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伊犁盆地是中国西北部重要的产铀盆地,虽然前人对其成矿流体进行过较为系统的研究,但成矿流体的组分、来源等依然存在较大分歧,尤其是该区成矿流体与蚀变特征、铀成矿的内在联系研究较少。利用偏光显微镜、扫描电镜、电子探针等手段对含矿层砂岩蚀变特征进行系统分析,并通过分析流体包裹体特征、流体-围岩相互作用形成的蚀变矿物中稳定同位素的组成特征及该区构造演化特征,对有机-无机流体耦合铀成矿作用进行示踪。研究表明:该区流体包裹体主要含有气烃包裹体、液烃包裹体和盐水包裹体;与砂岩型铀矿有关的蚀变类型主要有黏土化、碳酸盐化、硅化及金属矿化,其中黏土化以高岭石化为主;高岭石δ18OV-SMOW 为11.8‰~13.7‰,δDV-SMOW 为-93‰~-48.3‰,与高岭石平衡流体的δ18O(水)V-SMOW为-10.3‰ ~-5.1‰ ; 方解石胶结物δ13CV-PDB 为-18.2‰ ~-7.2‰ , δ18OV-PDB 为-14.5‰ ~-5.8‰ ,δ18OV-SMOW 为15.9‰~24.9‰;黄铁矿δ34SV-CDT为-32.21‰~1.2‰。上述特征揭示,伊犁盆地南缘砂岩型铀矿成矿流体是由大气降水性质的地表水(无机)和煤系地层有机质热演化脱羧基作用产生的有机酸及伴生的CH4 等还原性气体(有机)两部分组成,铀矿体与蚀变矿物皆是有机-无机流体混合及其与周围砂岩相互作用的结果,且此过程伴有微生物的参与。 相似文献
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西藏拉木由塔锑(金)矿床位于藏南Sb-Au成矿带东段,矿(化)体主要赋存于中侏罗统遮拉组地层与辉绿(玢)岩脉接触带上。研究表明:石英中的流体包裹体普遍较小,主要为富液相的气液两相包裹体,形态复杂多样,主要呈长条状、浑圆状、椭圆状及不规则状。方解石中的包裹体普遍较大,也都为富液相的气液两相包裹体,形态简单,以负晶形及不规则状为主。包裹体显微测温结果显示,均一温度范围为150~344 ℃,盐度(NaCl)介于0.53%~9.61%,密度介于0.55~0.93 g/cm3,成矿压力变化于39~83 MPa,表明成矿过程主要在中低温条件下进行,成矿流体为低盐度、低密度流体。从成矿早期到晚期,流体包裹体的均一温度、盐度、压力不断降低。氢-氧同位素地球化学研究表明,含矿石英脉δDV-SMOW变化范围为-137‰~-163‰,δ18OH2O变化于9.42‰~14.58‰,含矿方解石δDV-SMOW变化范围为-148‰~-151‰,δ18OH2O变化于-9.83‰~-17.02‰,成矿流体中的水主要来自大气降水。该矿床成矿物质的沉淀主要是由水岩反应和混合作用引起的。 相似文献
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《地学前缘》2017,(2):123-129
陆内造山带普遍存在的高压流体与金属矿产与油气形成与分布关系十分密切。大巴山陆内造山带发育有大量同构造期方解石脉,碳氧同位素反映其为围岩碳酸盐岩成岩流体产物。通过对方解石脉中盐水包裹体分析测试,应用包裹体p-T-X相图确定的大巴山构造带同构造期古流体压力自北而南由高变低,即从大巴山逆冲构造带、大巴山前陆构造带到大巴山前陆坳陷古流体压力分别为240~270 MPa、220~240 MPa和170~190 MPa,而恢复的古流体压力梯度分别为2.2 MPa/100m、2.3 MPa/100m和2.0 MPa/100m,明显高于正常静水压力,表明大巴山陆内造山期古流体为典型异常高压流体。综合分析表明,大巴山陆内造山带和四川盆地自古至今普遍存在异常高压流体。结合区域地质研究认为,处于大巴山推覆体前缘、受志留系泥岩滑脱层和逆掩断层控制的高压体系具有压力封存箱特征。大巴山陆内造山带高压流体是在埋藏过程中形成的,其形成深度在2 800m左右,异常高压是大巴山构造带驱动流体迁移的主要动力之一。 相似文献
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河南栾川三道沟铅锌银矿床是豫西铅锌银矿集区的重要组成部分。矿床成矿作用划分为早、中、晚3个成矿阶段,即石英-黄铁矿阶段、石英-铅锌银硫化物阶段和石英-方解石阶段。各成矿阶段石英中流体包裹体主要有液体包裹体、气体包裹体、含CO2包裹体3种类型。成矿早、中、晚阶段成矿温度依次降低,分别为260~360 ℃、200~320 ℃、160~260 ℃,成矿流体盐度先升高后降低,分别为4%~10%、6%~12%、4%~8%,密度为0.58~1.06 g/cm3,平均0.86 g/cm3,即成矿流体为高-中温、低盐度、低密度流体。成矿早阶段δD=-67.5‰~-75.1‰,δ18O水=6.4‰~11.1‰;成矿中阶段δD=-106.8‰,δ18O水=5.0‰;成矿晚阶段δD=-86.4‰~ -100‰,δ18O水=-0.7‰~2.2‰,综合研究表明成矿流体为岩浆水或变质水,成矿中-晚阶段有大气降水的加入。初步认为三道沟铅锌银矿床属于中温热液脉型铅锌银矿床,是燕山期岩浆期后含矿热液充填成矿作用的产物。 相似文献
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为研究鄂尔多斯盆地中部地区马家沟组成藏期次和天然气运移方向与断裂活动的相关性,利用流体包裹体岩相学观察、激光拉曼光谱分析、均一温度和冰点温度的测定以及热力学PVT模拟方法对奥陶系马家沟组马五段储层的岩心样品进行了成分、温度和压力的测定与恢复.结果表明:构造裂缝脉体中充填的矿物为方解石、白云石和菱镁矿;脉体中共有4类流体包裹体,分别为富甲烷气体包裹体、含CO2富甲烷气体包裹体、含甲烷盐水包裹体和盐水包裹体,这4类流体包裹体均存在于方解石脉体中;构造裂缝脉体和溶孔中含甲烷流体包裹体的均一温度在130.1~179.6 ℃之间,与含甲烷流体包裹体同期的盐水包裹体的均一温度范围为112.3~173.3 ℃.结合生排烃史和埋藏史,证明早白垩世是马家沟组天然气的主要成藏期.沿断裂分布的各井的捕获压力和压力系数呈现由西南向东北递减的趋势,早白垩世的构造运动在北东向的断层中产生大量构造裂缝,为天然气的运移提供了通道,证明含甲烷的流体沿北东向断裂运移并充注成藏. 相似文献
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构造脉体作为构造流体的宏观标志记录了与构造运动有关的流体来源、形成环境条件和动力学等信息。大巴山构造带是一个典型的陆内造山带,发育了代表构造前、同构造期和构造后3期构造流体的方解石脉(V1、V2和V3)。本文在对构造后伸展背景下形成的方解石脉(V3)野外产状、几何特征和围岩力学性质统计分析基础上,通过其形成古应力场恢复和同位素地球化学分析,研究V3脉体形成环境条件及其流体来源。结果表明,V3脉体走向以NE SW向为主,脉体倾角较陡,大多近于直立,其形成的主应力轴σ1,σ2和σ3方位分别为67°∠76°、200°∠13°和293°∠10°,形成时的应力场为NW SE向拉张。V3脉体形成时流体压力pf<σ2<σ1,流体超压Δsi在92~167 MPa,形成最大深度为1.8~7.2 km。δ13C δ18O反映V3方解石脉形成与围岩碳酸盐岩脱CO2作用有关,V3方解石脉流体包裹体水的δD δ18O同位素分析表明其为盆地内部变质建造水向浅部迁移并有浅部表生水的参与。结合大巴山前陆构造广泛存在的异常高压流体,认为大巴山前陆在晚白垩世-古近纪时期处于伸展构造背景下,原来封存在深部的异常高压流体超压Δsi突破围岩形成裂缝,并上升到浅部与表生流体混合沉淀形成了V3脉体。 相似文献
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鄂尔多斯盆地南部奥陶系马家沟组主要由原始沉积的碳酸盐岩和岩溶角砾岩组成。储集空间以次生孔隙为主。中奥陶世沉积作用之后不久,即发生了溶解作用、白云石沉淀、干化脱水作用、机械压实作用、岩溶作用和胶结作用。胶结作用很普遍,主要发生在中石炭世之后的埋藏条件下,是对储层重要的破坏作用。充填于硬石膏结核溶模孔和非组构选择性溶蚀孔、洞、缝的方解石和白云石是最常见的胶结物。这些方解石和白云石胶结物具泥晶、嵌晶状或粒状晶粒结构。泥晶白云石基质的δ18O值-10.98‰~-0.8‰,平均-5.54‰;δ13C值-4.76‰~5.77‰,平均1.51‰。充填于溶蚀孔、缝中的白云石的δ18O值-12.54‰~-2.67‰,平均-7.34‰;δ13C值-5.56‰~3.48‰,平均0.28‰。充填于溶蚀孔、缝方解石的δ18O值-15.42‰~-6.02‰,平均-9.51‰;δ13C值-12.44‰~1.33‰,平均-3.20‰。总的来说,白云石和方解石胶结物的δ18O和δ13C值低于泥晶白云石基质的,原因是形成晚,受淡水淋滤、埋藏作用和有机质影响较大。泥晶白云石基质的Na含量0~350 μg/g,平均59 μg/g; Sr含量0~380 μg/g,平均10 μg/g;Fe含量0~14 570 μg/g,平均1 040 μg/g;Mn含量0~4 670 μg/g,平均183 μg/g。充填于次生孔隙中的胶结物的Na、Sr、Mn含量与泥晶白云石基质的差别不大,因这些元素含量均低。充填于次生孔隙的碳酸盐胶结物较泥晶白云石基质有明显高的Fe含量。胶结物包裹体的均一温度在90℃~140℃范围内。胶结物沉淀于埋藏较深,温度较高的还原条件下。流体包裹体的气相成分以CH4最为普遍,液相成分以H2O占绝大多数。早期胶结物形成于天然气形成前,晚期胶结物形成于天然气形成之后。岩溶洼地是胶结作用最发育的地带。 相似文献
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良山钼矿是近年来赣中地区新发现的钼矿,浅部矿体主要赋存于南华系浅变质岩系的构造裂隙中,矿石类型以含辉钼矿石英脉为主。流体包裹体岩相学和显微测温结果表明:含辉钼矿石英脉中的流体包裹体主要呈星散状随机或成群分布,其形态多样,大小集中在2~15 μm,包裹体的类型主要有纯液相包裹体、富气相两相包裹体、富液相两相包裹体和含液体CO2三相包裹体4类,其中以富液相两相包裹体最为发育;包裹体的均一温度为136~298 ℃,盐度为1.22%~10.11%NaCleqv,密度为0.78~0.99 g/cm3,成矿流体属中-低温、低盐度、较低密度流体;成矿压力估算为13~70 MPa,形成深度为0.5~2.6 km。流体包裹体激光拉曼光谱分析表明:包裹体中气液相成分以H2O为主,气相中还有少量的CO2和CO。H、O、S同位素组成显示:成矿流体的δD值介于-61‰~-57.9‰,δ18OH2O值介于-3.32‰~-0.52‰,具有岩浆水和大气降水混合的特征;成矿热液中的δ34S值介于-1.8‰~+1.9‰,具有岩浆硫的特征。综合成矿地质特征及相关分析,认为成矿流体可能与燕山期的岩浆活动有关,属于岩浆热液流体,混合作用及钾化作用是促进金属富集沉淀成矿的主要因素,推测矿床属于岩浆热液充填石英脉型钼矿。 相似文献
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巴特巴克布拉克铁矿床赋存于上志留-下泥盆统康布铁堡组变质火山-沉积岩系中, 近矿围岩为石榴子石矽卡岩、角闪斜长变粒岩和浅粒岩。矿体总体顺层分布, 呈似层状、透镜状及不规则状, 空间上与矽卡岩密切相关。流体包裹体研究表明, 矽卡岩阶段形成的石榴子石中发育纯气体包裹体、气体包裹体、液体包裹体、含子矿物包裹体及熔融包裹体; 退化蚀变阶段发育液体包裹体和少量气体包裹体; 石英-硫化物阶段主要发育液体包裹体、含液体CO2的三相包裹体及少量纯气体包裹体、气体包裹体和含子矿物包裹体。矽卡岩阶段均一温度变化为217 ℃~499 ℃, 在255 ℃出现峰值, 盐度(NaCleq)变化为8.68%~22.65%; 退化蚀变阶段均一温度变化为181 ℃~432 ℃, 在225 ℃出现峰值, 盐度变化为12.85%~22.65%; 石英-硫化物阶段均一温度变化为140 ℃~482 ℃, 在155 ℃出现峰值, 盐度变化为0.18%~42.40%。石榴子石、石英和方解石的 δ18 OSMOW 变化为1.8‰~7.1‰, δ18ΟΗ2Ο为 -4.79‰~4.57‰, δDSMOW 为 -128‰~-84‰, 表明矽卡岩阶段成矿流体主要为岩浆水, 混合少量大气降水; 石英-硫化物阶段大气降水所占比例明显增加。方解石δ13 CV-PDB 变化为 -3.2‰~-2.0‰, 表明流体中的碳来自深部或地幔。 相似文献
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Field investigation combined with detailed petrographic observation indicate that abundant oil,gas,and solid bitumen inclusions were entrapped in veins and cements of sedimentary rocks in the Dabashan foreland,which were used to reconstruct the oil and gas migration history in the context of tectonic evolution.Three stages of veins were recognized and related to the collision between the North China block and the Yangtze block during the Indosinian orogeny from Late Triassic to Early Jurassic(Dl),the southwest thrusting of the Qinling orogenic belt towards the Sichuan basin during the Yanshanian orogeny from Late Jurassic to Early Cretaceous(D2),and extensional tectonics during Late Cretaceous to Paleogene(D3),respectively.The occurrences of hydrocarbon inclusions in these veins and their homogenization temperatures suggest that oil was generated in the early stage of tectonic evolution,and gas was generated later,whereas solid bitumen was the result of pyrolysis of previously accumulated hydrocarbons.Three stages of hydrocarbon fluid inclusions were also identified in cements of carbonates and sandstones of gas beds in the Dabashan foreland belt and the Dabashan foreland depression(northeastern Sichuan basin),which recorded oil/gas formation,migration,accumulation and destruction of paleo-reservoirs during the D2.Isotopic analysis of hydrocarbon fluid inclusions contained in vein minerals shows that δ~(13)C_1 of gas in fluid inclusions ranges from-17.0‰ to-30.4‰(PDB) and δD from-107.7‰ to-156.7‰(SMOW),which indicates that the gas captured in the veins was migrated natural gas which may be correlated with gas from the gas-fields in northern Sichuan basin.Organic geochemical comparison between bitumen and potential source rocks indicates that the Lower Cambrian black shale and the Lower Permian black limestone were the most possible source rocks of the bitumen.Combined with tectonic evolution history of the Dabashan foreland,the results of this study suggest that oil was generated from the Paleozoic source rocks in the Dabashan area under normal burial thermal conditions before Indosinian tectonics and accumulated to form paleo-reservoirs during Indosinian collision between the North China block and the Yangtz block.The paleo-reservoirs were destroyed during the Yanshanian tectonic movement when the Dabashan foreland was formed.At the same time,oil in the paleo-reservoirs in the Dabashan foreland depression was pyrolyzed to transform to dry gas and the residues became solid bitumen. 相似文献
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The Huai Kham On gold deposit is located in the central part of the Sukhothai Fold Belt, northern Thailand. The Sukhothai Fold Belt represents an accretionary complex formed by subduction and collision between the Indochina and Sibumasu Terranes. There are many small gold deposits in the Sukhothai Fold Belt; however, the styles and formation environments of those gold deposits are not clear. The geology of the Huai Kham On deposit consists of volcanic and volcanosedimentary rocks, limestone, and low‐grade metamorphic rocks of Carboniferous to Triassic age. Gold‐bearing quartz veins are hosted by volcanic and volcanosedimentary rocks. The quartz veins can be divided into four stages. The mineral assemblage of the gold‐bearing quartz veins of Stages I and II comprises quartz, calcite, illite, pyrite, native gold, galena, chalcopyrite, and sphalerite. Quartz veins of Stage III consist of microcrystalline quartz, dolomite, calcite, pyrite, native gold, and chalcopyrite. Veins of Stage IV consist of calcite, dolomite, chlorite, and quartz. Fluid inclusions in quartz veins are classified into liquid‐rich two‐phase (Types IA and IB), carbonic‐aqueous (Type II), and carbonic (Type III) fluid inclusions. The homogenization temperatures of Types IA and II fluid inclusions that are related to the gold‐bearing quartz veins from Stages I to III ranged from 240° to 280°C. The δ18O values of quartz veins of Stages I to III range from +12.9 to +13.4‰, suggesting the presence of a homogeneous hydrothermal solution without temperature variation such as a decrease of temperature during the formation of gold‐bearing quartz veins from Stages I to III in the Huai Kham On gold deposit. Based on the calculated formation temperature of 280°C, the δ18O values of the hydrothermal solution that formed the gold‐bearing quartz veins range from +3.2 to +3.7‰, which falls into the range of metamorphic waters. The gold‐bearing quartz veins of the Huai Kham On deposit are interpreted to be the products of metamorphic water. 相似文献
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LIU Guanglin LIU Xianyang MA Xiaofeng MA Shuang WANG Xiaofeng LI Shuo SHI Zhiqiang WANG Yanxin 《《地质学报》英文版》2023,97(5):1490-1502
To explore the genesis of the laminated calcite veins developed in the black shale of Chang 73 submember of the Ordos Basin, the petrology, microstructure and geochemistry of calcite veins are studied using thin sections, fluid inclusions, trace elements and isotopic geochemistry. The source, the time of formation, the mechanism of formation, and the dynamic background of the veins are discussed. The veins are mostly made up of calcite, mixed with lenticular or spindle-shape solid wall rock inclusions. Three structures are identified in the calcite minerals: fibrous, rhombic cleavage, and wedge-like structure. Trace elements and isotopes of carbon and oxygen confirm that the calcite veins were formed from a high density hydrothermal fluid. It is assumed that calcite veins formed prior to wall rock consolidation during the formation of the Qinling Orogenic Belt in the Middle and Late Triassic. The results show that the sedimentary sources of Chang 73 submember were influenced by hydrothermal materials besides terrigenous detritus. The fibrous calcite is different from the fibrous calcite reported in the morphology and mechanism of formation. In this way, the research complements and improves the morphology and the mechanism of formation of fibrous calcite. 相似文献
14.
莺—琼盆地1号断裂带含烃热流体活动初探 总被引:3,自引:1,他引:2
1号断裂带是莺-琼盆地油气勘探的重点地区之一,有机包裹体研究有助于追踪油气及热流体活动的痕迹,为油气运聚成藏提供地球化学依据,通过包裹体薄片镜下观察,均一温度和盐度测试,认为工区内发育五种类型的有机包裹体:(1)液态烃包裹体;(2)气流态烃包裹体;(3)气态烃包裹体;(4)含烃CO2包裹体;(5)烃子矿物包裹体,含烃CO2包裹体一般与气态烃共生,含烃子矿物包裹体既无液态烃共生又与气态烃共生,包裹体 相似文献
15.
碳酸盐矿物中的同期烃类包裹体共生盐水包裹体均一温度变化范围较大,导致采用流体包裹体均一温度结合储层埋藏史和热演化史确定的油气成藏时间具有多解性.以塔里木盆地塔河油田奥陶系碳酸盐岩油气藏为例,基于方解石脉体中发育的流体包裹体岩相学、荧光分析和显微测温,结合激光原位方解石U-Pb定年结果,提出利用同期烃类包裹体共生盐水包裹体最小均一温度确定油气成藏时间,并确定塔河油田奥陶系碳酸盐岩储层油气充注期次和时间.塔河油田奥陶系储层共存在4期油充注,第1期至第3期油充注时间分别与3期方解石脉体形成时间一致,第4期油充注发生于3期方解石脉形成之后.对发育原生烃类包裹体的方解石脉进行激光原位U-Pb同位素绝对定年,结果指示采用同期油包裹体共生盐水包裹体最小均一温度确定的油气充注时间与方解石脉形成时间一致,说明采用同期盐水包裹体最小均一温度确定的油气充注时间更可靠.运用同期油包裹体共生盐水包裹体最小均一温度得到,塔河地区奥陶系碳酸盐岩油气藏4期油气充注时间分别对应加里东、海西、印支和燕山构造运动时期. 相似文献
16.
大青山逆冲断层带内热液脉体十分发育,按其产状可划分为充填脉和边缘脉。根据形成时间主要划分为3期:早期石英脉、中期石英脉和晚期方解石脉。早期石英脉中流体包裹体类型较为复杂,见有气液两相、含CO2三相、纯CO2及少量单液相等4种类型原生包裹体,分析表明流体主要来源于地壳深部或上地幔。中期石英脉中主要发育气液两相包裹体和少量单液相包裹体,流体主要来源于大气降水,并且有少量岩浆热液混入。晚期方解石脉内仅含有气液两相包裹体及少量的单液相包体,流体主要来源于层间建造水。根据逆冲变形事件期次、时间,结合热液脉体形成深度数据,确定了大青山逆冲推覆体系变形演化历史:印支期逆冲推覆事件发生在地壳7~8 km深度,燕山中期逆冲推覆事件发生在3~6 km范围内,而燕山晚期逆冲推覆事件发生近地表2 km范围内。 相似文献