Samples Collected From the Floor of Jezero Crater With the Mars 2020 Perseverance Rover

Justin I. Simon; Keyron Hickman‐Lewis; B. A. Cohen; L. E. Mayhew; David L. Shuster; Vinciane Debaille; Elisabeth M. Hausrath; B. P. Weiss; Tanja Bosak; María‐Paz Zorzano; H. E. F. Amundsen; L. W. Beegle; J. F. Bell; Kathleen C. Benison; E. L. Berger; Olivier Beyssac; A. J. Brown; F. J. Calef; Titus M. Casademont; B. C. Clark; Elise Clavé; L. S. Crumpler; Andrew D. Czaja; Alberto González Fairén; Kenneth A. Farley; David Flannery; Teresa Fornaro; O. Forni; Felipe Gómez; Y. S. Goreva; Andrew L. Gorin; K. P. Hand; S. E. Hamran; Jesper Henneke; C. D. K. Herd; B. Horgan; J. R. Johnson; J. Joseph; R. E. Kronyak; Juan Manuel Madariaga; J. N. Maki; Lucia Mandon; F. M. McCubbin; S. M. McLennan; R. Moeller; Claire Newman; Jorge I. Núñez; A. C. Pascuzzo; David A. K. Pedersen; Giovanni Poggiali; P. Pinet; C. Quantin‐Nataf; M. S. Rice; J. W. Rice; Clément Royer; M. E. Schmidt; Mark A. Sephton; Sunanda Sharma; Sandra Siljeström; K. M. Stack; A. Steele; V. Z. Sun; Arya Udry; S. J. VanBommel; M. Wadhwa; R. C. Wiens; Amy J. Williams; Kenneth H. Williford

doi:10.1029/2022je007474

Samples Collected From the Floor of Jezero Crater With the Mars 2020 Perseverance Rover

Justin I. Simon(Johnson Space Center), Keyron Hickman‐Lewis(Natural History Museum), B. A. Cohen(Goddard Space Flight Center), L. E. Mayhew(University of Colorado Boulder), David L. Shuster(University of California, Berkeley), Vinciane Debaille(Université Libre de Bruxelles), Elisabeth M. Hausrath(University of Nevada, Las Vegas), B. P. Weiss(Massachusetts Institute of Technology), Tanja Bosak(Massachusetts Institute of Technology), María‐Paz Zorzano(Centro de Astrobiología), H. E. F. Amundsen(The Research Council of Norway), L. W. Beegle(Jet Propulsion Laboratory), J. F. Bell(Arizona State University), Kathleen C. Benison(West Virginia University), E. L. Berger(Texas State University), Olivier Beyssac(Centre National de la Recherche Scientifique), A. J. Brown, F. J. Calef(Jet Propulsion Laboratory), Titus M. Casademont(The Research Council of Norway), B. C. Clark(Space Science Institute), Elise Clavé(Centre National de la Recherche Scientifique), L. S. Crumpler(New Mexico Museum of Natural History and Science), Andrew D. Czaja(University of Cincinnati), Alberto González Fairén(Cornell University), Kenneth A. Farley(California Institute of Technology), David Flannery(Queensland University of Technology), Teresa Fornaro(Arcetri Astrophysical Observatory), O. Forni(Centre National de la Recherche Scientifique), Felipe Gómez(Centro de Astrobiología), Y. S. Goreva(Jet Propulsion Laboratory), Andrew L. Gorin(Université Libre de Bruxelles), K. P. Hand(Jet Propulsion Laboratory), S. E. Hamran(The Research Council of Norway), Jesper Henneke(Technical University of Denmark), C. D. K. Herd(University of Alberta), B. Horgan(Purdue University West Lafayette), J. R. Johnson(Johns Hopkins University Applied Physics Laboratory), J. Joseph(Cornell University), R. E. Kronyak(Jet Propulsion Laboratory), Juan Manuel Madariaga(University of the Basque Country), J. N. Maki(Jet Propulsion Laboratory), Lucia Mandon(Centre National de la Recherche Scientifique), F. M. McCubbin(Johnson Space Center), S. M. McLennan(Stony Brook University), R. Moeller(Jet Propulsion Laboratory), Claire Newman(Aeolis Research (United States)), Jorge I. Núñez(Purdue University West Lafayette), A. C. Pascuzzo(Malin Space Science Systems (United States)), David A. K. Pedersen(University of Alberta), Giovanni Poggiali(Arcetri Astrophysical Observatory), P. Pinet(Centre National de la Recherche Scientifique), C. Quantin‐Nataf(Université Claude Bernard Lyon 1), M. S. Rice(Western Washington University), J. W. Rice(Arizona State University), Clément Royer(Centre National de la Recherche Scientifique), M. E. Schmidt(Brock University), Mark A. Sephton(Imperial College London), Sunanda Sharma(Jet Propulsion Laboratory), Sandra Siljeström(RISE Research Institutes of Sweden), K. M. Stack(Jet Propulsion Laboratory), A. Steele(Carnegie Institution for Science), V. Z. Sun(Jet Propulsion Laboratory), Arya Udry(University of Nevada, Las Vegas), S. J. VanBommel(Washington University in St. Louis), M. Wadhwa(Jet Propulsion Laboratory), R. C. Wiens(Purdue University West Lafayette), Amy J. Williams(University of Florida), Kenneth H. Williford(Blue Marble Space)

Journal of Geophysical Research Planets

February 9, 2023

10.1029/2022je007474

Cited by 101Open Access

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Abstract

Abstract The first samples collected by the Mars 2020 mission represent units exposed on the Jezero Crater floor, from the potentially oldest Séítah formation outcrops to the potentially youngest rocks of the heavily cratered Máaz formation. Surface investigations reveal landscape‐to‐microscopic textural, mineralogical, and geochemical evidence for igneous lithologies, some possibly emplaced as lava flows. The samples contain major rock‐forming minerals such as pyroxene, olivine, and feldspar, accessory minerals including oxides and phosphates, and evidence for various degrees of aqueous activity in the form of water‐soluble salt, carbonate, sulfate, iron oxide, and iron silicate minerals. Following sample return, the compositions and ages of these variably altered igneous rocks are expected to reveal the geophysical and geochemical nature of the planet's interior at the time of emplacement, characterize martian magmatism, and place timing constraints on geologic processes, both in Jezero Crater and more widely on Mars. Petrographic observations and geochemical analyses, coupled with geochronology of secondary minerals, can also reveal the timing of aqueous activity as well as constrain the chemical and physical conditions of the environments in which these minerals precipitated, and the nature and composition of organic compounds preserved in association with these phases. Returned samples from these units will help constrain the crater chronology of Mars and the global evolution of the planet's interior, for understanding the processes that formed Jezero Crater floor units, and for constraining the style and duration of aqueous activity in Jezero Crater, past habitability, and cycling of organic elements in Jezero Crater.

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