CHINA’S FOUR MAJOR METEOROLOGICAL SCIENTIFIC EXPERIMENTS     

Ma Henian  Tang Xu 《Acta Meteorologica Sinica》1999,13(2):129-140

China lies in East-Asian monsoon region,which is one of the well-known active monsoon zones around the world.Monsoon anomaly results in frequent natural disasters,such as drought,torrential rain and flood.In 1998,joint intensified observations for 4 major meteorological scientific experiments have been carried out over Chinese major monsoon affected areas.A number of valuable data have been obtained and some observational facts have come out after initial analysis.The present paper is to give an introduction to the 4 major meteorological scientific experiments conducted in 1998 in China.including its origin and scientific goals,implementation and planning,equipment and progress,and initial findings from the important observational facts.It aims to provide a comprehensive report on the progress of the above experiments for those who are interested in.  相似文献   

南海夏季风爆发与西北太平洋热带气旋活动   总被引：1，自引：0，他引：1  

黄菲  李元妮 《中国海洋大学学报(自然科学版)》2010,40(8)

利用1965—2007年美国台风预警中心(JTWC)的热带气旋(TC)及NCEP/NCAR再分析资料,初步研究南海夏季风爆发与西北太平洋(包括南海)热带气旋活动之间的关系。结果表明,南海夏季风的爆发伴随着西北太平洋(尤其南海区域)TC生成个数和活动频数比爆发前有显著增加,而超过1/2的年份南海夏季风爆发前2候和爆发候西北太平洋(150°E以西)有TC活动,表明TC活动可能是南海夏季风爆发的触发机制之一。在大多数(77%)南海夏季风爆发偏早年,爆发前2候和爆发候西北太平洋TC活动偏多,且TC生成位置偏西;而大多数(77%)爆发偏晚年份,爆发前2候和爆发候没有TC活动。季风的偏早爆发受季节内振荡、西北太平洋TC活动、中纬度冷空气活动等复杂因素影响,而季风的偏晚爆发则主要受季节内振荡影响。  相似文献   

元素地球化学揭示的长江中游鄱阳湖地区中更新世以来粉尘堆积的物源特征及其环境意义     

凌超豪  张智  贾玉连  薛滨  申洪源  钟巍  龙桂铃 《第四纪研究》2019,39(5):1103-1115

位于长江中游的鄱阳湖地区深受东亚季风影响,因其特殊的地理、地貌与水文、水系特征,自中更新世以来随着冬季风的加强,在大姑组、九江组砾石层之上风成堆积广泛发育。该区域中、上更新统表现为网纹红土、均质红土和下蜀黄土的独特沉积序列,厘清这三套独特沉积序列的物质来源对于我们认识东亚季风演化及其区域环境响应至关重要。本文选择了长江中游鄱阳湖地区10个典型剖面,基于<20μm颗粒组分的元素地球化学特征,研究了该地区中、上更新统粉尘堆积的特点,并将其与黄土高原西峰黄土和东秦岭黄土做了对比分析。研究认为,长江中游鄱阳湖地区这套独特的沉积序列,元素特征基本相似,具有贫Co、Pb,富Zr、Hf,低Eu/Eu^*(0.53~0.62)、LaN/YbN(4~8)、Ta/Zr(0~0.006)、Nb/Zr(0~0.09),高Y/Ho(28~30)、Zr/Hf(36~48)等特点,与黄土高原与东秦岭黄土有显著区别。基于Hf-Th-Co、Th-Sc-Zr/10和Th-Sc-La蜘蛛图投影分析,鄱阳湖地区第四纪粉尘物质的源岩接近于石英岩类,为被动大陆边缘构造背景下的产物,显著区别于黄土高原与东秦岭黄土(源岩接近于页岩,形成于大陆岛弧构造背景)。进一步分析认为,网纹红土、均质红土的母质均与区域下蜀黄土类似,推测它们均来自于其冬季风上风方向的长江或赣江的古河谷漫滩,这套独特的沉积序列是第四纪以来长江中游现代格局的水系贯通后,冬季风增强,吹蚀大江大河广阔的古河谷漫滩而形成的区域粉尘堆积的结果;是湿热的亚热带季风区对于中更新世以来在轨道尺度上冬夏季风均加强的背景下独特的区域响应。  相似文献   

临夏黄土记录的26万年来季风快速变化     

郭飞  王婷  刘宇明  王扬  樊会敏  孙有斌 《第四纪研究》2019,39(3):557-564

黄土高原西部高分辨率黄土序列开展的多代用指标研究,有助于揭示轨道-亚轨道尺度上东亚冬、夏季风的变化特征及动力机制。但针对同一地质记录提取冬、夏季风多代用指标进行对比和敏感性分析的工作尚不多见,因此制约了对季风快速变化特征和机理的理解。本文利用甘肃临夏85 m黄土岩芯开展高分辨率的粒度、磁化率和元素扫描分析,发现在轨道尺度上粒度和Zr/Rb比值显示的大幅冰期-间冰期波动与深海氧同位素记录有很好的对应关系,表明东亚冬季风的波动响应于北半球高纬冰量的变化。但在千年尺度上,粒度能更敏感地响应冬季风的快速变化;Rb/Sr比值和磁化率均能很好记录轨道尺度上的东亚夏季风波动,但在亚轨道尺度上Rb/Sr的敏感性明显高于磁化率。粒度、Zr/Rb和Rb/Sr所指示的东亚季风快速变化表现出较强的岁差信号,与石笋和北纬65°夏季太阳辐射有较好的对应关系,表明东亚季风变化也受到岁差直接驱动的夏季太阳辐射变的控制。在最后两个冰期-间冰期旋回中(即末期冰期旋回和倒数第二次冰期旋回)Rb/Sr及Zr/Rb比值和粒度记录分别可以辨别出与石笋相同数量级的变暖事件,但粒度记录的暖事件明显要多于Rb/Sr及Zr/Rb比值,且这些暖事件并不能一一对应。粒度及元素比值记录显著变冷的千年尺度的Heinrich(H)事件与石笋记录的夏季风明显减弱的事件有很好的对应关系,但其发生频率明显高于海洋记录。这些指标记录的千年尺度上波动信号的不一致性主要归因指标对不同气候要素敏感性的差异。未来需要进一步开展高分辨率多代用指标敏感性分析,选取对季风快速变化的敏感指标,有助于我们理解季风快速变化的特征(如周期和幅度等)和分析季风快速变化的时空差异性。  相似文献   

Dynamic Relationship Between Entrainment Rate and Summer Monsoon in the Transition Area of Monsoon in the East of Northwest China     

Yanying Li  Ying Cai  Chunyan Zhang  Ting Zeng  Jiping Yang 《地球科学进展》2019,34(12):1316-1327

Entrainment rate refers to the ratio of surrounding air quality to air quality involved in rising unit distance, including turbulent entrainment and dynamic entrainment, which are applied to the boundary layer parametrization of convective clouds, the improvement of numerical model, the observation of cloud droplet spectral dispersion and the study of tropical cyclones.Based on the daily data at 07:00 and 19:00 every 10 m of five stations such as Minqin, Yuchong, Pingliang, Yinchuan and Yan'an from May to September during 2006-2016, combined with the daily observation data on the ground, the Entrainment Rates(ER) of different heights were calculated, and the relationships between ER and height in different regions, precipitation as well as monsoon during the monsoon period were further obtained. The main results were as follows:\mathrm{①} The ER was proportional to air temperature and saturated water vapor pressure, but inversely proportional to relative humidity. The relative humidity threshold of cloud was 65%. The higher the relative humidity threshold was, the lower the cloud height of different orders of precipitation was, and the cloud height was higher with the increase of rainfall. \mathrm{②}ER had obvious diurnal changes and regional differences: It was obviously smaller at 07:00 than at 19:00 from ground to 3 km, which weakened with the increase of height in the near surface , but strengthened with the increase of height above 500 m; From small to large, the monsoon affected area, the monsoon swing area and the non-monsoon area were in turn, and there was no regional difference above 3 km. \mathrm{③} ER was closely related to the intensity and property of precipitation in monsoon period. The ER weakened with the enhancement of rain intensity from near ground to below 600 m, but strengthened with the enhancement of rain intensity from 500 m to 2~3 km.From near ground to below 700 m, the ER of stable precipitation was strong, but that of convective precipitation was strong above 700 m. The convective precipitation had big saturated water vapor pressure and strong ER , while the stable precipitation had big saturated water vapor density, rich water vapor but weak ER. \mathrm{④}The relationship between ER and monsoon as well as its duration: From no monsoon to monsoon ER was weakened, the strongest maximum height was also decreasing. There was no significant difference in the duration of ER between the non-monsoon area and the monsoon affected area, but the longer the monsoon swing area lasted in the near ground layer, the smaller the ER was, while the opposite was at 1~2 km in the high altitude. \mathrm{⑤}The relationship between ER and the APO monsoon intensity index showed that: At 07:00, the ER strengthened with height from near ground to below 800 m, but weakened with height above 800 m,and the monsoon intensity was not related to the ER. At 19:00, the ER strengthened with the height near ground but weakened with the height above 300 m, and the stronger the monsoon was, the smaller the ER was. The ER weakened with the decrease of boundary layer height.  相似文献   

山东半岛石笋记录的倒数第二次冰消期δ18O变化特征及其气候环境意义     

薛刚  蔡演军  马乐  成星  李东  卫莹莹 《第四纪研究》2019,39(4):812-824

文章基于山东半岛岩溶洞穴(上小峰洞)一根长约41 cm的石笋SD1的铀系测年和稳定同位素组成分析,获得138. 0~125. 8 ka B. P.平均分辨率为30年的石笋δ18O 和δ13C时间序列,并据此讨论了倒数第二次冰消期区域气候和环境变化的特征及与全球变化的联系.在倒数第二次冰消期,上小峰洞石笋( SD1)δ18O的变化与中国南方石笋δ18O的变化具有类似的阶段变化特征,进一步确认了冰消期北大西洋气候对亚洲季风的重要影响.通过对山东石笋高分辨δ18O记录进行时间序列分析,发现该记录存在显著的约60年、 75年和1620年周期,表明太阳活动和北大西洋涛动与该地区气候变化有紧密的联系.同时,通过对比东亚季风区高分辨率石笋记录,认为在倒数第二次冰消期为"两步冰消"的变化特征.除此之外,上小峰洞石笋碳酸盐δ18O冰期和间冰期平均值的差异仅为0. 7‰,远小于内陆洞穴石笋碳酸盐δ18O冰期和间冰期平均值的差异(羊口洞约为1. 4‰,董哥洞约为2. 2‰,三宝洞约为2. 4‰).这一显著差异可能主要源于海岸线迁移造成的海陆格局的变化对区域季风降水及降水氧同位素组成的重要影响;并且冰期-间冰期海平面变化对近海环境记录、大陆架下垫面、海洋沉积物气候指标等都可能产生影响.  相似文献   

The effects of asymmetric potential vorticity forcing on the instability of South Asia High and Indian summer monsoon onset   总被引：1，自引：0，他引：1  

ZHANG YaNi  WU GuoXiong  LIU YiMin  GUAN Yue 《中国科学:地球科学(英文版)》2014,57(2):337-350

Based on the theory of potential vorticity(PV),the unstable development of the South Asia High(SAH)due to diabatic heating and its impacts on the Indian Summer Monsoon(ISM)onset are studied via a case diagnosis of 1998.The Indian Summer Monsoon onset in 1998 is related to the rapidly strengthening and northward moving of a tropical cyclone originally located in the south of Arabian Sea.It is demonstrated that the rapid enhancement of the cyclone is a consequence of a baroclinic development characterized by the phase-lock of high PV systems in the upper and lower troposphere.Both the intensification of the SAH and the development of the zonal asymmetric PV forcing are forced by the rapidly increasing latent heat released from the heavy rainfall in East Asia and South East Asia after the onsets of the Bay of Bengal(BOB)monsoon and the South China Sea(SCS)monsoon.High PV moves southwards along the intensified northerlies on the eastern side of the SAH and travels westwards on its south side,which can reach its northwest.Such a series of high PV eddies are transported to the west of the SAH continuously,which is the main source of PV anomalies in the upper troposphere over the Arabian Sea from late spring to early summer.A cyclonic curvature on the southwest of the SAH associated with increasing divergence,which forms a strong upper tropospheric pumping,is generated by the anomalous positive PV over the Arabian Sea on 355 K.The cyclone in the lower troposphere moves northwards from low latitudes of the Arabian Sea,and the upper-layer high PV extends downwards and southwards.Baroclinic development thus occurs and the tropical low-pressure system develops into an explosive vortex of the ISM,which leads to the onset of the ISM.In addition,evolution of subtropical anticyclone over the Arabian Peninsula is another important factor contributing to the onset of the ISM.Before the onset,the surface sensible heating on the Arabian Peninsula is very strong.Consequently the subtropical anticyclone which dominated the Arabian Sea in spring retreats westwards to the Arabian Peninsula and intensifies rapidly.The zonal asymmetric PV forcing develops gradually with high PV eddies moving southwards along northerlies on the eastern side of the anticyclone,and a high PV trough is formed in the middle troposphere over the Arabian Sea,which is favorable to the explosive barotropic development of the tropical cyclone into the vortex.Results from this study demonstrate that the ISM onset,which is different from the BOB and the SCS monsoon onset,is a special dynamical as well as thermodynamic process occurring under the condition of fully coupling of the upper,middle,and lower tropospheric circulations.  相似文献   

Interdecadal variations of surface winds over China marginal seas     

孙澈  闫晓梅  马晓 《中国海洋湖沼学报》2012,30(6):908-921

Long term variability in the surface winds over the marginal seas of China is examined with a dominant-mode singular value decomposition method. Both interannual and interdecadal patterns are found to be seasonally and spatially dependent, with reanalyses and satellite remote sensing data yielding highly consistent results. The study reveals that summer monsoon winds over the East China Sea experienced an interdecadal weakening in the late 1960s and began a persistent recovery in 2005. The study also shows gradual weakening of the winter monsoon in the southern South China Sea by more than 2m/s since the 1960s, with corroboration from coastal climate stations in Borneo. This phenomenon has not been reported in previous monsoon studies.  相似文献   

Interdecadal variability of the South China Sea monsoon and its relationship with latent heat flux in the Pacific Ocean     

王宏娜  陈锦年  左涛 《中国海洋湖沼学报》2012,30(6):980-984

We analyzed interdecadal variability of the South China Sea monsoon and its relationship with latent heat flux in the Pacific Ocean, using NCEP wind field and OAFlux heat flux datasets. Results indicate that South China Sea monsoon intensity had an obvious interdecadal variation with a decreasing trend. Variability of the monsoon was significantly correlated with latent heat flux in the Kuroshio area and tropical Pacific Ocean. Variability of latent heat flux in the Kuroshio area had an interdecadal increasing trend, while that in the tropical Pacific Ocean had an interdecadal decreasing trend. Latent heat flux variability in these two sea areas was used to establish a latent heat flux index, which had positive correlation with variability of the South China Sea monsoon. When the latent heat flux was 18 months ahead of the South China Sea monsoon, the correlation coefficient maximized at 0.58 (N=612), with a 99.9% significance level of 0.15. Thus, it is suggested that latent heat flux variability in the two areas contributes greatly to interdecadal variability of the South China Sea monsoon.  相似文献   

渤黄海沿海2月份海平面异常偏高成因分析   总被引：5，自引：0，他引：5  

王慧  范文静  李琰  何琦  高志刚  迟永祥  牟林 《海洋通报》2012,31(3):255-261

使用1980—2010年的水位、气温、海温、气压和风场资料,对中国渤黄海沿海2月份的海平面变化特征以及异常偏高成因进行了探讨,分析结果表明:近30年,渤黄海沿海2月份海平面呈现明显的上升趋势,2009年和2010年2月份的海平面达到近30年的高值,冬季高海平面导致全年平均海平面偏高。近两年2月份海平面处于多个长周期振动的高位重合期,各振幅叠加的结果近100 mm,对海平面起了明显的抬升作用。高海平面使得辽宁、河北以及山东等沿岸地区的海水入侵距离和土壤盐渍化程度均有所增加,海岸侵蚀加重;上海在2009—2010年连续2年2月份发生了近年较严重的咸潮入侵。2009年和2010年2月份,气压较常年同期显著偏低,冬季季风显著偏弱,是海平面上升的主要原因之一。  相似文献