欧洲上空50-60°N地区地转风变率:对流层中大气环流宏观形式的作用

Pub Date : 2019-06-18 DOI:10.2478/bgeo-2019-0004

Michał Marosz, K. Kożuchowski

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引用次数: 0

摘要

北半球中高纬度对流层中环流可以用范根海姆-格尔斯(VG)环流宏观形式来表征。研究的目的是分析VG宏观形式作为决定欧洲-大西洋地区对流层中大气环流总体特征的因素，以及从爱尔兰到俄罗斯喀山(5°30′w- 44°00′e)穿越中欧的纬向带(纬向带)的对流层低层气流特征。除了VG宏观日历外，还使用了ERA-INTERIM数据。利用的气象变量包括500hPa位势高度、SLP和995西格玛水平的气温。研究时间范围为35年(1981-2015)，分辨率为24小时(12.00 UTC)。对流层低层环流的特征是由地转风矢量特征和温度场直接引起的。随后，使用衍生指数(如风向稳定性)。结果表明，欧洲上空50-60°N区域SLP风速条件的变化与对流层中环流特征直接相关。在几乎整个研究领域，这些差异在统计上都是显著的。这包括在某些地区主导气流方向的逆转。在50-60°N区域的中部和东部，即波罗的海南部和俄罗斯西部边界之间，W、E和C VG宏观形式引起的地转风特征变化最大。

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Geostrophic wind variability in the 50–60°N zone over Europe: the role of mid-troposphere atmospheric circulation macro-forms

Abstract Circulation in the mid-troposphere in moderate and high latitudes of the Northern Hemisphere can be characterised by the Vangenheim-Girs (VG) circulation macro-forms. The aim of the research was to analyse the VG macro-forms as a factor determining the general characteristics of the atmospheric circulation in mid-troposphere in the Euro-Atlantic region and low-troposphere airflow characteristics in the profile (zonal belt) crossing Central Europe from Ireland to Kazan in Russia (5°30’W–44°00’E). Alongside the VG macro-form calendar, ERA-INTERIM data were used. The utilised meteorological variables comprised 500hPa geopotential height, SLP and air temperature at 995 sigma level. The temporal scope of the research was 35 years (1981–2015) and the resolution was 24h (12.00 UTC). The circulation in the low-troposphere was characterised by the geostrophic wind vector characteristics directly resulting from SLP and air temperature fields. Subsequently, derived indices (e.g. wind direction stability) were used. The presented results indicate that the variability of anemological conditions at SLP in the area of 50–60°N over Europe is in direct connection with the mid-troposphere circulation features. The differences are statistically significant across nearly the entire research area. This includes the reversal of the dominant air flow direction in some areas. The greatest variability in geostrophic wind characteristics due to W, E and C VG macro-forms is revealed in the central and eastern part of the 50–60°N zone – between the southern Baltic Sea and the western border of Russia.

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