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https://web.archive.org/web/20240927011650/http:/news.mit.edu/2024/mars-missing-atmosphere-could-be-hiding-plain-sight-0925

Mars’ missing atmosphere could be hiding in plain sight

MIT research suggests Mars’ missing atmosphere — which dramatically diminished 3.5 billion years ago — could be locked in the planet’s clay-covered crust. Water on Mars could have set off a chain reaction that drew CO2 out of the atmosphere and converted it into methane within clay minerals.



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Mars’ missing atmosphere could be hiding in plain sight

https://web.archive.org/web/20240927011650/http:/news.mit.edu/2024/mars-missing-atmosphere-could-be-hiding-plain-sight-0925

MIT research suggests Mars’ missing atmosphere — which dramatically diminished 3.5 billion years ago — could be locked in the planet’s clay-covered crust. Water on Mars could have set off a chain reaction that drew CO2 out of the atmosphere and converted it into methane within clay minerals.



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https://web.archive.org/web/20240927011650/http:/news.mit.edu/2024/mars-missing-atmosphere-could-be-hiding-plain-sight-0925

Mars’ missing atmosphere could be hiding in plain sight

MIT research suggests Mars’ missing atmosphere — which dramatically diminished 3.5 billion years ago — could be locked in the planet’s clay-covered crust. Water on Mars could have set off a chain reaction that drew CO2 out of the atmosphere and converted it into methane within clay minerals.

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      MIT research suggests Mars’ missing atmosphere — which dramatically diminished 3.5 billion years ago — could be locked in the planet’s clay-covered crust. Water on Mars could have set off a chain reaction that drew CO2 out of the atmosphere and converted it into methane within clay minerals.
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      MIT EAPS, Oliver Jagoutz, Joshua Murray, Mars carbon dioxide, planetary atmospheres, early Mars climate, Martian atmosphere, Mars water

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      MIT research suggests Mars’ missing atmosphere — which dramatically diminished 3.5 billion years ago — could be locked in the planet’s clay-covered crust. Water on Mars could have set off a chain reaction that drew CO2 out of the atmosphere and converted it into methane within clay minerals.
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