Tiny beads¹ of volcanic² glass found on the lunar surface during the Apollo missions are a sign that fire fountain eruptions⁴ took place on the Moon's surface. Now, scientists from Brown University and the Carnegie Institution for Science have identified the volatile⁵ gas that drove those eruptions. Fire fountains, a type of eruption³ that occurs frequently in Hawaii, require the presence of volatiles mixed in with the erupting lava⁶. Volatile compounds turn into gas as the lavas⁷ rise from the depths. That expansion of that gas causes lava to blast into the air once it reaches the surface, a bit like taking the lid of a shaken bottle of soda⁸.

 

"The question for many years was what gas produced these sorts of eruptions on the Moon," said Alberto Saal, associate professor of earth, environmental, and planetary sciences at Brown and corresponding author of the new research. "The gas is gone, so it hasn't been easy to figure out."

 

The research, published in Nature Geoscience, suggests that lava associated with lunar fire fountains contained significant amounts of carbon. As it rose from the lunar depths, that carbon combined with oxygen to make substantial amounts carbon monoxide (CO) gas. That CO gas was responsible for the fire fountains that sprayed volcanic glass over parts of the lunar surface.

 

For many years, the Moon was thought to be devoid⁹ of volatiles like hydrogen and carbon. It wasn't until the last decade or so that volatiles were definitively¹⁰ detected in lunar samples. In 2008, Saal and colleagues detected water in lunar volcanic beads. They followed that discovery with detections of sulfur¹¹, chlorine and fluorine. While it became apparent that the Moon was not completely depleted¹² of volatiles as was once thought, none of the volatiles that had been detected were consistent with fire fountain eruptions. For example, if water had been the driving force, there should be mineralogical signatures in recovered samples. There are none.

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