Martian Atmospheric Thermal Structure and Dust Distribution During the MY 34 Global Dust Storm From ACS TIRVIM Nadir Observations

P. Vlasov; N. Ignatiev; S. Guerlet; D. Grassi; O. Korablev; Grigoriev; A. Shakun; D. Patsaev; I. Maslov; L. Zasova; M. Luginin; A. Trokhimovskiy; E. Millour; F. Forget; R. Haus; G. Arnold; F. Montmessin

doi:10.1029/2022JE007272

Martian Atmospheric Thermal Structure and Dust Distribution During the MY 34 Global Dust Storm From ACS TIRVIM Nadir Observations

P. Vlasov^*, N. Ignatiev, S. Guerlet, D. Grassi, O. Korablev, Grigoriev, A. Shakun, D. Patsaev, I. Maslov, L. Zasova, M. Luginin, A. Trokhimovskiy, E. Millour, F. Forget, R. Haus, G. Arnold, F. Montmessin

^*Corresponding author for this work

Advanced Instrumentation and Technology Centre

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

6 Citations (Scopus)

Abstract

The Thermal InfraRed channel in honor of professor Vassili Ivanovich Moroz (TIRVIM) of the Atmospheric Chemistry Suite onboard ExoMars Trace Gas Orbiter has continuously monitored the Martian atmosphere from 13 March 2018 until 2 December 2019, covering almost a complete Martian Year (MY). In the nadir mode of observations, infrared spectra obtained by TIRVIM in the spectral range 600–1,300 cm⁻¹ permit retrievals of vertical temperature profiles from the surface up to 60 km of altitude, surface temperatures and column aerosol optical depths. Here we report the retrieved atmospheric thermal structure and the column dust content during the global dust storm (GDS) of MY 34 monitored from L_s = 182.2° to L_s = 211.8° (Solar Longitude), capturing the evolution of the GDS and the response of the atmospheric thermal structure to the changing dust loading. The global storm caused asymmetric atmosphere heating, predominantly in the southern hemisphere, and changed diurnal contrast of atmospheric thermal structure. We also observe a reduced diurnal contrast of surface temperatures at the peak of the GDS.

Original language	English
Article number	e2022JE007272
Journal	Journal of Geophysical Research: Planets
Volume	127
Issue number	9
DOIs	https://doi.org/10.1029/2022JE007272
Publication status	Published - Sept 2022

Access to Document

10.1029/2022JE007272

Cite this

Vlasov, P., Ignatiev, N., Guerlet, S., Grassi, D., Korablev, O., Grigoriev, Shakun, A., Patsaev, D., Maslov, I., Zasova, L., Luginin, M., Trokhimovskiy, A., Millour, E., Forget, F., Haus, R., Arnold, G., & Montmessin, F. (2022). Martian Atmospheric Thermal Structure and Dust Distribution During the MY 34 Global Dust Storm From ACS TIRVIM Nadir Observations. Journal of Geophysical Research: Planets, 127(9), Article e2022JE007272. https://doi.org/10.1029/2022JE007272

@article{aa1b7a3201ca4a16a10afe129a87c4e1,

title = "Martian Atmospheric Thermal Structure and Dust Distribution During the MY 34 Global Dust Storm From ACS TIRVIM Nadir Observations",

abstract = "The Thermal InfraRed channel in honor of professor Vassili Ivanovich Moroz (TIRVIM) of the Atmospheric Chemistry Suite onboard ExoMars Trace Gas Orbiter has continuously monitored the Martian atmosphere from 13 March 2018 until 2 December 2019, covering almost a complete Martian Year (MY). In the nadir mode of observations, infrared spectra obtained by TIRVIM in the spectral range 600–1,300 cm−1 permit retrievals of vertical temperature profiles from the surface up to 60 km of altitude, surface temperatures and column aerosol optical depths. Here we report the retrieved atmospheric thermal structure and the column dust content during the global dust storm (GDS) of MY 34 monitored from Ls = 182.2° to Ls = 211.8° (Solar Longitude), capturing the evolution of the GDS and the response of the atmospheric thermal structure to the changing dust loading. The global storm caused asymmetric atmosphere heating, predominantly in the southern hemisphere, and changed diurnal contrast of atmospheric thermal structure. We also observe a reduced diurnal contrast of surface temperatures at the peak of the GDS.",

keywords = "ACS TIRVIM, ExoMars trace gas orbiter, Mars atmosphere, global dust storm, infrared spectroscopy, remote sensing",

author = "P. Vlasov and N. Ignatiev and S. Guerlet and D. Grassi and O. Korablev and Grigoriev and A. Shakun and D. Patsaev and I. Maslov and L. Zasova and M. Luginin and A. Trokhimovskiy and E. Millour and F. Forget and R. Haus and G. Arnold and F. Montmessin",

year = "2022",

month = sep,

doi = "10.1029/2022JE007272",

language = "English",

volume = "127",

journal = "Journal of Geophysical Research: Planets",

issn = "2169-9097",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "9",

}

Vlasov, P, Ignatiev, N, Guerlet, S, Grassi, D, Korablev, O, Grigoriev, Shakun, A, Patsaev, D, Maslov, I, Zasova, L, Luginin, M, Trokhimovskiy, A, Millour, E, Forget, F, Haus, R, Arnold, G & Montmessin, F 2022, 'Martian Atmospheric Thermal Structure and Dust Distribution During the MY 34 Global Dust Storm From ACS TIRVIM Nadir Observations', Journal of Geophysical Research: Planets, vol. 127, no. 9, e2022JE007272. https://doi.org/10.1029/2022JE007272

TY - JOUR

T1 - Martian Atmospheric Thermal Structure and Dust Distribution During the MY 34 Global Dust Storm From ACS TIRVIM Nadir Observations

AU - Vlasov, P.

AU - Ignatiev, N.

AU - Guerlet, S.

AU - Grassi, D.

AU - Korablev, O.

AU - Grigoriev,

AU - Shakun, A.

AU - Patsaev, D.

AU - Maslov, I.

AU - Zasova, L.

AU - Luginin, M.

AU - Trokhimovskiy, A.

AU - Millour, E.

AU - Forget, F.

AU - Haus, R.

AU - Arnold, G.

AU - Montmessin, F.

PY - 2022/9

Y1 - 2022/9

N2 - The Thermal InfraRed channel in honor of professor Vassili Ivanovich Moroz (TIRVIM) of the Atmospheric Chemistry Suite onboard ExoMars Trace Gas Orbiter has continuously monitored the Martian atmosphere from 13 March 2018 until 2 December 2019, covering almost a complete Martian Year (MY). In the nadir mode of observations, infrared spectra obtained by TIRVIM in the spectral range 600–1,300 cm−1 permit retrievals of vertical temperature profiles from the surface up to 60 km of altitude, surface temperatures and column aerosol optical depths. Here we report the retrieved atmospheric thermal structure and the column dust content during the global dust storm (GDS) of MY 34 monitored from Ls = 182.2° to Ls = 211.8° (Solar Longitude), capturing the evolution of the GDS and the response of the atmospheric thermal structure to the changing dust loading. The global storm caused asymmetric atmosphere heating, predominantly in the southern hemisphere, and changed diurnal contrast of atmospheric thermal structure. We also observe a reduced diurnal contrast of surface temperatures at the peak of the GDS.

AB - The Thermal InfraRed channel in honor of professor Vassili Ivanovich Moroz (TIRVIM) of the Atmospheric Chemistry Suite onboard ExoMars Trace Gas Orbiter has continuously monitored the Martian atmosphere from 13 March 2018 until 2 December 2019, covering almost a complete Martian Year (MY). In the nadir mode of observations, infrared spectra obtained by TIRVIM in the spectral range 600–1,300 cm−1 permit retrievals of vertical temperature profiles from the surface up to 60 km of altitude, surface temperatures and column aerosol optical depths. Here we report the retrieved atmospheric thermal structure and the column dust content during the global dust storm (GDS) of MY 34 monitored from Ls = 182.2° to Ls = 211.8° (Solar Longitude), capturing the evolution of the GDS and the response of the atmospheric thermal structure to the changing dust loading. The global storm caused asymmetric atmosphere heating, predominantly in the southern hemisphere, and changed diurnal contrast of atmospheric thermal structure. We also observe a reduced diurnal contrast of surface temperatures at the peak of the GDS.

KW - ACS TIRVIM

KW - ExoMars trace gas orbiter

KW - Mars atmosphere

KW - global dust storm

KW - infrared spectroscopy

KW - remote sensing

UR - http://www.scopus.com/inward/record.url?scp=85139142529&partnerID=8YFLogxK

U2 - 10.1029/2022JE007272

DO - 10.1029/2022JE007272

M3 - Article

SN - 2169-9097

VL - 127

JO - Journal of Geophysical Research: Planets

JF - Journal of Geophysical Research: Planets

IS - 9

M1 - e2022JE007272

ER -

Martian Atmospheric Thermal Structure and Dust Distribution During the MY 34 Global Dust Storm From ACS TIRVIM Nadir Observations

Abstract

Access to Document

Other files and links

Fingerprint

Cite this