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7 Miles Beneath The Sea's Surface: Who Goes There?

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7 Miles Beneath The Sea's Surface: Who Goes There?

Science

7 Miles Beneath The Sea's Surface: Who Goes There?

7 Miles Beneath The Sea's Surface: Who Goes There?

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  • <iframe src="https://www.npr.org/player/embed/371670931/371821144" width="100%" height="290" frameborder="0" scrolling="no" title="NPR embedded audio player">
  • Transcript

The research vessel Falkor in August 2013. Courtesy of Mark Schrope hide caption

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Courtesy of Mark Schrope

The research vessel Falkor in August 2013.

Courtesy of Mark Schrope

A ship full of marine scientists is floating over the deepest part of the world: the Pacific Ocean's Mariana Trench. They're sending down probes to study life in one of the most hostile environments on the planet.

This week the researchers are targeting the two deepest spots in the trench — the Sirena Deep and the Challenger Deep — which each extend down about 7 miles beneath the ocean's surface.

Testing the camera system of the Leggo, a deep sea research probe, prior to the expedition. Sensors and equipment can be easily added or removed from the probe, like interchangeable blocks. Courtesy of Doug Bartlett hide caption

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Courtesy of Doug Bartlett

Testing the camera system of the Leggo, a deep sea research probe, prior to the expedition. Sensors and equipment can be easily added or removed from the probe, like interchangeable blocks.

Courtesy of Doug Bartlett

Douglas Bartlett, from the Scripps Institution of Oceanography, is the chief scientist aboard the research vessel Falkor, which is operated by the Schmidt Ocean Institute. Bartlett describes undersea trenches like the Mariana, which stretches hundreds of miles across the floor of the western Pacific, as "inverted islands of biodiversity."

Only recently, Bartlett says, have scientists been able to study how specialized the organisms are that live at such depths, how abundant they are and what they do.

Not many living things can survive the intense, near-freezing temperature. It's dark, and the pressure is 16,000 pounds per square inch. (Consider, for comparison, that the air in a car tire is about 30 pounds per square inch.) Bartlett says the pressures in the depths of the trench are similar to those on Europa, one of Jupiter's moons.

The team is dropping instrument decks to the bottom, each one about the size of a refrigerator. Designed to float back up on command, each such package of instruments bristles with cameras, water samplers and even traps with bait in them to attract deep-sea animals.

These amphipods were discovered by scientists from the University of Aberdeen in waters more than 4 miles deep, north of New Zealand. Similar shrimplike crawlers may lurk at the bottom of the Challenger Deep. Oceanlab/University of Aberdeen/AP hide caption

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Oceanlab/University of Aberdeen/AP

These amphipods were discovered by scientists from the University of Aberdeen in waters more than 4 miles deep, north of New Zealand. Similar shrimplike crawlers may lurk at the bottom of the Challenger Deep.

Oceanlab/University of Aberdeen/AP

"We use chicken," Bartlett says, "which can be very dramatic when you see what these scavengers do to chicken. It's incredible."

The normal diet for scavengers on the bottom falls like manna from above — the remains of dead sea creatures drifting down like snow.

Among the bottom-dwellers are shrimplike crawlers called amphipods. Bartlett says they look tasty, "but when you cut one open ... there's nothing there, just guts and organs and very, very little muscle."

The team's deep-sea probes are also collecting microorganisms, mud and seawater. Two huge plates of the Earth's crust meet in this trench, and scientists suspect that some forms of life there may draw energy from chemicals that seep up from within the Earth.

The probes also have enabled the first-ever audio analysis of what the bottom of the trench sounds like. David Barclay from Canada's Dalhousie University says it's pretty quiet down there, as you might imagine, though he thinks they've already detected the rumble of a distant earthquake.

"One of the main goals of this cruise," Barclay says, "is to figure out [if] we hear any biological noise from the things that are presumably eating at the baited traps."

The team has about a week at sea to capture those sounds and any others.