欧洲和地中海地区的降水变化

Julie Camille André, Fabio D'Andrea, Philippe J Drobinski, Caroline Muller
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引用次数: 0

摘要

地中海地区正在经历明显的干旱化,在某些地区,强降水的发生率更高。在这项工作中,我们使用ERA5再分析,分析了欧洲和地中海降雨概率分布在降水日数(或“湿润日数”)和全天分位数趋势方面的演变。通过观察雨天分位数趋势曲线的形式,我们发现了四种情况。两种情况占主导地位:在北欧大部分地区,降雨分位数都在增强,而在地中海,随着极端事件的加剧,低-中分位数大多在减少。然后用一个有两个参数的威布尔定律来模拟湿天分布,它的变化捕获了四种状态。对1950-2020年期间参数变化的重要性进行评估表明,北欧已经出现了湿润日分布的信号(那里的分布转向更强的降雨),但在自然变率更强的地中海尚未出现。我们将结果扩展为湿润日的分布变化加上干燥日频率变化的贡献,并研究了它们的相对贡献。在北欧,湿润日分布变化是主要驱动因素,对于湿润日百分比高于50%的地区,干燥日频率变化的贡献可以忽略不计。而在地中海,湿润日分布变化对全天变化的贡献远小于干旱日频率的贡献。因此,在地中海,干旱日频率的增加对全天趋势至关重要,即使在观察强降水时也是如此。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Regimes of precipitation change over Europe and the Mediterranean
The Mediterranean region is experiencing pronounced aridification and in certain areas higher occurrence of intense precipitation.In this work, we analyze the evolution of the rainfall probability distribution in terms of precipitating days (or “wet-days”) and all-days quantile trends, in Europe and the Mediterranean, using the ERA5 reanalysis.Looking at the form of wet-days quantile trends curves, we identify four regimes.Two are predominant: in most of Northern Europe the rainfall quantiles all intensify, while in the Mediterranean the low-medium quantiles are mostly decreasing as extremes intensify.The wet-days distribution is then modeled by a Weibull law with two parameters, whose changes capture the four regimes.Assessing the significance of the parameter changes over 1950–2020 shows that a signal on wet-days distribution has already emerged in Northern Europe (where the distribution shifts to more intense rainfall), but not yet in the Mediterranean, where the natural variability is stronger.We extend the results by describing the all-days distribution change as the wet-days’, plus a contribution from the dry-days frequency change, and study their relative contribution.In Northern Europe, the wet-days distribution change is the dominant driver, and the contribution of dry-days frequency change can be neglected for wet-days percentiles above about 50\%.In the Mediterranean, however, the contribution to all-days change of wet-days distribution change is much smaller than the one of dry-days frequency.Therefore, in the Mediterranean the increase of dry-days frequency is crucial for all-days trends, even when looking at heavy precipitations.
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