Why Extraterrestrial Life May Be More Unlikely Than Scientists Thought


Scientists analyzed the Crab Nebula, which is expanding debris from the explosion of a massive star. Credit: NASA; CXC (X-ray); STSCI (Optical); JPL-Caltech (Infrared)
Phosphorus is an essential element for life — but that there was enough of it for life to start on Earth might just have been a matter of luck, new findings suggest.

By Marcus Woo | SPACE.com

According to new observations of the Crab Nebula — the leftovers from an exploding star first seen by Chinese astronomers in 1054 — presented on April 5 at the European Week of Astronomy and Space Science in Liverpool, England, the abundance and distribution of phosphorus in the Milky Way galaxy may be more random than scientists previously thought. As such, some places in the galaxy may not have enough phosphorus to support life, even if they are home to otherwise hospitable exoplanets, the researchers said. [Extreme Life on Earth: 8 Bizarre Creatures]

Most of the universe’s phosphorus was created during the last gasps of dying massive stars or during a supernova — when such a star exhausts its fuel and explodes. Phosphorus is difficult to observe, and only in 2013 did astronomers make the first measurements of the element in a stellar explosion, in the wispy remains of a supernova called Cassiopeia A. Surprisingly, they found up to 100 times more phosphorus than what’s observed in the rest of the Milky Way.

But that might have been an outlier. Recently, astronomers Jane Greaves and Phil Cigan of Cardiff University in the U.K. pointed the William Herschel Telescope in the Canary Islands toward the Crab Nebula, located about 6,500 light-years away. Preliminary data, analyzed just two weeks ago, shows an amount of phosphorus more similar to the values found in the interstellar gas and dust of the Milky Way — a pittance compared with the abundance in Cassiopeia A. (The findings have not yet been submitted to a peer-reviewed journal.)

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