驼路沟钴矿床地质特征及成因分析

文章从矿床地质特征、矿体特征及成矿岩系和热水建造等方面进行研究,并对矿床成因进行分析,认为驼路沟钻矿床是典型的海底热水喷气沉积改造成因的钻矿床。     

杉松岗钴(铜镍)矿床地质特征及找矿远景

杉松岗钴(铜镍)矿床产于古元古代裂谷海槽褶皱地带,是国内新近发现的新类型矿床.它赋存于老岭群富硼、碳粘土岩夹硅质岩建造之中.通过对矿床的地质、地球化学特征研究,初步认为该矿床受后期变质热波的强烈叠加作用,形成沉积变质热液叠加改造型矿床.同时阐述了该矿床地质特征及找矿远景.     

西藏纳木错及其入湖河流溶解有机碳和总氮浓度的季节变化

为深入理解纳木错湖水及入湖河流中溶解有机碳（DOC）和总氮（TN）浓度的季节变化特征及其影响因素,于2012-2013年不同季节对纳木错2个站点及流域内21条主要入湖河流进行采样及分析,采用统计学方法初步探讨纳木错水体和21条河流DOC和TN浓度季节变化特征.结果表明,河流DOC平均浓度范围为0.763~1.537 mg/L,TN平均浓度范围为0.179~0.387 mg/L.21条入湖河流DOC浓度在春末夏初和夏季达到高值,冬季为低值,TN浓度季节变化趋势大体上与DOC浓度相反.湖泊水体DOC和TN浓度范围分别为2.42~8.08和0.237~0.517 mg/L,明显分别高于河水中的浓度.湖泊DOC浓度季节变化趋势与河流一致,而TN浓度无明显的季节性变化.河水DOC浓度的季节变化和空间差异受控于河流的补给方式,湖水DOC浓度受湖泊内部藻类等水生植物活动和河流外源输入的影响.DOC等有机质的分解是影响纳木错流域湖水和河水TN浓度的重要原因.     

纳木错水温变化及热力学分层特征初步研究

水温变化是湖泊的重要物理特性,对湖泊的水质特征、湖水能量循环、水生生态系统研究具有重要意义.基于不同季节的实地观测资料,分析青藏高原高海拔、深水大湖纳木错的水温变化特征及季节差异,并着重分析湖水热力学分层的季节变化.结果显示纳木错中部、东部两个湖盆冬季封冻,夏季存在稳定分层,春、秋季混合,是一个典型双季对流、完全混合型湖泊.但两个湖盆水温变化与热力学分层又有各自的特征,东部浅湖盆湖水在春季升温快,夏季分层与秋季翻转均比中部湖盆早,且秋季翻转时水温也比中部湖盆高.初步分析认为两个湖盆不同的湖盆形状及水深分布可能是造成其热力学特征差异的主要原因.     

青藏铁路错那湖段沙漠化土地变化及成因分析

青藏铁路格拉段铁路建设对沿线沙漠化土地变化的影响,是大家关注的焦点之一。通过利用地理信息系统和遥感监测技术,根据错那湖段Landsat影像、Google Earth影像和气象资料等数据,结合野外实地考察建立解译标志,采用人机交互的目视解译方法,提取青藏铁路错那湖段2001年、2008年和2015年沙漠化土地信息,并对沙漠化土地变化成因进行分析。同时对铁路沿线沙漠化土地的变化进行缓冲区分析。结果表明：（1） 2001—2008年沙漠化土地面积增加2.21 km²,土地沙漠化程度呈减轻趋势;2008—2015年沙漠化土地面积减少8.9 km²,土地沙漠化程度持续减轻。（2） 2001—2008年,沙漠化土地面积的增加主要与人为因素有关,土地沙漠化程度减轻主要与自然因素有关。2008—2015年,沙漠化土地面积的减少以及土地沙漠化程度的减轻主要与人为因素有关。（3） 青藏铁路错那湖段2 km范围内土地沙漠化程度变化最为明显,以沙漠化程度减轻为主要特征,青藏铁路对周边环境的影响范围为2 km。     

Cosmogenic Be inferred lake-level changes in Sumxi Co basin, Western Tibet

Most Tibetan lakes are surrounded by conspicuous regressive shorelines attesting to high-water levels in the past. Concentrations of the in situ produced cosmogenic radionuclide ¹⁰Be in bedrock from the three highest terraces surrounding Sumxi Co, situated in Western Kunlun, indicate that the highest lake-level appeared before 10,000–11,500 yr, and most likely between 11,000 and 12,800 yr. Younger ages for the two lower terraces imply regression of Sumxi Co during the early-mid Holocene. The concurrency of the highest lake-level with orbitally induced maximum northern hemisphere summer insolation suggests that the increase in water supply to Sumxi Co was most likely associated with increased recharge from melting glaciers. We conclude that the enhanced Indian monsoon during the early Holocene did not penetrate the Tibetan plateau and affect the northwestern part of Tibet significantly.     

Multiphase origin of the Cu–Co ore deposits in the western part of the Lufilian fold-and-thrust belt, Katanga (Democratic Republic of Congo)

A multiphase origin of the Cu–Co ores in the western part of the Lufilian fold-and-thrust belt in Central Africa is proposed based on literature, satellite image interpretations and petrographic and fluid inclusion analyses on samples from the stratiform mineralization of Kamoto and Musonoi (DR Congo). The various mineral occurrences in the Katanga Copperbelt can be classified in distinct categories: stratiform, supergene enrichment and vein-type. The stratiform mineralization form the largest group and can be found mainly in Lower Roan (R-2) rocks, which can be identified as ridges on satellite imagery. Ore deposits outside the R-2 occur along lineaments and result often from supergene enrichment.The main phase of the stratiform mineralization in the Katanga Copperbelt occurred during diagenesis preceding the Lufilian orogeny. Petrographic observation identified various mineralizing phases, which played a role in the formation of these stratiform mineralization. Mineralization started during early diagenesis, but mainly occurred during further burial. After the formation of early diagenetic pyrite, the circulation of diagenetic Cu–Co-rich fluids resulted in the formation of the main mineralization. Preliminary microthermometric investigation of primary inclusions in authigenic quartz, associated with the main stage of stratiform mineralization, indicates that an H₂O–NaCl fluid with a minimum temperature between 80 and 195 °C and a salinity between 8.4 and 18.4 eq. wt% NaCl circulated during the main phase of mineralization.Numerous faults and fractures formed during the Lufilian orogeny cut the stratiform mineralization. They are, however, at Kamoto and Musonoi only associated with minor sulphides. Supergene alteration along faults and fractures resulted in an enrichment of the mineralization, with the formation of secondary Cu-oxides, -carbonates and -silicates.The importance of the interaction of various processes for the formation of economic Cu–Co ore deposits is confirmed by the straightforward relationship on satellite imagery between the location of economic mineral occurrences and faults, which acted as pathway for descending waters that caused the supergene enrichment and upgrading of the primary mineralization.     

藏北赤布张错地区埃达克岩的厘定及其意义

常量、微量及Sr、Nd同位素研究表明,藏北赤布张错地区分布的一套始新世(35～4 0Ma)高钾钙碱性火山岩具有C型埃达克岩的地球化学特征。火山岩SiO2 含量为5 8%～6 9% ,K2 O、Al2 O3 、Sr的含量相对偏高,而Y、Yb的含量和Mg# 值相对较低,Nb明显亏损,Zr、Ti、P弱亏损,LREE富集,无明显Eu负异常,ISr(0 .70 72 3～0 .70 777)值偏高,而INd(0 .5 12 32 0～0 .5 12 35 2 )值偏低,指示其为一套壳源中酸性火山岩系,源自加厚陆壳下部的一个榴辉岩质源区的部分熔融。这套新生代埃达克质火山岩的厘定,指示藏北羌塘地区或更大范围的大陆地壳在4 0Ma左右已经加厚到超过4 0km ,且青藏高原的隆升开始于4 0Ma以前。     

一种计算沉积速率的新方法--宇宙尘埃特征元素法

地球每时每刻都在接受宇宙尘埃的沉降,且其年沉降量相对稳定,加之宇宙尘埃中的Ir、Co等特征元素的平均含量较恒定,因此沉积物中宇宙尘埃特征元素Ir、Co的丰度值能够体现出沉积物的沉积速率。当沉积速率较慢时,沉积物中宇宙尘埃特征元素的丰度值较大,反之,则较小。本文在前人工作的基础上,对利用宇宙尘埃特征元素计算沉积速率的方法和原理进行了探讨,并运用该方法对山东临朐N/E界线地层的沉积速率进行了实例研究。与传统方法相比,依据宇宙尘埃特征元素在地层中的分布特征计算沉积速率具有更好的实用性和准确性。