吉林省通化县迎门岔一带白垩系下统火山碎屑岩稀有稀土矿找矿前景浅析     

焦兴来  郭彦龙 《吉林地质》2020,39(1):43-48

通化县迎门岔一带1∶20万水系沉积物测量,圈定出“通通-84-HS-10”号异常,异常区内出露的岩性主要为白垩系下统林子头组灰绿色、紫色流纹质凝灰岩、角砾凝灰岩、流纹质晶屑岩屑凝灰岩、灰紫色流纹岩、安山岩等火山碎屑岩。在1∶20万异常区内开展了1∶5万水系沉积物测量工作,圈出重点找矿前景区,并在该区内开展1∶1万土壤测量、高精磁测等工作,通过槽探工程验证,发现含铌钽矿化蚀变带,显示出该地区具有较好的稀有稀土矿找矿前景。  相似文献   

新疆西天山查岗诺尔铁矿床环带石榴子石和绿帘石的发现及意义   总被引：1，自引：0，他引：1  

冯浩轩  申萍  李昌昊  武阳  石福品  李文广 《矿床地质》2020,39(5):805-824

查岗诺尔铁矿是新疆西天山阿吾拉勒铁矿带内的重要大型铁矿床之一。矿体赋存在下石炭统大哈拉军山组安山质火山岩中，与普遍发育的石榴子石化、阳起石化和绿帘石化时空关系密切。石榴子石和绿帘石分属不同热液成矿阶段，它们均发育丰富的环带结构，具体表现为明显地颜色、干涉色、背散射图像及成分（FeO、Al₂O₃、SiO₂、MnO、TiO₂）等差异性。石榴子石具有2个世代、3个类型。早世代石榴子石（Grt1和Grt2）产于块状石榴子石-磁铁矿蚀变岩，呈褐黄色，粒度较细，发育核-边结构，呈非均质性，显示异常干涉色，其核部（Grt1-c）均匀相对富钙铝榴石（Gro_51-53And_41-43Spr_4-8），而边部（Grt1-r）发育振荡成分环带，总体相对富钙铁榴石（Gro_18-35And_60-77Spr_4-6）；Grt2核部（Grt2-c）呈均质性，为钙铁榴石（And_99-100Spr_0-1），边部显异常干涉色，发育振荡成分环带，为钙铝铁榴石（Gro_34-54And_38-61Spr_6-9）。晚世代的石榴子石（Grt3）以细脉状或角砾胶结物形式分布，呈红褐色，自形粗粒结构，显非均质性，发育振荡成分环带，端员组分总体以钙铁榴石为主，次为钙铝榴石（Gro_27-43And_50-68Spr_3-8）。石榴子石结构和元素含量变化表明，早期石榴子石形成于弱氧化-氧化、中性-碱性流体体系，其中向边部生长过程，由于新注入流体以及周期性压力汇聚和释放，体系的氧逸度、pH值呈振荡变化；晚期石榴子石形成于弱氧化、弱碱性、动荡的开放流体环境。绿帘石发育3个世代（Ep1、Ep2和Ep3）。Ep1发育核-边结构，核部（Ep1-c）均匀无环带，X_Fe值（X_Fe=Fe³⁺/（Al+Fe³⁺），原子比值）为0.19~0.21，w（MnO）为0.05%~0.18%，w（TiO₂）为0.10%~0.12%，生长边（Ep1-r）多发育振荡环带，X_Fe值为0.26~0.29，w（MnO）为0.01%~0.14%，w（TiO₂）为0.19%~0.26%。Ep2沿Ep1-r边缘生长，不均匀且经历了溶解-再沉淀过程，X_Fe值为0.15~0.20，w（MnO）为0.42%~1.19%，w（TiO₂）为0.02%~0.07%。Ep3呈柱状或不规则粒状交代Ep2、贴近或穿切Ep1-r生长，较均匀、无环带结构，X_Fe值为0.28~0.37，w（MnO）为0.12%~0.77%，w（TiO₂）为0.02%~0.10%。绿帘石成分变化表明，从Ep1-c到Ep1-r，到Ep2，再到Ep3，流体体系氧逸度经历了先增加，后降低，再升高的变化过程。同时，流体成分也在变化，先从相对贫Ti和Mn向相对富Ti贫Mn演化，而后又变为富Mn贫Ti。因此，在热液磁铁矿矿化阶段，查岗诺尔铁矿的成矿热液的物理-化学环境是不断变化的。研究显示，石榴子石和绿帘石结构和成分研究可以刻画热液成矿系统的流体演化历史。  相似文献   

西藏多龙矿集区荣那铜金矿床蚀变矿物学和地球化学及找矿意义   总被引：1，自引：0，他引：1  

赵子欧  乔东海  赵元艺 《岩石学报》2020,36(9):2785-2798

位于西藏多龙矿集区的荣那铜金矿床是班公湖-怒江成矿带首例斑岩型-浅成低温热液型矿床,它的发现对于班公湖-怒江成矿带找矿模型的构建以及资源潜力评估有着重要意义。本文以荣那矿床ZK3204岩芯钻孔为研究对象,针对其蚀变矿物,运用短波红外光谱测试技术,并结合金属矿物组合以及黄铁矿LA-ICP-MS原位微量元素特征,以期查明其矿床成因,并为深部资源勘查提供理论依据。短波红外光谱测试显示出ZK3204钻孔蚀变矿物垂向分带组合为:高岭石+(地开石)→高岭石+伊利石→高岭石+(地开石+石膏)→高岭石+绢云母+伊利石→高岭石+伊利石+(叶腊石)+(地开石),金属矿物也从Cu-S体系逐渐转变为Cu-Fe-S体系。通过黄铁矿LA-ICP-MS原位微量元素分析发现,黄铁矿可分为四类,分别对应荣那矿床四个成矿阶段:(1) Py I:Co、Ni、Cu、Ag、Au含量较低,Co/Ni显示为沉积成因,代表成岩期黄铁矿;(2) PyⅡ:Co、Ni含量较低,Cu、Ag、Au含量较高,Co/Ni显示为沉积成因,代表第一期斑岩型矿床成矿期黄铁矿;(3) PyⅢ:Co含量较低,Ni、Cu、Ag、Au含量较高,Co/Ni显示为沉积成因,代表第二期斑岩型矿床成矿期黄铁矿;(4) PyⅣ:Cu、Ag、Au含量较低,Co、Ni含量较高,Co/Ni显示为热液成因,代表浅成低温热液矿床成矿期黄铁矿。风化作用也是荣那矿床重要地质过程,贯穿于各成矿阶段,反映为早白垩世班公湖-怒江洋盆向北俯冲消减大背景下的多龙矿集区隆升事件,导致矿床被大量剥蚀,也使黄铁矿显示沉积成因。荣那矿床目前仍有较大找矿潜力,在钻孔深部(815m以下),黄铁矿Cu、Ag、Au含量,钻孔中Cu、Pb、Zn、Cr、Hg等含量,绢云母、伊利石含量以及铜金矿的矿石品位均有向下升高的趋势,说明在ZK3204钻孔下部仍有巨大的找矿潜力,可作为未来深部资源探测的重点对象。  相似文献   

冀北隆化小罗卜沟金银矿床特征及找矿意义     

张贵宝 《地质与勘探》2020,56(3):502-511

冀北隆化县小罗卜沟中型金银矿床的发现是该地区找矿的重大突破。勘查区位于1∶20万和1∶5万Au、Ag等多元素综合异常内,通过以钻探、硐探为主的探矿工程,基本查明了矿体赋存于早白垩世九佛堂组复成分角砾岩和义县组安山岩及安山质火山角砾岩的构造裂隙内。矿体受断裂带控制,与围岩界线明显,对围岩没有选择性,矿床属燕山期与岩体有关的浅成中低温热液矿床。矿区内共圈定17个矿体,矿体长28～788 m,斜深8～489 m,平均厚度0.80～3.96 m,Ag平均品位68.44×10~(-6)～447.50×10~(-6),共生Au平均品位1.16×10~(-6)～6.25×10~(-6);伴生Au平均品位0.20×10~(-6)～1.00×10~(-6),伴生S平均品位2.34%～11.10%。主要矿体Ⅳ-1银资源储量达中型。矿区内及外围仍存在寻找多金属矿床的潜力。该矿床的发现对寻找同类矿床具有重要指示意义。  相似文献   

青海东昆仑哈西哇金多金属矿地质特征及找矿前景     

周兵  李双江 《四川地质学报》2020,40(1):51-55

研究区内广布的富金元古宇地层是金矿集中区形成的基础,多期次的强烈岩浆活动为金矿集中区的形成提供了极为丰富的成矿流体和矿质来源,脆韧性剪切带为矿液流通和汇聚提供了有利空间。在区内的脆韧性剪切带中分布有Ⅰ矿带和Ⅱ矿带,带内发育硅化、绢云母化、黄铁矿化、绿泥石化、碳酸盐化、纤闪石化、高岭土化蚀变,金多金属矿化主要与硅化、绢云母化、绿泥石化、黄铁矿化关系密切。目前已提交金资源量约8.94t,银金属量约247.02t,铅金属量约6.45万t,锌金属量约5.23万t。综合分析该区地质矿化特征和控矿因素认为,研究区成矿条件优越,找矿潜力巨大,通过开展进一步勘查工作有望达到大型金多金属矿床规模。  相似文献   

江南造山带(湖南段)金矿成矿规律与资源潜力   总被引：1，自引：0，他引：1  

黄建中  孙骥  周超  陆文  肖荣  郭爱民  黄革非  谭仕敏  隗含涛 《地球学报》2020,41(2):230-252

扬子地块—华夏地块经历武陵期—雪峰期增生造山-碰撞造山形成江南造山带,构成统一的华南板块,进入板内演化阶段。本文从构造-岩浆作用-沉积建造角度,结合地质年代学、古地磁、岩相古地理分析,加里东运动、印支运动属陆内作用,造就了加里东期、印支期两次主要的金矿成矿事件。湖南雪峰山—幕阜山(俗称“金腰带”)加里东期和印支晚期金矿床分区成带产出,构成一条复合型造山型金矿带。区域性构造导矿、次级构造交汇或叠加控矿明显;矿石普遍发育条带状构造,属韧性剪切递进变形的产物。通过对区域成矿背景、金矿成矿理论,金矿床(体)地质特征,结合同位素地球化学、地质找矿成果及深部验证情况等多方面研究表明该成矿带深部找矿潜力巨大,2000 m以浅金远景资源量有望达到3000 t。  相似文献   

Potential wind erosion rate response to climate and land‐use changes in the watershed of the Ningxia–Inner Mongolia reach of the Yellow River,China, 1986–2013          下载免费PDF全文

Heqiang Du  Tao Wang  Xian Xue 《地球表面变化过程与地形》2017,42(13):1923-1937

Climate and land‐use changes could strongly affect wind erosion and in turn cause a series of environmental problems. Thus, the objective of this study was to assess potential wind erosion rate (PWER) response to climate and land‐use changes in the watershed of the Ningxia–Inner Mongolia Reach of the Yellow River (NIMRYR), China. The watershed of NIMRYR suffers from serious wind erosion hazards, and over recent decades, wind erosion intensity and distribution has changed, following climate and land‐use changes. To understand these processes in the NIMRYR watershed, the Integrated Wind Erosion Modelling System (IWEMS) and the Revised Wind Erosion Equation (RWEQ) were used to calculate the PWER under different climate conditions and land‐use scenarios, and to assess the influences of climate and land‐use changes on the PWER. The results show the PWER in the whole watershed had a significant declining trend from 1986 to 2013. The results of the relationship among PWER, climate change, and land‐use changes showed that climate change was the dominant control on the PWER change in this watershed. Compared to the period 1986–1995, the average PWER decreased 23.32% and 64.98% as a result of climate change in the periods 1996–2005 and 2006–2013, respectively. In contrast with climate change, the effects of land‐use changes on the average PWER were much lower, and represented a change in PWER of less than 3.3% across the whole watershed. The study method we used could provide some valuable reference for wind erosion modelling, and the research results should help climate and land‐use researchers to develop strategies to reduce wind erosion. Copyright © 2017 John Wiley & Sons, Ltd.  相似文献   

Chemical and textural equilibration of garnet during amphibolite facies metamorphism: The influence of coupled dissolution–reprecipitation          下载免费PDF全文

Tim J Dempster  Julie La Piazza  Andrew G Taylor  Nicolas Beaudoin  Peter Chung 《Journal of Metamorphic Geology》2017,35(9):1111-1130

Metamorphic equilibration requires chemical communication between minerals and may be inhibited through sluggish volume diffusion and or slow rates of dissolution in a fluid phase. Relatively slow diffusion and the perceived robust nature of chemical growth zoning may preclude garnet porphyroblasts from readily participating in low‐temperature amphibolite facies metamorphic reactions. Garnet is widely assumed to be a reactant in staurolite‐isograd reactions, and the evidence for this has been assessed in the Late Proterozoic Dalradian pelitic schists of the Scottish Highlands. The 3D imaging of garnet porphyroblasts in staurolite‐bearing schists reveals a good crystal shape and little evidence of marginal dissolution; however, there is also lack of evidence for the involvement of either chlorite or chloritoid in the reaction. Staurolite forms directly adjacent to the garnet, and its nucleation is strongly associated with deformation of the muscovite‐rich fabrics around the porphyroblasts. “Cloudy” fluid inclusion‐rich garnet forms in both marginal and internal parts of the garnet porphyroblast and is linked both to the production of staurolite and to the introduction of abundant quartz inclusions within the garnet. Such cloudy garnet typically has a Mg‐rich, Mn‐poor composition and is interpreted to have formed during a coupled dissolution–reprecipitation process, triggered by a local influx of fluid. All garnet in the muscovite‐bearing schists present in this area is potentially reactive, irrespective of the garnet composition, but very few of the schists contain staurolite. The staurolite‐producing reaction appears to be substantially overstepped during the relatively high‐pressure Barrovian regional metamorphism reflecting the limited permeability of the schists in peak metamorphic conditions. Fluid influx and hence reaction progress appear to be strongly controlled by subtle differences in deformation history. The remaining garnet fails to achieve chemical equilibrium during the reaction creating distinctive patchy compositional zoning. Such zoning in metamorphic garnet created during coupled dissolution–reprecipitation reactions may be difficult to recognize in higher grade pelites due to subsequent diffusive re‐equilibration. Fundamental assumptions about metamorphic processes are questioned by the lack of chemical equilibrium during this reaction and the restricted permeability of the regional metamorphic pelitic schists. In addition, the partial loss of prograde chemical and textural information from the garnet porphyroblasts cautions against their routine use as a reliable monitor of metamorphic history. However, the partial re‐equilibration of the porphyroblasts during coupled dissolution–reprecipitation opens possibilities of mapping reaction progress in garnet as a means of assessing fluid access during peak metamorphic conditions.  相似文献   

Effect of grain‐scale pressure variations on garnet growth: a numerical approach          下载免费PDF全文

X. Zhong  J.C. Vrijmoed  L. Tajčmanová 《Journal of Metamorphic Geology》2017,35(1):19-33

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Changes in potential evapotranspiration and surface runoff in 1981–2010 and the driving factors in Upper Heihe River Basin in Northwest China          下载免费PDF全文

Kaisheng Luo  Fulu Tao  Xiangzheng Deng  Juana P. Moiwo 《水文研究》2017,31(1):90-103

Changes in potential evapotranspiration and surface runoff can have profound implications for hydrological processes in arid and semiarid regions. In this study, we investigated the response of hydrological processes to climate change in Upper Heihe River Basin in Northwest China for the period from 1981 to 2010. We used agronomic, climatic and hydrological data to drive the Soil and Water Assessment Tool model for changes in potential evapotranspiration (ET₀) and surface runoff and the driving factors in the study area. The results showed that increasing autumn temperature increased snow melt, resulting in increased surface runoff, especially in September and October. The spatial distribution of annual runoff was different from that of seasonal runoff, with the highest runoff in Yeniugou River, followed by Babaohe River and then the tributaries in the northern of the basin. There was no evaporation paradox at annual and seasonal time scales, and annual ET₀ was driven mainly by wind speed. ET₀ was driven by relative humidity in spring, sunshine hour duration in autumn and both sunshine hour duration and relative humility in summer. Surface runoff was controlled by temperature in spring and winter and by precipitation in summer (flood season). Although surface runoff increased in autumn with increasing temperature, it depended on rainfall in September and on temperature in October and November. Copyright © 2016 John Wiley & Sons, Ltd.  相似文献