Mesoscale Spectra of Vertical Vorticity and Horizontal Divergence in an Idealized Baroclinic Wave Simulation

IF 3 3区 地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES
Jun Peng, Zongheng Li, Lifeng Zhang, Yuanshuen Wang, Hanyan Wu
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引用次数: 1

Abstract

A new formulation of the spectral budget of vertical vorticity and horizontal divergence suitable for the mesoscale atmosphere on an f plane is derived. Compared to previous formulation in large-scale studies, there are three main improvements: (i) both the squared vorticity (SV; i.e., enstrophy as usual) and squared divergence (SD) spectra are taken into account, (ii) the spectral transfers of SV and SD between scales are exactly constructed under the nonlinear advection of the full horizontal velocity, and (iii) the general relationship between spectral energy and SV/SD transfers is derived. With this new formulation, the atmospheric spectra of divergent and rotational motion components are investigated through numerical simulation of idealized dry baroclinic waves. Spectral budget analysis shows that, in the present dry simulation, the upper troposphere is almost completely dominated by the downscale SV transfer at all scales, while the lower stratosphere is dominated by the downscale SV transfer at synoptic scales and by the downscale SD transfer at mesoscales. The pressure-related term is largely cancelled out by the conversion term between SV and SD at both levels, but at the small-scale end of lower-stratospheric mesoscales there exists a significant net positive forcing, accounting for the distinct spectral transition of the total spectrum there. An explicit association between spectral energy and SV/SD transfers is further made. In the upper troposphere, the downscale enegy cascade is mainly governed by the downscale SV transfer; while in the lower stratosphere, it is mainly governed by the residual term related to non-uniformly distributed vertical velocity.
理想斜压波模拟中垂直涡度和水平散度的中尺度谱
导出了一种适用于f平面中尺度大气的垂直涡度和水平辐散谱收支的新公式。与以前大规模研究中的公式相比,有三个主要改进:(i)平方涡度(SV);(2)在全水平速度非线性平流条件下精确构造了SV和SD在尺度间的谱传递;(3)推导了谱能与SV/SD传递的一般关系。在此基础上,通过对理想干斜压波的数值模拟,研究了发散运动分量和旋转运动分量的大气谱。光谱收支分析表明,在当前的干燥模拟中,对流层上层在所有尺度上几乎完全以低尺度SV转移为主,而平流层下层在天气尺度上以低尺度SV转移为主,在中尺度上以低尺度SD转移为主。与压力相关的项在很大程度上被两个水平SV和SD之间的转换项所抵消,但在平流层低层中尺度的小尺度端存在显著的净正强迫,这解释了那里总光谱的明显转变。光谱能量和SV/SD转移之间有明确的联系。在对流层上层,低尺度的能量级联主要受低尺度SV转移控制;而在平流层下层,主要受与非均匀分布垂直速度有关的残差项支配。
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来源期刊
Journal of the Atmospheric Sciences
Journal of the Atmospheric Sciences 地学-气象与大气科学
CiteScore
0.20
自引率
22.60%
发文量
196
审稿时长
3-6 weeks
期刊介绍: The Journal of the Atmospheric Sciences (JAS) publishes basic research related to the physics, dynamics, and chemistry of the atmosphere of Earth and other planets, with emphasis on the quantitative and deductive aspects of the subject. The links provide detailed information for readers, authors, reviewers, and those who wish to submit a manuscript for consideration.
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