The inhabitants of the ocean’s depths are more extraordinary than ever.

Utilizing an advanced submarine that dives deeper than Mount Everest, researchers have unearthed a vibrant ecosystem approximately 30,000 feet beneath the Pacific Ocean’s surface.

A research team led by Chinese scientists found it racing through fields of vivid crimson tubes and interacting with a unique type of worm that resembles a flower sprouting from the Earth’s crust.

Each organism thrived in dense beds of up to nine inches in length, with snow-like microbial mats creating ethereal underwater dust that spanned tens of feet.

Dominique Papineau, a senior research scientist at the Chinese Academy of Sciences, shared insights with NBC News.

Papineau, one of the study’s authors, announced the findings in a Wednesday publication in Nature. “Many Hadal organisms from these trenches exhibit remarkable shapes and colors,” he noted, explaining that they survive by hosting microorganisms that metabolize methane instead of relying on photosynthesis.

The depth of 19,000 to 30,000 feet is the deepest zone in the ocean, occurring where one tectonic plate collides with another. “Existing theories suggest that chemical bond-based communities are becoming increasingly common in the Hadal Trench, yet few have been discovered,” Papineau stated.

Karien Schnabel, a marine ecologist from New Zealand’s Earth Sciences, commented that the discovery was “truly remarkable” even though she was not part of the study.

“In these extraordinarily deep regions, there were an abundance of signs of life and wildlife,” she remarked.

“We don’t generally expect life to flourish in these extreme conditions due to the immense pressure,” she commented regarding the organisms.

The researchers highlighted, “The depths explored here, alongside the robust communities found, significantly broaden the known habitats, depths, and biogeographic distributions of numerous species.”

With sunlight unable to penetrate, these organisms depend on chemical synthesis for nourishment, rather than photosynthesis.

“These ecosystems are abundant in hydrogen sulfide, methane-rich fluids flowing through faults amid deep sediment layers in the trench,” the researchers explained.

They also endure crushing pressures of up to 98 megapascals (MPA), exceeding six times the force of a crocodile’s bite.

The diving for this recent study took place in July and August of the previous year, conducted by an international group of scientists from the Institute of Deep Sea Science and Engineering at the Chinese Academy of Sciences.

They examined the trenches of Krill Kamchatka, which stretch from Hokkaido in Japan to the Kamchatka Peninsula in Russia, spanning approximately 1,300 miles and integrating with the Aleutian trench that measures around 1,800 miles from Alaska to the Kenai Peninsula.

Schnabel had previously undertaken deep-sea studies aboard the same three submarines, known as Fendouzhe, utilized in this research.

She recounted her deep-sea experiences, one of which gained notoriety when a submarine malfunctioned during a 2023 mission to the Titanic wreck.

“Naturally, there’s a bit of anxiety when hanging over a 10-kilometer chasm on Earth,” she recalled, having explored New Zealand’s northern trenches in 2022, plunging over 32,000 feet below the Pacific Ocean’s surface.

“The window is merely 12 centimeters in diameter. It’s impossible to stretch your legs while seated on a tiny bench within a compact titanium sphere measuring only 1.8 meters in width,” she detailed.

She expressed her amazement at the sights encountered at the trench’s bottom, viewed through the submarine’s 4.7-inch window.

“As I began my descent and eventually came to rest on the seabed, I was astonished by the multitude of life forms I witnessed,” she reflected.

While it was expected that life could persist at these depths, the sheer abundance of ecosystems was a pleasant surprise for the researchers.

The results “challenge existing models of life in extreme conditions” and indicate that such ecosystems may be more prevalent than previously recognized.