Relationships Between HCl, H2O, Aerosols, and Temperature in the Martian Atmosphere: 1. Climatological Outlook

IF 3.9 1区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS
K. S. Olsen, A. A. Fedorova, D. M. Kass, A. Kleinböhl, A. Trokhimovskiy, O. I. Korablev, F. Montmessin, F. Lefèvre, L. Baggio, J. Alday, D. A. Belyaev, J. A. Holmes, J. P. Mason, P. M. Streeter, K. Rajendran, M. R. Patel, A. Patrakeev, A. Shakun
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Abstract

Detecting trace gases such as hydrogen chloride (HCl) in Mars' atmosphere is among the primary objectives of the ExoMars Trace Gas Orbiter (TGO) mission. Terrestrially, HCl is closely associated with active volcanic activity, so its detection on Mars was expected to point to some form of active magmatism/outgassing. However, after its discovery using the mid-infrared channel of the TGO Atmospheric Chemistry Suite (ACS MIR), a clear seasonality was observed, beginning with a sudden increase in HCl abundance from below detection limits to 1–3 ppbv in both hemispheres coincident with the start of dust activity, followed by very sudden and rapid loss at the southern autumnal equinox. In this study, we have investigated the relationship between HCl and atmospheric dust by making comparisons in the vertical distribution of gases measured with ACS and aerosols measured co-located with the Mars Climate Sounder (MCS). This study includes HCl, water vapor, and ozone measured using ACS MIR, water vapor and temperature measured with the near infrared channel of ACS, and temperature, dust opacity, and water ice opacity measured with MCS. In part 1, we show that dust loading has a strong impact in temperature, which controls the abundance of water ice and water vapor, and that HCl is very closely linked to water activity. In part 2, we investigate the quantitative correlations between each quantity and discuss the possible source and sinks of HCl, their likelihood given the correlations, and any issues arising from them.

Abstract Image

火星大气中 HCl、H2O、气溶胶和温度之间的关系:1.气候学展望
探测火星大气中的氯化氢(HCl)等痕量气体是 ExoMars 痕量气体轨道器(TGO)任务的主要目标之一。在陆地上,氯化氢与活跃的火山活动密切相关,因此在火星上探测到氯化氢预计会指向某种形式的活跃岩浆活动/排气活动。然而,在利用 TGO 大气化学套件(ACS MIR)的中红外通道发现氯化氢之后,我们观察到了一个明显的季节性现象,首先是两个半球的氯化氢丰度从低于探测限值突然增加到 1-3 ppbv,与尘埃活动的开始相吻合,随后在南秋分时突然迅速减少。在这项研究中,我们通过比较用大气尘埃探测仪(ACS)测量的气体垂直分布和用火星气候探测仪(MCS)测量的气溶胶垂直分布,研究了氯化氢和大气尘埃之间的关系。这项研究包括使用 ACS MIR 测量的氯化氢、水蒸气和臭氧,使用 ACS 近红外通道测量的水蒸气和温度,以及使用 MCS 测量的温度、尘埃不透明度和水冰不透明度。在第 1 部分中,我们表明尘埃负荷对温度有很大影响,而温度则控制着水冰和水蒸气的丰度,并且 HCl 与水的活动密切相关。在第 2 部分中,我们研究了每个量之间的定量相关性,并讨论了 HCl 的可能来源和吸收汇、从相关性来看它们的可能性以及由此产生的任何问题。
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来源期刊
Journal of Geophysical Research: Planets
Journal of Geophysical Research: Planets Earth and Planetary Sciences-Earth and Planetary Sciences (miscellaneous)
CiteScore
8.00
自引率
27.10%
发文量
254
期刊介绍: The Journal of Geophysical Research Planets is dedicated to the publication of new and original research in the broad field of planetary science. Manuscripts concerning planetary geology, geophysics, geochemistry, atmospheres, and dynamics are appropriate for the journal when they increase knowledge about the processes that affect Solar System objects. Manuscripts concerning other planetary systems, exoplanets or Earth are welcome when presented in a comparative planetology perspective. Studies in the field of astrobiology will be considered when they have immediate consequences for the interpretation of planetary data. JGR: Planets does not publish manuscripts that deal with future missions and instrumentation, nor those that are primarily of an engineering interest. Instrument, calibration or data processing papers may be appropriate for the journal, but only when accompanied by scientific analysis and interpretation that increases understanding of the studied object. A manuscript that describes a new method or technique would be acceptable for JGR: Planets if it contained new and relevant scientific results obtained using the method. Review articles are generally not appropriate for JGR: Planets, but they may be considered if they form an integral part of a special issue.
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