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91.
长安金矿位于哀牢山成矿带南段,是该成矿带上新近发现的又一大型金矿床。该区为哀牢山地体边缘地壳增生带,主要由深变质岩系组成,区内构造断裂发育,对岩浆活动和成矿作用有显著影响。本文总结了长安金矿的地质特征,并以该区的控矿断裂F6为主要研究目标,以地层岩性电性特征作为约束条件,分别展开了磁法、激电、瞬变电磁和大地电磁等综合物探手段的试验研究。研究结果表明,磁法对于该矿找矿效果不明显,瞬变电磁和大地电磁测深反演的电阻率低阻体,准确界定了控矿断裂F6的位置、倾向、断距以及深部延伸情况,通过激电异常可大致判断矿体的位置。所以在长安金矿区下一步的深部隐伏矿勘查中,结合瞬变电磁、激电、大地电磁等地球物理方法,辅以土壤化探异常进行约束,可以达到快速有效找矿之目的。 相似文献
92.
西藏朱诺斑岩铜 钼 金矿区侵入岩锆石U Pb年龄、Hf同位素组成及其成矿意义 总被引:2,自引:0,他引:2
朱诺斑岩铜钼金矿位于冈底斯成矿带南缘,是近年来在冈底斯斑岩铜矿带最西端新发现的另一大型斑岩型铜-钼-金矿床,但一直以来对该矿区花岗岩年代学及成因分析缺乏系统的研究。本文选择矿区内主要岩浆岩体开展LA-ICP-MS锆石U-Pb定年,Hf同位素研究。获得黑云母花岗闪长岩锆石U-Pb年龄为14.14±0.32Ma,76 Hf/177 Hf介于0.282484~0.282750,εHf(t)介于-9.87~-0.49,二阶段模式年龄TDMC介于1.13~1.73Ga、似斑状二长花岗岩锆石U-Pb年龄为14.05±0.31Ma,176 Hf/177 Hf介于0.282633~0.282769,εHf(t)介于-4.61~0.21,二阶段模式年龄TDMC介于1.08~1.39Ga之间;角闪闪长玢岩锆石U-Pb年龄为14.10±0.29Ma,除4.1号为继承锆石外,其余测点176 Hf/177 Hf介于0.282607~0.282761,εHf(t)介于-5.53~-0.07,二阶段模式年龄TDMC介于1.10~1.45Ga之间。年代学与Hf同位素结果表明,朱诺斑岩铜矿与斑岩铜矿带中段和东段成岩成矿时代一致,集中在15~13Ma之间,指示了冈底斯在中新世的构造岩浆活动事件。花岗岩Hf同位素组成明显与中-东段斑岩矿床不同,具有富集Hf同位素特征以及古老二阶段模式年龄(1.08~1.73Ga)等特点,反映出朱诺矿区中新世岩浆岩源区与中-东段中新世斑岩矿床明显不同,可能指示古老拉萨地体的印迹。 相似文献
93.
Porphyry Cu (–Mo–Au) deposits occur not only in continental margin–arc settings (subduction-related porphyry Cu deposits, such as those along the eastern Pacific Rim (EPRIM)), but also in continent–continent collisional orogenic belts (collision-related porphyry Cu deposits, such as those in southern Tibet). These Cu-mineralized porphyries, which develop in contrasting tectonic settings, are characterized by some different trace element (e.g., Th, and Y) concentrations and their ratios (e.g., Sr/Y, and La/Yb), suggesting that their source magmas probably developed by different processes. Subduction-related porphyry Cu mineralization on the EPRIM is associated with intermediate to felsic calc-alkaline magmas derived from primitive basaltic magmas that pooled beneath the lower crust and underwent melting, assimilation, storage, and homogenization (MASH), whereas K-enriched collision-related porphyry Cu mineralization was associated with underplating of subduction-modified basaltic materials beneath the lower crust (with subsequent transformation into amphibolites and eclogite amphibolites), and resulted from partial melting of the newly formed thickened lower crust. These different processes led to the collision-related porphyry Cu deposits associated with adakitic magmas enriched by the addition of melts, and the subduction-related porphyry Cu deposits associated with magmas comprising all compositions between normal arc rocks and adakitic rocks, all of which were associated with fluid-dominated enrichment process.In subduction-related Cu porphyry magmas, the oxidation state (fO2), the concentrations of chalcophile metals, and other volatiles (e.g., S and Cl), and the abundance of water were directly controlled by the composition of the primary arc basaltic magma. In contrast, the high Cu concentrations and fO2 values of collision-related Cu porphyry magmas were indirectly derived from subduction modified magmas, and the large amount of water and other volatiles in these magmas were controlled in part by partial melting of amphibolite derived from arc basalts that were underplated beneath the lower crust, and in part by the contribution from the rising potassic and ultrapotassic magmas. Both subduction- and collision-related porphyries are enriched in potassium, and were associated with crustal thickening. Their high K2O contents were primarily as a result of the inheritance of enriched mantle components and/or mixing with contemporaneous ultrapotassic magmas. 相似文献
94.
The Dalucao deposit, located in western Sichuan Province, southwestern China, in the western part of the Yangtze Craton, is one of the largest and most extensive rare earth element (REE) deposits in the Himalayan Mianning–Dechang REE belt. Moreover, the Dalucao deposit is the only deposit identified in the southern part of the belt. The Dalucao deposit contains the No. 1, 2, and 3 orebodies; the No. 1 and 3 orebodies are both hosted in two breccia pipes, located in syenite–carbonatite host rocks. Both pipes have elliptical cross-sections at the surface, with long-axis diameters of 200–400 m and short-axis diameters of 180–200 m; the pipes extend downwards for > 450 m. No. 1 and No. 3 have total thickness varying between 55 and 175 m and 14 to 58 m respectively. The REE mineralization is associated with four brecciation events, which are recorded in each of the pipes. The ore grades in the No. 1 and 3 orebodies are similar, and consist of 1.0%–4.5% rare earth oxides (REOs). The No. 1 orebody is characterized by a Type I mineral assemblage (fluorite + barite + celestite + bastnäsite), whereas the No. 3 orebody is characterized by a Type II assemblage (fluorite + celestite + pyrite + muscovite + bastnäsite + strontianite). Argon (40Ar/39Ar) dating of hydrothermal muscovite intergrown with REE minerals in typical ores from the No. 1 and 3 orebodies yielded similar ages of 12.69 ± 0.13 and 12.23 ± 0.21 Ma, respectively, which suggest that both mineral assemblages formed coevally, rather than in paragenetic stages. Both ages are also similar to the timing of intrusion of the syenite–carbonatite complex (12.13 ± 0.19 Ma). The ore-mineral assemblages occur in breccias, veinlets, and in narrow veins. The ore veinlets, which usually show a transition to mineralized breccia or brecciated ores, are commonly enveloped by narrow veins and stringer zones with comparable mineral assemblages. The brecciated ores form 95% of the volume of the deposit, whereas brecciated ores are only a minor constituent of other deposits in the Mianning–Dechang REE belt. The carbonatite in the syenite–carbonatite complexes contains high concentrations of S (0.07–2.32 wt.%), Sr (16,500–20,700 ppm), Ba (3600–8400 ppm), and light REEs (LREE) (2848–10,768 ppm), but is depleted in high-field-strength elements (HFSE) (Nb, Ta, P, Zr, Hf, and Ti). The syenite is moderately enriched in large-ion lithophile elements (LILE), Sr (155–277 ppm), and Ba (440–755 ppm). The mineralized, altered, and fresh syenites and carbonatites exhibit similar trace element compositions and REE patterns. Brecciation events, and the Dalucao Fault and its secondary faults around the deposit, contributed to the REE mineralization by facilitating the circulation of ore-forming fluids and providing space for REE precipitation. Some hydrothermal veins composed of coarse-grained fluorite and quartz are distributed in the syenite–carbonatite complex. The oxygen isotope compositions of ore-forming fluids in equilibrium with quartz at 215 °C are − 4.95‰ to − 7.45‰, and the hydrogen isotope compositions of fluid inclusions in coarse-grained quartz are − 88.4‰ to − 105.1‰. The syenite–carbonatite complex and carbonatite are main contributors to the mineralization in the geological occurrence. Thus, the main components of the ore-forming fluids were magmatic water, meteoric water, and CO2 derived from the decarbonation of carbonatite. According to the petrographic studies, bastnäsite mineralization developed during later stages of hydrothermal evolution and overprinted the formation of the brecciated fluorite–quartz hydrothermal veins. As low-temperature isotope exchange between carbonates of the carbonatite and water-rich magmatic fluids will lead to positive shifts in δ18O values of the carbonates, C–O isotopic compositions from the bulk primary carbonatite to hydrothermal calcite and bastnäsite changed (δ18OV-SMOW from 8.0‰ to 11.6‰, and δ13C V-PDB from − 6.1 to − 8.7‰). According to the chemical composition of syenite and carbonatite, REE chloride species are the primary complexes for the transport of the REEs in the hydrothermal fluids, and the presence of bastnäsite and parisite means the REE were precipitated as fluorocarbonates. High contents of Sr, Ba and S in the syenite–carbonatite complex led to the deposition of large amount of barite and celestite. 相似文献
95.
班公湖蛇绿混杂岩带内分布着一系列小型斜长花岗斑岩和花岗闪长岩岩体,锆石U-Pb年龄分别为97.4±1.1Ma和91.94±0.78Ma,具埃达克质岩特征,高Si O2、Al2O3和Sr,低Y和Yb,Sr/Y35,轻重稀土分异明显,亏损Nb、Ta和Ti,Cr和Ni含量很低,推测为玄武质岩浆底侵加厚下地壳部分熔融形成。辉石闪长岩脉分布于南侧日土花岗岩内,推测年龄为80~76Ma,岩石地球化学显示亏损Zr、Hf、Ti、Y等高场强元素,富集大离子亲石元素,且具较高的Sc、Y、Cr、Co、HREE和Mg#值(40),源区为经过熔体交代的上地幔。结合前人资料,本文认为班公湖地区在97~92Ma仍处于持续碰撞造山、地壳加厚过程中;92Ma之后,构造体制从碰撞期的挤压转变为碰撞后的板内伸展;80~76Ma,板内的伸展进一步加剧。 相似文献
96.
班公湖—怒江成矿带西段日土—多龙地区为一条燕山期岩浆弧,已相续发现多处大、中型矿产,具有良好的成矿地质条件。弗野岩体位于该岩浆弧西侧,岩性以闪长岩和闪长玢岩为主,蚀变较强;微量元素原始地幔标准化后亏损Ba、Nb、Ta、Sr和Ti,富集Th、U和Pb;稀土元素球粒陨石标准化后表现出整体向右缓倾,显示负Eu异常;D1046和D1049两件样品的锆石LuHf同位素结果显示,εHf(t)主要集中在-5.2~-12.2区间,TDM1模式年龄介于0.98~1.28Ga之间;锆石206Pb/238U年龄加权平均值分别为119.06±0.48Ma和120.03±0.68Ma,均形成于早白垩世中期。结合岩石地球化学特征判断其属于I型花岗岩类,源区物质来源于幔源物质和下地壳物质。根据该岩浆弧带的岩体特征判断,班公湖—怒江特提斯洋至少在中侏罗世已经开始了向北的俯冲作用,且在早白垩世这种向北的俯冲作用仍在持续。 相似文献
97.
根据岩石地层及生物地层研究,西藏申扎地区下二叠统昂杰组可分为下段的砂质灰岩、微晶灰岩、生物碎屑灰岩段和上段的灰黑色薄层状泥岩、页岩夹钙质粉细砂岩段,时代为早二叠世亚丁斯克期—空谷期。系统采集了24件昂杰组灰岩段C-O同位素样品,测试结果表明,昂杰组样品δ13C最大值为6.312‰,最小值为4.032‰,平均值为5.794‰;δ18O最大值为-1.785‰,最小值为-7.476‰,平均值为-4.494‰。无机碳同位素的变化存在一次缓慢的正向偏移,这与早二叠世中晚期冈瓦纳北缘冰川作用及陆生植物大规模繁衍有很大的相关性。 相似文献
98.
99.
各向异性介质对大地电磁观测数据的影响往往不可忽略,因此需要提高大地电磁各向异性三维反演的可靠性和有效性.为了满足大地电磁各向异性三维反演的需求,本文研究了一种基于交叉梯度结构约束的大地电磁主轴各向异性并行三维反演算法.根据大地电磁平面波理论假设,正演方程采用背景场与二次场分离的计算方式,二次场利用交错网格有限差分法求解.由于各向异性反演的多解性,本文将各向异性介质简化为主轴各向异性,并在此基础上进一步采用有限内存拟牛顿LBFGS法实现三维各向异性反演.为了提高各向异性反演的分辨率,反演目标函数中引入交叉梯度项,利用先验的结构信息,对三个方向的电阻率参数进行结构约束,最终的反演进一步利用MPI(Message Passing Interface,消息传递接口)技术实现分频并行计算,测试结果显示并行接近线性加速比. 相似文献
100.
当前无人机频率域半航空电磁方法(SAEM)成为地球物理勘探中的新兴技术,该方法通过空中无人飞行器测量地面上单个或多个可控源的垂直磁场.本文为无人机频率域SAEM开发了三维反演程序,正演采用交错网格有限差分.由于无人机采集的数据量巨大,因此使用了有限内存拟牛顿法(LBFGS)实现快速的三维反演,以避免计算和存储巨大的灵敏度矩阵.为了提升无人机频率域SAEM的三维反演效果,本文进一步实现了无人机频率域SAEM与大地电磁(MT)的三维联合反演,并对联合反演实施了地震结构约束,结构约束采用交叉梯度法实现.MT可以增加勘探深度,而结构约束可以提高电磁法反演的分辨率.最后通过建立四个理论模型,证明了本文程序的有效性. 相似文献