Long-term variations of global radiation in Central Europe 1950–2020 and their impact on terrestrial surface air warming

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

Meteorologische Zeitschrift Pub Date : 2024-06-27 DOI:10.1127/metz/2024/1201

Jürg Thudium, Carine Chélala

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Abstract

The variation of global radiation from 1950–2020 and its impact on the terrestrial surface air warming was investigated based on measurements of sunshine duration, global radiation and temperature from six measuring stations from the national weather services in Austria, Switzerland and Germany. A quantitative estimation of that impact was conducted with the help of a multiple linear regression model based on monthly values from the period 1950–2020. The applicability of this approach was ensured by a set of five statistical standard tests. The overall temperature increase from 1950–2020 (about +2.1 °C in the annual and summer semi-annual average at the six measuring stations) is dominated by the temporally continuous temperature increase (global warming). However, a fraction of the increase (+0.3 °C corresponding to about 14% and +0.5 °C corresponding to about 25% for the entire year and the summer half-year, respectively) is attributed to the increase of global radiation. With regard to the brightening period in the last four decades (ca. 1982–2020), the fraction of the increase of global radiation within the total temperature increase is substantial: about one third for the entire year (ca. +0.6 °C), even half for the summer half-year (ca. +1.1 °C). The model results are reasonable in view of the comparison with the temperature measurements at the six stations. Increased air pollution by aerosols led to a continuous weakening of global radiation at the earth’s surface (global dimming) in Europe from about 1950–1980, but with the subsequent improvement of air quality, an increase occurred again (global brightening). Global brightening, which has continued until today, has more than compensated for global dimming of 1950–1980. From 1982–2020, direct solar radiation increased by about one-third in both the summer and winter months. This increase is about twice as large as the decrease during the dimming phase, except for the case of nearly overcast sky. The phases of global dimming and brightening are mainly caused on one hand by increasing and decreasing opacity of the atmosphere by aerosols, the direct aerosol effect. On the other hand, indirect radiative aerosol effects of cloud droplets, including effects of cloud properties, have had an increasing impact on global radiation.

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1950-2020 年中欧全球辐射的长期变化及其对地面空气变暖的影响

根据奥地利、瑞士和德国国家气象部门的六个测量站对日照时间、全球辐射和温度的测量结果，研究了 1950-2020 年全球辐射的变化及其对陆地表面空气变暖的影响。在多元线性回归模型的帮助下，根据 1950-2020 年期间的月度值对该影响进行了定量估算。这种方法的适用性通过一套五项统计标准测试得到了保证。1950-2020 年间气温的总体上升（六个测量站的年平均气温和夏季半年平均气温约为 +2.1 °C）主要是由于气温在时间上的持续上升（全球变暖）。然而，部分增幅（全年+0.3 °C，约占 14%；夏季半年+0.5 °C，约占 25%）归因于全球辐射的增加。在过去 40 年（约 1982-2020 年）的增亮期，全球辐射的增加在总气温增加中所占比例很大：全年约为三分之一（约 +0.6 ℃），夏半年甚至为一半（约 +1.1℃）。与六个站点的温度测量结果相比，模型结果是合理的。气溶胶造成的空气污染加剧导致欧洲地表的全球辐射从 1950-1980 年间持续减弱（全球变暗），但随着随后空气质量的改善，又出现了增强（全球变亮）。全球变亮一直持续到今天，足以弥补 1950-1980 年的全球变暗。从 1982 年到 2020 年，太阳直接辐射在夏季和冬季都增加了约三分之一。除了天空几乎阴沉的情况外，这一增幅约为暗淡阶段降幅的两倍。全球变暗和变亮阶段的主要原因一方面是大气中气溶胶不透明度的增加和减少，即直接气溶胶效应。另一方面，云滴的间接辐射气溶胶效应，包括云的特性效应，对全球辐射的影响越来越大。

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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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.