西华山黑钨矿石英脉绿柱石中熔融包裹体的发现及其意义

过去一直认为西华山黑钨矿石英脉是高中温热液充填而成。研究发现，在黑钨矿石英脉的绿柱石中存在与流体（气液）包裹体共生的流体－溶体包裹体和溶融包裹体，这表明形成黑钨矿石英脉的成矿流量是一种岩浆－热液过渡性流体。     

莲花山斑岩型W—Au矿床成矿流体来源及其演化

莲花山斑岩型Ｗ－Ａｕ矿床矿化脉的流体包裹体氢氧同位素特征表明，成矿流体来自岩浆水与大气水的混合水，从早到晚，岩浆水成分减少，大气水成分增加。成矿流体的氧同位、流体包裹体的盐度和成矿温度表明，较早的黑钨矿－石英脉形成于岩浆热能及热液上推进的过程中，而后的白钨矿－硫化物－石英脉和碳酸盐－石英脉形成于岩浆热能及热液向下退缩的过程中。     

莲花山斑岩型W－Au矿床成矿流体来源及其演化

莲花山斑岩型Ｗ－Ａｕ矿床矿化脉的流体包裹体氢氧同位素特征表明，成矿流体来自岩浆水与大气水的混合水，从早到晚，岩浆水成分减少，大气水成分增加。成矿流体的氧同位素、流体包裹体的盐度和成矿温度表明，较早的黑钨矿一石英脉形成于岩浆热能及热液向上推进的过程中，而后的白钨矿－硫化物－石英脉和碳酸盐－石英脉形成于岩浆热能及热液向下退缩的过程中。     

西华山脉钨矿床的形成压力及有关花岗岩的侵位深度

文章阐述了西华山黑钨矿-石英脉与普通热液石英脉的不同之处;分析了前人所获压力值较低(30~70MPa)的主要原因;利用黑钨矿-石英脉绿柱石中两相气液包裹体和不混溶硅酸盐熔融包裹体的有关资料及相关相图,求得西华山脉钨矿床的形成压力为200MPa。根据西华山脉钨矿床产出的地质特征以及岩石学、矿物学、稳定同位素和流体包裹体地球化学等证据论证了这一压力的合理性。     

江西黄沙石英脉型钨矿床流体包裹体研究

黄沙钨矿床是赣南地区一大型石英脉型钨多金属矿床。本文采用"流体包裹体组合"的研究方法,对黄沙钨矿床主成矿阶段早期的黑钨矿-石英脉和晚期的硫化物-(黑钨矿)-石英脉石英中的流体包裹体进行了显微测温和拉曼探针的分析。研究表明,黑钨矿-石英脉中包裹体主要为水溶液包裹体和含CO₂水溶液包裹体,硫化物-(黑钨矿)-石英脉中主要发育水溶液包裹体。黑钨矿-石英脉中包裹体的均一温度明显高于硫化物-(黑钨矿)-石英脉中的包裹体,但两者水溶液包裹体的盐度相差不大。激光拉曼探针测试表明,两期矿脉中水溶液包裹体的组分主要为水,在黑钨矿-石英脉中的含CO₂水溶液包裹体,除CO₂外,还检测到CH₄和N₂组分。研究表明,以CO₂逸失为特征的流体不混溶作用是早期黑钨矿-石英脉含矿流体中的金属络合物分解并沉淀成矿的主要机制,晚期硫化物-(黑钨矿)-石英脉中矿质的沉淀则主要是流体的混合作用导致。     

江西盘古山石英脉型钨矿床流体包裹体研究

采用"流体包裹体组合"(FIA)的方法,在详细的岩相学观察的基础上,对盘古山钨矿床主要矿化阶段中早阶段的辉铋矿-黑钨矿-石英脉和晚阶段的(辉铋矿)-黑钨矿-石英脉石英中的流体包裹体进行了显微测温和拉曼探针的分析。该矿床主要矿化阶段含矿石英脉中包裹体主要包括H2O-NaCl型包裹体、H2O-NaCl-CO2型包裹体和少量的CO2型包裹体,富含CO2组分是盘古山钨矿成矿流体的明显特征。实验结果表明,矿床中主要矿化阶段石英脉中两相的H2O-NaCl型包裹体与H2O-NaCl-CO2型包裹体主要均一温度范围较为一致而前者盐度相对较高。辉铋矿-黑钨矿-石英脉中的H2O-NaCl型包裹体的均一温度明显高于(辉铋矿)-黑钨矿-石英脉中的H2O-NaCl型包裹体,但两者的盐度相差不大,从辉铋矿-黑钨矿-石英脉到(辉铋矿)-黑钨矿-石英脉,H2O-NaCl-CO2型包裹体数量减少,CO2型包裹体数量增多。对各类包裹体的激光拉曼探针测试表明,辉铋矿-黑钨矿-石英脉中和(辉铋矿)-黑钨矿-石英脉中的包裹体的组分相近,除水和CO2外,还含有少量的CH4和N2。盘古山钨矿的流体包裹体特征表明,以CO2逸失为特征的流体不混溶作用是矿床金属沉淀的主要机制。     

湖南瑶岗仙钨矿床成矿流体演化特征研究

瑶岗仙矿床位于湖南省郴州市瑶岗仙镇,是世界著名的钨矿床。近几年,随着云英岩析离体的发现,对于成矿流体的演化过程有了新的认识。文章通过对瑶岗仙石英脉型黑钨矿矿床的中粒碱长花岗岩、云英岩析离体和石英脉3个阶段地质体的石英中的流体包裹体进行显微测温和激光拉曼光谱分析,并对云英岩析离体中的熔流包裹体进行加热熔化实验,初步证明了瑶岗仙矿床石英脉型黑钨矿阶段成矿流体的演化是由花岗质岩浆→浆液过渡态岩浆→岩浆热液的一个完整连续的过程,而且成矿流体以富含挥发分为特征。并结合地质现象,提出浆液过渡态流体与成矿作用具有直接联系。     

西华山黑钨矿-石英脉绿柱石中熔融包裹体的成分

借助高温高压技术与电子探针分析,首次获得黑钨矿-石英脉绿柱石中晶质熔融包裹体的主要成分。熔融包裹体的成分主要是SiO2和Al2O3(分别平均为70.72%和13.94%)及少量K2O(2.0%),其他氧化物含量甚低,并且含有大量的挥发分(主要是H2O,达11.56%)。激光拉曼光谱分析表明,熔融包裹体液相中CO2、H2S等含量不高(分别为7.8%和4.3%),气相部分主要是一些还原性气体。熔融包裹体代表HF-H2O-花岗岩体系结晶分异最后阶段残余熔融体的成分,证实脉钨矿床的成矿流体不是单一的热水溶液,而是硅酸盐熔体与超临界流体共存的岩浆-热液过渡性流体,其成矿作用始于岩浆-热液过渡阶段。     

巴里坤小加山钨矿床的成矿流体及矿床成因

小加山钨矿床位于新疆巴里坤地区,属石英脉型钨矿床。矿体赋存于邻近海西晚期花岗岩侵入体附近的中泥盆统大南湖组第一亚组第二段(D2d12)的变晶屑凝灰岩中。黑钨矿石英脉分为灰色含钨石英脉和白色含钨石英脉两种。岩相学观察认为,含矿石英脉中流体包裹体主要为两相水溶液包裹体, EW 走向的灰色石英脉包裹体气液比大, SN 走向的白色石英脉包裹体气液比较小。显微测温结果显示灰色石英脉均一温度(Th)范围为143~354℃,白色石英脉 Th 范围为154~312℃。激光拉曼探针显示小加山钨矿床含黑钨矿石英脉中流体包裹体含有少量 CO2组分。H、O 同位素研究表明：钨矿床成矿流体来源以岩浆水为主。成矿演化过程为：岩浆岩侵入活动→岩浆水运移分离→含钨络合物迁移搬运→冷却富集成矿,成矿晚期流体有大气降水的混合。与赣南钨矿的对比研究表明,小加山钨矿床与赣南钨矿床的成矿流体特征相似;在构造环境上,小加山钨矿床位于东准噶尔造山带和东天山成矿带的交汇复合部位,与位于武夷山和南岭两大成矿带的交汇复合部位的赣南钨矿床成矿环境相似。     

江西省崇义县淘锡坑钨锡矿床流体包裹体特征及矿床成因

为研究赣南淘锡坑钨锡矿床的成矿物理化学条件和流体来源,对不同中段黑钨矿-石英脉矿体中包裹体进行了岩相学、显微测温、激光拉曼探针和氢、氧同位素分析。岩相学观察和显微测温表明：该矿区发育气相包裹体、液相包裹体、富液相包裹体、富气相包裹体、含液相CO₂的三相包裹体等5种类型原生包裹体;存在2个流体演化阶段,即早期硅酸盐-氧化物成矿阶段（310～390 ℃）和晚期氧化物-硫化物成矿阶段（180～270 ℃）。7个典型包裹体的气相和液相激光拉曼探针成分分析显示：包裹体中气相属富含CO₂的NaCl-H₂O系列,液相属贫CO₂的NaCl-H₂O系列。5件黑钨矿-石英脉矿石中石英流体包裹体的δD为－64‰～－79‰,δ¹⁸O水为5.51‰～6.53‰,表明成矿流体来源于深部岩浆水。结合区域最新研究成果,认为该矿床属与陆壳改造型花岗岩有关的岩浆热液型钨矿床。     

Genesis and mineralization of gold-bearing quartz veins in the Xiao Qinling area, central China

Gold-bearing quartz veins of the Taihua Group consisting of Archean metavolcanic rocks are a main gold deposit type in the Xiao Qinling area,one of the three biggest gold production areas in China.The quartz veins experienced strong alteration characterized by a typical mesothermal hydrothermal altered mineral assemblage.The grade of gold is affected by the contents of sulphides,e.g.galena,pyrite and chalcopyrite.Results of minor elements analysis for the of gold-bearing quartz veins indicate higher contents of Au and high contents of Ag,Pb,Cu,Cd,W,and Mo.Abundant fluid inclusions were found in the gold-bearing quartz veins.Three types of fluid inclusions were identified:(1) aqueous inclusions;(2) CO 2-bearing inclusions;and(3) daughter crystal-bearing fluid inclusions.Homogenization temperatures ranged from 110 to 670℃ with low and high peaks appearing at 160 180℃ and 280 300℃,respectively.The salinity of aqueous inclusions varies between 1.8 wt% and 38.2 wt% NaCl.The homogenization temperature and salinity show a positive correlation.The H and O isotopes of fluid inclusions in the gold-bearing quartz veins indicate that magmatic solution and metamorphic hydrothermal solution,together with meteoric water,were involved in the formation of gold-bearing fluid.Mesozoic magma activities related to granite intrusions should be the main source of CO 2 fluid with higher temperature and salinity.     

白云鄂博矿床碳酸岩墙/脉和赋矿白云岩中流体包裹体研究

Fluid inclusion study has been carried out for the carbonatite dykes/veins and the ore-hosted dolostone of the Bayan Obo superlarge REE-Fe-Nb deposit in order to provide the evidence and constraint for their origin.Based on the detailed geological observation and mineralogical investigation,the heating and cooling stage and laser Raman spectroscopy were mainly used for the laboratory work of this study.Following results have been obtained:(1)The discovery of melt and melt-fluid inclusions from carbonatite dykes/veins in the Dulahara and Jianshan Mountains,combined with the fine-grained(aplitic)texture of rocks,as well as the types and features of fluid inclusions such as CO_2 enrichment,higher homogenization temperature,provides a direct evidence for the magmatic origin of these dykes/veins.(2)The carbonatite dykes/veins distributed in two regions,nearby the axis of the Kuangou anticline and in the east to Bayan Obo town,mainly show coarse-grained texture.No melt inclusion was found,and the fluid inclusions possess features of less CO_2,lower homogenization temperature and higher salinity.They are tentatively identified as veins formed by some carbonate-rich hydrothermal solution.(3)Bedding carbonate layers/lens within the hanging wall and foot wall of ore-hosted dolostone,previously recognized as of magmatic origin,mainly composed by dolomite.The existence of single phase pure aqueous inclusions with very low homogenization temperature indicates their sedimentary origin.(4)The ore-hosted dolostone possesses apparent bedding and laminated structures.No melt inclusion was found,but,both single phase pure aqueous inclusions and CO_2 bearing multi-phase fluid inclusions coexisted in dolostones.In the direction towards ore-bodies,the homogenization temperature and CO_2 contents of fluid inclusion show an increasing tendency.It indicates the sedimentary origin of dolostone superimposed by late fluid metasomatism.     

Fluid inclusions in high pressure/low temperature rocks from the Calabrian Arc (Southern Italy): the burial and exhumation history of the subduction-related Diamante-Terranova unit

The Diamante-Terranova Unit (DIATU), in the Calabrian Arc of southern Italy, is part of an ophiolitic sequence involved in a high pressure/low temperature event (P=8 kbar; T =400 °C) followed by re-equilibration at greenschist facies conditions (P=3 kbar; T =300 °C). The rocks contain two types of quartz–calcite veins – an earlier generation of deformed, folded and faulted veins formed during or before subduction, and a later set of planar, undeformed veins formed during exhumation of the DIATU. The earlier folded quartz–calcite veins contain regularly shaped aqueous inclusions as well as inclusions with a highly irregular dendritic texture. The later planar veins contain only regularly shaped aqueous inclusions similar to those in the earlier veins. In both vein types, all inclusions are demonstrably secondary in origin. Regularly shaped inclusions from both vein types are low salinity (0–5 wt% NaCl). Most contain liquid and vapour and homogenize to the liquid (Th 135–180 °C), whereas others contain only liquid at room temperature. Both the two-phase and monophase inclusions occur in the same fractures and are thought to record the same trapping event, with the monophase inclusions remaining metastable liquid at room temperature. No microthermometric data could be obtained from the dendritic inclusions in the earlier folded veins. Inclusions with the highly irregular dendritic texture found in the earlier veins are similar to those produced experimentally during laboratory-induced deformation of synthetic inclusions in quartz under conditions of internal underpressure, simulating either isobaric cooling or isothermal compression. The occurrence of inclusions with the dendritic texture in the earlier folded veins, and their absence from the later planar veins, suggests that the earlier veins formed before or during subduction and were folded and faulted in a compressional environment and their contained fluid inclusions were modified to produce the dendritic texture. During later uplift of the DIATU, planar veins containing regularly shaped aqueous inclusions formed and some of the fluids forming these veins were also trapped as secondary inclusions in the earlier folded veins. The results of this study provide convincing evidence that inclusions with a highly irregular dendritic morphology represent early inclusions that have survived prograde conditions in a high pressure/low temperature metamorphic environment (but have been texturally modified). The high pressure/low temperature ‘implosion’ texture is preserved over geological time, even after being overprinted by internal overpressure conditions generated during retrograde decompression. We suggest that inclusions that have survived prograde metamorphism are common in high pressure/low temperature rocks, but are often not identified as such due to their morphology which makes their recognition difficult.     

The nature of fluids during pegmatite development in metamorphic terrains: Evidence from Hamadan complex,Sanandaj-Sirjan metamorphic zone,Iran

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 (NaCl_eq >12 wt%). Type 2 inclusions are low to moderate salinity (NaCl_eq <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.     

大青山逆冲推覆构造形成演化过程的流体证据

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。     

Geochemical characteristics of gold mineralization of the Huai Kham On deposit,Sukhothai Fold Belt,Northern Thailand

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 I_A and I_B), carbonic‐aqueous (Type II), and carbonic (Type III) fluid inclusions. The homogenization temperatures of Types I_A 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.     

西藏冈底斯东段帮浦铜多金属矿床成矿流体特征

为了探讨西藏冈底斯斑岩铜矿带帮浦铜多金属矿床流体的来源及演化过程,对矿体中的石英斑晶、辉钼矿石英脉、铅锌矿石英脉及方解石脉中所含的流体包裹体进行了岩相学、显微测温和激光拉曼探针以及硫同位素研究。结果表明:与成矿有关的流体包裹体可以分为富气相包裹体、富液相包裹体、含子晶多相包裹体3个类型。流体包裹体的均一温度、盐度及密度测定值均可分为两个区间,分别为300~350℃、390~440℃,6.96~11.63 wt%NaCl、16.76~23.7wt%NaCl及1.05~1.15g/cm3、0.40~1.00 g/cm3。含石盐子晶包裹体所对应的盐度范围是39.38~56.1wt%NaCl。激光拉曼光谱分析表明,含子晶流体包裹体中子矿物为石盐、黄铜矿、白铁矿等,气相包裹体和液相包裹体中气相中含有CO2。石英斑晶与辉钼矿石英脉中低密度气相包裹体与高密度液相包裹体、高盐度含子晶包裹体共生,其均一温度范围一致,但盐度相差较大,指示成矿流体有不混溶作用或沸腾作用,成矿流体来自于岩浆的出熔,金属硫化物直接来源于岩浆;而铅锌矿石英脉与两种不同性质流体的混合作用有关。     

Compositions of magmatic hydrothermal fluids determined by LA-ICP-MS of fluid inclusions from the porphyry copper–molybdenum deposit at Butte, MT

We analyzed 85 fluid inclusions from seven samples from the porphyry Cu–Mo deposit in Butte, MT, using laser ablation-inductively coupled plasma-mass spectrometry (LA-ICP-MS). The Butte deposit formed at unusually great depth relative to most porphyry deposits, and fluid inclusions in deep veins trapped a low-salinity, CO₂-bearing, magmatically derived, supercritical fluid as a single aqueous phase. This fluid is interpreted to be the parent fluid that cooled, decompressed, unmixed, and reacted with wall rock to form the gigantic porphyry Cu deposit at Butte. Few previous analyses of such fluids exist.Low-salinity, aqueous fluids from the earliest veins at Butte are trapped in deep veins with biotite-rich alteration envelopes (EDM veins). These veins, and the Butte quartz monzonite surrounding them, host much of the Butte porphyry Cu mineralization. Twenty fluid inclusions in one EDM quartz vein are dominated by Na, K, Fe (from 0.1 to 1 wt.%) and contain up to 1.3 wt.% Cu. These inclusions contain only small amounts (tens of ppm) of Pb, Zn, and Mn, and typically contain Li, B, Ca, As, Mo, Ag, Sn, Sb, Ba, and W in less than detectable quantities. The abundance of Cu in early fluids indicates that a low-salinity, Cu-rich, aqueous ore fluid can be directly produced by aqueous fluid separation from a granitic magma. Similar inclusions (eight) in an early deep quartz–molybdenite vein with a K-feldspar selvage have similar compositions but contain significantly less Cu than most inclusions in the biotite-altered vein. Analyzed inclusions in both veins contain less than detectable concentrations of Mo even though one is molybdenite-bearing.Low-salinity, CO₂-bearing aqueous fluids are also trapped in pyrite–quartz veins with sericitic selvages. These veins cut both of the above vein types and contain inclusions that were trapped at lower pressure and temperature. Thirty-nine inclusions in two such veins have compositions similar to early fluids, but are enriched by up to a factor of 10 in Mn, Pb, and Zn relative to early fluids, and are slightly depleted in Fe. Many of these inclusions contain as much or more Cu than early fluids, although little chalcopyrite is found in or around pyrite–quartz veins.Eighteen halite-bearing inclusions from three veins from both chalcopyrite-bearing and barren veins with both K-silicate and sericitic selvages were analyzed as well. Halite-saturated inclusions are dominated by Na, K, Fe, and in some inclusions Ca. Whereas these inclusions are significantly enriched in Ca, Mn, Fe, Zn, and Pb, fluids in all three veins contain significantly less Cu than early, high temperature, low-salinity inclusions.Analyses of all inclusion types show that whereas bulk-salinity of the hydrothermal fluid must be largely controlled by the magma, fluid–rock interactions have a significant role in controlling fluid compositions and metal ratios. Cu concentrations range over an order of magnitude, more than any other element, in all four samples containing low-salinity inclusions. We infer that variations are the result of fluid trapping after different amounts of fluid–rock reaction and chalcopyrite precipitation. Enrichment, relative to early fluids, of Mn, Pb, and Zn in fluids related to sericitic alteration is also likely the result of fluid–rock reaction, whereby these elements are released from biotite and feldspars as they alter to sericite. In halite-bearing inclusions, concentrations of Sr, Ca, Pb, and Ba are elevated in inclusions from the pyrite–quartz vein with sericitic alteration relative to halite-bearing inclusions from unaltered and potassically altered samples. Such enrichment is likely caused by the breakdown of plagioclase and K-feldspar in the alteration envelope, releasing Sr, Ca, Pb, and Ba.     

构造驱动大巴山前陆烃类流体排泄:含烃包裹体纤维状方解石脉证据

含烃包裹体纤维状方解石脉被认为是超高压下油气流体形成和排泄的标志。大巴山前陆构造带一些断裂和下古生界黑色泥岩和泥灰岩烃源岩微裂隙中分布有含烃包裹体纤维状方解石脉,成分分析表明其为低镁方解石。纤维状方解石脉δ13CVPDB和δ18OVPDB比围岩碳酸盐岩的明显变轻,前者δ13CVPDB和δ18OVPDB变化范围分别为-1.9%～-4.8‰和-8.4%～-12.8‰,后者分别为-1.7%～+3.1‰和-8.7%～-4.5‰,且δ13C与δ18O具有明显的线性关系,反映出纤维状方解石脉具有成岩有机流体与浅部流体混合的流体特征。纤维状方解石脉含有共生的固体沥青包裹体、含甲烷液相包裹体和气液二相盐水包裹体等多相态包裹体,其中沥青包裹体为油气运移的残余沥青。气液二相盐水包裹体均一温度主要位于140℃和196℃之间（峰值为179℃）,盐度较高（平均为9.7wt% NaCl）。分别应用盐水包裹体和甲烷包裹体等溶线P-T相图确定出含烃包裹体纤维状方解石脉形成的流体压力为150~200 MPa,属于异常超高压流体。地质和地球化学特征分析认为,大巴山含烃包裹体纤维状方解石脉不具有泥岩因压实成岩作用而形成的超高压流体特征。结合沉积和构造演化历史分析认为,印支碰撞造山运动和燕山前陆构造作用导致大巴山褶皱隆起并伴随天然气藏破坏和改造,挤压环境下的超高压构造应力驱动天然气流体排泄,大巴山前陆构造带含烃包裹体纤维状方解石脉就是超高压构造应力驱动天然气排泄的产物。