Detection of detached dust layers in the Martian atmosphere from their thermal signature using assimilation

T. Navarro; F. Forget; E. Millour; S. J. Greybush

doi:10.1002/2014GL061377

Detection of detached dust layers in the Martian atmosphere from their thermal signature using assimilation

T. Navarro, F. Forget, E. Millour, S. J. Greybush

Meteorology and Atmospheric Science

Research output: Contribution to journal › Article › peer-review

27 Scopus citations

Abstract

Airborne dust modifies the thermal structure of the Martian atmosphere. The Mars Climate Sounder (MCS) first revealed local maxima of dust mass mixing ratio detached from the surface, not reproduced by global climate models (GCM). In this paper, the thermal signature of such detached layers is detected using data assimilation, an optimal combination of a GCM and observations. As dust influences the atmospheric temperatures, MCS temperature profiles are used to estimate the amount of dust in the atmosphere. Data assimilation of only MCS temperature information reproduces detached dust layers, independently confirming MCS's direct observations of dust. The resulting analyzed state has a smaller bias than an assimilation that does not estimate dust. This makes it a promising technique for Martian data assimilation, which is intended to support weather forecasting and weather research on Mars.

Original language	English (US)
Pages (from-to)	6620-6626
Number of pages	7
Journal	Geophysical Research Letters
Volume	41
Issue number	19
DOIs	https://doi.org/10.1002/2014GL061377
State	Published - Oct 16 2014

All Science Journal Classification (ASJC) codes

Geophysics
General Earth and Planetary Sciences

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1002/2014GL061377

Cite this

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title = "Detection of detached dust layers in the Martian atmosphere from their thermal signature using assimilation",

abstract = "Airborne dust modifies the thermal structure of the Martian atmosphere. The Mars Climate Sounder (MCS) first revealed local maxima of dust mass mixing ratio detached from the surface, not reproduced by global climate models (GCM). In this paper, the thermal signature of such detached layers is detected using data assimilation, an optimal combination of a GCM and observations. As dust influences the atmospheric temperatures, MCS temperature profiles are used to estimate the amount of dust in the atmosphere. Data assimilation of only MCS temperature information reproduces detached dust layers, independently confirming MCS's direct observations of dust. The resulting analyzed state has a smaller bias than an assimilation that does not estimate dust. This makes it a promising technique for Martian data assimilation, which is intended to support weather forecasting and weather research on Mars.",

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T1 - Detection of detached dust layers in the Martian atmosphere from their thermal signature using assimilation

AU - Navarro, T.

AU - Forget, F.

AU - Millour, E.

AU - Greybush, S. J.

PY - 2014/10/16

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N2 - Airborne dust modifies the thermal structure of the Martian atmosphere. The Mars Climate Sounder (MCS) first revealed local maxima of dust mass mixing ratio detached from the surface, not reproduced by global climate models (GCM). In this paper, the thermal signature of such detached layers is detected using data assimilation, an optimal combination of a GCM and observations. As dust influences the atmospheric temperatures, MCS temperature profiles are used to estimate the amount of dust in the atmosphere. Data assimilation of only MCS temperature information reproduces detached dust layers, independently confirming MCS's direct observations of dust. The resulting analyzed state has a smaller bias than an assimilation that does not estimate dust. This makes it a promising technique for Martian data assimilation, which is intended to support weather forecasting and weather research on Mars.

AB - Airborne dust modifies the thermal structure of the Martian atmosphere. The Mars Climate Sounder (MCS) first revealed local maxima of dust mass mixing ratio detached from the surface, not reproduced by global climate models (GCM). In this paper, the thermal signature of such detached layers is detected using data assimilation, an optimal combination of a GCM and observations. As dust influences the atmospheric temperatures, MCS temperature profiles are used to estimate the amount of dust in the atmosphere. Data assimilation of only MCS temperature information reproduces detached dust layers, independently confirming MCS's direct observations of dust. The resulting analyzed state has a smaller bias than an assimilation that does not estimate dust. This makes it a promising technique for Martian data assimilation, which is intended to support weather forecasting and weather research on Mars.

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Detection of detached dust layers in the Martian atmosphere from their thermal signature using assimilation

Abstract

All Science Journal Classification (ASJC) codes

UN SDGs

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