西太平洋暖池对西北太平洋季风槽和台风活动影响过程及其机理的最近研究进展

本文回顾和综述了近年来关于西太平洋暖池对西北太平洋热带气旋和台风（TCs）活动影响过程及其机理的研究进展。文中首先简单回顾了近年来关于西太平洋暖池热状态和菲律宾周围对流活动变化特征及其对与TCs活动有关的南海夏季风爆发和西太平洋副热带高压的季节内、年际变异的影响过程和机理的研究;然后,本文系统地回顾了近年来关于西太平洋暖池热状态通过西北太平洋季风槽影响TCs活动年际和年代际变化的影响过程及其机理的研究。此外,文中还指出了关于西太平洋暖池对西北太平洋上空季风槽和TCs活动变异的热力和动力作用需进一步深入研究的科学问题。     

车辆监控的信息管理系统设计及其关键技术分析

本文针对大量车辆的位置定位及其信息管理等主要内容进行了研究,给出了具有广泛扩展性的车辆监控管理信息系统的设计,并对其关键技术进行了探讨,最后给出了基于GPS与GPRS的系统实例测试分析。     

青土湖近6000年来沉积气候记录研究--兼论四五世纪气候回暖

对青土湖志云村剖面沉积气候记录和湖泊进退进行了研究,证实季风边缘区河西走廓东段存在暖湿,冷干气候变化的阶段性特征。根据湖相沉积的颜色,粒度,化学组成和有机质含量等气候代用指标的综合分析,提出公元四五世纪存在一次百年尺度上的气候回暖,这一气候回暖事件的发现,可得到历史文献记录和青海湖自然记录的佐证。     

华北地区汛期降水与热带西太平洋暖池和黑潮的关系

根据华北地区１８个代表站１９５１￣１９９６年月降水资料,利用对应分析法对该地区进行降水气候区的划分,并讨论了华北汛期降水与热带西太平洋暖池和黑潮热输送的关系。结果表明：华北地区可划分为两个降水气候区;华北１区汛期降水与热带西太平洋暖池西部热含量有密切的联系,特别是与前一年１０月热带西太平洋暖池西部热含量存在着明显的负相关关系;华北Ⅱ区汛期降水与同年冬季黑潮热输送有较密切的负相关关系。初步分析表明,     

渤海湾盆地盖层对天然气富集的影响初探

根据渤海湾盆地部分天然气藏的统计资料,分析了盖层的空间展布,厚度和类型对其封闭能力和天然气分布的影响,提出了盖层临界厚度的概念,研究认为,不同地区或同一地区不同层系天然气富集程度的差异主要是由于盖层的效应造成的。气藏直接盖层厚度与天然气富集程度有一定关系,对于成藏条件相似的众多天然气藏,直接盖层厚度与气柱高度及储量之间不同简单的直线关系,而是存在一个变化范围。     

Seasonal circulation in the southeastern Huanghai Sea

The seasonal circulation in the southeastern Huanghai Sea has been studied with hydrographic data,which were observed in February and June 1994 and bimonthly during 1970-1990,and numerical model results.Horiwntal distributions of temperature and salinity in 1994 are quite different due to strong tidal mixing so that we need a analysis to see the real distributions of water masses.The mixing ratio analysis with the data of 1970-1990 shows the connection of the waters in the west coasts of Kotea Peninsula with warm and saline waters from the south in summer,which means northward inflows along the west coasts of Korea Peninsula in summer.With this flow,the seasonal circulations,which are deduced from the seasonal change of water mass distributions in the lower layer,are warm inflows in winter and mld outflows in summer in the central Huanghai Sea,and cold outflows in winter and warm inflows in summer along the west coasts of Korea Peninsula.The seasonally changed inflows might be the Huanghai Sea Warm Current.The monsoon winds can drive such circulations.However,summer monsoon winds are weak and irregular.As one of other possible dynamics,the variation of Kuroshio transport is numerically studied with allowing sea level fluctuations.Although it should be studied more,it possibly drives the summer circulations.The real circulations seem to be driven by both of them.     

Monthly Variations of Water Masses in the Yellow and East China Seas, November 6, 1998

The monthly water mass variations in the Yellow Sea and the East China Sea are investigated using over 40 years of historical temperature and salinity observations via a cluster analysis that incorporates geographical distance and depth separation in addition to the temperature and salinity. Results delineate monthly variations in the major water masses and provide some insight into formation mechanisms and intermixing. The major water masses include the Kuroshio-East China Sea water (KE), the Yellow Sea surface water (YSS) and bottom cold water (YSB), mixed water (MW), and coastal water (CW). The distribution of the KE water mass reveals the intrusion pattern into the area west of Cheju. A separate mixed water type appears between the KE water mass and the Yellow Sea water masses during winter. The formation mechanism of the YSB appears to be the surface cooling and active mixing in winter. In the East China Sea, during summer, surface water is differentiated from the subsurface water while there is no differentiation during winter. In the Yellow Sea, a three layer system exists in the summer and fall (May–November) while a two layer system exists during the rest of the year. A fresh water mass generated by Yangtze River discharge (YD) is present over the northern East China Sea and the southern Yellow Sea during summer. This revised version was published online in August 2006 with corrections to the Cover Date.     

西太平洋暖池两柱样沉积物的磁性地层学研究

根据西太平洋暖池WP92-5,WP92-3柱样沉积物的磁性地层学研究结果,发现WP92-5柱样沉积物的磁性记录了3个地球磁场漂移(地球磁场极性反转),即Gothenburg,MonoLake(或Rubjerg)和Mungo(或Maelifell),其界限年龄分别为12.5kaB.P.,24.0(23)kaB.P.和31.0(28—31)kaB.P.;WP92-3柱样沉积物的磁性也记录了前两个地球磁场漂移。这一结果表明,西太平洋暖池区对35kaB.P.以来地球磁场极性发生的3次短暂的漂移有明显的响应。由于两柱样都采集于赤道附近南半球暖池区,其磁倾角的变化有一定的特殊性。     

基于多源资料的一次弓状强飑线成熟结构研究

利用局地分析和预报系统(Local Analysis and Prediction System, LAPS),结合多源资料,分析了2018年3月4日暖区强飑线成熟阶段的热动力结构和大风形成机制。结果表明：暖区内层结不稳定范围向东扩展和强的垂直风切变,驱动飑线组织化加强并向前移动和发展。成熟阶段飑线热动力结构呈现出两支强入流和冷池的典型特征,即前侧入流在低层(0～3.0 km)辐合上升,部分气流在高层翻转流向系统前侧,无后向流出;后侧中层(4.0～5.5 km)入流进入云体后部,在水凝物强烈相变降温作用下,密度增大转而下沉;下沉气流区降雨蒸发冷却增强了雷暴冷池。相比于飑线南段单一的对流线,北段弓形特点突出,后侧入流下降,加之存在尾随层状云,有更大的潜在冷却作用,促进气流加速下沉增强地面雷暴高压,最终导致更强的极端大风。     

印尼海道的两度关闭与西太平洋暖池的形成和兴衰

世界海洋表层水温最高的西太平洋暖池,是全球驱动大气环流的最大热源之一,也是全球热盐环流传输带的热源。新生代晚期印尼海道的关闭是暖池得以形成的基本条件。在印尼海道区划出了对印度尼西亚穿越流起阻挡作用的5道屏障,分析了5道屏障的形成过程和年代,据此提出了印尼海道两度关闭的模式。板块运动导致印尼海道关闭,有利于暖池发展,同时也存在不利的负面影响,本区构造运动对暖池的演变具有特有的双向复合控制作用;由此出发勾勒了近1000多万年来西太平洋暖池的形成和兴衰史：11～9MaBP为原始暖池形成期,9～6MaBP为暖池演化的第一衰退期,6MaBP以来为现代暖池的孕育和发展期,其间在1～0.2MaBP穿插着暖池演化的第二衰退期。上述暖池兴衰史的演化模式,得到了暖池区ODP1143站浮游有孔虫组合所反映的古海水温跃层深度的验证。