Mystery of Martian meteorites (and life on Mars) solved
The organic molecules found on various Mars rocks are actually from volcanoes, not organic life.
Thu, May 24, 2012 at 02:03 PM
THE ROCK FROM MARS: A sample of a Mars rock from the Tissint meteorite fall, which dropped chunks of the Red Planet into the Morocco desert in July 2011. (Photo: Darryl Pitt/Macovich Collection)
Organic molecules — compounds that on Earth can be linked with life — encased within Martian meteorites now reveal biological activity on the Red Planet could not have formed these materials, researchers say.
Organic molecules are the carbon-based raw materials that building blocks of life such as proteins and DNA are made from. These organic compounds have been detected in meteorites from Mars that crashed on Earth before, but scientists have hotly debated what their origins are — they might be signs of life on the Red Planet, or merely contaminants that made their way into the rocks after they landed.
To help solve the mystery behind these organic molecules, researchers analyzed 11 Martian meteorites, including the new Tissint meteorite that fell into the Moroccan desert in 2011. Altogether, these rocks span 4.2 billion years of Martian history.
The investigators now reveal that organic molecules within these meteorites did originate on Mars.
"Mars apparently has had organic carbon chemistry for a long time," study lead author Andrew Steele, a microbiologist at the Carnegie Institution of Washington, told SPACE.com.
However, these organic molecules do not appear biological in origin.
"They formed from volcanic processes," Steele said.
Ten of the meteorites possessed complex hydrocarbons — compounds of carbon and hydrogen atoms — encased within grains of crystallized minerals that formed within cooling magma. [5 Bold Claims of Alien Life]
"When the minerals crystallized from the magma, they trapped carbon in them, and over time, organic compounds formed within these mineral bottles," Steele said.
One might wonder if organic molecules from potential microbes on Mars made their way into this magma via geological activity, much as how tectonic processes on Earth shifts matter around our planet. However, "such processes are very peculiar to Earth — Mars does not have tectonics," Steele said.
An open question now is what other activity might have taken place on Mars after such organic molecules formed.
"We now find that Mars has organic chemistry, and on Earth, organic chemistry led to life, so what is the fate of this material on Mars, the raw material that the building blocks of life are put together from?" Steele said.
Now that scientists have a better picture of the foundations of Martian chemistry, they can better look for anomalies that might be signs of life with missions to the Red Planet, such as NASA's Mars Science Laboratory, scheduled to land the Curiosity rover on Mars in August this year.
"We'll see if there are hints that Mars is not a dead planet," Steele said.
The scientists detailed their findings online on May 24 in the journal Science.
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