Deep-Sea Audio Recordings Reveal A Noisy Mariana Trench, Surprising Scientists
Anyone looking for a little peace and quiet on this Earth might think they'd find some at the bottom of the ocean. They'd be wrong. And so were researchers who didn't expect to hear much when they dropped a microphone 6 miles down into the Mariana Trench in the Pacific Ocean.
The results surprised scientists from the National Oceanic and Atmospheric Administration and Oregon State University, who conducted the experiment. Instead of quiet, they heard sounds of earthquakes, ships, "the distinct moans of baleen whales and the overwhelming clamor of a category 4 typhoon that just happened to pass overhead," according to a release by Oregon State.
The sounds give a new sense of what life is like nearly 7 miles below the ocean's surface. Working with the U.S. Coast Guard, the researchers sent a titanium-encased microphone to a depth of more than 36,000 feet, into the deepest part of the Mariana Trench known as the Challenger Deep.
When it was retrieved, the microphone package's flash drive held recordings that were made over the course of three weeks last summer. Further surprising scientists, the recordings weren't merely of faint echoes — they were of clearly discernible sounds.
"You would think that the deepest part of the ocean would be one of the quietest places on Earth," says chief scientist Robert Dziak of NOAA. "Yet there really is almost constant noise from both natural and man-made sources."
Explaining the prevalence of propeller whine in the recordings, Dziak notes that Challenger Deep is close to the commercial shipping hub of Guam.
NOAA undertook the mission to help establish a baseline for ambient noise in the deepest part of the ocean. As Oregon Public Broadcasting notes, "Lots of additional research is happening along the West Coast to study possible impacts on whales and other marine creatures from increasing human-caused underwater noise."
Before they could make the recordings, the researchers had to develop a hydrophone that was capable of surviving extreme pressure — in this case, more than 16,000 pounds per square inch. For comparison, NOAA says, the atmospheric pressure in the average home or office is less than 15 pounds PSI.
When it was finally lowered, NOAA says, the ceramic hydrophone had to enter the depths at a relatively slow pace — 5 meters per second — to prevent it from imploding.
Copyright 2021 NPR. To see more, visit https://www.npr.org.