Perseverance MEDA Atmospheric Pressure Observations—Initial Results

Perseverance MEDA Atmospheric Pressure Observations—Initial Results

The Mars2020 Perseverance Rover landed successfully on the Martian surface on the Jezero Crater floor (18.44°N, 77.45°E) at Martian solar longitude, Ls, ∼5° in February 2021. Since then, it has produced highly valuable environmental measurements with a versatile scientific payload including the MEDA...

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Bibliographic Details
Published in:Journal of geophysical research. Planets Vol. 129; no. 3
Main Authors: Harri, Ari‐Matti, Paton, Mark, Hieta, Maria, Polkko, Jouni, Newman, Claire, Pla‐Garcia, Jorge, Leino, Joonas, Mäkinen, Terhi, Kauhanen, Janne, Jaakonaho, Iina, Sánchez‐Lavega, Agustin, Hueso, Ricardo, Genzer, Maria, Lorenz, Ralph, Lemmon, Mark, Vicente‐Retortillo, Alvaro, Tamppari, Leslie K., Viudez‐Moreiras, Daniel, Torre‐Juarez, Manuel de la, Savijärvi, Hannu, Rodríguez‐Manfredi, Javier A., Martinez, German
Format: Journal Article
Language:English
Published: Washington Blackwell Publishing Ltd 01-03-2024
Subjects:
Amplitudes
Atmospheric evolution
Atmospheric pressure
atmospheric pressure cycle
atmospheric tidal components
baroclinic and barotropic wave forms
Dust
dust devil
Dust storms
Equator
Mars
Mars atmosphere
Mars climate
Mars craters
Mars dust
Mars environment
Mars missions
Mars surface
Martian atmosphere
Meteorological instruments
Pressure
Pressure changes
pressure measurement
Pressure sensors
Pressure variations
Seasons
Sensors
Solar longitude
Sublimation
Surface pressure
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Summary:The Mars2020 Perseverance Rover landed successfully on the Martian surface on the Jezero Crater floor (18.44°N, 77.45°E) at Martian solar longitude, Ls, ∼5° in February 2021. Since then, it has produced highly valuable environmental measurements with a versatile scientific payload including the MEDA (Mars Environmental Dynamics Analyzer) suite of environmental sensors. One of the MEDA systems is the PS pressure sensor system, which weighs 40 g and has an estimated absolute accuracy of better than 3.5 Pa and a resolution of 0.13 Pa. We present initial results from the first 414 sols of Martian atmospheric surface pressure observations by the PS, whose performance was found to meet its specifications. Observed sol‐averaged atmospheric pressures follow an anticipated pattern of pressure variation in the course of the advancing season and are consistent with data from other landing missions. The observed daily pressure amplitude varies by ∼2%–5 % of the sol‐averaged pressure, with absolute amplitude 10–35 Pa in an approximately direct relationship with airborne dust. During a regional dust storm, which began at Ls ∼ 135°, the daily pressure amplitude roughly doubled. The daily pressure variations were found to be remarkably sensitive to the seasonal evolution of the atmosphere. In particular, analysis of the daily pressure signature revealed diagnostic information likely related to the regional scale structure of the atmosphere. Comparison of Perseverance pressure observations with data from other landers reveals the global scale seasonal behavior of Mars' atmosphere. Plain Language Summary Mars2020 Perseverance Rover successfully arrived on Mars in February 2021. It landed in an early Martian spring afternoon in a crater north of Mars' equator called Jezero crater. The rover is equipped with meteorological instruments that have so far produced extensive and valuable data for understanding the Martian atmosphere. One of the meteorological instruments is an accurate and precise pressure sensor. The pressure sensor has revealed large changes in the pressure over the seasons that are related to large changes in the actual mass of the Martian atmosphere. This is in line with seasonal pressure changes measured during previous Mars missions and can be explained as the condensation of the atmosphere onto the Martian poles and its subsequent sublimation. On a shorter time scale, the pressure sensor revealed complex pressure changes over a Martian day. These variations are thought to be related to atmospheric dust, whose ubiquitous nature is known to have a strong influence on the Martian climate. As the seasons progressed, the daily pressure variations morphed to exhibit different patterns likely related to the large‐scale regional changes in the atmosphere. Comparison of Perseverance pressure observations with other landers revealed the global nature of the atmosphere. Key Points The atmospheric pressure observations by Perseverance Rover have proved to be of excellent quality fulfilling expectations Jezero crater pressure exhibits significant differences to other Martian areas likely due to varying regional geography and solar forcing Overall, the diurnal and seasonal atmospheric pressure cycles at Jezero Crater follow an anticipated pattern of pressure variation
ISSN:2169-9097
2169-9100
DOI:10.1029/2023JE007880