阿尔卑斯山北缘年代际降水变化分析

IF 1.2 4区地球科学 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES

Meteorologische Zeitschrift Pub Date : 2021-07-08 DOI:10.1127/METZ/2021/1053

S. Emeis

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引用次数: 2

摘要

对位于阿尔卑斯山北缘的德国巴伐利亚四个气象站1901年至2019年的降水数据进行了评估。年代际变化被计算为滑动30年平均值，以及1990-2019年与1901-1930年30年期间的差值。这四个站点的年降水量增加，其幅度大致与全球变暖过程中气温升高的幅度相吻合。干旱天数略有增加，这也是欧洲上空风暴路径向北移动的结果。由于这两个特点，降水强度在湿润日有所增加。最大日降水量的增加幅度小于年降水量的增加幅度。1999年四个数据集在Hohenpeißenberg站观测到的最大日降水量为138.5 mm。在四个观测站中，有三个观测站的干旱期也在增加。总体观测到的降水模式与区域气候模式对该地区未来气候情景的模拟结果相吻合。因此，它们可以被解释为气候变化在巴伐利亚南部顺利进行的迹象，就像在世界上大多数地方一样。

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Analysis of decadal precipitation changes at the northern edge of the Alps

Precipitation data from four weather stations in Bavaria, Germany, situated at the northern edge of the Alps have been evaluated for the period 1901 to 2019. Decadal changes have been computed as sliding 30-year averages and as the difference between the 30-year periods 1990–2019 and 1901–1930. The annual precipitation at these four stations increases, fitting in magnitude roughly to the temperature increase in the course of global warming. The number of dry days slightly increases as well as a consequence of a northward shift of the storm tracks over Europe. Due to these two features the precipitation intensity on wet days increases. The increase in maximum daily precipitation amounts is less than the increase in the annual precipitation amount. The observed maximum daily precipitation in the full four datasets is 138.5 mm at the station Hohenpeißenberg in 1999. The length of dry spells is increasing at three of the four stations as well. The overall observed precipitation patterns fit to the findings of regional climate model simulations for future climate scenarios for this region. Thus, they can be interpreted as signs that climate change is well underway in Southern Bavaria as it is in most places of the world.

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来源期刊

Meteorologische Zeitschrift 地学-气象与大气科学

CiteScore

2.80

自引率

8.30%

发文量

审稿时长

6-12 weeks

期刊介绍： Meteorologische Zeitschrift (Contributions to Atmospheric Sciences) accepts high-quality, English language, double peer-reviewed manuscripts on all aspects of observational, theoretical and computational research on the entire field of meteorology and atmospheric physics, including climatology. Manuscripts from applied sectors such as, e.g., Environmental Meteorology or Energy Meteorology are particularly welcome. Meteorologische Zeitschrift (Contributions to Atmospheric Sciences) represents a natural forum for the meteorological community of Central Europe and worldwide.