利用1961 -2018年我国宁夏全区平均逐日观测最高和最低气温数据, 英国哈德莱(Hadley)中心的逐月海冰密集度资料, 美国国家环境预报中心/国家大气研究中心(NCEP/NCAR)的逐月大气再分析资料以及中国气象局国家气候中心的逐月东亚冬季风指数和西伯利亚高压指数系统地研究了宁夏冬季极端低温事件的特征及其与北极关键影响区域海冰异常的联系。结果表明: 20世纪60年代以来, 宁夏冬季冷日与冷夜频次呈现明显的减少趋势, 极端低温事件强度总体趋于减弱, 日极端低温升高趋势较为明显。秋季北极海冰异常与之后冬季海冰异常显著相关, 前秋海冰异常通过季节持续性实现对后期冬季大气环流的影响, 进而影响冬季气温。前期秋季拉普捷夫海-东西伯利亚海海冰密集度偏小、 格陵兰海海冰密度偏大时, 冬季西伯利亚高压指数和冬季风指数偏强, 有利于宁夏日极端低温事件频次偏多; 500 hPa高度场上, 极地-欧亚大陆-阿留申地区有一个显著的“L”型的位相波列形态, 使得北极与欧亚大陆中高纬地区的位势高度差减弱, 中高纬地区西风气流偏弱, 减弱的西风使得经向活动加强, 利于北极的冷空气向低纬地区侵袭; 在海平面气压场上, 西伯利亚地区气压偏高, 冷空气由极地挤压至中高纬度地区, 造成冷空气南下, 有利于宁夏冬季发生极端低温事件。
Based on daily maximum and minimum temperature in Ningxia of China, monthly sea ice concentration from the Hadley Centre of UK, monthly atmospheric reanalysis data from the National Centers for Environmental Prediction/National Center for Atmospheric Research of US, and the East Asian Winter Monsoon Index and Siberia High Index from National Climate Center of China Meteorological Administration, the characteristics of extreme winter low temperature events in Ningxia and their relationship with autumn sea ice concentration in the key region of the Arctic from 1961 to 2018 were systematically studied.The results show that the frequency of cold day and cold night in winter in Ningxia has decreased significantly since 1960s.The intensity of extreme low temperature events generally tends to weaken, and the daily extreme low temperature increases obviously.The Arctic sea ice anomaly in autumn is significantly related to the sea ice anomaly in the following winter.The sea ice anomaly in autumn influences the atmospheric circulation in the following winter through the seasonal sustainability, and then affects the winter temperature.When the sea ice concentration is low in the Lapjev-East Siberian Sea and high in Greenland Sea in the previous autumn, the Siberian High Index and the East Asian Winter Monsoon Index become stronger, which is benefit to more extreme temperature events occurring in Ningxia in winter.The 500 hPa geopotential height Arctic-Eurasia-Aleutian region's "L" like phase wave pattern decreased the height difference between the Arctic and Eurasia in the mid-high latitudes, the mid-high latitude westerly airflow is weakened, and the zonal activity is weakened, that’s conducive to the cold air of the Arctic to the low latitudes.Correspondingly, the sea level pressure is high in Siberia and cold air is squeezed from the polar region to the middle and high latitudes in the Northern Hemisphere, which makes the cold air easy to reach in Ningxia and results in more extreme cold weather days there.
[1]Francis J A, Vavrus S J, 2012.Evidence linking Arctic amplification to extreme weather in mid-latitudes[J].Geophysical Research Letters, 39.
[2]Gao Y, Sun J, Li F, al et, 2015.Arctic Sea ice and Eurasian climate: A review[J].Advances in Atmospheric Sciences, 32(1), 92-114.
[3]Honda M, Inoue J, Yamane, 2009.Influence of low Arctic seaice minima on anomalously cold Eurasian winters.[J].Geophysical Research Letters, 36(36): 262-275.
[4]Kalnay E, Kanamitsu M, Kistler R, al et, 1996.The NCEP/NCAR 40-year reanalysis project[J].Bulletin of the American meteorological Society, 77(3), 437-472.
[5]Li F, Wang H, 2012.Autumn sea ice cover, winter northern hemisphere annular mode, and winter precipitation in Eurasia[J].Journal of Climate, 26(11), 3968-3981.
[6]Liu J, Curry J A, Wang H, al et, 2012.Impact of declining Arctic Sea ice on winter snowfall[J].Proceedings of the National Academy of Sciences of the United States of America, 109(11), 4074-4079.
[7]Liu Y, Zhu Y, Wang H, al et, 2019.Role of autumn Arctic sea ice in the subsequent summer precipitation variability over East Asia[J].International Journal of Climatology, 1-17.
[8]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.
[9]陈晓光, Declan C, 郑广芬, 等, 2008.1961 -2004年宁夏极端气温变化趋势分析[J].气候变化研究进展, 4(2): 73-77.
[10]陈豫英, 陈楠, 马金仁, 等, 2010.近48a宁夏寒潮的变化特征及可能影响的成因初步分析[J].自然资源学报, 25(6): 939-951.
[11]陈豫英, 陈楠, 聂金鑫, 等, 2012.2011年3月宁夏一次寒潮天气过程诊断[J].干旱气象, 30(1): 88-93.
[12]陈豫英, 陈楠, 邵建, 等, 2009.2008年12月两次寒潮天气对比分析[J].气象, 35(11): 29-38.
[13]董国庆, 李丽平, 郑广芬, 2016.宁夏近53年冬季气温变化趋势及对农业的影响[J].地球科学进展, 31(11): 1172-1181.
[14]龚道溢, 朱锦红, 王绍武, 2002.西伯利亚高压对亚洲大陆的气候影响分析[J].高原气象, 21(1): 8-14.
[15]管成功, 孙照渤, 2002.秋季区域海冰面积异常与冬季大气环流及东亚区域气候的关系[J].大气科学学报, 25(1): 14-20.
[16]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.
[17]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.
[18]蓝柳茹, 李栋梁, 2016.西伯利亚高压的年际和年代际异常特征及其对中国冬季气温的影响[J].高原气象, 35(3): 662-674.DOI: 10.7522/j.issn.1000-0534.2016.00022.
[19]李艳, 张金玉, 李旭, 等, 2019.两次典型极端低温过程低频特征分析[J].高原气象, 38(5): 1341-1352.DOI: DOI: 10.7522/j.issn.1000-0534.2018.00035.
[20]李瑜洁, 高晓清, 张录军, 等, 2019.近30年北极海冰运动特征分析[J].高原气象, 38(1): 114-123.DOI: 10.7522/j.issn.1000-0534.2018.00115.
[21]纳丽, 郑广芬, 杨建玲, 2010.2008年1月宁夏持续连阴雪低温极端天气气候背景及影响因子[J].干旱气象, 28(2): 202-205.
[22]宁夏气象局, 1987.短期天气预报指导手册[R].96-105.
[23]司东, 李清泉, 柳艳菊, 等, 2014.2013/2014年东亚冬季风异常偏弱的可能成因[J].气象, 40(7): 891-897.
[24]王冀, 江志红, 张海东,等, 2007.1957-2000年东北地区春季极端气温变化及其与北极涛动的关系[J].气候变化研究进展, 3(1): 41-45.
[25]王素艳, 李欣, 郑广芬, 等, 2014.21世纪以来宁夏冬季气温异常及500 hPa环流特征[J].干旱气象, 32(4): 569-575.
[26]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.
[27]武炳义, 苏京志, 张人禾, 2011.秋-冬季节北极海冰对冬季西伯利亚高压的影响[J].科学通报, 56(27): 2335-2343.
[28]武丰民, 2015.北极海冰消融对秋冬季欧亚大陆气温的影响及其可能机理[D].南京: 南京信息工程大学.
[29]肖莺, 任永建, 杜良敏, 2018.气候变化背景下北极海冰对我国冬季气温的影响研究[J].极地研究, 30(1): 14-21.
[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.
[31]薛红喜, 孟丹, 吴东丽, 等, 2012.1959 -2009年宁夏极端温度阈值变化及其与AO指数相关分析[J].地理科学, 32(3): 380-385.
[32]杨建玲, 冯建民, 闫军, 等, 2012.宁夏高温气候特征及其大气环流异常分析[J].中国沙漠, 32(5): 1417-1425.
[33]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(1): 1-10.
[34]张宁, 孙照渤, 曾刚, 2008.1955 -2005年中国极端气温的变化[J].大气科学学报, 31(1): 123-128.
[35]朱艳峰, 2008.一个适用于描述中国大陆冬季气温变化的东亚冬季风指数[J].气象学报, 66(5): 781-788.
