Researchers reveal insights into how sharks swim, eat and live

A "shark's eye" view: Witnessing the life of a top predator

University of Hawaiʻi at Mānoa
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Posted: Feb 27, 2014

Scientists attach a combined sensor and video recorder to a sixgill shark.
Scientists attach a combined sensor and video recorder to a sixgill shark.
A sixgill shark with a combined sensor and video recorder attached to it swims through the ocean.
A sixgill shark with a combined sensor and video recorder attached to it swims through the ocean.

Instruments strapped onto and ingested by sharks are revealing novel insights into how one of the most feared and least understood ocean predators swims, eats and lives.

For the first time, researchers at the University of Hawaiʻi at Mānoa and the University of Tokyo outfitted sharks with sophisticated sensors and video recorders to measure and see where they are going, how they are getting there, and what they are doing once they reach their destinations. (Click here for video).

Scientists are also piloting a project using instruments ingested by sharks and other top ocean predators, like tuna, to gain new awareness into these animals’ feeding habits. The instruments, which use electrical measurements to track ingestion and digestion of prey, can help researchers understand where, when and how much sharks and other predators are eating, and what they are feasting on.

The instruments are providing scientists with a “shark’s eye” view of the ocean and greater understanding than ever before of the lives of these fish in their natural environment.

“What we are doing is really trying to fill out the detail of what their role is in the ocean,” said Carl Meyer, an assistant researcher at the Hawaii Institute of Marine Biology at the University of Hawaiʻi at Mānoa. “It is all about getting a much deeper understanding of sharks’ ecological role in the ocean, which is important to the health of the ocean and, by extension, to our own well-being.”

Using the sensors and video recorders, the researchers captured unprecedented images of sharks of different species swimming in schools, interacting with other fish and moving in repetitive loops across the sea bed. They also found that sharks used powered swimming more often than a gliding motion to move through the ocean, contrary to what scientists had previously thought, and that deep-sea sharks swim in slow motion compared to shallow water species.

“These instrument packages are like flight data recorders for sharks,” Meyer said. “They allow us to quantify a variety of different things that we haven’t been able to quantify before.”

“It has really drawn back the veil on what these animals do and answered some longstanding questions,” he added.

Meyer and Kim Holland, a researcher also at the Hawaiʻi Institute of Marine Biology, are presenting the new research today at the 2014 Ocean Sciences Meeting co-sponsored by the Association for the Sciences of Limnology and Oceanography, The Oceanography Society and the American Geophysical Union.

Sharks are at the top of the ocean food chain, Meyer noted, making them an important part of the marine ecosystem, and knowing more about these fish helps scientists better understand the flow of energy through the ocean. Until now, sharks have mainly been observed in captivity, and have been tracked only to see where they traveled.

These new observations could help shape conservation and resource management efforts, and inform public safety measures, Holland said. The instruments being used by scientists to study feeding habits could also have commercial uses, including for aquaculture, he added.

 

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The researchers on these studies will present oral presentations about their work on Thursday, February 27, 2014, at the Ocean Sciences Meeting. The meeting is taking place from February 23 – 28 at the Hawaiʻi Convention Center in Honolulu. For more information for members of the news media, please go to http://www.sgmeet.com/osm2014/media.asp.

Both presentations are part of Session 091: Advances in approaches to monitoring the occurrence, distribution, and behavior of top predators being held Thursday, February 27, from 8 a.m. to 10 a.m. local Hawaiʻi time in room 310 Theater.

Abstracts:

Multi-Instrument Biologging Provides New High Resolution Insight Into Shark Behavior and Biomechanics

Detection and Telemetry of Feeding Events in Free Swimming Sharks and Tuna

 

Contact information for the researchers:

Carl Meyer:  (808) 428-4819, carlm@hawaii.edu
Kim Holland: (808) 220-0112, kholland@hawaii.edu