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气候变暖背景下祁连山区秋季层状云变化特征
The Changes of Autumn Stratiform Clouds in the Qilian Mts. Region under the Background of Global Warming

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石光普 1   石圆圆 2   郭玉珍 2   陈少勇 2   林纾 1   郭俊庭 2  
文摘 利用祁连山区及周边29个气象观测站近41年秋季云形状和气温观测资料,分析了祁连山区秋季层状云出现频率的空间分布与时间变化特征,探讨了秋季层状云出现频率与气候变暖的关系,并选用同期NCEP/NCAR全球再分析资料,对祁连山区秋季层状云的环流特征和水汽输送进行了分析。结果表明:①祁连山区秋季层状云出现频率为8%~26%,呈西少东多的空间分布。②近41年来,祁连山区秋季增温1.2℃,气温变化的倾向率为0.29℃/10a,80年代中期以后发生了增温的突变。③祁连山区秋季层状云的出现频率呈明显的减少趋势,近41年来减少约11%,倾向率为-2.7%/10a,尤其在20世纪80年代中期以后与同期祁连山区显著增温相对应,层状云出现频率减少更为明显,层状云出现频率与气温呈明显的反相变化趋势。④在气候变暖的背景下,祁连山区的层状云出现频率减少,减少的幅度从西北向东南递增。当祁连山区秋季平均气温在升高1℃时,祁连山区层状云出现频率减少2%~10%,祁连山西段、中段减少2%~4%,祁连山东段减少4%~10%。⑤祁连山区秋季层状云偏多与偏少年在欧亚500 hPa环流场上存在明显的差异,层状云偏多年,极涡向亚洲北部伸展,东亚大槽较偏弱,乌拉尔山高压脊偏强,脊前偏北气流引导极地冷空气沿偏西北路径向中国西北地区输送,中亚地区到高原上不断有低值系统发展东移,同时南支槽加强,来自阿拉伯海、南海、东海的暖湿气流向内陆地区的输送明显加强,与进入高原北部的冷空气交绥,从而使祁连山区层状云出现频次增多;层状云偏少年,中亚-中国西北地区暖性高压异常加强,东亚大槽偏强,冷空气活动路径偏东,亚洲大陆至西太平洋冬季风特征明显,偏北风加强,不利于东南暖湿气流向西北内陆地区的输送,冷暖气流在祁连山区交绥次数减少,从而使祁连山区层状云出现频次减少。⑥印度洋沿孟加拉湾的向北的水汽输送,副热带西太平洋的偏东气流在南海和中南半岛附近转为向北的水汽输送,地中海、里海的西风带纬向水汽输送是3支影响祁连山区秋季层状云多寡的水汽输送通道,进而对祁连山区秋季降水产生影响。
其他语种文摘 Based on meteorological data of autumn cloud shape and surface air temperature at 29 meteorological stations in the Qilian Mountains and the surrounding areas during 1961-2001,the temporal variation and spatial distribution of autumn stratiform cloud arising frequency and the relationship between it and climate warming were analyzed,and the NCEP/NCAR global reanalysis data in the corresponding period were selected to analyze the circulation of autumn stratiform cloud in this region.The results are shown as follows.(1) The autumn stratiform cloud arising frequency in the Qilian Mts.region is 8%~26%,presenting a spatial distribution of less in the(north)west and abundant in the(south)east.(2) The autumn mean air temperature increased by 1.2℃ with a rate of 0.29℃/10a in recent 41 years,and the abrupt change occurred in the mid-1980s.(3) The autumn stratiform cloud arising frequency decreased by 11% at a rate of-2.7%/10a,which was corresponding to the synchronous significant warming since the mid-1980s.The autumn stratiform cloud arising frequency decreased more significantly,and the autumn stratiform cloud arising frequency and air temperature presented an anti-phase trend.(4) In the background of climate warming,the autumn stratiform cloud arising frequency in the Qilian Mts.region decreased,with a decreasing amplitude increasing from northwest to southeast.When the autumn average temperature increased by 1℃,the autumn stratiform cloud arising frequency decreased by 2%~10% over most parts of the Qilian Mts.region,2%~4% in the western and central parts,and 4%~10% in the eastern part.(5) There was a significant difference in 500hPa atmospheric circulation between abundant and less years of autumn stratiform cloud in the Qilian Mts.region.In abundant years,polar vortex extends to northern Asia,the eastern Asia deep trough is weaker,and the Ural high pressure ridge is stronger.Due to the north-northwest airflow before the ridge,the polar cold air flows to Northwest China in a northwest path,uninterrupted low-value systems develop and move towards east from Central Asia to the Qinghai-Tibet Plateau.In the meantime,southern trough strengthened and the transportation of the warm and wet air flow from the Arabian Sea,the South China Sea and the East China Sea to the inland areas were markedly strengthened.It met with the cold air which entered the northern plateau region,leading to an increase in the autumn stratiform cloud arising frequency in the Qilian Mts.region.In less years,the warm anticyclone range from Central Asia to Northwest China is abnormally strengthened,the East Asia deep trough is stronger,and cold air moves by east,presenting a significant winter monsoon characteristic from Asia to Western Pacific.North wind strengthened and made against the transportation of warm and wet flows from Southeast to Northwest China,thus there was less possibility for their meeting in the Qilian Mts.region,thus the autumn stratiform cloud arising frequency decreased.(6) The northward water vapor transportation from the Indian Ocean to the Bay of Bengal,the northward shift of east airflow over the subtropic Western Pacific near the South China Sea and Indo-China Peninsula,and the westerlies latitudinal water vapor transportation over the Mediterranean Sea and the Caspian Sea are the three channels for water vapor transportation which affect the autumn stratiform cloud arising frequency and then affect the autumn precipitation in the Qilian Mts.region.
来源 地理科学进展 ,2012,31(5):609-616 【核心库】
关键词 气候变暖 ; 层状云 ; 500hPa环流 ; 水汽通量输送 ; 祁连山
地址

1. 中国气象局兰州干旱气象研究所, 甘肃省干旱气候变化与减灾重点实验室;;中国气象局干旱气候变化与减灾重点开放实验室, 兰州, 730020  

2. 甘肃省白银市气象局, 甘肃, 白银, 730900

语种 中文
ISSN 1007-6301
学科 大气科学(气象学)
基金 国家自然科学基金项目
文献收藏号 CSCD:4548293

参考文献 共 24 共2页

1.  蓝永超. 祁连山北麓出山径流对气候变化的响应. 兰州大学学报: 自然科学版,2001,37(4):125-132 被引 21    
2.  曹泊. 1972-2007年祁连山东段冷龙岭现代冰川变化研究. 冰川冻土,2010,32(2):242-243 被引 45    
3.  李林. 黑河上游地区气候变化对径流量的影响研究. 地理科学,2006,26(3):40-46 被引 55    
4.  王亚军. 利用树木年轮资料重建祁连山中段春季降水的变化. 地理科学,2001,21(4):373-377 被引 25    
5.  张强. 祁连山与河西内陆河流域绿洲的大气水循环特征研究. 冰川冻土,2008,30(6):907-913 被引 32    
6.  张强. 祁连山山区空中水汽分布特征研究. 气象学报,2007,65(4):633-643 被引 72    
7.  张国庆. 祁连山南麓河谷地形云生长的层结特征. 山地学报,2010,28(3):274-282 被引 5    
8.  封彩云. 中国北方水汽与云和降水的关系. 兰州大学学报: 自然科学版,2009,45(4):30-36 被引 13    
9.  靳立亚. 西北地区空中水汽输送时变特征及其与降水的关系. 兰州大学学报: 自然科学版,2006,42(1):1-6 被引 17    
10.  林纾. 2003年夏秋季大气环流异常对西北地区降水的影响. 灾害学,2001,19(3):62-67 被引 1    
11.  陈少勇. 祁连山总云量变化及其与气候变暖的关系. 干旱区研究,2007,24(1):98-102 被引 15    
12.  陈少勇. 祁连山区低云量的气候变化与异常研究. 高原气象,2006,25(3):545-548 被引 18    
13.  石光普. 气候变暖背景下祁连山区夏季积雨云变化特征. 地理科学进展,2010,29(7):845-854 被引 2    
14.  王宝鉴. 祁连山云和空中水汽资源的季节分布与演变. 地球科学进展,2006,21(9):948-955 被引 24    
15.  罗生洲. 环青海湖地区降水云系及影响系统的初步分析. 青海气象,2006(3):9-12, 21 被引 1    
16.  马晓虹. 环青海湖地区5-9月降水与云层关系的分析研究. 青海气象,2006(4):15-17 被引 3    
17.  吴鹤轩. 青藏高原的低云,1985 被引 8    
18.  陈少勇. 祁连山层状云的时空分布及其环流特征分析. 中国沙漠,2010,30(4):946-953 被引 8    
19.  陈少勇. 祁连山积雨云的时空分布及其环流特征. 干旱区研究,2010,27(1):114-120 被引 9    
20.  魏风英. 现代气候统计诊断预测技术,1999:27-113 被引 3    
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