利用大欧亚干旱地图集描述 2010 年俄罗斯热浪-巴基斯坦洪水并发极端事件在过去千年中的特征

IF 4.8 2区 地球科学 Q1 METEOROLOGY & ATMOSPHERIC SCIENCES
Benjamin I Cook, Edward R Cook, Kevin J Anchukaitis, Deepti Singh
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引用次数: 0

摘要

摘要 2010 年夏季,俄罗斯西部(WRU)出现异常高温和干旱,与此同时,巴基斯坦北部(NPK)出现暴雨和洪水。在此,我们利用欧亚大干旱图集(GEDA)--一种新的 1021 年夏季土壤水分树环重建--研究了过去千年中这一特殊的空间并发极端气候的变异性和动态变化。GEDA 中的 2010 年夏季是 WRU 上第二干旱的年份,也是 NPK 与 WRU 之间干湿反差最大的年份;在独立的 1,015 年温度重建中,它也是 WRU 上第二温暖的年份。两个地区之间的土壤水分变率只有微弱的相关性,2010 年的类似事件非常罕见,根据所使用的定义,在 GEDA 中只有 31 年(3.0%)或 52 年(5.1%)发生。与之前的几个世纪相比,1900 年后的 WRU 明显更干燥,而 NPK 则更潮湿,这增加了同时出现 NPK 潮湿-WRU 干燥极端事件的可能性,记录中超过 20% 的事件都发生在这一时期。GEDA 中的两个主成分很好地捕捉到了像 2010 年这样的湿 NPK 干 WRU 事件的动态,这两个主成分的模式与北欧和俄罗斯西部的山脊以及类似于 2010 年观测到的泛半球外热带波列模式相关。我们的研究结果突显了高分辨率古气候重建如何用于捕捉气候系统中一些最极端的事件,研究其物理驱动因素,并使我们能够评估其在更长时间尺度上的行为,而较短的仪器记录则无法做到这一点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Characterizing the 2010 Russian heatwave-Pakistan flood concurrent extreme over the last millennium using the Great Eurasian Drought Atlas
Abstract During summer 2010, exceptional heat and drought in western Russia (WRU) occurred simultaneously with heavy rainfall and flooding in northern Pakistan (NPK). Here, we use the Great Eurasian Drought Atlas (GEDA), a new 1,021 year tree-ring reconstruction of summer soil moisture, to investigate the variability and dynamics of this exceptional spatially concurrent climate extreme over the last millennium. Summer 2010 in the GEDA was the second driest year over WRU and the largest wet–dry contrast between NPK and WRU; it was also the second warmest year over WRU in an independent 1,015 year temperature reconstruction. Soil moisture variability is only weakly correlated between the two regions and 2010 event analogues are rare, occurring in 31 (3.0%) or 52 (5.1%) years in the GEDA, depending on the definition used. Post-1900 is significantly drier in WRU and wetter in NPK compared to previous centuries, increasing the likelihood of concurrent wet NPK–dry WRU extremes, with over 20% of the events in the record occurring in this interval. The dynamics of wet NPK–dry WRU events like 2010 are well captured by two principal components in the GEDA, modes correlated with ridging over northern Europe and western Russia and a pan-hemispheric extratropical wave train pattern similar to that observed in 2010. Our results highlight how high resolution paleoclimate reconstructions can be used to capture some of the most extreme events in the climate system, investigate their physical drivers, and allow us to assess their behavior across longer timescales than available from shorter instrumental records.
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来源期刊
Journal of Climate
Journal of Climate 地学-气象与大气科学
CiteScore
9.30
自引率
14.30%
发文量
490
审稿时长
7.5 months
期刊介绍: The Journal of Climate (JCLI) (ISSN: 0894-8755; eISSN: 1520-0442) publishes research that advances basic understanding of the dynamics and physics of the climate system on large spatial scales, including variability of the atmosphere, oceans, land surface, and cryosphere; past, present, and projected future changes in the climate system; and climate simulation and prediction.
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