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- Title
Effect of Dust Storm and GCR Impact on the Production Rate of O<sub>3</sub><sup>+</sup> in MY 28 and MY 29: Modeling and SPICAM Observation.
- Authors
Haider, S. A.; Siddhi, Y. S.; Masoom, J.; Bougher, S.
- Abstract
We have developed a seasonally dependent energy loss model to calculate the zonally averaged production rates of O3+ due to impact of galactic cosmic rays in the dayside troposphere of Mars between solar longitudes (Ls) ~0° and 360° at low latitudes (2°N, 2°S, 25°N, and 25°S), midlatitudes (45°N and 45°S), and high latitudes (70°N and 70°S) in the Martian Year (MY) 28 and MY 29. We also represent the seasonal variability of zonally averaged ozone column density obtained from Mars Climate Database (MCD; Millour et al., 2014, https://hal.archives-ouvertes.fr/hal-01139592) during the daytime. These results are compared with the daytime observations of column ozone made by Spectroscopy for the Investigation of the Characteristics of the Atmosphere of Mars onboard Mars Express (MEX). At mid‐to‐high latitudes ozone column density is maximum in northern winter and minimum in southern summer. At low‐to‐middle latitudes (2°N–S, 25°N–S, and 45°N–S), the production rates of O3+ represent a broad peak between altitudes 26 and 45 km in both hemispheres. The peak production rates are increasing up to Ls = 47.5° and then stabilized at about 2.5 × 10−8 cm−3/s. At Ls ≥ 47.5° the peak production rate of O3+ starts decreasing until it disappeared after Ls = 127.5°. A major dust storm occurred in MY 28 at Ls~280° in southern latitudes (~25°–35°S). During the dust storm period, dust opacity, ozone column density, and O3+ production rate on the surface of Mars were increased by a factor of ~3. Key Points: Annual distribution of O3+ in Mars atmosphereEffect of dust on ozone distributionModeling and SPICAM observations of ozone
- Subjects
DUST storms; ENERGY dissipation; GALACTIC cosmic rays; TROPOSPHERE; MARS Express (Spacecraft)
- Publication
Journal of Geophysical Research. Space Physics, 2019, Vol 124, Issue 3, p2271
- ISSN
2169-9380
- Publication type
Article
- DOI
10.1029/2018JA026200