不同时间尺度洛川塬地貌演化与侵蚀量估算

黄土高原降雨集中与黄土沉积松散等特性,使地表侵蚀严重.洛川塬作为黄土高原中部典型的地貌体,堆积了完整的第四纪黄土-古土壤序列,成为揭示我国乃至东亚第四纪环境演变的重要地质记录.另一方面,现在洛川塬遭受强烈侵蚀作用,沟谷密度大于2km/km2.对洛川塬地质时期侵蚀程度的定量认识有助于全面理解黄土高原堆积和侵蚀过程,进而定...     

栖霞金矿床成矿流体地球化学研究

栖霞金矿床是胶东地区产在变质岩中的石英脉型金矿床较典型的代表。该矿床属中低温热液矿床，成矿流体的盐度较低，气相成分以Ｈ２Ｏ，ＣＯ２为主；液相成分中Ｎａ＾＋，Ｃａ＾２＋和Ｃｌ＾－的含量料高，相对贫Ｋ＾＋和Ｆ＾－，流体的成分与大气降水热液的相类似。     

一次华北暴雨过程中边界层东风活动及作用

利用常规气象观测资料、NCEP 1°×1°逐6 h分析资料、微波辐射计资料及FY-2E气象卫星及雷达探测资料,针对2013年6月4日发生在北京及周边地区的一次暴雨过程中边界层东风活动及作用进行了天气学诊断分析,结果表明:对流性暴雨过程伴随有源自东北平原的边界层东风活动,东风活动具有尺度小、降温明显和湿度大等特点。暴雨过程是边界层东风和中低空暖式切变线、偏南风急流和500 hPa短波槽共同作用的结果;东风湿冷空气的锋面抬升和地形抬升作用共同加强了中低层暖湿气流的辐合上升运动,同时东风冷垫和地形抬升作用触发了雷暴的再次发生,相应雷暴具有高架对流特点。东风气流起到了边界层水汽输送作用,中低层偏南暖湿气流为暴雨的产生提供了充足的水汽和不稳定层结条件。     

优化K means算法在中国近海气候区划中的应用

利用我国近海多年的风、浪及温湿资料,采用DB指标和最大距离法相结合的优化K-means聚类算法,对冬季我国近海进行气候区划,避免了传统K-means算法中确定聚类数目和初始聚类中心的主观性。结果表明,冬季我国近海可被划分为3个区域:1区主要包括28°N以北的海域以及我国东南沿海的一条狭长区域,2区主要包括台湾周边海域、台湾海峡、巴士海峡以及自越南东南部起由西南部向东北部的南海大部分海域,3区则主要包括台湾岛西南部海域、北部湾、广东沿海以及南海东南部。根据给出的区划指标,分析各分区的气候特征及其对海上舰船航行和出海人员的影响,判定1区为基本适宜区,2区为不适宜区,3区为适宜区。     

海南岛附近四季风场的中尺度环流

利用一层σ坐标原始方程数值诊断模式研究海南岛，雷州半岛及其四周海域的地面风场特征，在春夏秋冬四季典型盛行气流下试验，均明显呈现绕流，爬坡，辐合线、海陆风和山谷风效应，看出在不同季节下的中尺度环流存在一定的差异。试验表明，区域内的复杂地形和海陆分布是形成各种中尺度环流的重要原因，同时，揭示出本地气候分布的特征与中尺度环流间存在的密切的关系。     

测高数据在计算海平面时的取权

根据卫星测高数据分布所具有的低纬时稀疏、高纬时密集的特点,提出了计算平均海平面时非交叉点数据的解析定权公式和交叉点数据的解析定权公式。     

一次沿海局地特大暴雨的集合敏感性分析

利用常规观测资料和EC集合预报资料,基于集合敏感性方法 ,首先分析了2018年10月21日广西沿海局地特大暴雨过程的降水影响天气系统及关键区,并进一步分析了集合预报效果,得到不同层次气压场及风场的降水敏感特征以及集合预报降水预报偏差的可能主要原因,所得结论可供预报参考。     

鲁中南地区上前寒武系的划分和对比

前言本文所涉及的范围包括昌邑—大店断裂以西及昌乐—费县—枣庄一线以东,即北起昌乐、安丘,经沂水、莒县、沂南、临沂、苍山,南至苏、鲁交界的广大地区,其上前寒武系分布见图1。鲁中南地区上前寒武系的调查和研究工作,最早可追溯到本世纪初。1917—1920年谭锡畴、李捷等人在调查山东西部地质时,将长清馒头山片麻岩之上的“硅质灰岩”,以及临沂、蒙阴、潍县马司等地“硅质灰岩之下,兼有棕色页岩、砂岩,总厚数十公尺”     

短周期食双星V361Lyr和近相接的不接双星

短周期食双星Ｖ３６１Ｌｙｒ（ｐ＝０．３０９６天）可能是观测到的最短周期的由非简并天体且成的近相接双星，本文采用Ｋａｌｕｚｎｙ１９８９年观测到的Ｖ和Ｉ光变曲线进行了详细的测光分析。考虑到次子星上由于吸积而引起热斑在径度方向的可能延伸效应，而采用了多热斑模型近似，结果取得了对观测到的畸变光变曲线的很好的拟合。     

Numerical Study of the Role of Microphysical Latent Heating and Surface Heat Fluxes in a Severe Precipitation Event in the Warm Sector over Southern China

Simulations of the severe precipitation event that occurred in the warm sector over southern China on 08 May 2014 are conducted using the Advanced Weather Research and Forecasting (WRF-ARWv3.5.1) model to investigate the roles of microphysical latent heating and surface heat fluxes during the severe precipitation processes. At first, observations from surface rain gauges and ground-based weather radars are used to evaluate the model outputs. Results show that the spatial distribution of 24-h accumulated precipitation is well reproduced, and the temporal and spatial distributions of the simulated radar reflectivity agree well with the observations. Then, several sensitive simulations are performed with the identical model configurations, except for different options in microphysical latent heating and surface heat fluxes. From the results, one of the significant findings is that the latent heating from warm rain microphysical processes heats the atmosphere in the initial phase of the precipitation and thus convective systems start by self-triggering and self-organizing, despite the fact that the environmental conditions are not favorable to the occurrence of precipitation event at the initial phase. In the case of the severe precipitation event over the warm sector, both warm and ice microphysical processes are active with the ice microphysics processes activated almost two hours later. According to the sensitive results, there is a very weak precipitation without heavy rainfall belt when microphysical latent heating is turned off. In terms of this precipitation event, the warm microphysics processes play significant roles on precipitation intensity, while the ice microphysics processes have effects on the spatial distribution of precipitation. Both surface sensible and latent heating have effects on the precipitation intensity and spatial distribution. By comparison, the surface sensible heating has a strong influence on the spatial distribution of precipitation, and the surface latent heating has only a slight impact on the precipitation intensity. The results indicate that microphysical latent heating might be an important factor for severe precipitation forecast in the warm sector over southern China. Surface sensible heating can have considerable influence on the precipitation spatial distribution and should not be neglected in the case of weak large-scale conditions with abundant water vapor in the warm sector.