Current status of the temperature and humidity regime of the troposphere in the Siberian sector in different circulation periods

Pub Date : 2023-03-28 DOI:10.12737/stp-91202309
Elena Belousova, Inna Latysheva, Kristina Loschenko, Sergey Olemskoy
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Abstract

The paper studies the long-term dynamics of air temperature and relative humidity anomaly indices in the surface layer and at different levels of the troposphere in Siberia and neighboring regions (European and Far Eastern sectors). As the main cause of the observed variations in climatic parameters we considered circulation factors, which were taken into account using the typification of macrocirculation processes proposed by B.L. Dzerdzeevsky. Seasonal differences were revealed in the distribution of anomaly indices and the area occupied by anomalies of different signs of annual and monthly mean temperature and relative air humidity, which are most pronounced during circulation periods of increased duration of meridional northern processes in the Siberian sector and in the Northern Hemisphere as a whole. The highest rates of change in the temperature regime in the Siberian sector over recent decades have been observed at the level of the isobaric surface AT–700 hPa (3 km), which affects the advective-dynamic factors of surface cyclo- and frontogenesis, as well as the processes of cloud formation and precipitation. In general, an increase in the heat content of the lower and middle troposphere and a decrease in the relative moisture content near the tropopause can be accompanied by an increase in the amount of the potential energy and convective instability energy reserves and can lead to an increase in climate risks in the Siberian sector.
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不同环流时期西伯利亚扇区对流层温湿度状况的现状
本文研究了西伯利亚及邻近地区(欧洲和远东地区)近地面和对流层不同水平的气温和相对湿度异常指数的长期动态。作为观测到的气候参数变化的主要原因,我们考虑了环流因素,利用B.L.捷尔泽耶夫斯基提出的大环流过程的典型化来考虑环流因素。在距平指数的分布和年、月平均气温和相对空气湿度的不同标志的距平面积上存在季节差异,在西伯利亚地区和整个北半球经向北方过程持续时间增加的环流期最为明显。近几十年来,西伯利亚地区的温度变化率最高的是在等压地面at - 700 hPa (3 km)的水平,这影响了地面气旋和锋生的平流动力因素,以及云的形成和降水过程。总的来说,对流层中下层热含量的增加和对流层顶附近相对水分含量的减少可能伴随着势能和对流不稳定能量储量的增加,并可能导致西伯利亚地区气候风险的增加。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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