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61.
试述福建顺昌南舟萤石矿地质特征 总被引:1,自引:0,他引:1
顺昌南舟萤石矿位于顺昌县埔上镇南舟村境内,1996年福建省区域地质调查队开展1:5万埔上幅区调时发现矿体,后开展普查工作表明该矿床规模大、交通方便,易于开采,现已投入开发利用。南舟萤石矿成矿地质特征在闽北丰富的萤石资源中具有一定代表性。 相似文献
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白秧坪铜银多金属矿床主要产于白垩系下统景星组石英砂岩、粉砂岩中,矿石铅同位素组成特征与景星组砂岩的铅同位素组成比较接近,表明壳源物质参与了成矿作用。作ZartMan图解和△γ—△β图解表明,矿石铅属于壳幔混合来源。矿石铅μ值介于9.43—9.65之间,Th/U比值介于3.72—3.87之间,表明矿石铅为壳幔混合铅。该矿床硫同位素组成表明,硫来源于深部地幔硫遭受地壳硫的混入。该矿床的成矿作用发生于开放体系之中,成矿物质来源为深部幔源物质混合了壳源物质。 相似文献
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研究和发现更多的成矿环境和岩石建造,有助于扩大找矿领域,提高找矿成效。笔者试从中国的区域成矿特色出发,提出近期应注意的几种地质成矿环境。中国区域成矿的主要特征是:①古陆边缘矿床集中;②多重成矿作用发育;③叠加和改造成矿显著;④热液矿床丰富多彩;⑤有机成矿和无机成矿的复合;⑥矿床形成后变化与保存条件复杂。具有较大成矿潜力、可能有所发现的地质环境和岩石建造有:①黑色岩系;②暗色岩系;③复合沉积盆地;④古湖盆区与构造—岩浆带的复合;⑤叠加成矿的多种形式;⑥构造体制转折期与转折部位;⑦地球化学块体的成矿潜力;⑧深部探矿和矿化垂直分带。论文最后提出找寻新矿床的若干方法途径。 相似文献
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LEE Hyun Koo 《《地质学报》英文版》2003,77(1):116-124
A comprehensive contrast of ore-forming geological background and ore-forming fluid features, especially fluid ore-forming processes, has been performed between the Tianmashan and the Datuanshan ore deposits in Tongling, Anhui Province. The major reasons for the formation of the stratabound skarn Au-S ore deposit in Tianmashan and the stratabound skarn Cu ore deposit in Datuanshan are analyzed in accordance with this contrast. The magmatic pluton in Tianmashan is rich in Au and poor in Cu, but that in Datuanshan is rich in Cu and Au. The wallrock strata in Tianmashan contain Au-bearing pyrite layers with some organic substance but those in Datuanshan contain no such layers. Moreover, the ore-forming fluids in Tianmashan are dominantly magmatic ones at the oxide and sulfide stages, but those with high content of Cu in Datuanshan are mainly groundwater fluids. In addition, differences in compositional evolution and physicochemical condition variation of the ore-forming fluids result in gradual dispersion 相似文献
66.
DENG Jun YANG Liqiang SUN Zhongshi WANG Jianping WANG QingfeiXIN Hongbo LI Xinjun Key Laboratory of Lithospheric Tectonics Exploration. China University of Geosciences Ministry of Education Beijing Institute of Geology Geophysics Chinese Academy of Sciences Beijing Faculty of Earth Sciences Jilin University Changchun Jilin 《《地质学报》英文版》2003,77(4):537-546
An analysis of trace elements and isotopic geochemistry suggest that the ore-forming materials of gold deposits in the Jiaodong granite-greenstone belt have multiple sources, especially the mantle source. Seismic wave, magnetic and gravity fields show that the crust-mantle structure and its coupling mechanism are the fundamental dynamic causes for the exchange and accumulation of materials and energy in the metallogenic system. Considering the evolution history of the structural setting, the tectono-metallogenic dynamics model of the area can be summarized as follows: (1) occurrence of the greenstone belt during the Archean-Proterozoic-the embryonic form of Au-source system; (2) stable tectonic setting in the Paleozoic-an intermittence in gold mineralization; (3) intensive activation and reformation of the greenstone belt in the Mesozoic-tectono-mineralization and tectono-diagensis; (4) posthumous structural activity in the Cenozoic-destruction of orebodies in the later stage. In the middle and late Ind 相似文献
67.
任-侵位的岩浆体,在结晶分异、固化成岩过程中,一般都可分为:已结晶的固相岩体、正(半)结晶的可塑相岩体及未结晶的熔融相岩浆3部分.此时,若发生了地壳运动,地壳运动的构造作用力。使正(半)结晶的可塑相岩体发生可塑相变形,形成片麻化岩体;地壳运动(包括地震)时的构造作用力为脉动性质的挤压作用力;岩体发生片麻化的地壳运动,又使已结晶的固相岩体和围岩发生断裂活动,形成了断裂带控矿、容矿构造;未结晶的熔融相岩浆再度上升侵位,便形成了小侵入岩体控矿构造.残浆的形成与排出,控矿构造的发生、发展与控矿过程,都是在这次地壳运动过程中完成的.因此,对这次地壳运动可称成矿作用. 相似文献
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70.
Masatoshi Bando Greg Bignall Kotaro Sekine Noriyoshi Tsuchiya 《Journal of Volcanology and Geothermal Research》2003,120(3-4):215-234
The Quaternary Takidani Granodiorite (Japan Alps) is analogous to the type of deep-seated (3–5 km deep) intrusive-hosted fracture network system that might support (supercritical) hot dry/wet rock (HDR/HWR) energy extraction. The I-type Takidani Granodiorite comprises: porphyritic granodiorite, porphyritic granite, biotite-hornblende granodiorite, hornblende-biotite granodiorite, biotite-hornblende granite and biotite granite facies; the intrusion has a reverse chemical zonation, characterized by >70 wt% SiO2 at its inferred margin and <67 wt% SiO2 at the core. Fluid inclusion evidence indicates that fractured Takidani Granodiorite at one time hosted a liquid-dominated, convective hydrothermal system, with <380°C, low-salinity reservoir fluids at hydrostatic (mesothermal) pressure conditions. ‘Healed’ microfractures also trapped >600°C, hypersaline (35 wt% NaCleq) fluids of magmatic origin, with inferred minimum pressures of formation being 600–750 bar, which corresponds to fluid entrapment at 2.4–3.0 km depth. Al-in-hornblende geobarometry indicates that hornblende crystallization occurred at about 1.45 Ma (7.7–9.4 km depth) in the (marginal) eastern Takidani Granodiorite, but later (at 1.25 Ma) and shallower (6.5–7.0 km) near the core of the intrusion. The average rate of uplift across the Takidani Granodiorite from the time of hornblende crystallization has been 5.1–5.9 mm/yr (although uplift was about 7.5 mm/yr prior to 1.2 Ma), which is faster than average uplift rates in the Japan Alps (3 mm/yr during the last 2 million years). A temperature–depth–time window, when the Takidani Granodiorite had potential to host an HDR system, would have been when the internal temperature of the intrusive was cooling from 500°C to 400°C. Taking into account the initial (7.5 mm/yr) rate of uplift and effects of erosion, an optimal temperature–time–depth window is proposed: for 500°C at 1.54–1.57 Ma and 5.2±0.9 km (drilling) depth; and 400°C at 1.36–1.38 Ma and 3.3±0.8 km (drilling) depth, which is within the capabilities of modern drilling technologies, and similar to measured temperature–depth profiles in other active hydrothermal systems (e.g. at Kakkonda, Japan). 相似文献