Process could have forced Red Planet’s atmospheric carbon dioxide into the dirt
SUERC/Univ. of Glasgow
Mars’ atmosphere — once rich in carbon dioxide — may have moved underground through carbonation.
The process happens on Earth when water, CO2 and silicate minerals such as olivine interact to form carbonate, which is then stored in the planet’s crust.
In a new study, Tim Tomkinson of the Scottish Universities Environmental Research Centre and colleagues analyzed the minerals in the Lafayette meteorite, which scientists think formed on the Red Planet 1.3 billion years ago and came crashing into Earth 3,000 years ago.
The space rock contained carbonate, which could have formed when the meteorite’s silicate minerals interacted with liquid water, rich in CO2 from the atmosphere, that may have existed on the planet a few billion years ago, the scientists suggest October 22 in Nature Communications.
Note: To comment, Science News subscribing members must now establish a separate login relationship with Disqus. Click the Disqus icon below, enter your e-mail and click “forgot password” to reset your password. You may also log into Disqus using Facebook, Twitter or Google.