THE VARIATION OF THE SPRING PRECIPITATION IN GUANGZHOU AND ITS PRECURSORY SIGNALS

Guangzhou spring rainfall mainly exhibits interannual variation of Quasi-biannual and interdecadal variation of 30 yrs, and is in the period of weak rainfall at interdecadal time scale. SST anomalies (SSTA) of Nino3 are the strongest precursor of Guangzhou spring rainfall. They have significant positive correlation from previous November and persist stably to April. Nino3 SSTA in the previous winter affects Guangzhou spring rainfall through North Pacific subtropical high and low wind in spring. When Nino3 SSTA is positive in the previous winter, spring subtropical high is intense and westward, South China is located in the area of ascending airflow at the edge of the subtropical high, and water vapor transporting to South China is intensified by anticyclone circulation to the east of the Philippines. So Guangzhou spring rainfall is heavy. When Nino3 SSTA is negative, the subtropical high is weak and eastward, South China is far away from the subtropical high and is located in the area of descending airflow, and water vapor transporting to South China is weak because low-level cyclonic circulation controls areas to the east of the Philippines and north wind prevails in South China. So Guangzhou spring rainfall is weak and spring drought is resulted.     

Grain-size features of a Miocene loess-soil sequence at Qinan: Implications on its origin

In northern China, the Quaternary loess-soil se-quences[1] and the Hipparion Red-Earth Formation in the eastern Loess Plateau[2―6] provide a continental climate record for the past 8 Ma. The recently reported Miocene[7] and Pliocene[8] loess-soil sequences near Qinan constitute an eolian record of the western Loess Plateau from 22 to 3.5 Ma. Earlier studies[9] place the Miocene loess deposits into the so-called Gansu Sys-tem. Our investigations show that the Gansu System contains inde…     

“资源一号”卫星星内粒子探测器对扰动事件的观测

本文比较了在太阳平静和扰动时期“资源一号”卫星星内粒子探测器对卫星舱内高能粒子的观测结果，发现在平静时期观测结果很好地反映了辐射带高能粒子在该高度上的分布情况.在扰动时期，粒子探测器观测到高能粒子分布出现重大变化，本文进一步讨论了影响高能粒子在近地空间分布的可能因素.     

Galileo和GPS的几点比较

利用GSSF 2.0软件模拟出Galileo系统全球范围的卫星可见性、GDOP、TDOP、PDOP、HDOP、VDOP值,并与GPS进行了比较。     

北京城市地质工作服务的新方向——地质遗迹景观资源的开发利用

本文在阐述北京城市地质工作和地质遗迹景观资源开发利用现状的基础上,通过地质公园建设实例,从推动地方经济发展和当地居民就业、加快城镇基础设施和生态环境建设、提升地学旅游品位和公众保护地质遗迹意识等三个方面论证了地质公园在保障城市经济健康和可持续发展中发挥的重要作用,从而有力阐明了开发利用地质遗迹景观资源是北京城市地质工作服务的一个新方向。本文还提出了今后北京地区地质遗迹景观资源开发利用对策。     

利用非线性方法反演琉球-台湾-吕宋地区的岩石层P波速度结构

根据中国地震台网和ISC台站提供的P波走时资料,使用差异演化全局优化算法(DE算法)和移动窗方法反演了琉球-台湾-吕宋地区岩石层尺度的P波速度结构.在台站和地震分布较为密集的地区,反演窗口为2°×2°,移动步长为1°;在台站和地震较少的地区,反演窗口为4°×4°左右,移动步长为2°.反演结果揭示出琉球-台湾-吕宋地区壳幔结构的横向差异:琉球岛弧西侧受冲绳海槽地幔热扰动的地壳减薄,东侧由于菲律宾海板决的俯冲挤压地壳略有增厚;欧亚大陆与菲律宾海板块的相互碰撞导致台湾地区地壳及岩石层明显增厚;吕宋及菲律宾北部岩石层受岛弧火山下方热流影响较大.结果表明,非线性全局优化算法和移动窗方法能够用于反演较大尺度速度结构的横向变化.     

陕西洛南马河钼矿地质特征及成矿远景分析

洛南马河钼矿位于北秦岭加里东褶皱带之纸房-永丰褶皱束中.矿区出露地层主要为元古代一套经多期变质作用和岩浆侵入活动影响的变质岩系,不同方向的断裂构造极为发育,构造活动强烈,燕山期花岗岩体广为出露.矿体主要分布于岩体外接触带附近北宽坪群长英质片岩中,明显受赋矿地层、构造及岩浆活动的影响,并与桃官坪穹隆构造有密切关系.从矿区地质特征和矿床成因分析,该钼矿属岩浆期后高-中温热液矿床,经进一步工作,有望形成中型矿床规模.     

基于RTCM数据格式的虚拟参考站技术算法研究

虚拟参考站技术是网络RTK的一种,它以众多的优势代表了网络RTK的主要发展趋势。本文介绍了VRS系统的工作原理,详细推导了VRS的数学模型,针对差分改正信息,提出了综合误差内插算法,分析了RTCM数据格式的特点及其在VRS技术中的应用,并做了实验验证,结合编程计算,证明了本文中VRS数学模型的正确性,为虚拟参考站系统的进一步研究提供依据。     

一种小波与谱分析结合的GPS精密卫星钟差拟合方法研究

根据卫星钟固有的特性,即频移、频漂和频漂率以及周期性,提出一种新的拟合方法。新方法首先构造一个合理的钟差模型,该模型包含一个二次多项式和多个周期项。然后利用IGS提供的钟差产品数据,先粗略补充缺失数据,用二次多项式拟合;并对拟合后的残差进行小波分析,作降噪处理;最后通过谱分析,确定其主要的周期项,从而构建出适当的拟合模型,实现精密GPS卫星钟差拟合和预报。多天数据的实验结果表明,采用本文提出的新方法能够有效地对卫星钟差进行拟合和预报,满足不同目的的需求。     

气候系统内极区热汇与热带海洋热源之间的相互作用(英)

The anomalous change of two polar sea ice and tropical ocean SST is a very important index for global climate monitoring and prediction. In this paper, the wave resonance principle is used to calculate month by month running cross couple correlation coefficient time series between sea ice in different sea area of two Polars, as well as between them and five elements of E1 Nino events, to analyze their variation features, and to find out their resonance periods. The resonance period of two waves is just the strongest interaction period.Some results are concluded as follows. 1) The Arctic sea ice to the Pacific-side (NPI1) and Atlantic-side (NP12) show a strong positive-negative feedback impact each other to the Antarctic Ross Sea ice (SPI2) with equal intensity. 2) Both NPI1 and NPI2 give a strong positive and negative feedback to the Antarctic Wedded Sea ice (SPI3) while it is rather weak in convercse status. It means that, the Arctic sea ice plays a leading and controlling role on the Wedded Sea ice. 3) SST of Nino 4 area in thecentral equatorial Pacific has a best resonance period with SPI2 with cycle period of 132 months. It closely relates to quasi-11 years oscillation period of both SST of Nino 4 area and SPI2. SST of Nino 4 has also a resonance period to SPI3 with cycle of 61 months. There also exist strong interaction periods between the Antarctic sea ice and other elements of ENSO event but weaker than SST of Nino 4 area.