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Diverse organic-mineral associations in Jezero crater, Mars

Author

Listed:
  • Sunanda Sharma

    (California Institute of Technology)

  • Ryan D. Roppel

    (University of Pittsburgh)

  • Ashley E. Murphy

    (Planetary Science Institute)

  • Luther W. Beegle

    (Melanie Sauer and Associates, LLC)

  • Rohit Bhartia

    (Photon Systems Incorporated)

  • Andrew Steele

    (Carnegie Institution for Science)

  • Joseph Razzell Hollis

    (The Natural History Museum)

  • Sandra Siljeström

    (RISE Research Institutes of Sweden)

  • Francis M. McCubbin

    (NASA Johnson Space Center)

  • Sanford A. Asher

    (University of Pittsburgh)

  • William J. Abbey

    (California Institute of Technology)

  • Abigail C. Allwood

    (California Institute of Technology)

  • Eve L. Berger

    (NASA Johnson Space Center
    Texas State University
    Jacobs JETS II)

  • Benjamin L. Bleefeld

    (Malin Space Science Systems, Inc.)

  • Aaron S. Burton

    (NASA Johnson Space Center)

  • Sergei V. Bykov

    (University of Pittsburgh)

  • Emily L. Cardarelli

    (California Institute of Technology)

  • Pamela G. Conrad

    (Carnegie Institution for Science)

  • Andrea Corpolongo

    (University of Cincinnati)

  • Andrew D. Czaja

    (University of Cincinnati)

  • Lauren P. DeFlores

    (California Institute of Technology)

  • Kenneth Edgett

    (Malin Space Science Systems, Inc.)

  • Kenneth A. Farley

    (California Institute of Technology)

  • Teresa Fornaro

    (INAF)

  • Allison C. Fox

    (NASA Johnson Space Center
    Texas State University
    Jacobs JETS II)

  • Marc D. Fries

    (NASA Johnson Space Center)

  • David Harker

    (Malin Space Science Systems, Inc.)

  • Keyron Hickman-Lewis

    (The Natural History Museum)

  • Joshua Huggett

    (Malin Space Science Systems, Inc.)

  • Samara Imbeah

    (Malin Space Science Systems, Inc.)

  • Ryan S. Jakubek

    (NASA Johnson Space Center
    Jacobs JETS II)

  • Linda C. Kah

    (University of Tennessee)

  • Carina Lee

    (NASA Johnson Space Center
    Texas State University
    Jacobs JETS II)

  • Yang Liu

    (California Institute of Technology)

  • Angela Magee

    (Malin Space Science Systems, Inc.)

  • Michelle Minitti

    (Framework)

  • Kelsey R. Moore

    (California Institute of Technology)

  • Alyssa Pascuzzo

    (Malin Space Science Systems, Inc.)

  • Carolina Rodriguez Sanchez-Vahamonde

    (Malin Space Science Systems, Inc.)

  • Eva L. Scheller

    (Massachusetts Institute of Technology)

  • Svetlana Shkolyar

    (University of Maryland
    NASA Goddard Space Flight Center
    Blue Marble Space Institute of Science)

  • Kathryn M. Stack

    (California Institute of Technology)

  • Kim Steadman

    (California Institute of Technology)

  • Michael Tuite

    (California Institute of Technology)

  • Kyle Uckert

    (California Institute of Technology)

  • Alyssa Werynski

    (Malin Space Science Systems, Inc.)

  • Roger C. Wiens

    (Purdue University)

  • Amy J. Williams

    (University of Florida)

  • Katherine Winchell

    (Arizona State University)

  • Megan R. Kennedy

    (Malin Space Science Systems, Inc.)

  • Anastasia Yanchilina

    (Impossible Sensing, LLC)

Abstract

The presence and distribution of preserved organic matter on the surface of Mars can provide key information about the Martian carbon cycle and the potential of the planet to host life throughout its history. Several types of organic molecules have been previously detected in Martian meteorites1 and at Gale crater, Mars2–4. Evaluating the diversity and detectability of organic matter elsewhere on Mars is important for understanding the extent and diversity of Martian surface processes and the potential availability of carbon sources1,5,6. Here we report the detection of Raman and fluorescence spectra consistent with several species of aromatic organic molecules in the Máaz and Séítah formations within the Crater Floor sequences of Jezero crater, Mars. We report specific fluorescence-mineral associations consistent with many classes of organic molecules occurring in different spatial patterns within these compositionally distinct formations, potentially indicating different fates of carbon across environments. Our findings suggest there may be a diversity of aromatic molecules prevalent on the Martian surface, and these materials persist despite exposure to surface conditions. These potential organic molecules are largely found within minerals linked to aqueous processes, indicating that these processes may have had a key role in organic synthesis, transport or preservation.

Suggested Citation

  • Sunanda Sharma & Ryan D. Roppel & Ashley E. Murphy & Luther W. Beegle & Rohit Bhartia & Andrew Steele & Joseph Razzell Hollis & Sandra Siljeström & Francis M. McCubbin & Sanford A. Asher & William J. , 2023. "Diverse organic-mineral associations in Jezero crater, Mars," Nature, Nature, vol. 619(7971), pages 724-732, July.
    • Handle: RePEc:nat:nature:v:619:y:2023:i:7971:d:10.1038_s41586-023-06143-z
    DOI: 10.1038/s41586-023-06143-z
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