山东昆嵛山岩体中与细粒花岗岩有关的新类型金矿床地质特征及找矿方向——以下卧龙矿床为例

昆嵛山地区位于胶东半岛东部牟平断裂和米山断裂之间,是苏鲁超高压变质带和华北克拉通两大不同地块的过渡地带。下卧龙金矿床位于昆嵛山地区东侧、米山断裂以西。矿体严格受细粒花岗岩脉控制,呈脉状产出,产状与其基本一致,围岩为玲珑序列郭家店单元。矿石类型为绿帘石化黄铁矿化黑云二长花岗岩,矿石矿物主要为黄铁矿,其次为磁黄铁矿、黄铜矿、辉钼矿、磁铁矿,金矿物主要为细粒自然金,赋存状态以晶隙金为主。根据矿床地质特征及矿体分布规律,认为(2)-1矿体深部及矿区周边出露细粒二长花岗岩脉区域仍有较好的资源前景。下卧龙金矿床为昆嵛山地区首次发现的赋存于细粒花岗岩脉内的新类型金矿床,其特点为受构造控制不明显、岩石蚀变普遍较弱、载金矿物多样、矿体品位相对较高。该矿床的发现对昆嵛山及周边地区地质找矿具一定指导意义。     

济南市平阴氡地热水中氟的来源及赋存机理浅析

通过对3处不同热储类型的地热水水质分析结果的对比分析,试从热储岩性、矿化度、pH值、温度及地下水水化学类型等方面分析各因素对水中F~-溶解的影响机理,认为:热储岩性对地热水水质起决定作用,高热储温度、碱性环境是水中氟离子富集的有利条件;水中Ca~(2+)可与F~-产生不溶于水的沉淀,对水中氟离子的富集起限制作用;水中F~-与H_2SiO_3,Sr的含量一般存在共生关系。水中氟的活性和含量不能看作只与某种盐类或阴、阳离子发生单相关的孤立作用的结果,而要重视在水中各种盐类并存的混合体系中可能出现的元素或物质间的拮抗、协同及交互作用。     

面向时空信息的智慧临沂建设实践

自智慧城市的概念提出以来,世界各国竞相开展智慧城市的研究和实践,国内各城市也迅速行动,纷纷开展智慧城市建设,以之作为转变发展方式、实现可持续发展的重要手段去推动。在智慧城市建设过程中,物联网、云计算、大数据、互联网+、移动互联等新技术取得了较大的发展进步和应用效果。该文在分析智慧城市概念和特征的基础上,介绍了测绘地理信息部门关于时空信息大数据和云平台建设的思路和关注点。梳理了智慧城市的总体框架,并对涉及的主要关键技术进行了分析。结合智慧临沂建设的实例,从基本情况、目标任务、主要内容、实现方式和实施进展等方面进行了详细介绍,并对智慧城市建设的重要作用进行了总结。智慧城市建设是一项复杂的系统工程,适合该地实际,能够切实解决该地实际问题的建设模式,才是智慧城市应该首要考虑的问题。     

Experimental study on the energy dissipation characteristics of debris flow deceleration baffles

Debris flow can cause serious damages to roads, bridges, buildings and other infrastructures.Arranging several rows of deceleration baffles in the significant influence on the mobility and deposition characteristic of debris flow. The deposit amount first increased then decreased when the flow density rises,flow path can reduce the flow velocity and ensure better protection of life and property. In debris flow prevention projects, deceleration baffles can effectively reduce the erosion of the debris flow and prolong the running time of the drainage channel.This study investigated the degree to which a 6 m long flume and three rows of deceleration baffles reduce the debris flow velocity and affect the energy dissipation characteristics. The influential variables include channel slope, debris flow density, and spacing between baffle rows. The experimental results demonstrated that the typical flow pattern was a sudden increase in flow depth and vertical proliferation when debris flow flows through the baffles. Strong turbulence between debris flow and baffles can contribute to energy dissipation and decrease the kinematic velocity considerably. The results showed that the reduction ratio of velocity increased with the increase in debris flow density,channel slope and spacing between rows. Tests phenomena also indicated that debris flow density hasand the deposit amount of debris flow density of 1500kg/m~3 reached the maximum when the experimental flume slope is 12°.     

Zircon U-Pb geochronology and geochemistry of syenogranites in western Niubiziliang,northwestern Qaidam,Qinghai

The study presents the results of U-Pb dating of zircons and whole-rock geochemical analyses of a syenogranite located in the western Niubiziliang area,China with the aim of determining its formation time,petrogenesis and the regional tectonic setting. Zircons within the syenogranite are euhedral-subhedral and display rhythmic growth zoning,indicating a magmatic origin. Zircon U-Pb data obtained by LA-ICP-MS indicate the syenogranite formed in the Late Permian (260.7±1.5 Ma). The w(SiO_2) of syenogranites is 70.82%--73.59%,w(Al_2O_3) is 13.49%--14.82%,and w(Na_2O + K_2O) is 7.85%--8.52%,and yield K_2O/Na_2O ratios of 1.06--1.26. Therefore,the syenogranites belong to the high-K calc-alkaline and metaluminous (A/CNK 1,A/NK 1) series which display I-type granites similarly. The syenogranites also show the geochemical characteristics of volcanic arc rocks,being enriched in large-ion lithophile elements (LILEs; K,Rb) and light rare-earth elements (LREEs; La,Ce,Sm,Nd),but depleted in high field strength elements( HFSEs; Ta,Nb,P,Ti). On the whole,trace element ratios are close to the mean of the Earth's crust,indicating a lowercrust magma source. The low Sr (161--214) ×10~(-6) and Yb (1.08--1.80)×10~(-6) concentrations indicate that plagioclase and hornblende are residual mineral phases in the source. The regional geology and whole-rock geochemistry suggest that the formation of the syenogranites was related to subduction of the Zongwulong Ocean crust,and the north margin of Qaidam Block during the Late Permian was in an active continental margin tectonic setting.     

我国部门减排行动可测量、可报告、可核实现状分析

通过一系列的部门政策和措施的论述,证明了我国各部门减缓政策和措施已经通过国内系统得到了报告和核证,显示了“可测量,可报告和可核实”（MRV）的实际部门应用,同时指出部门方案具有不同的度量、报告制度和核证程序,以及不同的减排效果。这些部门减缓行动的MRV特点为国际MRV的构建提供了案例基础。     

利用TM图像提取玛纳斯河流域上游积雪信息的方法研究

在我国干旱地区,天山是融水占年径流量比重较大的山区,在天山地区,冰雪为许多河流和生态环境的生存发展提供水资源,所以对冰雪的定量监测非常重要。通过对TM图像云和雪的光谱特征分析以及几种常用积雪信息提取方法的比较,以及对玛纳斯河流域上游地区的积雪进行实际检测,认为雪盖指数法是TM图像提取积雪的较佳技术手段。      

城市专题地图指标内容的分析和处理

专题地图指标内容的选择是专题地图设计和制作的前提。本文从分析城市专题统计数据的内容、特点出发,综合考虑专题地图表达的可行性和多样性,形成了一套完整的城市专题地图指标内容分析和处理方法。提出并使用了＂指标——空间——时间＂模型来描述专题地图指标内容,该方法的确立是选定专题地图主题和确立专题内容结构的基础。     

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极干旱地区土壤与大气水分的相互影响

基于建立在莫高窟窟顶的密闭拱棚,通过监测棚内凝结水量和空气温湿度,对极干旱地区典型极干旱气候条件下土壤与大气水分的相互影响进行综合分析。棚内凝结水量和空气温湿度的监测结果表明,在热动力作用下存在地下水分向大气输送的过程,其原因主要是在温度作用下土壤结合水分的分解蒸发与土壤盐分的吸湿吸附的交替作用。这也是形成所谓"土壤凝结水分"与"土壤水分呼吸"的根源。当温度升高时,土壤结合水分分解蒸发"呼出"水分,当温度降低时土壤盐分吸湿吸附,"吸入"大气水分,形成土壤与大气不对称水分交流。称质量实验表明:土壤水分的变化与空气温度的变化完全对应;有深层水分支持的土壤吸收大气水分的能力相对较差。极干旱地区土壤与大气水分的相互影响研究结果能为莫高窟珍贵文物的保护提供参考。