Impacts of the }betan Plateau Snow Anomaly in Winter and Spring on Precipitation in China in Spring and Summer

Abstract

Abstract:

The climatological features of the winter snow depth over the Tibetan Plateau and the summerprecipitation in China are diagnosed by use of the datasets obtained from the 78 snow observation stations and 160 rainfall stations during 1957 to 1998. Climatic effects of snow anomaly over the Tibetan Plateau on the regional summer monsoon climate in China are diagnosed and numerically simulated by use of a regional climate model (RegCM2).The SVD technique is adopted to diagnose the relationships between the prior winter and spring Plateau snow depth anomalies and the firing and summer regional precipitation in China. It is found that the snow depth anomaly especially in winter is one of factors influencing precipitation in China;however.it isperhaps not the unique one and even not the most important one. Nevertheless .it is proved that the winter snow anomaly over the Tibetan Plateau is relatively more important than the spring one for the regional precipitation in China. Results of numerical simulations show that the snow anomaly over the Plateau has evident effects on China's summer monsoon climate. The increase of both snow cover and snow dq}th can delay the onset and weaken the intensity of summer monsoon obviously .resulting in the decrease of precipitation in south China
and the increase in the Yangtze and Huaihe River basins. The influence of the winter snow dq}th is more substantial than that of both the winter snow cover and the firing snow depth. The mechanism of how the Plateau snow anomaly influences the regional monsoon climate is briefly analyzed. It isfound that snow anomalies over the Tibetan Plateau change the soil moisture and the surface temperatune through melting process of snow at first .alter heat .moisture and radiation fluxes from the surface to the atmo}here at the meantime. Abnormal circulation conditions induced饰changes of surface fluxes may affect the underlying surface properties in turnSuch a long time interaction between the wetland and the atmo}here is the key process resulting in later climate changes.

Key words: Singular value decomposition (SVD), Efffects of snow anomaly, Spring and summer precipitation in China, Asian
summer
monsoon;Numerical simulations;Mechanism analysis

摘要：

利用1956年12月~1998年12月共42 a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阵众的影响更为显著。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.

关键词: 奇异值分解(SVD), 积雪异常的气候效应, 中国春夏季降水, 亚洲夏季风;数值模拟, 机制分析

CLC Number:

P461

JIAN Yong-Fu, ZHANG Yan, ZHENG Yi-Qun. Impacts of the }betan Plateau Snow Anomaly in Winter and Spring on Precipitation in China in Spring and Summer[J]. J4, 2003, 21(3): 1-7.

钱永甫, 张艳, 郑益群. 青藏高原冬春季积雪异常对中国春夏季降水的影响[J]. J4, 2003, 21(3): 1-7.

References

[1]Hahn D J ,Shukla J. An apparent relationship between Eurasian
snow cover and Indian Monsoon rainfall[J ］.J Atmos Sci ,1976.
33:2461－2412．
[2]   DeyB月hanu Kumar O S R U. An apparent relationship between
      Eurasian snow cover and the advanced period of the Indian sum-
      mer monsoon[J].J Appl Meteor ,1982 ,21:1929－1932.
[3 ] Dickson R R. Eurasian snow cover versus Indian monsoon rainfall
      一An extension of the Hanh一Shukla results[J]. J Climate Appl
      Meteor ,1984 ,23 :171－173.
[4]    CharneyJ G,ShuklaJ .Predictability of Monsoons,Monsoon Dy-
      namucs[M].London:Cambridge University Press，1981.99-109.
[5]  Vernekar A D ,ZhouJ.The effect of Eurasian Snow Cover on the
      Indian Monsoon[J].J Climate ,1995 ,8 :248一266.
[6]    Barnett T P ,Dumenil L ,Schiese V ,et al. The effect of Eurasian
      snow cover on regional and globam climate variations[J].J Atmos
      Sci ,1989 ,46 :661－685.
[7]    T－C Yeh，Wetherald R T，Manabe S. A Model Study of the
      Short一Term Climate and Hydrologic Effects of Sudden Snow
      Cover Removal[J].Mon Wea Rev ,1983 ,111 :1013－1024.
[8]    Zwiers F W. Simulation of the Asian summer monsoon with the
      CCC GCM一1 [J].J Climate ,1993 ,6 :470－486.
[9]范广洲，罗四维，吕世华.青藏高原冬季积雪异常对东、南亚初
    步数值模拟研究[J].高原气象，1997,16(2) :140－152.
[10]   Hahn D G,Manabe S. The role of mountain in the south Asia
        monsoon[J］.J AtmosSci,1975,32:1515一1541.
[11]吴国雄，张永生.青藏高原的热力和机械强迫作用以及亚洲
季风的爆发I.爆发地点[[J ].大气科学，1998 ,22 :825-837.
[12]钱永甫，颜宏，王谦谦，等.行星大气中地形效应的数值研究
[M].北京:科学出版社，1988.181.
[13]彭公炳，李晴，钱步东.气候与冰雪覆盖[M].北京:气象出版社，1992.57.
[14]Zhang Zhengqiu ,Li Weiliang ,Chen Longxun. Numerical experi-
mentson the effect of Qinghai一Xizang Plateau snow cover on
summer monsoon formation[M].Annual Report 1991-1992，
The Chinese Academy of Meteorological Sciences ,Beijing : China
Meteorological Press ,1992.45-51.
[15]陈丽娟，吕世华，罗四维.青藏高原春季积雪异常对亚洲季风
降水影响的数值试验[J ] .高原气象，1996 ,15 :122-130.
[16]卢咸池，罗勇.青藏高原冬春季雪盖对东亚夏季大气环流影
响的数值试验[J ]，应用气象学报，1994 ,5 :385-393.
[17]李培基.中国西部积雪变化特征[[J ].地理学报，1993 ,48 :505-514.
[18]郑益群，苗曼倩，钱永甫.湍流动能闭合方法在区域气候模式
中的应用[J].气象学报，1999 ,57(6) :641-650.
[9]Qian Yongfu，Zheng Yiqun ,Zhang Yan ,et al. Responses of China' s monsoon climate to snow anomaly over the Tibetan Plateau
[J].International Journal of Climatology，2003，23:593一613.