Litcius/Paper detail

Dust Storm‐Enhanced Gravity Wave Activity in the Martian Thermosphere Observed by MAVEN and Implication for Atmospheric Escape

Erdal Yiğit, Alexander S. Medvedev, Mehdi Benna, Bruce M. Jakosky

2021Geophysical Research Letters60 citationsDOIOpen Access PDF

Abstract

Abstract Lower atmospheric global dust storms affect the small‐ and large‐scale weather and variability of the whole Martian atmosphere. Analysis of the CO 2 density data from the Neutral Gas and Ion Mass Spectrometer instrument on board NASA's Mars Atmosphere Volatile EvolutioN (MAVEN) spacecraft show a remarkable increase of gravity wave (GW)‐induced density fluctuations in the thermosphere during the 2018 major dust storm with distinct latitude and local time variability. The mean thermospheric GW activity increases by a factor of two during the storm event. The magnitude of relative density perturbations is around 20% on average and 40% locally. One and a half months later, the GW activity gradually decreases. Enhanced temperature disturbances in the Martian thermosphere can facilitate atmospheric escape. For the first time, we estimate observationally that, for a 20% and 40% GW‐induced disturbances, the net increase of Jeans escape flux of hydrogen is a factor of 1.3 and 2, respectively.

Topics & Concepts

ThermosphereMartianAtmosphere of MarsAtmospheric sciencesAtmospheric escapeDust stormMars Exploration ProgramAtmosphere (unit)StormEnvironmental scienceGravity waveAeronomyIonosphereAtmospheric tideFlux (metallurgy)LatitudeAtmospheric temperatureAstrobiologyAtmospheric circulationAtmospheric waveAtmospheric modelsPhysicsMesosphereMiddle latitudesAirglowAtmospheric modelSolar minimumAtmosphere of EarthGeomagnetic stormSolar windScale heightGeologyAltitude (triangle)LongitudePlanetary Science and ExplorationIonosphere and magnetosphere dynamicsAtmospheric aerosols and clouds