Global static stability and its relation to gravity waves in the middle atmosphere

IF 2.9 3区 地球科学 Earth and Planetary Physics Pub Date : 2020-09-18 DOI:10.26464/epp2020047
Xiao Liu, JiYao Xu, Jia Yue
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引用次数: 4

Abstract

The global atmospheric static stability (N 2) in the middle atmosphere and its relation to gravity waves (GWs) were investigated by using the temperature profiles measured by the Sounding of the Atmosphere using Broadband Emission Radiometry (SABER) instrument from 2002 to 2018. At low latitudes, a layer with enhanced N 2 occurs at an altitude of ~20 km and exhibits annual oscillations caused by tropopause inversion layers. Above an altitude of ~70 km, enhanced N 2 exhibits semiannual oscillations at low latitudes caused by the mesosphere inversion layers and annual oscillations at high latitudes resulting from the downward shift of the summer mesopause. The correlation coefficients between N 2 and GW amplitudes can be larger than 0.8 at latitudes poleward of ~40°N/S. This observation provides factual evidence that a large N 2 supports large-amplitude GWs and indicates that N 2 plays a dominant role in maintaining GWs at least at high latitudes of the middle atmosphere. This evidence also partially explains the previous results regarding the phase changes of annual oscillations of GWs at high latitudes.

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全球静稳定性及其与中层大气重力波的关系
利用2002 - 2018年宽带发射辐射探测(SABER)卫星测得的大气温度廓线,研究了全球大气中层静态稳定性(n2)及其与重力波的关系。在低纬度地区,在~ 20km高度出现了一个n2增强层,并表现出由对流层顶逆温层引起的年振荡。在~70 km高度以上,增强型n2在低纬度表现出由中间层逆温层引起的半年振荡,在高纬度表现出夏季中间层顶向下移动引起的年振荡。在向极~40°N/S纬度,n2与GW振幅的相关系数大于0.8。这一观测结果提供了事实证据,表明大的n2支持大振幅的GWs,并表明n2至少在维持中大气高纬度的GWs中起主导作用。这一证据也部分解释了以往关于高纬度地区GWs年振荡的相位变化的结果。
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来源期刊
Earth and Planetary Physics
Earth and Planetary Physics GEOSCIENCES, MULTIDISCIPLINARY-
自引率
17.20%
发文量
174
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