Analysis of wind-induced dynamic pressure fluctuations during one and a half Martian years at Gale Crater

Aurora Ullán; Maria-Paz Zorzano Mier; Javier Martin-Torres; Patricia Valentin-Serrano; Henrik Kahanpää; Ari-Matti Harri; Javier Gómez-Elvira; Sara Navarro

doi:10.1016/j.icarus.2017.01.020

Analysis of wind-induced dynamic pressure fluctuations during one and a half Martian years at Gale Crater

Aurora Ullán^*, Maria-Paz Zorzano Mier, Javier Martin-Torres, Patricia Valentin-Serrano, Henrik Kahanpää, Ari-Matti Harri, Javier Gómez-Elvira, Sara Navarro

^*Corresponding author for this work

Geology and Geophysics

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

15 Citations (Scopus)

Abstract

The Rover Environmental Monitoring Station (REMS) instrument on-board the Mars Science Laboratory (MSL) has acquired unprecedented measurements of key environmental variables at the base of Gale Crater. The pressure measured by REMS shows modulations with a very structured pattern of short-time scale (of the order of seconds to several minutes) mild fluctuations (typically up to 0.2 Pa at daytime and 1 Pa at night-time). These dynamic pressure oscillations are consistent with wind, air and ground temperature modulations measured simultaneously by REMS. We detect the signals of a repetitive pattern of upslope/downslope winds, with maximal speeds of about 21 m/s, associated with thermal changes in the air and surface temperatures, that are initiated after sunset and finish with sunrise proving that Gale, a 4.5 km deep impact crater, is an active Aeolian environment. At nighttime topographic slope winds are intense with maximal activity from 17:00 through 23:00 Local Mean Solar Time, and simultaneous changes of surface temperature are detected. During the day, the wind modulations are related to convection of the planetary boundary layer, winds are softer with maximum wind speed of about 14 m/s. The ground temperature is modulated by the forced convection of winds, with amplitudes between 0.2 K and 0.5 K, and the air temperatures fluctuate with amplitudes of about 2 K. The analysis of more than one and a half Martian years indicates the year-to-year repeatability of these environmental phenomena. The wind pattern minimizes at the beginning of the south hemisphere winter (Ls 90) season and maximizes during late spring and early summer (Ls 270). The procedure that we present here is a useful tool to investigate in a semi-quantitative way the winds by: i) filling both seasonal and diurnal gaps where wind measurements do not exist, ii) providing an alternative way for comparisons through different measuring principia and, iii) filling the gap of observation of short time-wind variability, where the REMS wind-sensor is blind

Original language	English
Pages (from-to)	78-87
Number of pages	10
Journal	Icarus (New York, N.Y. 1962)
Volume	288
Early online date	29 Jan 2017
DOIs	https://doi.org/10.1016/j.icarus.2017.01.020
Publication status	Published - 15 May 2017

Bibliographical note

A.U., M.-P.Z., F. J. M-T., and P. V-S., would like to acknowledge financial support provided by the Spanish Ministry of Economy and Competitiveness (AYA2011-25720 and AYA2012-38707). A.-M.H. acknowledge the support from the Finnish Academy. We also acknowledge the strong support, hard work and dedication of members of the MSL ENV group responsible for planning environmental observations on MSL. We also thank the MSL Science Team for their support of the REMS investigation, and we deeply appreciate the REMS PULs and PDLs involved in operations and the engineering and science team that developed REMS sensors.

Keywords

Mars
REMS
Gale Crater
Planetary boundary layer (PBL)
Pressure fluctuations
Winds

Access to Document

10.1016/j.icarus.2017.01.020Licence: Unspecified

http://urn.kb.se/resolve?urn=urn:nbn:se:ltu:diva-61739

Cite this

@article{9807fade41a14816a554168d2255784e,

title = "Analysis of wind-induced dynamic pressure fluctuations during one and a half Martian years at Gale Crater",

abstract = "The Rover Environmental Monitoring Station (REMS) instrument on-board the Mars Science Laboratory (MSL) has acquired unprecedented measurements of key environmental variables at the base of Gale Crater. The pressure measured by REMS shows modulations with a very structured pattern of short-time scale (of the order of seconds to several minutes) mild fluctuations (typically up to 0.2 Pa at daytime and 1 Pa at night-time). These dynamic pressure oscillations are consistent with wind, air and ground temperature modulations measured simultaneously by REMS. We detect the signals of a repetitive pattern of upslope/downslope winds, with maximal speeds of about 21 m/s, associated with thermal changes in the air and surface temperatures, that are initiated after sunset and finish with sunrise proving that Gale, a 4.5 km deep impact crater, is an active Aeolian environment. At nighttime topographic slope winds are intense with maximal activity from 17:00 through 23:00 Local Mean Solar Time, and simultaneous changes of surface temperature are detected. During the day, the wind modulations are related to convection of the planetary boundary layer, winds are softer with maximum wind speed of about 14 m/s. The ground temperature is modulated by the forced convection of winds, with amplitudes between 0.2 K and 0.5 K, and the air temperatures fluctuate with amplitudes of about 2 K. The analysis of more than one and a half Martian years indicates the year-to-year repeatability of these environmental phenomena. The wind pattern minimizes at the beginning of the south hemisphere winter (Ls 90) season and maximizes during late spring and early summer (Ls 270). The procedure that we present here is a useful tool to investigate in a semi-quantitative way the winds by: i) filling both seasonal and diurnal gaps where wind measurements do not exist, ii) providing an alternative way for comparisons through different measuring principia and, iii) filling the gap of observation of short time-wind variability, where the REMS wind-sensor is blind",

keywords = "Mars, REMS, Gale Crater, Planetary boundary layer (PBL), Pressure fluctuations, Winds",

author = "Aurora Ull{\'a}n and {Zorzano Mier}, Maria-Paz and Javier Martin-Torres and Patricia Valentin-Serrano and Henrik Kahanp{\"a}{\"a} and Ari-Matti Harri and Javier G{\'o}mez-Elvira and Sara Navarro",

note = "A.U., M.-P.Z., F. J. M-T., and P. V-S., would like to acknowledge financial support provided by the Spanish Ministry of Economy and Competitiveness (AYA2011-25720 and AYA2012-38707). A.-M.H. acknowledge the support from the Finnish Academy. We also acknowledge the strong support, hard work and dedication of members of the MSL ENV group responsible for planning environmental observations on MSL. We also thank the MSL Science Team for their support of the REMS investigation, and we deeply appreciate the REMS PULs and PDLs involved in operations and the engineering and science team that developed REMS sensors.",

year = "2017",

month = may,

day = "15",

doi = "10.1016/j.icarus.2017.01.020",

language = "English",

volume = "288",

pages = "78--87",

journal = "Icarus (New York, N.Y. 1962)",

issn = "0019-1035",

publisher = "Elsevier",

}

TY - JOUR

T1 - Analysis of wind-induced dynamic pressure fluctuations during one and a half Martian years at Gale Crater

AU - Ullán, Aurora

AU - Zorzano Mier, Maria-Paz

AU - Martin-Torres, Javier

AU - Valentin-Serrano, Patricia

AU - Kahanpää, Henrik

AU - Harri, Ari-Matti

AU - Gómez-Elvira, Javier

AU - Navarro, Sara

N1 - A.U., M.-P.Z., F. J. M-T., and P. V-S., would like to acknowledge financial support provided by the Spanish Ministry of Economy and Competitiveness (AYA2011-25720 and AYA2012-38707). A.-M.H. acknowledge the support from the Finnish Academy. We also acknowledge the strong support, hard work and dedication of members of the MSL ENV group responsible for planning environmental observations on MSL. We also thank the MSL Science Team for their support of the REMS investigation, and we deeply appreciate the REMS PULs and PDLs involved in operations and the engineering and science team that developed REMS sensors.

PY - 2017/5/15

Y1 - 2017/5/15

N2 - The Rover Environmental Monitoring Station (REMS) instrument on-board the Mars Science Laboratory (MSL) has acquired unprecedented measurements of key environmental variables at the base of Gale Crater. The pressure measured by REMS shows modulations with a very structured pattern of short-time scale (of the order of seconds to several minutes) mild fluctuations (typically up to 0.2 Pa at daytime and 1 Pa at night-time). These dynamic pressure oscillations are consistent with wind, air and ground temperature modulations measured simultaneously by REMS. We detect the signals of a repetitive pattern of upslope/downslope winds, with maximal speeds of about 21 m/s, associated with thermal changes in the air and surface temperatures, that are initiated after sunset and finish with sunrise proving that Gale, a 4.5 km deep impact crater, is an active Aeolian environment. At nighttime topographic slope winds are intense with maximal activity from 17:00 through 23:00 Local Mean Solar Time, and simultaneous changes of surface temperature are detected. During the day, the wind modulations are related to convection of the planetary boundary layer, winds are softer with maximum wind speed of about 14 m/s. The ground temperature is modulated by the forced convection of winds, with amplitudes between 0.2 K and 0.5 K, and the air temperatures fluctuate with amplitudes of about 2 K. The analysis of more than one and a half Martian years indicates the year-to-year repeatability of these environmental phenomena. The wind pattern minimizes at the beginning of the south hemisphere winter (Ls 90) season and maximizes during late spring and early summer (Ls 270). The procedure that we present here is a useful tool to investigate in a semi-quantitative way the winds by: i) filling both seasonal and diurnal gaps where wind measurements do not exist, ii) providing an alternative way for comparisons through different measuring principia and, iii) filling the gap of observation of short time-wind variability, where the REMS wind-sensor is blind

AB - The Rover Environmental Monitoring Station (REMS) instrument on-board the Mars Science Laboratory (MSL) has acquired unprecedented measurements of key environmental variables at the base of Gale Crater. The pressure measured by REMS shows modulations with a very structured pattern of short-time scale (of the order of seconds to several minutes) mild fluctuations (typically up to 0.2 Pa at daytime and 1 Pa at night-time). These dynamic pressure oscillations are consistent with wind, air and ground temperature modulations measured simultaneously by REMS. We detect the signals of a repetitive pattern of upslope/downslope winds, with maximal speeds of about 21 m/s, associated with thermal changes in the air and surface temperatures, that are initiated after sunset and finish with sunrise proving that Gale, a 4.5 km deep impact crater, is an active Aeolian environment. At nighttime topographic slope winds are intense with maximal activity from 17:00 through 23:00 Local Mean Solar Time, and simultaneous changes of surface temperature are detected. During the day, the wind modulations are related to convection of the planetary boundary layer, winds are softer with maximum wind speed of about 14 m/s. The ground temperature is modulated by the forced convection of winds, with amplitudes between 0.2 K and 0.5 K, and the air temperatures fluctuate with amplitudes of about 2 K. The analysis of more than one and a half Martian years indicates the year-to-year repeatability of these environmental phenomena. The wind pattern minimizes at the beginning of the south hemisphere winter (Ls 90) season and maximizes during late spring and early summer (Ls 270). The procedure that we present here is a useful tool to investigate in a semi-quantitative way the winds by: i) filling both seasonal and diurnal gaps where wind measurements do not exist, ii) providing an alternative way for comparisons through different measuring principia and, iii) filling the gap of observation of short time-wind variability, where the REMS wind-sensor is blind

KW - Mars

KW - REMS

KW - Gale Crater

KW - Planetary boundary layer (PBL)

KW - Pressure fluctuations

KW - Winds

U2 - 10.1016/j.icarus.2017.01.020

DO - 10.1016/j.icarus.2017.01.020

M3 - Article

SN - 0019-1035

VL - 288

SP - 78

EP - 87

JO - Icarus (New York, N.Y. 1962)

JF - Icarus (New York, N.Y. 1962)

ER -

Analysis of wind-induced dynamic pressure fluctuations during one and a half Martian years at Gale Crater

Abstract

Bibliographical note

Keywords

Access to Document

Fingerprint

Cite this