CLM4.0模式对中国区域土壤湿度的数值模拟及评估研究   总被引：7，自引：2，他引：5  

赖欣  文军  岑思弦  宋海清  田辉  史小康  何媛  黄曦 《大气科学》2014,38(3):499-512

本文利用普林斯顿大学全球大气强迫场资料,驱动公用陆面过程模式（Community Land Model version 4.0,CLM4.0）模拟了中国区域1961～2010年土壤湿度的时空变化。将模拟结果与观测结果、美国国家环境预报中心再分析数据（National Centers for Environmental Prediction Reanalysis,NCEP）和高级微波扫描辐射计（Advanced Microwave Scanning Radiometer-EOS,AMSR-E）反演的土壤湿度进行了对比分析,结果表明CLM4.0模拟结果可以反映出中国区域观测土壤湿度的空间分布和时空变化特征,但东北、江淮和河套三个地区模拟值相对于观测值在各层次均系统性偏大。模拟与NCEP再分析土壤湿度的空间分布基本一致,与AMSR-E的反演值在35°N以北的分布也基本一致;从1961～2010年土壤湿度模拟结果分析得出,各层土壤湿度空间分布从西北向东南增加。低值区主要分布在新疆、青海、甘肃和内蒙古西部地区。东北平原、江淮地区和长江流域为高值区。土壤湿度数值总体上从浅层向深层增加。不同深度土壤湿度变化趋势基本相同。除新疆西部和东北部分地区外,土壤湿度在35°N以北以减少趋势为主,30°N以南的长江流域、华南及西南地区以增加为主。在全球气候变暖的背景下,CLM4.0模拟的夏季土壤湿度在不同程度上响应了降水的变化。中国典型干旱区和半干旱区土壤湿度减小,湿润区增加。其中湿润区土壤湿度对降水的响应最为显著,其次是半干旱区和干旱区。  相似文献   

西北干旱区水汽收支变化及其与降水的关系     

《干旱气象》2016,(3)

利用NCEP资料计算并分析1961—2010年西北干旱区(35°N—50°N,73°E—105°E)经纬向水汽输送、蒸发和水汽辐合辐散的变化特征,以及它们与同期西北干旱区降水之间的关系。结果显示:(1)西北干旱区冬、春、秋季经向水汽输送为净输入,纬向为净输出,总水汽输送为净输入。夏季经、纬向水汽输送均为净输出;(2)1961—2010年,西北干旱区各季节降水均增加,冬、春季降水增加显著,夏、秋季降水增加不显著。冬季纬向水汽净输出减少,导致西北干旱区冬季总水汽输送增加;春、秋季经向净输入减少和夏季经向净输出增加,导致春、夏、秋季总水汽输送减少;(3)1961—2010年,西北干旱区各季节蒸发量显著增加,且夏季增加趋势最显著;(4)各季节水汽通量散度显著减小,水汽辐合加强,且夏季水汽辐合增强最明显;(5)蒸发增大和水汽辐合增强是西北干旱区降水增加的主要原因,但外部水汽输送变化也会影响降水变化。  相似文献   

我国夏季降水及相关大气环流场未来变化的预估及不确定性分析   总被引：8，自引：1，他引：7  

陈活泼  孙建奇  陈晓丽 《气候与环境研究》2012,17(2):171-183

利用政府间气候变化专门委员会第四次评估报告(IPCCAR4)的15个耦合气候模式在不同排放情景下的模拟结果,对我国夏季降水及相关大气环流场的未来时空变化特征与模式之间的不确定性作了研究。结果表明,在全球变暖背景下,我国夏季降水表现出较强的局地特征。其中,我国东部和高原地区的降水在21世纪表现出明显的增加趋势,而且这种趋势随着变暖的加剧而增强,同时模式模拟结果之间的一致性也更好,表明这一结果的可信度较高。在全球变暖背景下,我国新疆南部地区表现为持续的降水减少趋势,而我国西南地区夏季降水的变化则呈现出先减少(21世纪初)后增加的特征,不同模式对降水这些局地特征的模拟也都表现出较好的一致性。其他地区夏季降水在21世纪的变化不大,同时模式模拟的一致性也较差。多模式模拟的我国未来百年夏季降水的这些变化特征在温室气体高、中、低不同排放情景下基本一致,A2情景预估结果变化最大,A1B次之,B1相对最小。东亚夏季大气环流场的预估结果显示,在全球变暖的背景下,大部分模式的模拟结果都表明,东亚夏季风环流有所增强,从而使得由低纬度大洋和南海地区向我国大陆的水汽输送增加,造成该地区大气含水量的增多,从而为我国东部地区夏季降水的增加提供有利条件。此外,随着全球变暖的加剧,西太平洋副热带高压持续增强,其变化对我国东部地区夏季降水的影响程度和范围也明显增大。这些环流场及其不确定性的分析结果进一步加强了我国夏季降水未来变化预估结果的可信度。  相似文献   

中国东部前冬、春土壤湿度与夏季气候的关系   总被引：4，自引：1，他引：3  

戴长勇  左志燕 《气象科技》2010,38(3):300-305

利用中国东部(100°E以东)139个站的1951~1999年逐月反演的土壤湿度资料以及160个气象台站的气温、降水资料,分析了我国东部不同区域前冬、春土壤湿度异常与夏季气候的关系。研究结果表明,黄河以南地区上年冬季土壤湿度与夏季降水存在正的相关关系,但这种滞后相关存在明显的地域差异。其中云贵高原和华中地区夏季气候对上年冬季土壤湿度响应最显著。黄河以北的华北和内蒙地区上年冬季土壤湿度与夏季降水有弱的负相关关系。除了云贵高原地区外,多数地区上年冬季土壤湿度与夏季温度存在负相关关系,其中负相关最显著的是华北地区。春季土壤湿度除与云贵高原的夏季气候关系密切外,与其他地区夏季气候的关系不显著。土壤湿度与气候的滞后相关表明土壤湿度在年际尺度上对后期气候有一定的影响。  相似文献   

东亚副热带西风急流变化多模式模拟结果分析   总被引：6，自引：2，他引：4       下载免费PDF全文

张耀存  郭兰丽 《气象科学》2010,30(5):694-700

利用政府间气候变化委员会第四次评估报告(IPCC AR4)中等强度温室气体排放情景试验(SRES A1B)多个耦合模式的输出结果,通过多模式集合的方法分析全球变暖背景下东亚副热带西风急流的变化特征,发现在多模式集合平均结果中,随着温室气体增多、温室效应进一步加剧,冬季急流强度增强,急流位置向北移动,夏季急流强度也呈现出增强的趋势,位置却向南移动。在全球变暖背景下,冬季北半球从低纬到中高纬度对流层中高层温度将增加,但低纬增温强、高纬增温弱,导致副热带地区温度梯度增加,夏季增温幅度比冬季大,且强增温区向北移,造成急流轴北侧区域温度梯度增大,并通过热成风关系使得急流区纬向风增强。  相似文献   

南海海温和西南地区土壤湿度异常与中国东部夏季降水的可能联系   总被引：2，自引：0，他引：2  

高楚杰  陈海山  许蓓  曾刚 《热带气象学报》2013,29(1):75-82

利用1958—2001年NOAA海温资料、欧洲中心(ECMWF)ERA40土壤湿度再分析资料和中国100 °E以东444站的降水资料,探讨了南海海温和土壤湿度异常与我国东部夏季降水之间的可能联系,并初步讨论其可能的物理过程。结果表明,春季南海海温与西南地区东部土壤湿度的异常变化之间存在显著的负相关关系,而土壤湿度的异常与我国东部夏季降水之间也存在密切的联系。当春季南海海温异常偏高(低)时,我国西南地区东部的土壤通常出现异常偏干(湿),而夏季长江流域降水偏多(少)、东南沿海地区降水偏少(多)。进一步分析表明,春季南海海温异常偏高(低),有利于我国南部区域低层西南风减弱(偏强),西南地区东部水汽输送减少(增加),导致该地区春季的降水异常减少(增加)、土壤偏干(湿);通过蒸发反馈机制使得夏季西南地区东部地表温度偏高(低),引起副高西伸(东退)发展,最终导致我国东部地区夏季降水的异常。   相似文献   

利用GLDAS资料分析黄土高原半干旱区土壤湿度对气候变化的响应   总被引：1，自引：0，他引：1  

程善俊  管晓丹  黄建平  季明霞 《干旱气象》2013,(4):641-649

利用GLDAS资料分析了1948~2010年黄土高原半干旱区气温、降水和土壤湿度的变化趋势,并重点讨论了气温和降水对土壤湿度的影响和相对贡献。结果表明:近60 a来黄土高原半干旱区整体呈现暖干化趋势,增温速率明显高于全球平均增温速率;不同深度的土壤湿度的长期变化均呈减小趋势,且年际间变化明显。不同深度的土壤湿度和气温呈负相关关系,并随着土壤加深,两者的相关性加强;土壤湿度和降水则呈正相关关系,相关关系最大出现在表层土壤。通过分析气温和降水在不同季节对土壤湿度的相对贡献发现,春季和冬季气温对土壤湿度的相对贡献较降水显著,秋季恰好相反,夏季气温和降水对土壤湿度的相对贡献大小相当。对比不同深度层降水、气温对土壤湿度的相对贡献得出,降水对浅层土壤湿度有显著作用,而气温对深层土壤湿度的作用更明显。  相似文献   

欧亚大陆春季融雪与长江流域夏季降水的可能联系   总被引：1，自引：1，他引：0       下载免费PDF全文

韩冬  陈海山  许蓓  齐铎  吴波 《气象科学》2014,34(3):237-242

利用1979—2007年全球月平均的积雪水当量资料,定义了春季积雪水当量增量指数,该指数可以较为直观地反映春季融雪的情况。通过这一纽带,分析了欧亚大陆春季融雪与长江流域夏季降水之间的联系。研究表明:欧亚大陆春季融雪与中国长江流域夏季降水是负相关关系,这与高原积雪的影响是不一致的。春季融雪量的减少,使得欧亚大陆北部夏季剩余积雪偏多,夏季融雪增多。融雪的局地效应使得土壤湿度增加,加大了欧亚大陆南北热力差异。从而,夏季中纬度的纬向风切变增大,对流层上层的副热带西风急流增强,副热带高压增强西伸,但是北抬受到抑制。长江流域位于异常西南暖湿气流与冷空气的辐合带上,上升运动活跃,有利于降水偏多。  相似文献   

青藏高原热力作用对南海及周边区域夏季气候的影响研究进展     

李春晖  何超  万齐林 《热带气象学报》2019,35(2):268-280

针对青藏高原热力强迫作用对东亚夏季风强度、南海夏季风爆发早晚、南海周边区域旱涝的影响,以及在全球变暖背景下其对降水格局的影响等科学研究进行了总结回顾,并就青藏高原热力作用对南海周边区域夏季气候的影响科学问题进行了探讨。研究表明,高原冬春积雪异常通过影响雪盖反照率、改变辐射平衡和通过积雪-水文效应改变土壤湿度两个途径来影响东亚夏季风;通过改变大陆-海洋经向热力对比影响南海季风爆发早晚;通过改变西太平洋副高位置和季风环流变化来影响华南和长江流域夏季降水的分布。在全球变暖背景下,青藏高原感热加热的减弱可能对降水年代际“南涝北旱”格局的形成具有重要贡献。随着全球变暖减缓,青藏高原中部和东部的感热呈现出复苏态势,“南涝北旱”的降水格局分布在将来有可能被打破。   相似文献   

青藏高原及其典型区域土壤湿度的分布和变化特征     

卓嘎  陈涛  格桑 《南京气象学院学报》2017,9(4):445-454

基于土壤湿度融合分析产品及气象观测资料,分析了青藏高原及其典型区域的土壤湿度分布特征以及影响因素.结果表明：青藏高原土壤湿度与高原降水季节有较好的对应关系,降水量多的季节对应大的土壤湿度,反之亦然,即夏季土壤湿度最大,春季和秋季次之,冬季最小;高原外围土壤相对较湿,中部较干,夏季土壤高湿度区从藏东南向西北、塔里木盆地向藏东北扩展,冬季土壤高湿度区向藏东南和塔里木盆地收缩;土壤湿度垂直层次呈现出浅层和深层低、中间层高的特点,从浅层到深层土壤湿度的变化幅度逐渐减小;高原典型区域土壤湿度逐日变化规律与高原区域平均的土壤湿度时间演变接近一致,降水量的多少和湿润区、半干旱区土壤湿度高低值有较好的对应关系,湿润区垂直梯度大,干旱区和半干旱区垂直梯度小;蒸发量、风速、气温以及植被状况均会影响到土壤湿度的分布特征.  相似文献   

春季华南土壤湿度异常与中国夏季降水的可能联系   总被引：12，自引：0，他引：12  

梁乐宁  陈海山 《南京气象学院学报》2010,33(5):536-546

基于ERA40（ECMWF）1958—2001年土壤湿度再分析资料和中国541站降水资料,通过观测分析揭示了华南春季土壤湿度异常与中国夏季降水的联系及其可能的物理过程。结果表明,春季华南土壤湿度与夏季华南（长江流域及其以北地区）降水呈正（负）相关;春季华南土壤湿度负（正）异常,夏季华南降水异常偏少（多）,而长江以北地区降水则偏多（少）。通过对春季华南土壤湿度异常年份对应的环流异常特征的诊断分析发现：土壤湿度负异常年,西太平洋副高位置明显偏西,华南地区对应异常的下沉运动和水汽辐散,导致该地区降水偏少;而长江中下游地区对应异常的上升运动和水汽通量的辐合,降水偏多;土壤湿度正异常年的情况大致相反。进一步的分析表明,春季华南土壤湿度与同期长江中下游及以北地区土壤湿度存在明显的负相关关系。春季华南土壤湿度负（正）异常年的同期华北到长江中下游区域土壤湿度为正（负）异常,将导致南部区域的地表温度异常升高（降低）,北部地表温度异常偏低（偏高）,并通过改变地表对大气的加热,引起夏季大气环流的异常,最终造成夏季降水异常。  相似文献   

Changed Relationships Between the East Asian Summer Monsoon Circulations and the Summer Rainfall in Eastern China   总被引：1，自引：0，他引：1       下载免费PDF全文

GAO Hui  JIANG Wei  LI Weijing 《Acta Meteorologica Sinica》2014,28(6):1075-1084

In previous statistical forecast models, prediction of summer precipitation along the Yangtze River valley and in North China relies heavily on its close relationships with the western Pacific subtropical high (WPSH), the blocking high in higher latitudes, and the East Asian summer monsoon (EASM). These relationships were stable before the 1990s but have changed remarkably in the recent two decades. Before the 1990s, precipitation along the Yangtze River had a significant positive correlation with the intensity of the WPSH, but the correlation weakened rapidly after 1990, and the correlation between summer rainfall in North China and the WPSH also changed from weak negative to significantly positive. The changed relationships present a big challenge to the application of traditional statistical seasonal prediction models. Our study indicates that the change could be attributed to expansion of the WPSH after around 1990. Owing to global warming, increased sea surface temperatures in the western Pacific rendered the WPSH stronger and further westward. Under this condition, more moisture was transported from southern to northern China, leading to divergence and reduced (increased) rainfall over the Yangtze River (North China). On the other hand, when the WPSH was weaker, it stayed close to its climatological position (rather than more eastward), and the circulations showed an asymmetrical feature between the stronger and weaker WPSH cases owing to the decadal enhancement of the WPSH. Composite analysis reveals that the maximum difference in the moisture transport before and after 1990 appeared over the western Pacific. This asymmetric influence is possibly the reason why the previous relationships between monsoon circulations and summer rainfall have now changed.  相似文献   

南半球环流异常与我国夏季旱涝分布关系及其影响机制   总被引：6，自引：0，他引：6  

何敏  孙林海艾秀 《应用气象学报》2006,17(4):394-402

利用1951—2000年NCEP/NCAR风场和高度场再分析资料及全国160站降水量资料, 采用奇异值分解、相关和合成分析方法, 研究6—8月南半球500 hPa高度、高低层纬向风距平差异常 (Δu₈₅₀-Δu₂₀₀) 与我国夏季旱涝分布的关系及其影响机制。结果表明:当500 hPa澳大利亚高压脊偏强及西南太平洋热带地区高低层纬向风距平差为负值时, 来自南半球冷空气活动偏弱, 有利于西北太平洋副热带高压位置偏南, 热带季风偏弱, 我国夏季雨带偏南。反之, 当澳大利亚高压脊偏弱及西南太平洋热带地区高低层纬向风距平差为正值时, 我国北方降水偏多。同时, 定义了澳大利亚冬季风指数, 指出澳大利亚冬季风强年和弱年影响我国夏季旱涝分布异常的水汽输送型式不同。  相似文献   

Climate Changes in the 21st Century over the Asia-Pacific Region Simulated by the NCAR CSM and PCM   总被引：3，自引：0，他引：3  

Aiguo Dai  G.A. Meehl  W.M. Washington  T.M.L. Wigley 《大气科学进展》2001,18(5):639-658

The Climate System Model (CSM) and the Parallel Climate Model (PCM), two coupled global climate models without flux adjustments recently developed at NCAR, were used to simulate the 20th century climate using historical greenhouse gas and sulfate aerosol forcing. These simulations were extended through the 21st century under two newly developed scenarios, a business-as-usual case (BAU, CO2≈710 ppmv in 2100) and a CO2 stabilization case (STA550, CO2≈540 ppmv in 2100). The simulated changes in temperature, precipitation, and soil moisture over the Asia-Pacific region (10°-60°N, 55°-155°E) are analyzed, with a focus on the East Asian summer monsoon rainfall and climate changes over the upper reaches of the Yangtze River. Under the BAU scenario, both the models produce surface warming of about 3-5℃ in winter and 2-3℃ in summer over most Asia. Under the STA550 scenario, the warming is reduced by 0.5-1.0℃ in winter and by 0.5℃ in summer. The warming is fairly uniform at the low latitudes and does not induce significant changes in the zonal mean Hadley circulation over the Asia-Pacific do main. While the regional precipitation changes from single CSM integrations are noisy, the PCM ensemble mean precipitation shows 10%-30% increases north of ～ 30°N and ～ 10% decreases south of ～ 30°N over the Asia-Pacific region in winter and 10%-20% increases in summer precipitation over most of the region. Soil moisture changes are small over most Asia. The CSM single simulation suggests a 30% increase in river runoff into the Three Gorges Dam, but the PCM ensemble simulations show small changes in the runoff.  相似文献   

Possible Impacts of the Arctic Oscillation on the Interdecadal Variation of Summer Monsoon Rainfall in East Asia   总被引：18，自引：5，他引：18  

JU Jianhu  Lü Junmei  CAO Jie  REN Juzhang 《大气科学进展》2005,22(1):39-48

The influences of the wintertime AO (Arctic Oscillation) on the interdecadal variation of summer monsoon rainfall in East Asia were examined. An interdecadal abrupt change was found by the end of the 1970s in the variation of the AO index and the leading principal component time series of the summer rainfall in East Asia, The rainfall anomaly changed from below normal to above normal in central China, the southern part of northeastern China and the Korean peninsula around 1978. However,the opposite interdecadal variation was found in the rainfall anomaly in North China and South China.The interdecadal variation of summer rainfall is associated with the weakening of the East Asia summer monsoon circulation. It is indicated that the interdecadal variation of the AO exerts an influence on the weakening of the monsoon circulation. The recent trend in the AO toward its high-index polarity during the past two decades plays important roles in the land-sea contrast anomalies and wintertime precipitation anomaly. The mid- and high-latitude regions of the Asian continent are warming, while the low-latitude regions are cooling in winter and spring along with the AO entering its high-index polarity after the late 1970s. In the meantime, the precipitation over the Tibetan Plateau and South China is excessive, implying an increase of soil moisture. The cooling tendency of the land in the southern part of Asia will persist until summer because of the memory of soil moisture. So the warming of the Asian continent is relatively slow in summer. Moreover, the Indian Ocean and Pacific Ocean which are located southward and eastward of the Asian land, are warming from winter to summer. This suggests that the contrast between the land and sea is decreased in summer. The interdecadal decrease of the land-sea heat contrast finally leads to the weakening of the East Asia summer monsoon circulation.  相似文献   

Water　Resources　of　the　South　Asian　Region　in　a　Warmer　Atmosphere   总被引：1，自引：0，他引：1  

M.Lal 《大气科学进展》1994,11(2):239-246

The global mean surface temperature may rise by about 0.3oC per decade during the next Few decades as a result of anthropogenic greenhouse gas emissions in the earth’s atmosphere. The data generated in the greenhouse warming simulations (Business-as-Usual scenario of IPCC) with the climate models developed at Max Planck Institute for Meteorology, Hamburg have been used to assess future plausible hydrological scenario for the South Asian region. The model results indicate enhanced surface warming (2.7oC for summer and 3.6oC for winter) over the land regions of South Asia during the next hundred years. While there is no significant change in the precipitation over most of the land regions during winter, substantial increase in precipitation is likely to occur during summer. As a result, an increase in soil moisture is likely over central India, Bangladesh and South China during summer but a statistically sig-nificant decline in soil moisture is expected over central China in winter. A moderate decrease in surface runoff may occur over large areas of central China during winter while the flood prone areas of NE-India. Bangladesh and South China are likely to have an increase in surface runoff during summer by the end of next century.  相似文献   

青藏高原冬春季积雪异常对中国春夏季降水的影响   总被引：27，自引：3，他引：27  

钱永甫张艳  郑益群 《干旱气象》2003,21(3):1-7

利用1956年12月～1998年12月共42a，青藏高原及其附近地区78个积雪观测站的雪深和我国160站月降水的距平资料，分析了其气候特征，并用SVD方法分析了冬春季积雪异常与春夏季我国降水异常的关系。用区域气候模式RegCM2模拟了青藏高原积雪异常的气候效应并检验了诊断分析的结果。分析表明，雪深异常，尤其是冬季雪深异常是影响中国降水的一个因子。研究证明，高原冬季雪深异常对后期中国区域降水的影响比春季雪深异常的影响更为重要。数值模拟的结果表明，高原雪深和雪盖的正异常推迟了东亚夏季风的爆发日期，减弱了季风强度，造成华南和华北降水减少，而长江和淮河流域降水增加。冬季雪深异常比冬季雪盖异常和春季雪深异常对降水的影响更为显著。机理分析指出，高原及其邻近地区的积雪异常首先通过融雪改变土壤湿度和地表温度，从而改变了地面到大气的热量、水汽和辐射通量。由此所引起的大气环流变化又反过来影响下垫面的特征和通量输送。在湿土壤和大气之间，这样一种长时间的相互作用是造成后期气候变化的关键过程。与干土壤和大气的相互作用过程有本质差别。  相似文献   

INVESTIGATIONS ON MOISTURE TRANSPORTS, BUDGETS AND SOURCES RESPONSIBLE FOR THE DECADAL VARIABILITY OF PRECIPITATION IN SOUTHERN CHINA   总被引：1，自引：0，他引：1  

胡娅敏  司东  柳艳菊  赵亮 《热带气象学报(英文版)》2016,22(3):402-412

In the context of global warming, apparent decdal-interdecdal variabilities can be detected in summer precipitation in southern China. Especially around the 1990s, precipitation in South China experienced a phase transition from a deficiency regime to an abundance regime in the early 1990s, while the Yangtze River Valley witnessed a phase shift of summer precipitation from abundance to deficiency in the late 1990s. Pertinent analyses reveal a close relationship between such decadal precipitation shifts and moisture budgets, which is mainly modulated by the meridional component. This relationship can be attributed to large-scale moisture transport anomalies. Further, the HYSPLIT model is utilized to quantitatively evaluate relative moisture contributions from diverse sources during different regimes. It can be found that during the period with abundant precipitation in South China, the moisture contribution from the source of Indochina Peninsula-South China Sea increased significantly, while during the deficient precipitation regime in the Yangtze River Valley, moisture from local source, western Pacific and Indochina Peninsula-South China Sea contributed less to precipitation. It means some new features of relative moisture contributions from diverse sources to precipitation anomaly in southern China took shape after 1990s.  相似文献   

Influence of soil moisture in eastern China on the East Asian summer monsoon   总被引：1，自引：0，他引：1  

Zhiyan Zuo  Renhe Zhang 《大气科学进展》2016,33(2):151-163

The sensitivity of the East Asian summer monsoon to soil moisture anomalies over China was investigated based on ensembles of seasonal simulations(March–September) using the NCEP GCM coupled with the Simplified Simple Biosphere Model(NCEP GCM/SSi B). After a control experiment with free-running soil moisture, two ensembles were performed in which the soil moisture over the vast region from the lower and middle reaches of the Yangtze River valley to North China(YRNC) was double and half that in the control, with the maximum less than the field capacity. The simulation results showed significant sensitivity of the East Asian summer monsoon to wet soil in YRNC. The wetter soil was associated with increased surface latent heat flux and reduced surface sensible heat flux. In turn, these changes resulted in a wetter and colder local land surface and reduced land–sea temperature gradients, corresponding to a weakened East Asian monsoon circulation in an anomalous anticyclone over southeastern China, and a strengthened East Asian trough southward over Northeast China. Consequently, less precipitation appeared over southeastern China and North China and more rainfall over Northeast China. The weakened monsoon circulation and strengthened East Asian trough was accompanied by the convergence of abnormal northerly and southerly flow over the Yangtze River valley, resulting in more rainfall in this region.In the drier soil experiments, less precipitation appeared over YRNC. The East Asian monsoon circulation seems to show little sensitivity to dry soil anomalies in NCEP GCM/SSi B.  相似文献