A Stochastic Parameterization of Non-Orographic Gravity Waves Induced Mixing for Mars Planetary Climate Model

IF 4 1区地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS

Journal of Geophysical Research: Planets Pub Date : 2025-09-19 DOI:10.1029/2025JE009188

Jiandong Liu, Ehouarn Millour, François Forget, François Lott, Jean-Yves Chaufray

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Abstract

This paper presents a formalism of mixing induced by non-orographic gravity waves (GWs) to integrate with the stochastic GWs scheme in the Mars Planetary Climate Model. We derive the formalism of GWs and their mixing under the same assumptions, integrating the two schemes within a unified framework. Specifically, a surface-to-exosphere parameterization of GW-induced turbulence has been derived in terms of the eddy diffusion coefficient. Simulations show that the coefficient is on the order of $10^{4}$ to $10^{9}$ ${cm}^{2}$ $s^{- 1}$ and a turbopause is at altitudes of 70–140 km, varying with seasons. The triggered mixing has minor effects on model temperatures, yet it substantially impacts upper atmospheric abundances. Simulations are consistent with observations from the Mars Climate Sounder and the Neutral Gas and Ion Mass Spectrometer. Mixing enhances the tracer transports in the middle and upper atmosphere, governing the dynamics of these regions. The scheme reveals how non-orographic GW-induced turbulence can regulate upper atmospheric processes, such as tracer escape.

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火星行星气候模式非地形重力波诱导混合的随机参数化

本文提出了一种非地形重力波（GWs）诱导的混合形式，与火星行星气候模式中的随机重力波方案相结合。我们在相同的假设下推导了GWs及其混合的形式，将两种方案整合在一个统一的框架内。具体地说，用涡动扩散系数推导了gw诱导湍流的地表到外逸层参数化。仿真结果表明，该系数的数量级为104 ${10}^{4}$至109 ${10}^{9}$Cm 2 ${\text{Cm}}^{2}$ s -1 ${\ maththrm {s}}^{-1}$和湍流顶位于70-140千米的高度，随季节变化。触发的混合对模式温度影响不大，但对高层大气丰度有实质性影响。模拟结果与火星气候探测仪和中性气体和离子质谱仪的观测结果一致。混合增强了中高层大气中示踪剂的输运，控制了这些区域的动力学。该方案揭示了非地形gw诱导湍流如何调节高层大气过程，如示踪剂逸出。

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来源期刊

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.