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夏季欧亚中高纬地区温度季节内变率的时空演变特征
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作者 扎西宗吉 平措达瓦 +1 位作者 西绕卓玛 旦增 《中文科技期刊数据库(全文版)自然科学》 2023年第6期10-13,共4页
本文利用1978-2014年NCEP-NCAR再分析数据,水平分辨率为2.5°×2.5°,运用经验正交函数分解,合成分析方法研究了夏季欧亚中高纬度地区(20°E–140°E,35°N–80°N)主要低频周期(10-30天)温度低频振荡的时... 本文利用1978-2014年NCEP-NCAR再分析数据,水平分辨率为2.5°×2.5°,运用经验正交函数分解,合成分析方法研究了夏季欧亚中高纬度地区(20°E–140°E,35°N–80°N)主要低频周期(10-30天)温度低频振荡的时空演变的特征。文章中采用的再分析数据包括1978-2014年(37年)的温度场,高度场,风场的逐日资料。 展开更多
关键词 欧亚中高纬度 温度季节变率 东南传播 EOF分析 合成分析
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近44a中国冬夏气温变率及其对区域变暖性的影响 被引量:11
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作者 吴胜安 江志红 屠其璞 《南京气象学院学报》 CSCD 北大核心 2002年第6期830-836,共7页
利用近 4 4a中国 85个测站冬夏季逐日平均、最高和最低气温序列 ,研究冬夏季温度季节变率及其时空演变特征 ,探讨其对区域变暖稳定性的影响。结果表明 :冬季 ,除高原、西南、东北以外的中国大部分地区 ,温度的季节变率存在显著下降趋势 ... 利用近 4 4a中国 85个测站冬夏季逐日平均、最高和最低气温序列 ,研究冬夏季温度季节变率及其时空演变特征 ,探讨其对区域变暖稳定性的影响。结果表明 :冬季 ,除高原、西南、东北以外的中国大部分地区 ,温度的季节变率存在显著下降趋势 ,是近期变暖的稳定区 ,其中变暖最为稳定、显著的区域是西北、华北地区 ,东北北部虽变暖幅度很大 ,但稳定性最差 ;夏季 ,长江中下游及其江南地区温度变率存在显著上升趋势 ,2 0世纪 70年代后年际变幅明显增大 ,表明该地区 80年代降温的稳定性差。 展开更多
关键词 中国 温度季节变率 变暖稳定性 冬季 夏季
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Effect of Altitude and Latitude on Surface Air Temperature across the Qinghai-Tibet Plateau 被引量:8
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作者 WANG Keli SUN Jia +1 位作者 CHENG Guodong JIANG Hao 《Journal of Mountain Science》 SCIE CSCD 2011年第6期808-816,共9页
The correlation between mean surface air temperature and altitude is analyzed in this paper based on the annual and monthly mean surface air temperature data from 106 weather stations over the period 1961-2003 across ... The correlation between mean surface air temperature and altitude is analyzed in this paper based on the annual and monthly mean surface air temperature data from 106 weather stations over the period 1961-2003 across the Qinghai-Tibet Plateau. The results show that temperature variations not only depend on altitude but also latitude, and there is a gradual decrease in temperature with the increasing altitude and latitude. The overall trend for the vertical temperature lapse rate for the whole plateau is approximately linear. Three methods, namely multivariate composite analysis, simple correlation and traditional stepwise regression, were applied to analyze these three correlations. The results assessed with the first method are well matched to those with the latter two methods. The apparent mean annual near-surface lapse rate is -4.8 ℃ /km and the latitudinal effect is -0.87 ℃ /°latitude. In summer, the altitude influences the temperature variations more significantly with a July lapse rate of -4.3℃/km and the effect of latitude is only -0.28℃ /°latitude. In winter, the reverse happens. The temperature decrease is mainly due to the increase in latitude. The mean January lapse rate is -5.0℃/km, while the effect of latitude is -1.51℃ /°latitude. Comparative analysis for pairs of adjacent stations shows that at a small spatial scale the difference in altitude is the dominant factor affecting differences in mean annual near-surface air temperature, aided to some extent bydifferences of latitude. In contrast, the lapse rate in a small area is greater than the overall mean value for the Qinghai-Tibet Plateau (5 to 13℃ /km). An increasing trend has been detected for the surface lapse rate with increases in altitude. The temperature difference has obvious seasonal variations, and the trends for the southern group of stations (south of 33 o latitude) and for the more northerly group are opposite, mainly because of the differences in seasonal variation at low altitudes. For yearly changes, the temperature for high-altitude stations occurs earlier clearly. Temperature datasets at high altitude stations are well-correlated, and those in Nanjing were lagged for 1 year but less for contemporaneous correlations. The slope of linear trendline of temperature change for available years is clearly related to altitude, and the amplitude of temperature variation is enlarged by high altitude. The change effect in near-surface lapse rate at the varying altitude is approximately 1.0℃ /km on the rate of warming over a hundred-year period. 展开更多
关键词 Qinghai-Tibet Plateau Surface airtemperature Vertical lapse rate ALTITUDE LATITUDE
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