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Aeolian Changes at the InSight Landing Site on Mars: Multi-instrument Observations
  • +29
  • Constantinos Charalambous,
  • John McClean,
  • Mariah MacQueen Baker,
  • Tom Pike,
  • Matthew P. Golombek,
  • Mark T Lemmon,
  • Véronique Ansan,
  • Clement Perrin,
  • Aymeric Spiga,
  • Ralph D. Lorenz,
  • Maria Elaine Banks,
  • Sebastien Rodriguez,
  • Naomi Murdoch,
  • Catherine M. Weitz,
  • John A. Grant,
  • Nicholas Hale Warner,
  • Ingrid Justine Daubar,
  • Ernst Hauber,
  • Alexander E Stott,
  • Catherine L. Johnson,
  • Anna Magdalena Mittelholz,
  • Tristram Warren,
  • Sara Navarro López,
  • Luis Mora Sotomayor,
  • Justin N. Maki,
  • Antoine Lucas,
  • Donald Banfield,
  • Claire Newman,
  • Daniel Viúdez-Moreiras,
  • Jorge Pla-García,
  • Philippe Henri Lognonné,
  • William Bruce Banerdt
Constantinos Charalambous
Imperial College London

Corresponding Author:[email protected]

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John McClean
Imperial College London
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Mariah MacQueen Baker
Johns Hopkins University
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Tom Pike
Imperial College
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Matthew P. Golombek
California Institute of Technology/JPL
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Mark T Lemmon
Space Science Institute
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Véronique Ansan
Université de Nantes
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Clement Perrin
Institut De Physique Du Globe De Paris
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Aymeric Spiga
Sorbonne Université (Faculté des Sciences)
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Ralph D. Lorenz
Johns Hopkins University Applied Physics Lab
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Maria Elaine Banks
NASA Goddard Space Flight Center
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Sebastien Rodriguez
Institut de Physique du Globe de Paris (IPGP), Université Paris-Diderot
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Naomi Murdoch
ISAE SUPAERO
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Catherine M. Weitz
Planetary Science Institute
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John A. Grant
Smithsonian Institution
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Nicholas Hale Warner
SUNY Geneseo
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Ingrid Justine Daubar
Brown University
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Ernst Hauber
DLR
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Alexander E Stott
Imperial College London
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Catherine L. Johnson
University of British Columbia
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Anna Magdalena Mittelholz
The University of British Columbia
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Tristram Warren
Oxford University
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Sara Navarro López
Centro de Astrobiología
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Luis Mora Sotomayor
Centro de Astrobiología
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Justin N. Maki
Jet Propulsion Lab (NASA)
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Antoine Lucas
IPGP
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Donald Banfield
Cornell
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Claire Newman
Aeolis Research
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Daniel Viúdez-Moreiras
Centro de Astrobiología (INTA-CSIC)
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Jorge Pla-García
Centro de Astrobiología (CSIC-INTA)
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Philippe Henri Lognonné
Institut de Physique du Globe de Paris et Université de Paris Diderot
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William Bruce Banerdt
Jet Propulsion Laboratory
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Abstract

Orbital and surface observations demonstrate that aeolian activity is occurring on Mars. Here we report the aeolian changes observed in situ by NASA's InSight lander during the first 400 sols of operations. Aeolian changes include creep of grains with diameters of up to 3 mm, dust removal, dark trails left by passing vortices and possible saltation. InSight has observed such changes by using, for the first time, simultaneous imaging and continuous, high-frequency meteorological, seismological, and magnetic measurements. We show that this multi-instrument combination constrains both the timing, and specific atmospheric conditions during which, aeolian changes occur. The observed changes are infrequent and episodic, consistently occur between noon and 3 pm, and are systematically associated with the passage of convective vortices. The sudden onset of peak vortex wind speeds promotes particle motion during sequences of enhanced vortex activity and stronger ambient winds. Aeolian changes are correlated with excursions in ground acceleration and magnetic field strength, suggesting vortex-induced ground deformation and charged-particle motion.