Add to ORKGThe dust and water cycles are critical to the current Martian climate, and they interact with each other through cloud formation. Dust modulates the thermal structure of the atmosphere and thus greatly influences atmospheric circulation. Clouds provide radiative forcing and control the net hemispheric transport of water through the alteration of the vertical distributions of water and dust. Recent advancements in the quality and sophistication of both climate models and observations enable an increased understanding of how the coupling between the dust and water cycles (through cloud formation) impacts the dust and water cycles. We focus here on the effects of clouds on the vertical distributions of dust and water and how those vertical dis...
International audienceIn this paper, we present the results obtained by the general circulation mode...
Observations of water ice clouds and aerosols on Mars can provide important insights into the comple...
To understand the evolving martian water cycle, a global perspective of the combined vertical and ho...
The dust and water cycles are crucial to the current Martian climate, and they are coupled through c...
The dust cycle is critically important for the current climate of Mars. The radiative effects of dus...
International audienceWater ice clouds play a key role in the radiative transfer of the Martian atmo...
Global Circulation Models (GCMs) have made steady progress in simulating the current Mars water cycl...
Water ice clouds play a key role in the radiative transfer of the Martian atmosphere, impacting its ...
Global understanding of the horizontal and vertical transport of water on Mars is required to advanc...
The dust cycle is critically important for Mars' current climate system. Suspended atmospheric dust ...
International audienceThere is a large reservoir of water ice on Mars in the polar caps, that sublim...
International audienceWe describe and document the physics packages in the legacy NASA/Ames Mars Glo...
Observations of water ice clouds and aerosols on Mars can provide important insights into the comple...
Here we investigate the radiative impact of martian water ice clouds on the atmospheric temperature ...
International audienceIn this paper, we present the results obtained by the general circulation mode...
Observations of water ice clouds and aerosols on Mars can provide important insights into the comple...
To understand the evolving martian water cycle, a global perspective of the combined vertical and ho...
The dust and water cycles are crucial to the current Martian climate, and they are coupled through c...
The dust cycle is critically important for the current climate of Mars. The radiative effects of dus...
International audienceWater ice clouds play a key role in the radiative transfer of the Martian atmo...
Global Circulation Models (GCMs) have made steady progress in simulating the current Mars water cycl...
Water ice clouds play a key role in the radiative transfer of the Martian atmosphere, impacting its ...
Global understanding of the horizontal and vertical transport of water on Mars is required to advanc...
The dust cycle is critically important for Mars' current climate system. Suspended atmospheric dust ...
International audienceThere is a large reservoir of water ice on Mars in the polar caps, that sublim...
International audienceWe describe and document the physics packages in the legacy NASA/Ames Mars Glo...
Observations of water ice clouds and aerosols on Mars can provide important insights into the comple...
Here we investigate the radiative impact of martian water ice clouds on the atmospheric temperature ...
International audienceIn this paper, we present the results obtained by the general circulation mode...
Observations of water ice clouds and aerosols on Mars can provide important insights into the comple...
To understand the evolving martian water cycle, a global perspective of the combined vertical and ho...