NASA catches biological signs on 1.5 billion year old planet

Something that on Earth is produced by living organisms, considered by astronomers to be one of the most valuable biosignatures, has just been revealed in the spectrum of a planet called WASP-80b.

WASP-80b is a warm, gas giant about half the mass of Jupiter. It is part of a star system about 1.5 billion years old, located 162 light years away.

Using the state-of-the-art James Webb telescope, a team of scientists led by NASA has made a "golden discovery" : Methane and water vapor in the atmosphere of WASP-80b.

Picture 1 of NASA catches biological signs on 1.5 billion year old planet
WASP-80b has an atmosphere filled with methane - (Photo: NASA).

Methane and water vapor are considered two of the potential signs of life that astronomers expect to find on other planets.

Among them, the discovery of methane is of most interest.

On Earth, large amounts of methane are produced by living organisms. Methane can also have non-biological origins, but only in small amounts. Therefore, the discovery of abundant methane on another world is considered a biosignature.

According to the article published in the scientific journal Nature, the discovery of WASP-80b serves as a detailed guide for how scientists can take advantage of the "young" James Webb observing instrument to find potentially habitable worlds.

Designed with the primary mission of hunting for ancient objects billions of light years away to study the early universe, the James Webb is also used to collect detailed spectra of the atmospheres of distant planets.

Those data reveal the chemical composition of the atmosphere, including components that might suggest the presence of living organisms or the planet's ability to support life.

The discovery of methane 162 light years away by James Webb was a breakthrough. It is also a difficult planet to observe because it is so close to its parent star that it is lost in the light.

The only sad thing is that there will be no Earth-style life on WASP-80b , a gas planet with a surface temperature of up to 550 degrees Celsius . Of course, the possibility of extreme creatures is not ruled out, because the planet is still confusing because of too much methane.

According to NASA, the discovery of methane in exoplanet atmospheres also helps to understand more about how this biological gas exists on planets in the Solar System.

In addition to hinting at life, methane also helps understand how planets form and how they "migrated" away from or closer to their parent stars in the past.