北半球冬季极端低温事件变化及其与秋季海冰的联系

杨冬东;张录军;周舒;王华曌;周玮佳;李媛

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高原气象
高原气象 ›› 2020, Vol. 39 ›› Issue (1) : 102-109. DOI: 10.7522/j.issn.1000-0534.2019.00020
论文

北半球冬季极端低温事件变化及其与秋季海冰的联系

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Variation of the Winter Extreme Cold Events in the Northern Hemisphere and its Relationship with Arctic Sea Ice in Autumn

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摘要

利用欧洲中期天气预报中心逐日的地面气温数据以及美国国家冰雪数据中心逐月的海冰密集度数据, 并通过气候百分位法统计了逐月的极端低温事件日数, 分析了1979 -2016年冬季(12月至次年2月)北半球的极端低温事件与秋季(9 -11月)北极海冰变化之间的关系, 并挑选了典型年份探讨了秋季北极海冰对极端低温事件可能存在的影响机理。结果表明, 北半球冬季极端低温事件与秋季关键海区(波弗特海、 楚科奇海、 巴伦支海和喀拉海)的海冰面积变化密切相关, 其中亚洲北部区域冬季的极端低温事件与秋季关键海区的海冰面积有显著负相关关系, 而青藏高原区域、 非洲北部区域和北美东北部区域冬季的极端低温事件与秋季关键海区的海冰面积有显著正相关关系。通过对典型年份冬季北半球极端低温事件极度异常时的大气环流进行分析后发现, 当秋季关键海区海冰异常偏少时, 冬季西伯利亚高压偏强, 其东部偏北风加强, 使得欧亚大陆北部的气温偏低, 极端低温事件偏多; 冬季冰岛低压偏强, 其南部的西南风加强, 将低纬度温暖的空气带到了非洲北部区域, 使其冬季气温偏高, 极端低温事件偏少; 高层异常反气旋主要位于格陵兰岛附近, 其下沉气流不利于形成极端低温天气而导致北美东北部区域极端低温事件偏少。

Abstract

Based on daily surface temperature from European Centre for Medium-Range Weather Forecasts and monthly sea ice concentration from National Snow and Ice Data Center, the days of monthly extreme cold events were calculated by the climate percentile method, and then the correlation of winter (November to subsequent February) extreme cold events in the northern hemisphere and Arctic sea ice in autumn (form September to November) during 1979 -2016 was analyzed.The possible mechanism of the influence of autumn Arctic sea ice on extreme cold events is discussed through the selected typical years.The results show that the variations of autumn sea ice area in the key region (Beaufort、 Chukchi、 Barents and Kara sea) has a significant relation to winter extreme cold events in the northern hemisphere.The events in northern Asia have a significant negative correlation with autumn sea ice area in the key region, while Qinghai-Tibetan Plateau、 northern Africa and northeast North America have a positive correlation with autumn sea ice area in the key region.Through the analysis of the atmospheric circulation in the winter of typical example, it is found that when the sea ice in the key region is abnormally less in the autumn, the Siberian high pressure and the north winds of its east is strong in winter, resulting in low temperatures and more extreme cold events in northern Eurasia; The Icelandic low pressure is strong in winter and the abnormally southwest winds of its south bring warm air from low latitudes to the northern Africa, resulting in high temperatures and fewer extreme cold events in northern Africa; An abnormal anticyclone is mainly located near Greenland, and its downdraft is not conducive to the formation of extreme cold weather, resulting in relatively few extreme cold events in northeast North America.

关键词

北半球 / 北极海冰 / 极端低温事件

Key words

Northern hemisphere / Arctic sea ice / extreme cold events

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杨冬东 , 张录军 , 周舒 , 王华曌 , 周玮佳 , 李媛. 北半球冬季极端低温事件变化及其与秋季海冰的联系. 高原气象. 2020, 39(1): 102-109 https://doi.org/10.7522/j.issn.1000-0534.2019.00020
Dongdong YANG , Lujun ZHANG , Shu ZHOU , Huazhao WANG , Weijia ZHOU , Yuan LI. Variation of the Winter Extreme Cold Events in the Northern Hemisphere and its Relationship with Arctic Sea Ice in Autumn. Plateau Meteorology. 2020, 39(1): 102-109 https://doi.org/10.7522/j.issn.1000-0534.2019.00020

参考文献

[1]Alexander L V, Zhang X, Peterson T C, al et, 2006.Global observed changes in daily climate extremes of temperature and precipitation[J].Journal of Geophysical Research, 111(D5): 1042-1063.DOI: 10.1029/2005JD006290.
[2]Comiso J C, 2012.Large Decadal Decline of the Arctic Multiyear Ice Cover[J].Journal of Climate, 25(4): 1176-1193.DOI: 10. 1175/JCLI-D-11-00113.1.
[3]Frich P, Alexander L, Dellamarta P, al et, 2002.Observed coherent changes in climatic extremes during the second half of the twentieth century[J].Climate Research, 19(3): 193-212.DOI: 10. 3354/cr019193.
[4]Kwok R, Rothrock D A, 2009.Decline in Arctic sea ice thickness from submarine and ICESat records: 1958–2008[J].Geophysical Research Letters, 36(15): 13-18.DOI: 10.1029/2009GL039035.
[5]Liu J P, Curry J A, Wang H J, al et, 2012.Impact of declining Arctic sea ice on winter snowfall[J].Proceedings of the National Academy of Sciences, 109(11): 4074-4079.DOI: 10.1073/pnas. 1114910109.
[6]Maslanik J, Stroeve J, Fowler C, al et, 2011.Distribution and trends in Arctic sea ice age through spring 2011[J].Geophysical Research Letters, 38(13): 2-7.DOI: 10.1029/2011GL047735.
[7]Parkinson C L, Cavalieri D J, 2008.Arctic sea ice variability and trends,1979-2006[J].Journal of Geophysical Research, 113(C7)C07003.DOI: 10.1029/2007JC004558.
[8]Petoukhov V, Semenov V A, 2010.A link between reduced Barents-Kara sea ice and cold winter extremes over northern continents[J].Journal of Geophysical Research, 115: D21111.DOI: 10. 1029/2009JD013568.
[9]Screen J A, Deser C, Sun L, 2015.Reduced risk of north American cold extremes due to continued Arctic sea ice loss[J].Bulletin of the American Meteorological Society, 96(9): 1489-1503.DOI: 10.1175/BAMS-D-14-00185.1.
[10]Serreze M C, Holland M M, Stroeve J, 2007.Perspectives on the Arctic's Shrinking Sea-Ice Cover[J].Science, 315(5818): 1533-1536.DOI: 10.1126/science.1139426.
[11]Tang Q, Zhang X, Yang X, al et, 2013.Cold winter extremes in northern continents linked to Arctic sea ice loss[J].Environmental Research Letters, 8(1): 014-036.DOI: 10.1088/1748-9326/8/1/014036.
[12]Wu B Y, Handorf D, Dethloff K, al et, 2013.Winter weather patterns over northern Eurasia and Arctic sea ice loss[J].Monthly Weather Review, 141(11): 3786-3800.DOI: 10.1175/MWR-D-13-00046.1.
[13]Wu B Y, Su J Z, D'Arrigo R, 2015.Patterns of Asian winter climate variability and links to Arctic sea ice[J].Journal of Climate, 28(17): 6841-6858.DOI: 10.1175/JCLI-D-14-00274.1.
[14]Zhou C, Wang K, 2016.Coldest temperature extreme monotonically increased and hottest extreme oscillated over northern hemisphere land during last 114 years[J].Scientific Reports, 6: 25721.DOI: 10.1038/srep25721.
[15]陈姣, 张耀存, 2016.气候变化背景下陆地极端降水和温度变化区域差异[J].高原气象, 35(4): 955-968.DOI: 10.7522/j.issn. 1000-0534.2015.00075.
[16]陈锐杰, 刘峰贵, 陈琼, 等, 2018.近 60 年青藏高原东北缘极端气温事件与气温日较差分析—以西宁地区为例[J].高原气象, 37(5): 1188-1198.DOI: 10.7522/j.issn.1000-0534.2018.00022.
[17]韩哲, 李双林, 2013.北极海冰对2008年1月乌拉尔高压异常的影响[J].气候与环境研究, 18(5): 671-680.DOI: 10.3878/j.issn.1006-9585.2012.12038.
[18]何金海, 武丰民, 祁莉, 2015.秋季北极海冰与欧亚冬季气温在年代际和年际尺度上的不同联系[J].地球物理学报, 58(4): 1089-1102.DOI: 10.6038/cjg20150401.
[19]黄丹青, 钱永甫, 2008.我国极端温度事件的定义和趋势分析[J].中山大学学报(自然科学版), 47(3): 112-116.DOI: 10.3321/j.issn: 0529-6579.2008.03.024.
[20]贾宏元, 程彦杰, 周翠芳, 2015.近52年宁夏冬季极端寒冷事件的演变特征[J].高原气象, 34(2): 455-462.DOI: 10.7522/j.issn.1000-0534.2013.00200.
[21]焦洋, 游庆龙, 林厚博, 等, 2017.夏、 秋季北极海冰异常与秋、 冬季青藏高原极端低温日数的关系及影响机理[J].气候与环境研究, 22(4): 435-445.DOI: 10.3878/j.issn.1006-9585.2017. 15170.
[22]梁晓妮, 雷俊, 骆月珍, 等, 2016.1955 -2014年杭州极端气温和降水指数变化特征[J].气象与环境科学, 39(3): 68-74.DOI: 10.16765/j.cnki.1673-7148.2016.03.009.
[23]吕越敏, 李宗省, 冯起, 等, 2019.近60年来祁连山极端气温变化研究[J].高原气象, 38(5): 959-970.DOI: 10.7522/j.issn. 1000-0534.2018.00135.
[24]任晨辰, 段明铿, 智协飞, 2017.不同气候背景下我国冬夏两季极端气温特征分析[J].大气科学学报, 40(6): 803-813.DOI: 10.13878/j.cnki.dqkxxb.20170302010.
[25]王迪, 何金海, 祁莉, 等, 2015.全球变暖减缓背景下欧亚秋冬温度变化特征和原因[J].气象科学, 35(5): 534-542.DOI: 10. 3969/2014jms.0023.
[26]王遵娅, 张强, 陈峪, 等, 2008.2008年初我国低温雨雪冰冻灾害的气候特征[J].气候变化研究进展, 4(2): 63-67.DOI: 10. 3969/j.issn.1673-1719.2008.02.001.
[27]武炳义, 黄荣辉, 高登义, 1999.冬季北极喀拉海、 巴伦支海海冰面积变化对东亚冬季风的影响[J].大气科学, 23(3): 267-275.
[28]武炳义, 杨琨, 2016.从2011/2012和2015/2016年冬季大气环流异常看北极海冰以及前期夏季北极大气环流异常的作用[J].气象学报, 74(5): 683-696.
[29]谢韶青, 卢楚翰, 2018.近16 a来冬季欧亚大陆中纬度地区低温事件频发及其成因[J].大气科学学报, 41(3): 423-432.
[30]谢永坤, 刘玉芝, 黄建平, 2014.秋季北极海冰对中国冬季气温的影响[J].气象学报, 72(4): 703-710.DOI: 10.11676/qxxb2014.057.
[31]杨朝虹, 张镭, 苑广辉, 等, 2018.东亚和北美地区温度和降水变化特征[J].高原气象, 37(3): 662-674.DOI: 10.7522 /j.issn. 1000-0534.2017.00083.
[32]翟盘茂, 潘晓华, 2003.中国北方近50年温度和降水极端事件变化[J].地理学报, 58(增刊1): 1-10.DOI: 10.3321/j.issn: 0375-5444.2003.z1.001.
[33]郑建萌, 黄玮, 陈艳, 等, 2017.云南极端气象干旱指标的研究[J].高原气象, 36(4): 1039-1051.DOI: 10.7522/j.issn.1000-0534.2016.00067.
[34]朱红霞, 陈文, 冯涛, 等, 2019.冬季西伯利亚高压的主要年际变化模态及其对东亚气温的影响[J].高原气象, 38(4): 685-692.DOI: 10.7522/j.issn.1000-0534.2018.00116.

基金

国家重点研发计划项目(2016YFA0602100);公益性行业(气象)科研专项(GYHY201506011);国家自然科学基金项目(41975134)
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