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Humans can dive deeper into the world’s oceans than ever before with Alvin

<i>Woods Hole Oceanographic Institution</i><br/>A Dumbo octopus can be seen on the ocean floor during one of Alvin's dives.
Woods Hole Oceanographic Institution
A Dumbo octopus can be seen on the ocean floor during one of Alvin's dives.

By Ashley Strickland, CNN

Black smoke appears to rise from chimney-like formations of the hottest and deepest known hydrothermal vents on Earth.

Over the summer, Anna Michel was able to see them for herself — a few miles beneath the ocean’s surface.

Michel, an associate scientist at the Woods Hole Oceanographic Institution in Massachusetts, was part of a three-person crew aboard the submersible Alvin as it dove down to the Mid-Cayman Rise. Known as the Beebe Hydrothermal Vent Field, these vents exist on the ocean floor where two tectonic plates are separating about a half an inch (15 millimeters) per year south of the Cayman Islands.

Hydrothermal vents form where rising magma beneath the seafloor creates underwater mountain ranges called ocean ridges.

The chilly seawater seeps through seafloor cracks and becomes heated to 750 degrees Fahrenheit (400 degrees Celsius) as it interacts with the magma-heated rocks. This interaction releases minerals from the rocks, venting out nutrients and providing the perfect ecosystem for unusual marine life that clusters around them.

Alvin, which has been operating for 58 years, reached a record depth of 6,453 meters (4 miles) in July in the Puerto Rico Trench, north of San Juan, Puerto Rico. On multiple excursions, Alvin traveled 6,200 to 6,500 meters (3.8 to 4 miles) below the ocean’s surface after meeting requirements set by the US Navy and Naval Sea Systems Command.

The new range means that about 99% of the seafloor is now within Alvin’s reach as well as that of its pilot and two passengers. It’s the third increase in depth for Alvin since the submersible was commissioned, according to Andrew Bowen, principal engineer at Woods Hole Oceanographic Institution’s Applied Ocean Physics & Engineering.

“That was the first time I went to a hydrothermal vent site in person and to me, that was just absolutely incredible,” said Michel, also the chief scientist of the National Deep Submergence Facility that operates Alvin. “We were able to bring humans to see places that we’ve not gone to before with Alvin.”

Michel has worked with remotely operated underwater vehicles for 20 years, but this summer was her first time as an Alvin passenger. Despite the enclosed space of the titanium-encased sub, Michel never felt claustrophobic. Instead, she said it felt like riding in an elevator, and the eight-hour expedition flew by.

“You see a lot more three-dimensionality in real life and your spatial awareness is very different of these huge spires,” she said, referring to the vents.

Scientists will now have direct access to the ocean’s deepest zones, exploring places humans have never been to before. Researchers expect to find new species and study the fundamentals of life.

Michel and University of Rhode Island geophysicist Adam Soule, a professor of oceanography, led five scientific dives for Alvin’s Science Verification Expedition over the summer, traveling to Puerto Rico and the Caymans.

At the Puerto Rico Trench, where underwater cliffs form as the North American and Caribbean tectonic plates collide, the team collected samples of exposed ocean crust and some of the deepest known examples of seafloor organisms. During the Mid-Cayman Rise expedition, researchers took biological and chemical samples from the hydrothermal vents.

Previously, Alvin was only able to travel down 4,500 meters (2.7 miles). The new feat was possible after 18 months of overhauling the 43,000-pound (19,500-kilogram) submersible. Alvin’s new upgrades include a 4K imaging system, a new hydraulic manipulator arm, more powerful thrusters, new motor controllers and an integrated command and control system.

Alvin has contributed to numerous discoveries, including shipwrecks and ocean science. The human-operated vehicle, or HOV, has carried more than 3,000 people on over 5,000 dives to the deep. It’s the only deep-submergence vehicle in the US capable of carrying humans to the deep ocean.

Researchers have used Alvin to study plate tectonics and hydrothermal vents, discover strange sea life — and even explore the RMS Titanic in 1986 after Woods Hole Oceanographic Institution scientist Robert Ballard located the famed shipwreck. The submersible also helped the Navy locate a missing hydrogen bomb from World War II and took scientists to the seafloor beneath the Deepwater Horizon oil spill of 2010.

“For almost 60 years, the deep-submergence vehicle Alvin has unveiled the ocean’s mysteries — not just for military and national security purposes but also for the scientific benefit of society as a whole,” said Rear Adm. Lorin C. Selby, chief of naval research, in a statement.

The sub uses its two arms to collect samples that can be brought to the surface when Alvin “parks” aboard its ship, the R/V Atlantis. Alvin’s capabilities mean that scientists participating in a dive can capture photos and videos of the seafloor’s alien landscape and rare creatures, conduct experiments and deploy scientific instruments.

Alvin takes its name from Allyn Vine, the Woods Hole Oceanographic Institution physicist and oceanographer who championed the idea of submersibles that could carry researchers safely through the deep sea to conduct science in an otherwise inaccessible place.

“Alvin is built and maintained to enable new discoveries and provide new insight into the way our planet works,” Michel said. “Every generation of scientists presents new questions, and Alvin has responded in ways that have rewritten textbooks. There’s a new generation waiting to use the sub, and to them we say, ‘Alvin is ready, where do you want to go?'”

Scientists submit proposals to reserve time on Alvin to conduct their research, and the submersible undertakes about 100 dives per year to explore ocean biodiversity, Earth’s crust and the way life thrives at extreme depths.

A variety of other underwater vehicles, including autonomous ones, are increasing exploration possibilities beneath the waves.

“Imagine exploring the Grand Canyon at night with a flashlight,” Bowen said. “Historically, that’s sort of what we’ve been able to do, and Alvin has been a key part of that. Increasingly, we’ve added more technology in the form of drones, tethered vehicles and autonomous systems that really broadens the footprint for the Alvin submersible.

“Visiting the deep ocean is a laborious process. Getting the maximum benefit out of going there is where technology has a huge potential benefit.”

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