大气科学
大氣科學
대기과학
Chinese Journal of Atmospheric Sciences
2015年
6期
1250-1262
,共13页
青藏高原%气温%反相变化%降水%大气环流
青藏高原%氣溫%反相變化%降水%大氣環流
청장고원%기온%반상변화%강수%대기배류
Tibetan Plateau%Temperature%Reversed phase change%Precipitation%Atmospheric circulation
本文利用NCEP/NCAR月平均再分析资料及中国596个测站月降水资料,采用线性倾向估计、经验正交函数分解(EOF)、相关分析、合成分析等方法,对青藏高原夏季对流层气温垂直变化及其与降水和环流的关系进行了分析。气温垂直变化特征分析表明:自1971年以来,青藏高原夏季对流层低层至对流层中上部气温呈现显著增暖趋势,对流层上部气温呈现显著变冷趋势,高原对流层低层至中上部气温及对流层上部气温在年际、年代际尺度上均呈较显著负相关,且均存在2~4 a及8~13 a的周期;夏季青藏高原地区沿27.5°N~40°N平均的气温距平垂直分布的EOF分解第一模态特征向量在对流层表现为“下降温上增温”的反相变化,其时间系数呈显著负趋势,且存在1978年及1994年的突变点。高原夏季气温在对流层的上下反相变化与我国夏季降水的关系在年际、年代际尺度上均显示:当高原对流层低层至对流层中上部升温而对流层上部降温时,我国夏季降水表现为南方型,其中以江南至华南地区降水显著偏多而我国东北地区降水显著偏少为主要分布特征;另外,长江流域的局部地区及我国西北的部分地区降水也明显偏少,而华北东部的局部地区、青藏高原中部及东部地区以及新疆西北部地区降水明显偏多;降水异常分布在年代际尺度上比年际尺度更显著。环流分析显示:当高原对流层低层至对流层中上部升温而对流层上部降温时东亚中高纬度地区为异常高压控制,中低纬度地区受异常低压影响。环流场与降水分布有较好的配置关系。
本文利用NCEP/NCAR月平均再分析資料及中國596箇測站月降水資料,採用線性傾嚮估計、經驗正交函數分解(EOF)、相關分析、閤成分析等方法,對青藏高原夏季對流層氣溫垂直變化及其與降水和環流的關繫進行瞭分析。氣溫垂直變化特徵分析錶明:自1971年以來,青藏高原夏季對流層低層至對流層中上部氣溫呈現顯著增暖趨勢,對流層上部氣溫呈現顯著變冷趨勢,高原對流層低層至中上部氣溫及對流層上部氣溫在年際、年代際呎度上均呈較顯著負相關,且均存在2~4 a及8~13 a的週期;夏季青藏高原地區沿27.5°N~40°N平均的氣溫距平垂直分佈的EOF分解第一模態特徵嚮量在對流層錶現為“下降溫上增溫”的反相變化,其時間繫數呈顯著負趨勢,且存在1978年及1994年的突變點。高原夏季氣溫在對流層的上下反相變化與我國夏季降水的關繫在年際、年代際呎度上均顯示:噹高原對流層低層至對流層中上部升溫而對流層上部降溫時,我國夏季降水錶現為南方型,其中以江南至華南地區降水顯著偏多而我國東北地區降水顯著偏少為主要分佈特徵;另外,長江流域的跼部地區及我國西北的部分地區降水也明顯偏少,而華北東部的跼部地區、青藏高原中部及東部地區以及新疆西北部地區降水明顯偏多;降水異常分佈在年代際呎度上比年際呎度更顯著。環流分析顯示:噹高原對流層低層至對流層中上部升溫而對流層上部降溫時東亞中高緯度地區為異常高壓控製,中低緯度地區受異常低壓影響。環流場與降水分佈有較好的配置關繫。
본문이용NCEP/NCAR월평균재분석자료급중국596개측참월강수자료,채용선성경향고계、경험정교함수분해(EOF)、상관분석、합성분석등방법,대청장고원하계대류층기온수직변화급기여강수화배류적관계진행료분석。기온수직변화특정분석표명:자1971년이래,청장고원하계대류층저층지대류층중상부기온정현현저증난추세,대류층상부기온정현현저변랭추세,고원대류층저층지중상부기온급대류층상부기온재년제、년대제척도상균정교현저부상관,차균존재2~4 a급8~13 a적주기;하계청장고원지구연27.5°N~40°N평균적기온거평수직분포적EOF분해제일모태특정향량재대류층표현위“하강온상증온”적반상변화,기시간계수정현저부추세,차존재1978년급1994년적돌변점。고원하계기온재대류층적상하반상변화여아국하계강수적관계재년제、년대제척도상균현시:당고원대류층저층지대류층중상부승온이대류층상부강온시,아국하계강수표현위남방형,기중이강남지화남지구강수현저편다이아국동북지구강수현저편소위주요분포특정;령외,장강류역적국부지구급아국서북적부분지구강수야명현편소,이화북동부적국부지구、청장고원중부급동부지구이급신강서북부지구강수명현편다;강수이상분포재년대제척도상비년제척도경현저。배류분석현시:당고원대류층저층지대류층중상부승온이대류층상부강온시동아중고위도지구위이상고압공제,중저위도지구수이상저압영향。배류장여강수분포유교호적배치관계。
Using linear-trend estimates, empirical orthogonal function (EOF) analysis, correlation and composite analysis, the vertical variation of temperature in the troposphere over the Tibetan Plateau in summer and its relationships to precipitation and atmospheric circulation are examined, based on monthly NCEP/NCAR (National Centers for Environmental Prediction/National Center for Atmospheric Research) reanalysis data and precipitation data from 596 stations in China. The characteristics of the vertical variation of temperature reveal that the temperature in the lower to middle-upper troposphere over the Tibetan Plateau in summer shows a significant warming trend since 1971, while the temperature in the high troposphere shows a significant cooling trend. In terms of interannual and interdecadal the temperature in the lower to middle-upper troposphere and the high troposphere are negatively correlated, and all have the cycles of 2–4 and 8–13 years. The first EOF mode of the vertical temperature anomaly averaged along 27.5°N–40°N over the Tibetan Plateau in summer shows a reversed phase change of an increase in the lower to middle-upper troposphere and a decrease in the high troposphere. Its time coefficient shows a long-term positive trend, and there is abrupt change in 1978 and 1994. The relationships between the interannual and interdecadal reversed phase change of temperature, i.e., an increase in the lower to middle-upper troposphere and a decrease in the high troposphere over the Tibetan Plateau in summer, and precipitation in China in summer, are explored. When the temperature over the Tibetan Plateau increases in the lower to middle-upper troposphere and decreases in the high troposphere, summer rainfall in China shows a southern type pattern, in which more precipitation in the regions south of the Yangtze River and southern China and less precipitation in the northeast of China are the main distributional characteristics. In addition, less precipitation occurs in the local areas of the Yangtze River Basin and some areas of northwestern China, while more precipitation occurs in the local areas of the eastern part of North China, the central and eastern regions of the Tibetan Plateau, and northwest Xinjiang. The abnormal interdecadal distribution of precipitation is more significant than the interannual distribution. Analysis of the circulation reveals that when the temperature over the Tibetan Plateau increases in the lower to middle–upper troposphere and decreases in the high troposphere, there is abnormally high pressure in middle and high latitude regions of East Asia, while in middle and low latitude areas there is abnormally low pressure. Meanwhile, a relatively significant relationship is found between circulation and precipitation.