capture the sharks' movements. Each trial was scheduled for 10 minutes, but sometimes, the shark would be out of the gate and eating in less than 10 seconds.
In the first round of this experiment, the researchers let the sharks use all of their senses to capture the prey, to serve as a control for comparison. Then, the researchers blocked each one of the sharks' senses at a time to mark any changes. To block a nose, they'd use pieces of cotton soaked with petroleum jelly. To block the sharks' vision, the researchers covered the animals' eyes with small pieces of black plastic.
In addition to sight and smell, sharks use their head and body (or lateral line system) to sense water movements, so researchers treated those senses with an antibiotic to destroy the hair cells that make up the receptors. (The cells grow back after a couple of weeks.) The researchers also used electrically insulating material to cover the electrical connections between the skin and the water, which sharks also use as a sense. (Electrosensory systems are used to find naturally occurring electrical stimuli, and is common among creatures in water since water is a much better conductor than air.)
Building better shark repellant
The sharks were even more adaptable than the researchers had expected. For example, blacktips and bonnetheads found the prey even after their sense of smell was blocked. The nurse sharks did not find the prey, which shows they do rely on their sense of smell in the wild. In captivity, nurse sharks can retrain their systems to rely on visual cues, Gardiner said.
However, human impacts on sharks' environment are affecting the animals' senses, scientists say. For instance, pollutants are hard on the sharks' eyes and noses, and heavy metals and antibiotics can damage the lateral line system.
Gardiner hopes to use her findings to understand how adult sharks navigate back to their birthplace when they are ready to give birth.
Gardiner's work, which was a part of her doctoral research at the University of South Florida, was published April 2 in the journal PLOS ONE.
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