Atypically Intense and Delayed Response of the Martian Ionosphere to the Regional Dust Storm of 2016: A Study Using MAVEN Observations and Models

DOI: 
10.1029/2022JE007645
Publication date: 
11/12/2022
Main author: 
Mukundan, Vrinda
IAA authors: 
González-Galindo, Francisco
Authors: 
Mukundan, Vrinda;Withers, Paul;González-Galindo, Francisco;Thampi, Smitha V.;Bhardwaj, Anil;Felici, Marianna
Journal: 
Journal of Geophysical Research (Planets)
Publication type: 
Article
Volume: 
127
Pages: 
e2022JE007645
Abstract: 
During Mars dust storms, atmospheric heating and expansion moves the ionospheric peak upward. Typically, peak altitude increases by no more than 10 km, and this increase occurs simultaneously with the expansion of the dust storm. However, Felici et al. (2020), <A href="https://doi.org/10.1029/2019JA027083">https://doi.org/10.1029/2019JA027083</A>, using the Mars Atmosphere Volatile EvolutioN (MAVEN) Radio Occultation Science Experiment (ROSE), reported an unusually large increase of ∼20 km at southern latitudes in early October 2016 during a modest dust storm. Here, we investigate why the ionospheric peak altitude increased so much in these observations. We extend the time series of ionospheric peak altitude values beyond the limited extent of the ROSE observations by applying a one-dimensional photochemical model, in which neutral atmospheric conditions are based on in situ MAVEN Neutral Gas Ion Mass Spectrometer observations at similar latitudes and solar zenith angles to those observed by ROSE. We find that the ionospheric peak altitude was highest throughout October 2016 yet both the local and global atmospheric dust loading were greatest 1 month earlier. We hypothesize that (a) a portion of the unusually large 20 km enhancement in peak altitude and (b) the unusual delay between the greatest dust loading and the highest peak altitude were both associated with the occurrence of perihelion, which maximizes solar heating of the atmosphere, in late October 2016.
Database: 
ADS
SCOPUS
URL: 
https://ui.adsabs.harvard.edu/#abs/2022JGRE..12707645M/abstract
ADS Bibcode: 
2022JGRE..12707645M
Keywords: 
Mars;ionosphere;dust storms;electron densities;ionospheric peak