The search for extraterrestrial life may be operating within overly narrow parameters, as powerful tools like the James Webb Space Telescope offer new opportunities to detect more exotic biosignature gases from lifeforms thriving in conditions vastly different from those on Earth, according to new research.
MIT Professor of Physics Sara Seager led the study, which reviews the variety of gases and extreme environments that could theoretically host life in forms unlike anything found on Earth. Rather than focusing solely on Earth analogs, the study urges astrobiologists to expand the scope of their search. With over two decades of exoplanet discoveries, scientists now have a broad range of targets in the search for life — if they widen their approach.
The Direct Approach
Where earlier efforts to find extraterrestrial life, such as SETI, largely waited for signals from other advanced civilizations, modern scientists are using the James Webb Space Telescope to actively search for biosignatures produced by even the simplest life forms on distant exoplanets.
While this method is innovative in some respects, astronomers have primarily focused on Earth-like planets, which, as real-world exoplanet research shows, are less common than once speculated. By broadening their definitions of life, researchers hope to avoid overlooking potentially habitable worlds among the thousands of exoplanets identified so far.
Extremophiles and Bacteria Demonstrate Life’s Resilience
As with much exobiology research, the team began by examining the only known life-hosting planet: Earth. Some organisms here are remarkably resilient, thriving in conditions that would be lethal to others. Among the most notable are bacteria and extremophiles; tiny organisms capable of enduring Earth’s harshest environments.
Bacteria, in particular, offer hope for expanding the range of gases that might indicate life. Studies on Earth have shown that these small life forms can survive and even thrive in gases such as carbon dioxide, carbon monoxide, hydrogen, and helium. Such findings suggest that life could exist under conditions far different from those on our planet.
Extremophiles likewise challenge traditional concepts of habitability. A notable example is the tardigrade, or “water bear.” These tiny half-millimeter creatures have been observed withstanding radiation, extreme temperatures and pressures, starvation, and even direct exposure to outer space.
New Places to Look for Extraterrestrial Life
The team proposes two major avenues for reconsidering where to search for alien life, first by investigating gas planets for life forms that could exist in thick atmospheres high above their searing hot rock cores. This concept, known as a “cloud biosphere,” suggests that sub-Neptunes with permanent water clouds could theoretically support life.
Researchers point to work dating back to the 1970s, which hypothesized that chemical reactions in such environments might give rise to life. One challenge is that life requires metal ions for catalytic reactions, meaning that without contact with a planetary surface, organisms would have to rely on meteors delivering these essential ingredients.
The second avenue moves beyond just water, considering other solvents that could form life-supporting oceans for creatures very different from Earth’s. Some terrestrial organisms live in highly acidic environments, and laboratory studies have shown that even concentrated sulfuric acid can sustain organic chemistry. This opens up the possibility that conditions more acidic than any on Earth, such as the sulfuric acid clouds of Venus, could support life.
Hellbound and Down 