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1.
江西德兴斑岩铜钼矿床流体包裹体子矿物SEM-EDS 研究及其对成矿流体性质的制约 总被引:6,自引:1,他引:5
江西德兴斑岩铜钼矿床Q+Py±Cp±Cc脉、(黄铁)绢英岩和Q+Py+Mo±Cp脉中发育大量多相(透明、暗色子矿物)包裹体。本文以详细的显微观察和流体包裹体岩相学观察为基础,利用SEM-EDS(扫描电镜-X射线能谱仪)对多相包裹体内的子矿物进行了系统的鉴定。分析结果表明,Q+Py±Cp±Cc脉石英中发育的透明子矿物包括绢云母、石盐、水氯镁石、白云石、铁氯化物、磷灰石和含稀土元素磷酸盐;暗色子矿物包括赤铁矿、铁氧化物和黄铜矿。(黄铁)绢英岩石英和黄铁矿中透明子矿物包括石盐、(硬)石膏、绢云母、硫酸镁、菱镁矿、六水泻盐和(Fe、Cu、Mg)碳酸盐和硫酸盐,暗色子矿物包括磁铁矿、赤铁矿、金红石和黄铜矿;Q+Py+Mo±Cp脉石英包裹体中发育的子矿物相对较少,透明子矿物包括石盐、菱铁矿和钾长石;暗色矿物为赤铁矿。它们中发育种类繁多的子矿物,表明热液的化学成分非常复杂,多种盐类以及高氧化态子矿物出现指示流体具有高盐度-高氧化态的特征。此外,还鉴别出了黄铜矿、赤铁矿和磁铁矿等金属矿物,这表明热液含有丰富的成矿物质,这些成矿物质随物理化学条件的变化以黄铜矿等金属矿物从热液中沉淀下来,形成了矿床内的主要矿体。结合蚀变矿物组成观察,我们认为Q+Py±Cp±Cc脉、(黄铁)绢英岩和Q+Py+Mo±Cp脉中子矿物组成很可能不代表原始流体的化学成分,因为它们在很大程度上受到了热液蚀变作用的影响,围岩矿物由于水-岩反应被分解,同时释放出Na、Ca、Mg、Fe等元素进入热液,形成了上述种类多样的子矿物。通过流体包裹体岩相学观察发现,(黄铁)绢英岩和中Q+Py+Mo±Cp脉含石盐多相包裹体通常与富气包裹体或者CO2包裹体紧密共生,这表明热液在被捕获前发生了相分离(或沸腾)作用,而这一过程必然会导致富液包裹体盐度的升高,因此不能排除这些高盐包裹体是由中低盐度流体发生相分离而形成的可能性。Q+Py±Cp±Cc脉中发育的稀土子矿物指示成脉流体具有高盐度-低pH-含CO2的特征,而这类子矿物在(黄铁)绢英岩和Q+Py+Mo±Cp脉中不发育的原因可能是CO2与液相发生了相分离作用。 相似文献
2.
高压超高压变质作用中的流体 总被引:3,自引:1,他引:3
文章强调了高压和超高压变质岩中流体包裹体的研究意义,重点论述了几个问题:(1)高压和超高压变质岩中流体包裹体的成分以含N2量高为特点,在大别山含柯石英榴辉岩中找到的高压榴辉岩阶段捕获的原生包裹体,其中气相组分含CO(摩尔分数)为14%,表明流体来源于深部。原生流体包裹体的保存,要求在p-T区间内的抬升轨迹与等容线近于平行。(2)在大别山高压和超高压榴辉岩中首次确认熔融包裹体的存在,由硅酸盐玻相和以CO2为主要成分的气相组成,并发现熔融包裹体中的玻相成分与主矿物相近。(3)高压和超高压变质期间的局部流体迁移可由榴辉岩中流体包裹体和矿物同位素成分(H-C-O)来显示。(4)高压和超高压变质中流体-熔体-岩石(矿物)相互作用是一个非常复杂的过程,并证实在榴辉岩相p-T条件下岩石的部分熔融。(5)变质流体的成分与变质级之间存在着相关关系。 相似文献
3.
Hydrothermal alteration and mineralization at the Wunugetu porphyry Cu–Mo deposit, China, include four stages, i.e., the early stage characterized by quartz, K-feldspar and minor mineralization, followed by a molybdenum mineralization stage associated with potassic alteration, copper mineralization associated with sericitization, and the last Pb–Zn mineralization stage associated with carbonation. Hydrothermal quartz contains three types of fluid inclusions, namely aqueous (W-type), daughter mineral-bearing (S-type) and CO2-rich (C-type) inclusion, with the latter two types absent in the late stage. Fluid inclusions in the early stage display homogenization temperatures above 510°C, with salinities up to 75.8 wt.% NaCl equivalent. The presence of S-type inclusions containing anhydrite and hematite daughter minerals and C-type inclusions indicates an oxidizing, CO2-bearing environment. Fluid inclusions in the Mo- and Cu-mineralization stages yield homogenization temperatures of 342–508°C and 241–336°C, and salinities of 8.6–49.4 and 6.3–35.7 wt.% NaCl equivalent, respectively. The presence of chalcopyrite instead of hematite and anhydrite daughter minerals in S-type inclusions indicates a decreasing of oxygen fugacity. In the late stage, fluid inclusions yield homogenization temperatures of 115–234°C and salinities lower than 12.4 wt.% NaCl equivalent. It is concluded that the early stage fluids were CO2 bearing, magmatic in origin, and characterized by high temperature, high salinity, and high oxygen fugacity. Phase separation occurred during the Mo- and Cu-mineralization stages, resulting in CO2 release, oxygen fugacity decrease and rapid precipitation of sulfides. The late-stage fluids were meteoric in origin and characterized by low temperature, low salinity, and CO2 poor. 相似文献
4.
Fluids in deeply subducted continental crust: Petrology, mineral chemistry and fluid inclusion of UHP metamorphic veins from the Sulu orogen, eastern China 总被引:10,自引:0,他引:10
Ze-Ming Zhang Kun Shen Yong-Sheng Liu Cao Shi 《Geochimica et cosmochimica acta》2008,72(13):3200-3228
The complex vein associations hosted in southern Sulu ultrahigh-pressure (UHP) eclogites contain quartz ± omphacite (or jadeite) ± kyanite ± allanite ± zoisite ± rutile ± garnet. These minerals have chemical compositions similar to those of host eclogites. Inclusions of polycrystalline quartz pseudomorphs after coesite were identified in vein allanite and garnet, and coesite inclusions were found in vein zircon. These facts suggest that the veins together with host eclogites have been subjected to synchronous UHP metamorphism. The vein minerals contain relatively high concentrations of rare earth elements (REE), high-field-strength elements (HFSE) and transition metal elements (TME). A kyanite-quartz vein has a whole-rock composition similar to adjacent UHP metamorphic granitic gneisses. Abundant primary multi-solid fluid inclusions trapped within UHP vein minerals contain complex daughter minerals of muscovite, calcite, anhydrite, magnetite, pyrite, apatite, celestite and liquid and gas phase of H2O with solids up to 30-70% of the inclusion volume. The presence of daughter minerals anhydrite and magnetite indicates the subduction fluids were oxidizing, and provides a possible interpretation for the high oxygen fugacity of subduction zone magmas. These characteristics imply that the UHP vein minerals were crystallized from supercritical silicate-rich aqueous fluids that were in equilibrium with peak-UHP minerals, and that the fluids in deeply subducted continental crust may contain very high concentrations of silicate as well as HREE, HFSE and TME. Such fluids might have resulted in major fractionation between Nb and Ta, i.e. the UHP fluids have subchondritic Nb/Ta values, whereas the host eclogites after extraction of the fluids have suprachondritic Nb/Ta values. Therefore, voluminous residual eclogites with high Nb/Ta ratios may be the complementary suprachondritic reservoir capable of balancing the subchondritic depleted mantle and continental crust reservoirs. 相似文献
5.
《International Geology Review》2012,54(3):279-288
Abstract, Results of a study of fluid inclusions in anhydrite from drill hole Y-6 in the Chicxulub crater, of northwestern Yucatan, Mexico, are reported in this work. The Chicxulub crater was formed at the Cretaceous-Tertiary boundary by a meteorite impact. The resulting ejection breccias are composed mostly of hydrothermally altered crystalline basement material. The mineral assemblage pyroxene + anhydrite + quartz is associated with the hydrothermal alteration. The analyzed fluid inclusions in the anhydrite show highly heterogeneous phase assemblages within the same crystal plane. Fluid inclusion types include liquid plus vapor inclusions (L+V), vapor-rich inclusions (V), and inclusions containing daughter crystals (L+V+S). The eutectic temperatures indicate a brine composition dominated by CaCl2-NaCl. Both the salinity and the homogenization temperatures show a wide range (from 3.6 to 23 wt% NaCl equivalent for the L+V inclusions, and 36 to 42 wt% NaCl equivalent for the L+V+S inclusions). The homogenization temperatures range from 100° to 500°C. These data represent cooling and boiling trends. We assume that the impact breccias were ejected at high temperature in an aqueous environment (above 500°C). This caused boiling of sea water and precipitation of anhydrite with its inclusions. 相似文献
6.
碳酸岩流体及其稀土成矿作用 总被引:12,自引:0,他引:12
火成碳酸岩熔浆可侵入到大陆和洋壳构造环境 ,多数大陆构造环境下的碳酸岩在时间和空间上与地壳减薄事件有关 ,高温下它具有极强的搬运碱金属、大离子亲石元素和高场强元素的能力。碳酸岩中可能出现的原生包裹体有两相水溶液 (气 +液 )包裹体、含子矿物多相水溶液包裹体、含CO2 包裹体和CO2 +盐水溶液混合多相包裹体以及硅酸盐玻璃质熔融包裹体等。碳酸岩型稀土矿床中赋存的流体包裹体类型也可分为气液相、含碳水溶液相和气液固多相包裹体 ,包裹体中稀土子矿物的出现是该类矿床最显著的特征。富碱碳酸岩流体中REE ,Sr ,Th和Fe等都具有极高的溶解度 ,水岩反应和流体不混溶是造成成矿热液中REE及Fe等沉淀成矿的关键因素 ,REE的迁移沉淀可延续到低温、低盐度的成矿晚阶段 相似文献
7.
地幔岩中流体包裹体研究 总被引:5,自引:2,他引:3
地幔岩石中的流体包裹体代表地幔流体的样品。地幔流体包裹体可以存在从地幔来的金刚石,地幔捕虏体和岩浆碳酸岩中。研究这些岩石和矿物中的流体包裹体可以得出其所代表的地幔流体的温度、压力、成分和同位素。我们目前见到的这三类地幔岩石的包裹体主要可在橄榄石、辉石、金刚石、方解石和磷灰石中见到。这些包裹体可以粗略地分为CO2包襄体和硅酸盐熔融体包裹体。又可细分为四类包裹体:(1)富碳酸盐的硅酸盐熔融包裹体。这种包裹体在金刚石、地幔岩捕虏体和岩浆碳酸盐岩中见到,它又可分为结晶质熔融包裹体和玻璃包裹体。(2)CO2包裹体。这种包裹体大多见于地幔捕虏体中,在金刚石和岩浆碳酸岩中也可见到。(3)含硫化物的包裹体。这种包裹体见于地幔捕虏体中,与纯CO2包裹体和含CO2的熔融包裹体共存。(4)高密度的流体包裹体。这种包裹体见于金刚石中,是一种高盐度、高密度的含K、Cl和H2O的流体包裹体,又可分为高卤水包裹体和含卤水的富硅的碳酸盐岩浆包裹体。从对金刚石、地幔捕虏体和岩浆碳酸盐岩中流体包裹体的研究表明,地幔流体存在不均匀性和不混溶性。 相似文献
8.
Fluid inclusions in coesite-bearing eclogites and jadeite quartzite at Shuanghe, Dabie Shan (China) 总被引:6,自引:0,他引:6
Fluid inclusions in coesite‐bearing eclogites and jadeite quartzite at Shuanghe in Dabie Shan, East‐central China, have preserved remnants of early, prograde and/or peak metamorphic fluids, reset during post‐UHP (ultrahigh‐pressure) metamorphic uplift. Inclusions occur in several minerals (e.g. omphacite & epidote), notably as isolated, primary inclusions in quartz included in various host minerals. Two major fluid types have been identified: non‐polar fluid species (N2 or CO2) and aqueous, the latter is by far the most predominant. Aqueous fluids cover a wide range of salinity, from halite‐bearing brines to low salinity fluids. For non‐polar fluids, few N2 inclusions occur in undeformed eclogite, whereas a number of CO2‐rich inclusions have been found in microshear zones of eclogite or jadeite quartzite in close proximity to marble occurrences. The primary character of N2 and high‐salinity aqueous inclusions indicates that they are remnants from UHP metamorphic fluids and for some there is the distinct possibility that they are ultimately derived from pre‐metamorphic fluids. This conclusion is supported by the preservation, in some samples, of microdomains containing synchronous inclusions of variable salinities, which tend to relate to the chemical composition of the host crystal. Carbonic fluids may be derived from neighbouring rocks, notably marble and carbonate‐bearing metasediments, during post‐metamorphic uplift. During post‐UHP exhumation, a limited decrease of the fluid density has occurred, with formation of new sets of fluid inclusions. Fluid movements, however, remained exceedingly limited, at the scale of the enclosing crystal. 相似文献
9.
F. Masoudi B. Mehrabi M. Rezai Aghdam B. W. D. Yardley 《Journal of the Geological Society of India》2009,73(3):407-418
In the Sanandaj-Sirjan zone of metamorphic belt of Iran, the area south of Hamadan city comprises of metamorphic rocks, granitic
batholith with pegmatites and quartz veins. Alvand batholith is emplaced into metasediments of early Mesozoic age. Fluid inclusions
have been studied using microthermometry to evaluate the source of fluids from which quartz veins and pegmatites formed to
investigate the possible relation between host rocks of pegmatites and the fluid inclusion types. Host minerals of fluid inclusions
in pegmatites are quartz, andalusite and tourmaline. Fluid inclusions can be classified into four types. Type 1 inclusions
are high salinity aqueous fluids (NaCleq >12 wt%). Type 2 inclusions are low to moderate salinity (NaCleq <12 wt%) aqueous fluids. Type 3 and 4 inclusions are carbonic and mixed CO2-H2O fluid inclusions. The distribution of fluid inclusions indicate that type 1 and type 2 inclusions are present in the pegmatites
and quartz veins respectively in the Alvand batholith. This would imply that aqueous magmatic fluids with no detectable CO2 were present during the crystallization of these pegmatites and quartz veins. Types 3 and 4 inclusions are common in quartz
veins and pegmatites in metamorphic rocks and are more abundant in the hornfelses. The distribution of the different types
of fluid inclusions suggests that CO2 fluids generated during metamorphism and metamorphic fluids might also contribute to the formation of quartz veins and pegmatites
in metamorphic terrains. 相似文献
10.
滇东南南秧田钨矿床位于老君山钨锡多金属成矿区内,大地构造位置位于扬子板块、华夏板块与三江褶皱系的结合部位。钨矿体主要呈似层状赋存于南秧田组,根据不同的矿物组合及穿插关系,可划分出三种矿石类型,即矽卡岩型矿石、石英脉型矿石和碳酸盐型矿石。对南秧田不同矿化类型白钨矿中流体包裹体的岩相学观察后发现该矿床主要发育4类流体包裹体:富液相两相包裹体(Ⅰ类)、富气相两相包裹体(Ⅱ类)、含子矿物三相包裹体(Ⅲ类)和纯气相包裹体(Ⅳ类)。矽卡岩型矿石白钨矿中流体包裹体的均一温度变化于176~311℃,盐度变化于0.2%~10.9%NaCleqv。石英脉型矿石白钨矿中流体包裹体的均一温度变化于200~395℃,盐度变化于0.4%~11.3%NaCleqv。碳酸盐型矿石白钨矿中流体包裹体的均一温度和盐度分别变化于201~395℃和2.6%~11.3%NaCleqv。显微测温结果表明成矿流体属中高温度、中低盐度流体。激光拉曼探针分析表明,白钨矿中流体包裹体组分主要为H2O,含少量的CH4。矽卡岩阶段成矿流体δD值范围为−80.2‰~−78.3‰,δ18O水值为6.8‰,石英脉阶段成矿流体的δD和δ18O水值分别为−93.7‰~−79‰和6.5‰~7.1‰,表明成矿流体主要来自于岩浆水,并可能经历了强烈的去气作用,或者存在不同程度地层有机质、大气降水和孔隙水的混入。流体包裹体均一温度和盐度呈正相关关系及H、O同位素特征综合分析,本研究认为岩浆水与大气降水混合是引起白钨矿沉淀的主要因素。 相似文献
11.
Anne-Marie Boullier Christian France-Lanord Jean Dubessy Jérôme Adamy Michel Champenois 《Contributions to Mineralogy and Petrology》1991,107(3):358-372
Fluid inclusions were studied in a quartz lens from the structurally highest unit of the Himalaya mountains in Nepal from a textural, geometrical, chemical and isotopic point of view. Six types of fluid inclusions were distinguished. One of these types consists of annular inclusions; this shape is attributed to a confining pressure increase in a non-isotropic stress field. Two successive stress fields were deduced from the orientation of the inclusion planes relative to the schistosity. The bulk composition of the fluid was dominated by CO2 (>84 mol%) and H2O. The composition remained constant during the whole history of the sample indicating that it was buffered by the carbonaceous host rock and/or that one single fluid was reworked in situ by decrepitation. Stable isotope of fluids and minerals indicate (1) that fluids were buffered by surrounding rocks for O and C and (2) that at least two types of water (metamorphic and meteoric) were involved. Finally, a P-T-t-- path is proposed for the sample, taking into account the southward thrusting along the Main Central Thrust, the northward tectonic denudation of the Himalaya mountains inducing tectonic burying below the Annapurna Range, and lastly, rapid uplift. 相似文献
12.
《Russian Geology and Geophysics》2013,54(1):64-81
Kuh-e Mond Field is a conventional heavy oil resource in the Zagros foreland Basin, Iran, produced from the fractured carbonates partially filled by dolomite, calcite, and anhydrite cement. Vitrinite reflectance data from carbonate reservoir suggest low-maturation levels corresponding to paleotemperatures as low as 50 °C. The observed maturation level (< 0.5% Rmax) does not exceed values for simple burial maturation based on the estimated burial history. Oil inclusions within fracture-filled calcite and dolomite cement indicate the key role of these fractures in oil migration.The fluid inclusion temperature profiles constructed from the available data revealed the occurrence of petroleum in dolomite, calcite, and anhydrite and characterize the distinct variations in the homogenization temperatures (Th). Fluid inclusions in syntectonic calcite veins homogenize between 22 °C and 90 °C, showing a salinity decrease from 22 to 18 eq. wt.% NaCl. Fluid inclusions in anhydrite homogenize at < 50 °C, showing that the pore fluids became warmer and more saline during burial. The Th range in the calcite-dolomite cement depicts a change in water composition; therefore, we infer these cements precipitated from petroleum-derived fluids. The microthermometry data on the petroleum fluid inclusions suggest that the reservoir was filled with heavy black oils and high-salinity waters and indicate that undersaturated oil was present in a hydrostatically pressured reservoir.The Th data do not support vertical migration of hot fluids througout the section, but extensive lateral fluid migration, most likely, drove tectonically dewatering in the south or west of the pool. 相似文献
13.
吉林永吉县大黑山斑岩型钼矿床成矿流体地球化学特征及成矿机制 总被引:1,自引:0,他引:1
大黑山钼矿床位于张广才岭-小兴安岭成矿带南段,矿体主要赋存在花岗闪长岩和花岗闪长斑岩内。含矿石英脉中主要发育气液两相包裹体(W型)和含子矿物三相包裹体(S型),偶见含CO2包裹体。成矿早阶段含矿石英脉中主要发育W型、S型包裹体和少量含CO2包裹体,均一温度为208~443 ℃,盐度(w(NaCl))为2.9%~49.8%,流体密度为0.5~1.2 g·cm-3;主成矿阶段含矿石英脉中发育W型、S型包裹体和少量含CO2包裹体,子矿物为石盐和金属硫化物,均一温度为197~398 ℃,盐度为1.6%~43.9%,流体密度为0.5~1.1 g·cm-3;成矿晚阶段仅见气液两相包裹体(W型),均一温度为171~301 ℃、盐度为1.6%~19.8%,流体密度为0.6~0.9 g·cm-3。主成矿阶段流体包裹体类型多样,且具有相似的均一温度,压力范围为30~100 MPa,成矿深度约为4 km。成矿阶段早期流体沸腾作用和晚期流体混合作用是金属硫化物沉淀的主要机制。 相似文献
14.
流体包裹体岩相学是流体包裹体研究的基础和前提。在流体包裹体研究过程中,我们十分重视和强调选择什么样的 流体包裹体去做测温和分析。在流体色裹体岩相学中区分原生和次生包裹体十分重要。只有选择了原生流体包裹体后才能 进行显微测温学和流体包裹体成分分析。这种选择包裹体的过程(或步骤),确定流体包裹体的分类以及在显微镜下观察流 体包裹体捕获后的変化,是流体包裹体岩相学(Fluid inclusion petrography)最主要的内容。本文叙述流体包裹体岩相学的内容 和区分原生和次生流体包裹体的一些实例和方法,阐述了流体包裹体与主矿物之关系。 相似文献
15.
Feng Yang Wei Zhai Xiaoming Sun Reiner Klemd Yanyan Sun Yunshan Wu Renmin Hua Siqi Zheng 《Resource Geology》2019,69(1):107-122
The Yaoling tungsten deposit is a typical wolframite quartz vein‐type tungsten deposit in the South China metallogenic province. The wolframite‐bearing quartz veins mainly occur in Cambrian to Ordovician host rocks or in Mesozoic granitic rocks and are controlled by the west‐north‐west trending extensional faults. The ore mineralization mainly comprises wolframite and variable amounts of molybdenite, chalcopyrite, pyrite, fluorite, and tourmaline. Hydrothermal alteration is well developed at the Yaoling tungsten deposit, including greisenization, silicification, fluoritization, and tourmalinization. Three types of primary/pseudosecondary fluid inclusions have been identified in vein quartz, which is intimately intergrown with wolframite. These include two‐phase liquid‐rich aqueous inclusions (type I), two‐ or three‐phase CO2‐rich inclusions (type II), and type III daughter mineral‐bearing multiphase high‐salinity aqueous inclusions. Microthermometric measurements reveal consistent moderate homogenization temperatures (peak values from 200 to 280°C), and low to high salinities (1.3–39 wt % NaCl equiv.) for the type I, type II, and type III inclusions, where the CO2‐rich type II inclusions display trace amounts of CH4 and N2. The ore‐forming fluids are far more saline than those of other tungsten deposits reported in South China. The estimated maximum trapping pressure of the ore‐forming fluids is about 1230–1760 bar, corresponding to a lithostatic depth of 4.0–5.8 km. The δDH2O isotopic compositions of the inclusion fluid ranges from ?66.7 to ?47.8‰, with δ18OH2O values between 1.63 and 4.17‰, δ13C values of ?6.5–0.8‰, and δ34S values between ?1.98 and 1.92‰, with an average of ?0.07‰. The stable isotope data imply that the ore‐forming fluids of the Yaoling tungsten deposit were mainly derived from crustal magmatic fluids with some involvement of meteoric water. Fluid immiscibility and fluid–rock interaction are thought to have been the main mechanisms for tungsten precipitation at Yaoling. 相似文献
16.
Fluid inclusions have been studied in three pegmatite fields in Galicia, NW Iberian Peninsula. Based on microthermometry
and Raman spectroscopy, eight fluid systems have been recognized. The first fluid may be considered to be a pegmatitic fluid
which is represented by daughter mineral (silicates)-rich aqueous inclusions. These inclusions are primary and formed above
500 °C (dissolution of daughter minerals). During pegmatite crystallization, this fluid evolved to a low-density, volatile-rich
aqueous fluid with low salinity (93% H2O; 5% CO2; 0.5% CH4; 0.2% N2; 1.3% NaCl) at minimum P–T conditions around 3 ± 0.5 kbar and 420 °C. This fluid is related to rare-metal mineralization. The volatile enrichment may
be due to mixing of magmatic fluids and fluids equilibrated with the host rock. A drop in pressure from 3 ± 0.5 to 1 kbar
at a temperature above 420 °C, which may be due to the transition from predominantly lithostatic to hydrostatic pressure,
is recorded by two-phase, water-rich inclusions with a low-density vapour phase (CO2, CH4 and N2). Another inclusion type is represented by two-phase, vapour-rich inclusions with a low-density vapour phase (CO2, CH4 and N2), indicating a last stage of decreasing temperature (360 °C) and pressure (around 0.5 kbar), probably due to progressive
exhumation. Finally, volatile (CO2)-rich aqueous inclusions, aqueous inclusions (H2O-NaCl) and mixed-salt aqueous inclusions with low Th, are secondary in charac- ter and represent independent episodes of hydrothermal fluid circulation below 310 °C and 0.5 kbar.
Received: 14 October 1999 / Accepted: 5 October 1999 相似文献
17.
白云鄂博REE—Fe—Nb矿床稀土氟碳酸盐矿物激光拉曼光谱特征及流体包裹体内稀土子矿物的鉴定 总被引:6,自引:5,他引:6
白云鄂博REE-Fe-Nb矿床典型稀土氟碳酸盐矿物都具有碳酸根离子最特征的拉曼振动频率,并普遍出现有氟化物的拉曼光谱振动峰。利用子矿物的激光拉曼峰特征,结合矿物晶形和扫描电镜能谱分析结果,可以确定这些矿物可能为氟碳铈矿和氟碳铈钡矿,说明初始成矿热液中极富含稀土元素,矿脉内多相包裹体中含稀土元素的子矿物是从被包裹体捕获的流体中结晶出来的,是真正的子矿物,激光拉曼光谱仪可以作为鉴定流体包裹体中未知子矿物的较为可靠手段之一。 相似文献
18.
Geological and fluid inclusion studies of the Dongpo tungsten skarn ore deposit,China 总被引:1,自引:0,他引:1
The Dongpo tungsten ore deposit, the largest scheelite skarn deposit in China, is located at the contact of a 172-m. y. biotite
granite with a Devonian marble. The mineralization associated with the granite includes W, Bi-Mo, Cu-Sn and Pb-Zn ores. Several
W mineralization stages are shown by the occurrence of ore in massive skarn deposits and in later cross-cutting veins. The
high garnet/pyroxene ratio, the hedenbergite and diopside-rich pyroxene and the andradite-rich garnet show the deposit belongs
to the oxidized skarn type. Detailed fluid inclusion studies of granite, greisen, skarn and vein samples reveal three types
of fluid inclusion: (1) liquid-rich, (2) gas-rich and (3) inclusions with several daughter minerals. Type (3) is by far the
most common in both skarn and vein samples. The dominant daughter mineral in fluid inclusions is rhembic, highly birefringent,
and does not dissolve on heating even at 530°C. We assume that this mineral is calcite. The liquid phase in most of the fluid
inclusions has low to moderate salinities: 0–15 wt. %; in a few has higher salinities (30–40 wt. % NaCl equivalent). The homogenization
temperatures of inclusions in the skarn stage range from 350°C to 530°C, later tungsten mineralization-stage inclusions homogenize
between 200°C and 300°C, as do inclusions in veins. Fluid inclusions in granite and greisen resemble those of the late tungsten
mineralization stage, with low salinity and homogenization temperatures of 200°–360°C. The tungsten-forming fluids are probably
a mixture that came from biotite granite and the surrounding country rocks. 相似文献
19.
流体包裹体在矿床研究中的作用 总被引:20,自引:4,他引:16
流体包裹体分析是现代矿床学研究的一个重要手段,对矿床类型的划分及成矿流体成分、温度、压力的研究有着重要的作用.在矿质沉淀的主要机制中,流体相分离及流体混合的主要证据来自流体包裹体;对金属在气相中的搬运的认识,也主要来自包裹体研究.成矿流体成分对认识金属在热液中的搬运方式起着重要作用,流体温度和压力数据是成矿流体动力学模式的重要制约. 相似文献
20.
流体包裹体研究:进展、地质应用及展望 总被引:8,自引:1,他引:7
在多数地质作用过程中,流体都担任着元素迁移的载体、化学反应的活化荆的角色.大量研究表明,岩石、矿物以及元素在有无流体的情况下会表现出迥异的物理和化学性质,所以对于认识某一地质过程而言,流体方面的研究往往能够提供极其重要的信息.流体包裹体则以其直接反映古流体的成分,在各种矿物中的普遍存在性,以及对各种后期改造有一定的抵抗力等特点而成为研究古地质流体的最佳样本,并已经被成功地应用到各种地质过程的研究中.从基本概念出发,讨论了流体包裹体的种类和原生、次生流体包裹体的区分,对流体包裹体的岩相学观察要点以及流体包裹体研究的最新进展做了简要的综述,着重介绍了研究中常用的分析方法及变质岩中流体包裹体的研究,并举例说明了流体包裹体在矿床学、石油地质学中的应用,以及近期的一些关于流体包裹体中保存生物标志和生物遗迹化石的研究,最后对未来流体包裹体研究的发展方向作了简单的展望. 相似文献