N. Rimbu, T. Spiegl, M. Ionita, S. Doshi, G. Lohmann
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引用次数: 0
摘要
我们从同步尺度的角度研究了太阳总辐照度(TSI)强迫与西欧夏季极端降水和洪水频率之间的关系,重点研究了罗斯比波包(RWPs)的作用。利用观测、模式和代用数据,我们揭示了在 TSI 偏低期间,以北纬 50 度为中心、从北美延伸到欧洲西部的带状区域的 RWP 频率显著增加。这种 RWP 频率的异常与欧洲西部记录到的极端降水事件频率的显著增加是一致的。利用最先进的化学-气候模型进行的敏感性实验证实了我们基于观测数据得出的结论。此外,西欧的洪水记录显示,在低 TSI 年,洪水频率显著增加,这种关系在不同时间尺度上都持续存在。我们认为,本研究中提出的与 TSI 胁迫相关的频率模式是可靠的,因此对于估算各种太阳辐照度情景下西欧极端降水事件的频率很有价值。此外,我们的研究结果表明,北大西洋地区在北方夏季对太阳强迫变化的反应比以前想象的要强烈,这种影响主要体现在天气尺度上,而不是长期气候学平均值上。
A Synoptic Scale Perspective of Solar Forcing on Extreme Precipitation and Floods Over Europe During Summer
The relationship between total solar irradiance (TSI) forcing and summer extreme precipitation and flood frequency over western Europe is investigated from a synoptic-scale perspective, with a focus on the role of Rossby wave packets (RWPs). Utilizing observational, model, and proxy data, we reveal a significant increase in RWP frequency along a zonal band centered around 50°N, extending from North America to western Europe, during periods of low TSI. This anomaly in RWP frequency is consistent with a significant increase in the frequency of extreme precipitation events recorded over western Europe. Sensitivity experiments conducted with a state-of-the-art chemistry-climate model corroborate our findings based on observational data. Additionally, a flood record from western Europe demonstrates a significant increase in flood frequency during low TSI years, a relationship that persists across timescales. We argue that the frequency patterns associated with TSI forcing presented in this study are robust and, therefore, valuable for estimating the frequency of extreme precipitation events over western Europe under various solar irradiance scenarios. Moreover, our findings indicate that the North Atlantic sector is more responsive to changes in solar forcing during the boreal summer than previously thought, with this effect manifesting primarily on synoptic timescales rather than the long-term climatological mean.
期刊介绍:
JGR: Atmospheres publishes articles that advance and improve understanding of atmospheric properties and processes, including the interaction of the atmosphere with other components of the Earth system.