Wednesday, February 21, 2024

Martian meteorite contains wide range of organic compounds

(Carnegie Institution for Science) The Martian meteorite Tissint contains a huge diversity of organic compounds, found an international team of researchers led by Technical University of Munich and Helmholtz Munich’s Philippe Schmitt-Kopplin and including Carnegie’s Andrew Steele. Their work is published in Science Advances.

Tissint, which crash landed in Morocco more than 11 years ago, is one of only five Martian meteorites that have been observed as they fell to Earth. Pieces of it were found scattered around the desert about 48 kilometres from the town after which it is named.

This sample of Martian rock was formed hundreds of millions of years ago on our next-door planetary neighbour and was launched into space by a violent event. Unraveling the origin stories of the Tissint meteorite’s organic compounds can help scientists understand whether the Red Planet ever hosted life, as well as Earth’s geologic history.

“Mars and Earth share many aspects of their evolution,” said lead author Schmitt-Kopplin. “And while life arose and thrived on our home planet, the question of whether it ever existed on Mars is a very hot research topic that requires deeper knowledge of our neighbouring planet’s water, organic molecules, and reactive surfaces.”

Organic molecules contain carbon, hydrogen, oxygen, nitrogen, sulfur, and sometimes other elements. Organic compounds are commonly associated with life, although previous Martian meteorite research demonstrated that they can be created by non-biological processes, referred to as abiotic organic chemistry.

“Understanding the processes and sequence of events that shaped this rich organic bounty will reveal new details about Mars’s habitability and potentially about the reactions that could lead to the formation of life,” added Steele, who has done extensive research on organic material in Martian meteorites, including Tissint, and is a member of both the Perseverance and Curiosity rovers’ science teams.

The researchers were able to thoroughly analyze the meteorite’s organic inventory, revealing a link between the type and diversity of organic molecules and specific mineralogy. Their efforts resulted in the most comprehensive catalog made of the diversity of organic compounds found in a Martian meteorite or in a sample collected and analyzed by a rover. This work uncovered details about how the processes occurring in Mars’s mantle and crust evolved, especially with regard to abiotic organics that formed from water-rock interactions.

Of particular interest was the abundance of organic magnesium compounds, a suite of organic molecules not previously seen on Mars, which offer new insights about the high-pressure, high-temperature geochemistry that shaped the Red Planet’s deep interior and indicate a connection between its carbon cycle and its mineral evolution.

The researchers say that samples returned from Mars by future missions should provide an unprecedented amount of information about the formation, stability, and dynamics of organic compounds in real Martian environments.

 

https://phys.org/news/2023-01-martian-meteorite-diverse-array-compounds.html

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