| 195 | 0 | 290 |
| 下载次数 | 被引频次 | 阅读次数 |
利用2013年6月船载GPS探空、云高仪资料,结合ERA-Interim再分析资料、卫星资料,分析一次天气尺度扰动(锋面过境)过程对东海北部海洋大气边界层(MABL)垂直结构的影响。结果表明:受梅雨锋影响,航测区域上空在整个过程中都有低云覆盖,MABL没有呈现日变化特征;当MABL为稳定边界层时,锋面与站位距离越近,站位上空增强的上升运动导致MABL高度越高。梅雨锋过境前后云层之上都覆盖有较为稳定的逆温层,受锋面抬升作用,云底高度和云顶逆温层高度在锋面过境后高度变高;锋面过境导致航测区域上空700hPa以下大气的上升运动增强,水汽上升到更高位置,云底从MBAL中脱离。锋面过境后,3 000m以下整层大气相对湿度较大,大气层结退耦的产生导致云分层形成高度不同的多层云。
Abstract:This paper studied the influence of synoptic scale disturbance on the atmospheric boundary layer structure over the northern East China Sea based on the shipborne GPS sounding system,ceilometer during the cruise in June 2013.It is shown that there is no diurnal variation of the MABL height covered with clouds along the cruise under the influence of the baiu front.The height of the stable MABL increases when the front is nearby.There are stable inversion layer capping above the clouds.The heights of cloud-base and the inversion layer are both increase under the uplifting effect of the baiu front.The dramatic upward motion below 700 hPa due to the passage of the baiu front facilitate the water vapor reach a higher level and help for the cloud-base separating from the MABL.The relative humidity under 3000 mis larger after the passage of the baiu front.The clouds are broken into multi-layers clouds on different levels when decoupling of the atmospheric stratification occurs.
[1]斯塔尔(Stull R B).边界层气象学导论[M].徐静琦,杨殿荣,译.青岛:青岛海洋大学出版社,1991:457.Stull R B.An Introduction to Boundary Layer Meteorology[M].Qingdao:Publisher of Ocean University of Qingdao,1991:457.
[2]Garratt J R.The Atmospheric Boundary Layer[M].Cambridge:Cambridge University Press,1994:316.
[3]Medeiros B,Hall A,Stevens B.What controls the mean depth of the PBL?[J].J Climate,2005,18:3157-3172.
[4]Nicholas A Bond.Observations of planetary boundary-layer structure in the eastern equatorial Pacific[J].J Climate,1992,5:700-706.
[5]Kim C K,Yum S S.Marine boundary layer structure for the sea fog formation off the west coast of the Korean Peninsula[J].Pure Appl Geophys,2011,10:1007-1022.
[6]张苏平,杨育强,王新功,等.低层大气季节变化及与黄海雾季的关系[J].中国海洋大学学报(自然科学版),2008,38(5):689-698.Zhang S-P,Y-Q Yang,X-G Wang,et al.Seasonal variations in the atmospheric stratification and the relations with the Yellow Sea fog season[J].Periodical of Ocean University of China,2008,38(5):689-698.
[7]Tanimoto Y,Xie S P,Kai K,et al.Observations of marine atmospheric boundary layer transitions across the summer Kuroshio Extension[J].J Climate,2009,22:1360-1374.
[8]涂静,张苏平,程相坤,等.黄东海大气边界层高度时空变化特征[J].中国海洋大学学报(自然科学版),2012,42(4):7-18.Tu J,Zhang S P,Cheng X K,et al.Temporal and spatial variation of atmospheric boundary layer height(ABLH)over the Yellow-East China Sea[J].Periodical of Ocean University of China,2012,42(4):7-18.
[9]廖国莲.大气混合层厚度的计算方法及影响因子[J].中山大学研究生学刊(自然科学、医学版),2005,26(4):66-73.Liao G-L.Calculation methods and influence factors of the thickness of atmospheric mixed layer[J].Journal of the Graduates Sun Yat-sen University(Natural Science,Medicine),2005,26(4):66-73.
[10]孔扬,张苏平.基于船载GPS探空数据的黄东海大气边界层高度分析[J].中国海洋大学学报(自然科学版),2014,44(11):1-10.Kong Y,Zhang S P.Analysis on the atmospheric boundary layer height over the Yellow-East China Sea based on shipborne GPS sounding system[J].Periodical of Ocean University of China,2014,44(11):1-10.
[11]盛裴轩,毛节泰,李建国,等.大气物理学[M].北京:北京大学出版社,2003:522.Sheng P X,Mao J T,Li J G,et al.Atmospheric Physics[M].Beijing:Publisher of Beijing University,2003:522.
[12]Yi L,Zhang S P,Thies B,et al.Spatio-temporal detection of fog and low stratus top heights over the Yellow Sea with geostationary satellite data as a precondition for ground fog detection—A feasibility study[J].Atmospheric Research,2015,151:212-223.
[13]Liu Shuyan,Liang Xinzhong.Observed diurnal cycle climatology of planetary boundary layer height[J].J Climate,2010,23:5790-5809.
[14]Zeng X B,Michael A Brunke.Marine atmospheric boundary layer height over the eastern Pacific:Data analysis and model evaluation[J].J Climate,2004,17:4159-4170.
[15]Nicholls S.The dynamics of stratocumulus-aircraft observations and comparisons with a mixed layer model[J].Quart J Roy Meteor Soc,1984,110:783-820.
[16]张苏平,刘飞,孔扬.一次春季黄海海雾和东海层云关系的研究[J].海洋与湖沼,2014,45(2):341-352.Zhang S P,Liu F,Kong Y.Remote relationship in origination of sea fog in East China Sea to the stratus in Yellow Sea in Spring[J].Oceanologia Et Limnologia Sinica,2014,45(2):341-352.
基本信息:
DOI:10.16441/j.cnki.hdxb.20150187
中图分类号:P732
引用信息:
[1]王磊,张苏平.一次天气尺度扰动过程对东海北部大气边界层垂直结构的影响[J],2016,46(04):13-20.DOI:10.16441/j.cnki.hdxb.20150187.
基金信息:
国家自然科学基金项目(411750006)资助~~
2015-05-19
2015
2016-01-12
2016
2015-07-17
1