The Silent Struggle: How Ultrasound is Pioneering Sea Turtle Rescue Efforts


Six out of the world's seven sea turtle species are currently endangered, facing myriad threats predominantly caused by human activities. The most significant of these is commercial fishing, where sea turtles often become unintended casualties, caught in nets without the immediate knowledge of the fishers. This accidental capture disrupts their natural diving behavior, leading to potentially fatal conditions like gas embolism — bubbles of gas that form within their tissues and organs due to rapid changes in pressure.

To address this pressing issue, veterinarians and researchers worldwide are delving into the impact of these disruptions on sea turtles, employing advanced technologies like ultrasound imaging to gain real-time insights into the animals’ internal condition. Among these researchers is Katherine Eltz, a dedicated first-year doctoral student at the University of North Carolina at Chapel Hill. Eltz’s research focuses on leveraging ultrasound technology, traditionally used in humans to mitigate decompression sickness, to assess and treat afflicted sea turtles.

During a recent joint meeting of the Acoustical Society of America and the Canadian Acoustical Association held in Ottawa, Ontario, Eltz shared her groundbreaking findings. Collaborating with veterinarians who work directly on fishing boats, Eltz has been able to use portable ultrasound devices to examine sea turtles immediately after they are brought onboard, significantly improving the chances of successful treatment.

"The portability of ultrasound equipment is a game-changer," Eltz explained. "It allows us to observe the gas bubbles directly within the vessels or tissues and take immediate corrective action." Unlike MRI or X-ray scans that provide static images, ultrasound offers the advantage of monitoring these bubbles in real-time, a crucial factor in the fast-paced environment of commercial fishing.

Eltz’s research also included data collection from sea turtles rescued off the coasts of Brazil, Italy, and Spain, in collaboration with the Oceanogràfic Foundation, pioneers in reporting decompression sickness in sea turtles. The findings from her studies have shown that the severity of gas embolism can be quantified by the brightness of the ultrasound images. This brightness serves as a critical metric, helping veterinarians decide the necessary treatment, which could range from immediate hyperbaric oxygen therapy to safe release back into the ocean.

Moving forward, Eltz is committed to refining these diagnostic techniques. "The goal now is to standardize how we capture and process these ultrasound images," she noted. This standardization will enhance the accuracy and reliability of diagnoses, thereby improving treatment outcomes.

Armed with a rich dataset and a collaborative network that spans across continents, Katherine Eltz’s work is paving the way for more effective rescue and rehabilitation strategies for sea turtles. Her efforts highlight a vital intersection of technology and wildlife conservation, promising a better future for these majestic creatures of the sea.

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