Diurnal variation in martian dust devil activity

S.R Lewis,L.J Steele,M Balme,R.M Chapman

doi:10.1016/j.icarus.2017.01.003

Abstract

We show that the dust devil parameterisation in use in most Mars Global Circulation Models (MGCMs) results in an unexpectedly high level of dust devil activity during morning hours.Prior expectations of the diurnal variation of Martian dust devils are based mainly upon the observed behaviour of terrestrial dust devils: i.e. that the majority occur during the afternoon. We instead find that large areas of the Martian surface experience dust devil activity during the morning in our MGCM, and that many locations experience a peak in dust devil activity before mid-sol.We find that the diurnal variation in dust devil activity is governed by near-surface wind speeds. Within the range of daylight hours, higher wind speeds tend to produce higher levels of dust devil activity, rather than the activity simply being governed by the availability of heat at the planet’s surface, which peaks in early afternoon.Evidence for whether the phenomenon we observe is real or an artefact of the parameterisation is inconclusive. We compare our results with surface-based observations of Martian dust devil timings and obtain a good match with the majority of surveys. We do not find a good match with orbital observations, which identify a diurnal distribution more closely matching that of terrestrial dust devils, but orbital observations have limited temporal coverage, biased towards the early afternoon.We propose that the generally accepted description of dust devil behaviour on Mars is incomplete, and that theories of dust devil formation may need to be modified specifically for the Martian environment. Further surveys of dust devil observations are required to support any such modifications. These surveys should include both surface and orbital observations, and the range of observations must encompass the full diurnal period and consider the wider meteorological context surrounding the observations.

Highlights

Dust is present within the atmosphere of Mars as a constant background haze (Pollack 3 et al, 1977; Martin, 1986; Smith et al, 2001)
In this paper we have presented the results of our investigation into the diurnal variation of dust devil activity, discussed the details of the Mars Global Circulation Models (MGCMs) dust devil parameterisation, and compared our results with lander and spacecraft observations
Heating due to insolation produces conditions suitable for dust devil formation, but we identify that the diurnal variability of dust devil activity is governed by local wind speeds: higher wind speeds generate higher levels of dust devil activity

Summary

Introduction

Dust is present within the atmosphere of Mars as a constant background haze (Pollack 3 et al, 1977; Martin, 1986; Smith et al, 2001). Martian dust devils are named after the apparently similar features observed on Earth. These are near-surface atmospheric vortices that are visible due to the particles they lift from the ground and entrain in a vertical, upwardly-spiraling column of air. Dust devils are able to lift surface dust particles due to the wind shear stress present within the walls of the vortex (Balme et al, 2003a). The lower central pressure within the column may contribute to dust lifting by providing an upwards force that assists the shear stress in overcoming interparticle cohesion forces (Greeley et al, 2003; Balme and Hagermann, 2006). Dust devil activity on Mars is highly variable between regions and seasons (Fisher et al, 2005), and Martian dust devils are more frequently observed in local spring and summer months (Thomas and Gierasch, 1985; Balme et al., 2003b; Cantor et al, 2006)

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