In recent years, the desire to establish human colonies beyond Earth, whether to escape environmental issues or explore uncharted territories, has gained significant traction.
While much attention is given to proposed bases on the Moon and Mars, there’s a more challenging and lesser-known frontier much closer to home: the ocean’s depths.
This concept isn’t new. Since the 1960s, with pioneers like French oceanographer Jacques Cousteau, individuals have created and spent extended periods in aquatic habitats.
NASA has been sending teams to the Aquarius Reef Base since 2001. This research facility, located 20 meters (around 65 feet) underwater off the Florida coast, has allowed scientists, engineers, and future astronauts to live in the module for 7 to 14 days.
With advancements in technology, prolonged underwater stays may become feasible. The UK company, Deep, is leveraging this technology to design habitats for extended underwater living. But, is the technology the only challenge we face?
Above the Atmosphere, Under the Sea
Humans are quite vulnerable. We struggle without oxygen or sunlight and are not fond of extreme pressure changes. Thus, we might not be the best candidates for life at the ocean floor.
This doesn’t imply that we can’t thrive in inhospitable environments.
Since 2000, astronauts have spent significant periods aboard the International Space Station (ISS).
Several astronauts have been documented living in the ISS for over 300 consecutive days, but Valeri Polyakov holds the record, having spent 437 days aboard the Mir Space Station in Russia between 1994 and 1995.
Moreover, astronauts returning from lengthy missions often face health issues, such as reduced bone density and muscle atrophy. What does this mean for those who aim to live underwater?
The most extensive study is that of Rudiger Koch, a German aerospace engineer who lived in a capsule submerged 11 meters (36 feet) under the Caribbean Sea for 120 days between 2024 and 2025.
Koch reported no health issues upon celebrating with champagne and cigars.
In second place is Professor Joseph Dituri, who spent 100 days studying the physical and psychological effects of living underwater in a lodge situated at the bottom of a 9-meter deep (30-foot) lagoon in Florida.
Dituri conducted daily tests during his time submerged and following his return to the surface. Notably, aside from minor setbacks, he felt quite well.
He noted improvements in sleep quality, cholesterol levels, and inflammation. His stem cell count, testosterone levels, and cognitive performance also improved.
Interestingly, Dituri appeared to have lowered his biological age (an indicator of the aging process of the body), although he was recorded as having shrunk by over 1 cm (approximately 0.5 inches) due to the pressurized environment inside the lodge.
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A Step Towards Living Underwater
With limited data, we still have a tenuous understanding of life in aquatic environments. This is where Deep comes in.
The ocean technology and exploration company aims to develop two habitats by 2027, with the goal of establishing a permanent underwater presence. They are using a submerged quarry in Gloucestershire as a testing ground for their underwater habitats.
Deep is developing two habitat models: Vanguard, designed for three-person short stays, and Sentinel, a 16-meter (52-foot) capsule intended as a long-term habitat complete with living quarters, bedrooms, and research facilities, capable of accommodating researchers at depths of up to 200 meters (656 feet) for 28 days.
The aim is to enable researchers to remain submerged for extended periods, allowing for comprehensive studies of underwater living impacts and marine life. However, achieving these depths poses significant challenges.
“The most hazardous aspects of diving occur during descent,” explains Dr. Dawn Kernagis, Deep’s scientific research director. “Divers breathe compressed gas, with fluctuating pressure increasing the risk of decompression sickness (DCS), where gas bubbles form in the bloodstream.”
While most DCS cases are mild, severe instances can impact the brain, spinal cord, respiratory system, and circulatory systems.
To mitigate these risks, Deep aims to keep researchers “saturated” in the Sentinel habitats. This means achieving a new equilibrium with the underwater environment.
“Saturated tanks, like ours, facilitate diving into greater depths and adjusting to the pressure, enabling much longer stays, ranging from hours to about a month,” states Kernagis.
Deep plans for close monitoring of researchers during their stays to better understand the long-term physical and psychological effects of deep-sea living.
The foundation laid now may support future inhabitants underwater for weeks, months, or even years. In the not-so-distant future, some of us may find ourselves living in a modern-day Atlantis.
About Our Experts
Dr. Dawn Kernagis is the director of scientific research at Deep, a UK-based ocean technology and exploration firm. She has published in numerous scientific journals, including Journal of Clinical Oncology, Proceedings of the National Academy of Sciences, and Circulation.
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Source: www.sciencefocus.com