陆相汕藏中砂泥岩互层时移地震遮掩效应及其对时移地震资料解释的影响

从差异波形特征的角度出发,分析时移地震差异波形特征与砂泥岩互层油藏中油层速度变化的关系.通过建立由5层地层组成的楔形地质模型,运用褶积公式及时移地震求差公式,得到泥岩速度为2 400 m/s和砂岩速度为2 700 m/s条件下,互层中砂岩速度变化±150 m/s的时移地震响应.研究结果表明砂泥岩互层的差异波形是一个多峰复合波,泥岩夹层的厚度是决定差异波形特征的一个主要因素,并且存在一个临界值,即四分之一主波长;如果泥岩夹层的厚度小于这一临界值,就会发生遮掩效应,即顶部油层的时移地震响应可以掩盖中、下部油层的时移地震响应.     

多星近似等高法同时测定天文经纬度的研究

提出并实现了用高精度电子经纬仪同时测定一等天文经纬度的一种全新方法,推导出新的解算公式;研究测量中主要误差的处理方法,并通过实际测量结果证明其可行性。此方法的应用将改变传统的天文测量模式,提高作业效率,且解决了由于传统天文观测仪器(T4,T3)停产所带来的一系列问题。     

一种地形变化检测与DEM更新的方法研究

提出了一种使用旧时期的DEM和最新的航摄资料检测地形变化，同时更新DEM的方法。利用陕西省两个地区的数据对该方法进行了验证，结果表明变化检测和数据更新的精度比较理想。与现有的生产流程相比，该方法在效率方面有明显的优势，对原始数据的要求较低，最终的产品更加丰富，方法也更加稳健和自动化。     

省级上行气象信息传输软件的开发

省级上行气象信息传输软件是基于SCO Unix平台开发的，功能包括气象信息的收集、分类打包和发送。软件投入业务运行后，不但简化了上行报的传输流程，提高了上行报的传输时效和传输可靠性，也方便了市、县发报台站的业务人员，还减轻报务员的劳动强度。     

海潮对数字垂直摆倾斜仪记录的影响浅析

宁波地震台数字垂直摆倾斜仪记录的EW、NS向固体潮在同一数量级,与理论固体潮有较大的差异,且与浙江省其它地区地震台的记录迥然不同。该台倾斜资料与海水潮汐关系密切,用其分钟值绘出的矢量图日规律性较强。本文对此作了初步分析与探讨。     

西藏日土县松西地区过铝质花岗岩的地球化学特征及构造背景

西藏羌塘北部松西地区分布有白云母二长花岗岩,岩石以高Al、K和低Fe、Mg组分为特征,ANKC值平均1.16,大于1.1,属典型的过铝质花岗岩类.CaO/Na2O在0.257～0.516之间,平均0386,地球化学特征显示其是泥质岩局部熔融所形成的.40Ar-39Ar年龄为101.42Ma±0.18Ma,形成时代为早白垩世晚期.它的出现标志着班公湖-怒江结合带闭合后继续向北发生陆内俯冲,是后碰撞构造环境形成的花岗岩.     

西藏羌塘西北部干枯沟地区早三叠世晚期碱性岩类的发现

碱性花岗岩分布于西藏羌塘北部的花岗岩带内,岩石K2O Na2O含量达11.27%～12.02%,具高铝、高碱、低铁镁组分的特征,属碱性花岗岩类.地球化学特征表明,该碱性岩形成于后碰撞期.形成该岩体的物质主要来源于加厚陆壳的中下部,反映了研究区古特提斯闭合后经历了陆内造山阶段.霞石正长岩同位素锆石U-Pb年龄为248.7Ma±2.6Ma,相当于早三叠世晚期.碱性花岗岩的出现是西藏西北部古特提斯造山带崩塌开始的岩石学标志.     

湖南洛塔屋檐洞水库生态安全指标体系及综合评判

本文以DSR模型为框架建立了湖南洛塔屋檐洞水库生态安全评价指标体系,并引入缀块丰富度密度、聚集度、景观均匀性指数等景观生态学指数,采用层次分析和模糊评判有机结合的综合方法,从生态安全状态、压力、响应三个指标体系角度出发,具体分析了屋檐洞库区自然、社会、经济三方面的生态安全问题,对库区生态安全进行综合评价,评判出屋檐洞水库库区系统生态安全属于安全级别,并根据评价中间结果找出生态安全响应是洛塔中寨水电站建设的潜在生态危险因素,提出建立合理科学的生态补偿机制以及库区生态安全预警系统等对策.     

What Happened in the Trans-North China Orogen in the Period 2560-1850 Ma？

The Trans-North China Orogen （TNCO） was a Paleoproterozic continent-continent collisional belt along which the Eastern and Western Blocks amalgamated to form a coherent North China Craton （NCC）. Recent geological, structural, geochemical and isotopic data show that the orogen was a continental margin or Japan-type arc along the western margin of the Eastern Block, which was separated from the Western Block by an old ocean, with eastward-directed subduction of the oceanic lithosphere beneath the western margin of the Eastern Block. At 2550-2520 Ma, the deep subduction caused partial melting of the medium-lower crust, producing copious granitoid magma that was intruded into the upper levels of the crust to form granitoid plutons in the low- to medium-grade granite-greeustone terranes. At 2530-2520 Ma, subduction of the oceanic lithosphere caused partial melting of the mantle wedge, which led to underplating of mafic magma in the lower crust and widespread mafic and minor felsic volcanism in the arc, forming part of the greenstone assemblages. Extension driven by widespread mafic to felsic volcanism led to the development of back-arc and/or intra-arc basins in the orogen. At 2520-2475 Ma, the subduction caused further partial melting of the lower crust to form large amounts of tonalitic-trondhjemitic-granodioritic （TTG） magmatism. At this time following further extension of back-arc basins, episodic granitoid magmatism occurred, resulting in the emplacement of 2360 Ma, -2250 Ma 2110-21760 Ma and -2050 Ma granites in the orogen. Contemporary volcano-sedimentary rocks developed in the back-arc or intra-are basins. At 2150-1920 Ma, the orogen underwent several extensional events, possibly due to subduction of an oceanic ridge, leading to emplacement of mafic dykes that were subsequently metamorphosed to amphibolites and medium- to high-pressure mafic granulites. At 1880-1820 Ma, the ocean between the Eastern and Western Blocks was completely consumed by subduction, and the dosing of the ocean led to the continent-arc-continent collision, which caused large-scale thrusting and isoclinal folds and transported some of the rocks into the lower crustal levels or upper mantle to form granulites or eclogites. Peak metamorphism was followed by exhumation/uplift, resulting in widespread development of asymmetric folds and symplectic textures in the rocks.