Add to ORKGThe Mars Science Laboratory rover Curiosity visited two active wind-blown sand dunes within Gale crater, Mars, which provided the first ground-based opportunity to compare Martian and terrestrial eolian dune sedimentary processes and study a modern analog for the Martian eolian rock record. Orbital and rover images of these dunes reveal terrestrial-like and uniquely Martian processes. The presence of grainfall, grainflow, and impact ripples resembled terrestrial dunes. Impact ripples were present on all dune slopes and had a size and shape similar to their terrestrial counterpart. Grainfall and grainflow occurred on dune and large-ripple lee slopes. Lee slopes were ~29° where grainflows were present and ~33° where grainfall was present. The...
International audienceThefirst in situ investigation of an active dunefield on another planetary sur...
Ancient sediments provide archives of climate and habitability on Mars. Gale Crater, the landing sit...
Reconstruction of the palaeoenvironmental context of Martian sedimentary rocks is central to studies...
Eolian dune fields on Earth and Mars evolve as complex systems within a set of boundary conditions. ...
The Bagnold dunes in Gale Crater, Mars, are the first active aeolian dune field explored in situ on ...
Earth's sandy deserts host two main types of bedforms - decimeter-scale ripples and larger dunes. Ye...
Wind blowing over sand on Earth produces decimeter-wavelength ripples and hundred-meter– to kilomete...
Gale Crater contains Mount Sharp, a ~5km thick stratigraphic record of Mars’ early environmental hi...
The landscape seen by the Mars Exploration Rover (MER) Opportunity at Meridiani Planum is dominated ...
Large ripples with meter‐scale wavelengths are ubiquitous across Mars. Curiosity's traverse of the B...
Active aeolian systems are present across the martian surface, with active dune fields commonly foun...
Curiosity investigated active eolian sands near linear dunes during Phase 2 of the Bagnold Dunes cam...
The landscape seen by the Mars Exploration Rover (MER) Opportunity at Meridiani Planum is dominated ...
The Mars Science Laboratory (MSL) Curiosity rover landed at Gale crater in August 2012 with the goal...
Over the past few decades, orbiters, landers, and rovers have significantly expanded our understandi...
International audienceThefirst in situ investigation of an active dunefield on another planetary sur...
Ancient sediments provide archives of climate and habitability on Mars. Gale Crater, the landing sit...
Reconstruction of the palaeoenvironmental context of Martian sedimentary rocks is central to studies...
Eolian dune fields on Earth and Mars evolve as complex systems within a set of boundary conditions. ...
The Bagnold dunes in Gale Crater, Mars, are the first active aeolian dune field explored in situ on ...
Earth's sandy deserts host two main types of bedforms - decimeter-scale ripples and larger dunes. Ye...
Wind blowing over sand on Earth produces decimeter-wavelength ripples and hundred-meter– to kilomete...
Gale Crater contains Mount Sharp, a ~5km thick stratigraphic record of Mars’ early environmental hi...
The landscape seen by the Mars Exploration Rover (MER) Opportunity at Meridiani Planum is dominated ...
Large ripples with meter‐scale wavelengths are ubiquitous across Mars. Curiosity's traverse of the B...
Active aeolian systems are present across the martian surface, with active dune fields commonly foun...
Curiosity investigated active eolian sands near linear dunes during Phase 2 of the Bagnold Dunes cam...
The landscape seen by the Mars Exploration Rover (MER) Opportunity at Meridiani Planum is dominated ...
The Mars Science Laboratory (MSL) Curiosity rover landed at Gale crater in August 2012 with the goal...
Over the past few decades, orbiters, landers, and rovers have significantly expanded our understandi...
International audienceThefirst in situ investigation of an active dunefield on another planetary sur...
Ancient sediments provide archives of climate and habitability on Mars. Gale Crater, the landing sit...
Reconstruction of the palaeoenvironmental context of Martian sedimentary rocks is central to studies...