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Mars

Rover Sampling Finds Organic Molecules In Water-Altered Rocks (arstechnica.com) 8

The Perseverance rover's Scanning Habitable Environments with Raman & Luminescence for Organics & Chemicals (SHERLOC) instrument, designed to analyze organic chemicals on Mars, has provided valuable insights into the presence and distribution of potential organic materials on the surface of Mars. The findings have been published in the journal Nature. An anonymous reader shares a report from Ars Technica: SHERLOC comes with a deep-UV laser to excite molecules into fluorescing, and the wavelengths they fluoresce at can tell us something about the molecules present. It's also got the hardware to do Raman spectroscopy simultaneously. Collectively, these two capabilities indicate what kinds of molecules are present, though they can't typically identify specific chemicals. And, critically, SHERLOC provides spatial information, telling us where sample-specific signals come from. This allows the instrument to determine which chemicals are located in the same spot in a rock and thus were likely formed or deposited together.

SHERLOC can sample rocks simply by being held near them. The new results are based on a set of samples from two rock formations found on the floor of the Jezero crater. In some cases, the imaging was done by pointing it directly at a rock; in others, the rock surface, and any dust and contaminants it contained, was abraded away by Perseverance before the imaging was done. SHERLOC identified a variety of signatures of potential organic material in these samples. There were a few cases where it was technically possible that the signatures were produced by a very specific chemical that lacked carbon (primarily cerium salts). But, given the choice between a huge range of organic molecules or a very specific salt, the researchers favor organic materials as the source. One thing that was clear was that the level of organic material present changed over time. The deeper, older layer called Seitah only had a tenth of the material found in the Maaz rocks that formed above them. The reason for this difference isn't clear, but it indicates that either the production or deposition of organic material on Mars has changed over time.

Between the different samples and the ability to resolve different regions of the samples, the researchers were able to identify distinct signals that each occurred in many samples. While it wasn't possible to identify the specific molecule responsible, they were able to say a fair bit about them. One signal came from samples that contained a ringed organic compound, along with sulfates. The most common signal came from a two-ringed organic molecule, and was associated with various salts: phosphate, sulfate, silicates, and potentially a perchlorate. Another likely contained a benzene ring associated with iron oxides. A different ringed compound was found in two of the samples. Overall, the researchers conclude that these differences are significant. The fact that distinct organic chemicals are consistently associated with different salts suggests that there were either several distinct ways of synthesizing the organics or that they were deposited and preserved under distinct conditions. Many of the salts seen here are also associated with either water-based deposition or water-driven chemical alteration of the rock -- again, consistent with the processes involved changing over time. Collectively, the researchers say this argues against the organic chemicals simply having been delivered to Mars on a meteorite.

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Rover Sampling Finds Organic Molecules In Water-Altered Rocks

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  • That would be interesting. It would mean someone contaminated the rover prior to its launch on Earth.

  • Does this mean Perseverance can do taste testing? Which brand does it prefer?

    • Does this mean Perseverance can do taste testing? Which brand does it prefer?

      Summary provides the answer:

      samples from two rock formations

      Or, to put it another way, "I don't always taste extraterrestrial chemicals, but when I do, I prefer Dos Roquies."

  • by groobly ( 6155920 ) on Thursday July 13, 2023 @11:39AM (#63682909)

    Anyplace there is carbon, hydrogen, and enough time and temperature/pressure variation and maybe add electric arcs such as lightning, there are eventually going to be organic molecules.

    • That is ... probably true. The main outcome from the Miller-Urey experiment [wikipedia.org]. Even if ideas about the specific composition of the Earth's early atmosphere have changed since then, the general recipe still works to produce a wide range of organic molecules. You still get the "concentration problem", but you get that everywhere, and there are multiple capable solutions to that.

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