基于塔克拉玛干沙漠夜间观测的次中尺度运动对相似性关系的影响

IF 2.8 4区 地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES Theoretical and Applied Climatology Pub Date : 2024-07-03 DOI:10.1007/s00704-024-05070-x
Hailiang Zhang, Minzhong Wang, Qing He, Ali Mamtimin, Junjian Liu, Huoqing Li
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引用次数: 0

摘要

次主题尺度运动可能会严重影响稳定边界层(SBL)内的相似性关系,从而导致这些关系具有相当大的不确定性。因此,我们对塔克拉玛干沙漠稳定边界层内的相似性关系进行了去除副尺度运动前后的比较,旨在深入了解副尺度运动对相似性关系的影响。我们引入了一种利用正交小波的离散小波变换来识别和过滤次中尺度运动的方法。通过对2021年6月29日至7月31日当地时间每天22:00至次日7:00的夜间观测数据的研究,我们检验并证实了副尺度运动确实以不同的方式对相似性关系产生了实质性的影响。剔除副尺度运动后,不同平均时段的无量纲风速标准偏差更加一致,相关系数明显提高,均方根误差降低。这凸显了该方法在消除次主题尺度运动方面的有效性。次主题尺度运动本身对风速的通量-剖面关系没有直接和显著的影响。看来,偶发的副主题尺度运动引起的湍流间歇性增强,导致在强稳定系统内明显偏离布辛格-戴尔关系。随着稳定性的增加,副主题尺度运动对间歇性的影响似乎更加明显。副主题尺度运动对湍流强度和风速之间的关系有很大影响。偶发的副尺度运动似乎是低风速下出现中等湍流强度的直接原因。水平风速变异主要受亚中尺度运动的影响,而垂直风速变异则主要与小尺度湍流有关。这些发现有助于更准确地理解副扇尺度运动对 SBL 相似性关系的影响,并为 SBL 建模提供真实稳定的小尺度湍流相似性关系。
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Impacts of submesoscale motions on similarity relationships based on nocturnal observations in the Taklimakan Desert

Submesoscale motions may substantially influence similarity relationships within the Stable Boundary Layer (SBL), leading to considerable uncertainty in these relationships. Therefore, we conducted a comparison of similarity relationships within the SBL in the Taklimakan Desert before and after the removal of submesoscale motions, aiming to gain deeper insights into the impacts of submesoscale motions on the similarity relationships. We introduced a method utilizing Discrete Wavelet Transform with orthogonal wavelets to identify and filter out submesoscale motions. By investigating nocturnal observations from June 29 to July 31, 2021, daily from 22:00 to 07:00 local time, we tested and confirmed that submesoscale motions indeed exert a substantial influence on similarity relationships in different ways. After removing submesoscale motions, dimensionless wind velocity standard deviations become more consistent across different averaging periods, with notably higher Correlation Coefficients and lower Root Mean Square Errors. This highlights the effectiveness of the method in eliminating submesoscale motions. Submesoscale motions themselves do not exert a direct and significant influence on the flux–profile relationship for wind speed. It seems the enhanced turbulence intermittency induced by episodic submesoscale motions results in notable deviations from the Businger-Dyer relationship within the strong stable regime. The influence of submesoscale motions on intermittency appears more pronounced as stability increases. Submesoscale motions significantly influence the relationship between turbulence intensity and wind speed. The episodic submesoscale motions appear to be the direct cause for the presence of moderate turbulence intensity at low wind speeds. Horizontal wind velocity variances are mainly influenced by submesoscale motions, while vertical wind variance is predominantly associated with small-scale turbulence. These findings may contribute to a more accurate understanding of the impacts of submesoscale motions on similarity relationships in the SBL and provide genuine and stable similarity relationships of small-scale turbulence for SBL modeling.

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来源期刊
Theoretical and Applied Climatology
Theoretical and Applied Climatology 地学-气象与大气科学
CiteScore
6.00
自引率
11.80%
发文量
376
审稿时长
4.3 months
期刊介绍: Theoretical and Applied Climatology covers the following topics: - climate modeling, climatic changes and climate forecasting, micro- to mesoclimate, applied meteorology as in agro- and forestmeteorology, biometeorology, building meteorology and atmospheric radiation problems as they relate to the biosphere - effects of anthropogenic and natural aerosols or gaseous trace constituents - hardware and software elements of meteorological measurements, including techniques of remote sensing
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