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1.
Harzburgite and lherzolite tectonites from the Horoman peridotite complex, Hokkaido, northern Japan, contain variable amounts
of secondary phlogopite and amphibole. Phlogopite-rich veinlets parallel to the foliation planes usually cut olivine-rich
parts of the rocks; single-grained interstitial phlogopites are usually associated with orthopyroxene grains. Amphiboles are
disseminated in rocks or sometimes occur in the phlogopite-rich veinlets. Within individual veinlets, phlogopites show extensive
inter-grain variations in K/(K + Na) ratio (0.96–0.75), generally decreasing from the central (usually the thickest) part
towards the marginal parts of veinlets. In contrast, Ti contents are nearly constant in Ti-poor veins or decrease slightly
with decreasing K/(K + Na) in T-rich veins. Variation of Ti in phlogopites is very large (0.1–6.8 wt%) and is inversely correlated
with Mg/(Mg + Fe*) (Fe*, total iron) atomic ratios, which vary from 0.96 to 0.88. Intra-vein variation of phlogopite chemistry (especially K/(K +
Na) ratio) could be achieved by in situ fractional crystallization of trapped fluids; variation of Ti, however, cannot be
explained by in situ fractionation of the fluids, indicating various Ti contents of the parent fluids. It is suggested that
fluids responsible for the formation of the Horoman phlogopites and amphiboles were magmatic volatiles successively released
from evolving alkali basaltic magmas. Individual fluids trapped within peridotites were fractionated, precipitating phlogopites
successively poorer in K. When the fluids became rich enough in Na, amphiboles co-precipitated with phlogopites. Similar fractional
crystallization of phlogopites and amphiboles is expected in the upper mantle on a larger scale if fluids move upwards. This
process may control, at least partly, a lateral K/Na distribution in the upper mantle; K and Na may be concentrated in deeper
and shallower parts, respectively. 相似文献
2.
湘南宝山矿床花岗闪长斑岩中黑云母的矿物学特征及其指示意义 总被引:8,自引:2,他引:6
湖南宝山矿床处于坪宝矿带的北端,是湘南地区最大的铜多金属矿床。为了进一步探讨矿区内花岗质岩石的形成条件及成矿潜力,文章在详细的野外地质和岩相学观察的基础上,对与成矿密切相关的花岗闪长斑岩中的黑云母进行了详细的矿物化学分析。电子探针分析结果表明:宝山花岗闪长斑岩中的黑云母为铁质黑云母和镁质黑云母,其中,Ti介于0.18~0.30,且Mg/(Mg+Fe2+)值介于0.42~0.58,属于典型的岩浆成因黑云母;黑云母的氧化系数为0.16~0.26,w(Mg O)为8.17%~11.72%,平均9.3%,MF值范围为0.38~0.50,指示其岩体属于壳幔混源型的I型花岗岩;岩体中以黑云母的全铝含量计算的结晶压力为97~174 MPa,相应的结晶深度为3.67~6.57 km,平均深度为5.12 km。其log f(O2)变化范围为-14.5~-12.8,表明黑云母是在较高氧逸度条件下结晶形成的,有利于铜矿的形成。 相似文献
3.
阳储岭斑岩型W-Mo矿床位于江南造山带中部,是华南地区最早发现的斑岩型钨钼矿床。已探明WO3资源储量6.13万吨(平均品位0.2%),Mo资源储量1.69万吨(平均品位0.03%~0.06%),其成矿作用与中生代花岗质岩浆活动密切相关。区内发育早期花岗闪长岩和晚期二长花岗斑岩,钨矿体以细脉状和浸染状产于二长花岗斑岩体内,而花岗闪长岩内未见矿化。两期岩浆活动与钨成矿的关系尚不明确,制约其含矿差异性的因素尚不清楚。本文以花岗闪长岩和二长花岗斑岩中的黑云母为研究对象,对比研究两类岩浆结晶分异程度、氧逸度、岩浆流体卤素浓度,探讨其对钨成矿的制约。黑云母主量元素分析结果显示,阳储岭两类岩浆岩均为壳源,但显著不同于S型花岗岩的Mg/(Fe+Mg)和AlVI值,指示其具有I型花岗岩的特征。黑云母的微量元素信息显示,相对于花岗闪长岩中的黑云母(类型一),二长花岗斑岩中的黑云母(类型二)显示低的K/Rb、Nb/Ta比值,高的Rb、Cs、Nb和Ta含量,表明其分异程度较花岗闪长岩更高,更有利于钨的富集。两类黑云母所指示的岩浆氧逸度均在NNO缓冲线附近,表明其母岩... 相似文献
4.
Halogen Geochemistry of the Stillwater and Bushveld Complexes: Evidence for Transport of the Platinum-Group Elements by Cl-Rich Fluids 总被引:8,自引:4,他引:8
Compositional data on apatite, phlogopite, and amphibole indicatethat the high-temperature hydrothermal fluids which affectedthe lower portions of the Stillwater and Bushveld Complexeswere Cl-rich. Apatites from the platinum-group element (PGE)ore zones from both complexes are enriched in Cl relative toother cumulus and noncumulus apatites in these intrusions andto apatites from the Skaergaard and Kiglapait Intrusions andthe Great Dyke. Apatites from all five intrusions can be groupedinto three distinct compositional fields: (a) Cumulus apatitesare essentially fluorapatites with molar Cl/(Cl+OH+F) <0?03;(b) noncumulus apatites, with the exception of those from thePGE ore zones of the Stillwater and Bushveld Complexes, haveCl/(Cl+OH+F) <0?20; (c) Cl-rich apatites associated withPGE-rich zones have Cl/(Cl+OH+F) between 0?45 and 1?0. The REEcontent of noncumulus and Cl-rich apatites also show a positivecorrelation with Cl concentration. It is argued that becauseCl is less soluble in silicate melts than F and because meltswith extremely high Cl/F ratios are unknown, the Cl-rich apatitesequilibrated with Cl-rich hydrothermal fluids exsolved duringsolidification of the cumulate sequence. The Cl, F, and OH contents of phlogopites and amphiboles aremore variable. Compositional heterogeneity is due to crystal-chemicalcontrols on halogen contents, variation in the halogen contentof the original melt/fluid phase and subsolidus re-equilibrationduring cooling with both surrounding mineral phases and lowtemperature fluids. However, both the Stillwater and Bushveldphlogopites are enriched in Cl compared to those from the Skaergaardand Kiglapait Intrusions. The compositions of coexisting minerals from the platinum depositof Olivine-Bearing Subzone I of the Stillwater Complex are usedto compute a fluid composition. The fluid is rich in alkalisand iron as well as HCl, and the solution composition is consistentwith fluid compositions deduced for the PGE-bearing secondaryhortonolite pipes of the Bushveld Complex. The high (Pt+Pd)/Irratios of these deposits are also consistent with a hydrothermalorigin, as both Pt and Pd are more soluble in Cl-complexingfluids than Ir. 相似文献
5.
西藏冈底斯带中段的岗讲斑岩铜-钼矿床发育多期次侵入体,而成矿作用主要与其中一期岩体(流纹英安斑岩)密切相关。为探究其原因,本文对岗讲斑岩铜-钼矿床中发育的各期次侵入体进行了全岩主、微量元素分析,并重点研究各期次侵入体内部新鲜斑晶(黑云母、斜长石)和副矿物(锆石、磷灰石)的化学成分和结构特征。结果表明,矿区各期次侵入岩均属于高钾钙碱性系列,具有相近的锆石饱和温度,都来自较为氧化的岩浆。此外,相比其他期次侵入岩,主成矿期的流纹英安斑岩中的磷灰石具有较高的SO_3、Cl含量,较低的F含量;黑云母含有较高的Cl含量和较低的F含量;同时,斜长石发育反环带。这些证据表明,在主成矿期岩浆就位之前,存在富S、Cl的偏基性岩浆注入了深部岩浆房,并发生岩浆混合作用,这不仅导致了主成矿期斑岩体的就位,同时还诱发流体出溶进入浅部岩浆房,并最终形成岗讲斑岩铜-钼矿床。 相似文献
6.
We discuss the chemistry of exceptionally rare phlogopite inclusions coexisting with ultramafic (peridotitic) and eclogitic minerals in kimberlite-hosted diamonds of Yakutia, Arkhangelsk, and Venezuela provinces. Phlogopite inclusions in diamonds are octahedral negative crystals following the diamond faceting in all 34 samples (including polymineralic inclusions). On this basis phlogopite inclusions have been interpreted as syngenetic and in equilibrium with the associated minerals. In ultramafic diamonds phlogopites coexist with subcalcic high-Cr2O3 pyrope and/or chromite, olivine and enstatite (dunite/harzburgite (H) paragenesis) or with clinopyroxene, enstatite, and/or olivine and pyrope (lherzolite (L) paragenesis). Ultramafic phlogopites have high Mg# [100?Mg/(Mg+Fe)] from 92.4 to 95.2 and Cr2O3 higher than TiO2 in H-phlogopites (1.5–2.5 wt.% versus 0.1–0.4 wt.%, respectively) but lower in L-phlogopites (0.15–0.5 wt.% versus 1.3–3.5 wt.%, respectively). Eclogitic (E) phlogopites show Mg# from 47.4 to 85.3 inclusive, and very broad ranges of TiO2 up to 12 wt.%. The primary syngenetic origin of phlogopite is indicated, besides other factors, by its compositional consistency with the associated minerals. The analyzed phlogopites are depleted in BaO (0.10–0.79 wt.%), and their F and Cl contents are highly variable reaching 1.29 and 0.49 wt.%, respectively. The latter is in line with high Cl enrichment in some unaltered kimberlites and in nanometric fluid inclusions from diamonds. The presence of syngenetic phlogopite in kimberlite-hosted diamonds provides important evidence that volatiles participated in diamond formation and that at least a part of diamonds may have been related to early stages of kimberlites formation. 相似文献
7.
Jinxiang LI Guangming LI Kezhang QIN Bo XIAO Lei CHEN Junxing ZHAO 《Resource Geology》2012,62(1):19-41
The Early Cretaceous Duolong gold‐rich porphyry copper deposit is a newly discovered deposit with proven 5.38 Mt Cu resources of 0.72% Cu and 41 t gold of 0.23 g t?1 in northern Tibet. Granodiorite porphyry and quartz diorite porphyrite are the main ore‐bearing porphyries. A wide range of hydrothermal alteration associated with these porphyries is divided into potassic, argillic and propylitic zones from the ore‐bearing porphyry center outward and upward. In the hydrothermal alteration zones, secondary albite (91.5–99.7% Ab) occurs along the rim of plagioclase phenocryst and fissures. Secondary K‐feldspar (75.1–96.9% Or) replaces plagioclase phenocryst and matrix or occurs in veinlets. Biotite occurs mainly as matrix and veinlet in addition to phenocryst in the potassic zone. The biotite are Mg‐rich and formed under a highly oxidized condition at temperatures ranging from 400°C to 430°C. All the biotites are absent in F, and have high Cl content (0.19–0.26%), with log (XCl/XOH) values of ?2.74 to ?2.88 and IV (Cl) values of ?3.48 to ?3.35, suggesting a significant role of chloride complexes (CuCl2‐ and AuCl2‐) in transporting and precipitating copper and gold. Chlorites are present in all alteration zones and correspond mainly to pycnochlorite. They have similar Fe/(Fe+Mg), Mn/(Mn+Mg) ratios, and a formation temperature range of 280–360°C. However, the formation temperature of chlorite in the quartz‐gypsum‐carbonate‐chlorite vein is between 190°C and 220°C, indicating that it may have resulted from a later stage of hydrothermal activity. Fe3+/Fe2+ ratios of chlorites have negative correlation with AlIV, suggesting oxygen fugacity of fluids increases with decreasing temperature. Apatite mineral inclusions in the biotite phenocrysts show high SO3 content (0.44–0.82%) and high Cl content (1–1.37%), indicating the host magma had a high oxidation state and was enriched in S and Cl. The highest Cl content of apatite in the propylitic zone may have resulted from pressure decrease, and the lowest Cl content of apatite in the argillic zone may have been caused by a low Cl content in the fluids. The low concentration of SO3 content in the hydrothermal apatite compared to the magmatic one may have resulted from the decrease of oxygen fugacity and S content in the hydrothermal fluid, which are caused by the abundant precipitation of magnetite. 相似文献
8.
中蒙边境及邻区斑岩型铜矿床地质特征及成因 总被引:56,自引:3,他引:56
依据金属矿床围岩岩性组合和成矿作用特征,将中蒙边境及邻区分布的斑岩铜矿床(点)划分为3种类型:①加里东期经典型斑岩铜矿床(点);②海西期经典型和火山岩型斑岩铜矿床;③燕山期深成岩型和火山岩型斑岩铜矿床。在较详细剖析各类金属矿床(点)基本地质特征的基础上,划分了9个矿化集中区,并讨论了区域地壳演化与金属成矿作用的关系。研究结果表明,尽管研究区内的金属矿床(点)成矿作用分别发生在加里东期、海西期和燕山期,但是大规模成矿作用发生的时问与海西期板块构造活动的高峰期相吻合,是地壳特定演化阶段构造一岩浆活动的产物。 相似文献
9.
The Dexing deposit, located in the Circum-Pacific ore belt, is the largest porphyry copper deposit in eastern China. It is composed of 3 separate plutons, which host three mines: Tongchang, Fujiawu and Zhushahong mines. The porphyritic granodiorite samples studied in this investigation were collected from the Tongchang ore-forming pluton of this giant deposit. This paper presents electron microprobe analyses of biotite, apatite, amphibole, plagioclase, potassium feldspar and rehomogenized glassy melt inclusions from the Tongchang porphyritic granodiorites. Petrographic observations of the samples are consistent with portions of the granodioritic magma represented by our samples being overprinted by potassic hydrothermal fluid which variably altered these minerals.All of the studied micas are Mg-rich biotites. The biotites are separated into altered magmatic and secondary types based on their petrographic and geochemical characteristics. The phlogopite components of the secondary biotites are typically higher than those of the altered magmatic biotites, and the XMg values of all biotites correlate negatively with Cl contents, consistent with the Mg–Cl avoidance principle. The XMg values also correlate negatively with (K2O + Na2O + BaO), FeO and TiO2 for both generations of biotites. The calculated log (fH2O/fHCl) values (for 690 K) of the coexisting potassic fluids, which are determined from the altered magmatic biotite compositions, range from 4.43 to 4.67, and are very similar to those of other major porphyry deposits. However, the log(fH2O/fHF) and log(fHF/fHCl) values for the same batch of hydrothermal fluids are significant higher and lower than those of these other porphyry deposits, respectively.The Cl concentrations of amphiboles and melt inclusions range from 0.18 to 0.32 wt.% and 0.15 to 0.44 wt.%, respectively. Most apatites trapped in biotite and plagioclase phenocrysts display a bimodal Cl distribution: 0.19 to 1.35 wt.% and 1.48 to 3.73 wt.%. Similarly, the S contents of the apatite also show a distinct bimodal distribution reflecting the effects of variable anhydrite saturation during evolution of the Tongchang melt and variable dissolution of anhydrite by saline aqueous fluids. The Cl contents of the apatites from the Tongchang system are typically higher than those of other studied porphyry deposits. Furthermore, the Cl contents of the melt inclusions are at or very near the Cl saturation levels (0.36 to 0.46 wt.% at 850 °C and 50 MPa and 0.42 to 0.54 wt.% at 850 °C and 200 MPa) for these melt compositions at shallow crustal pressures. These findings suggest that the area of the granodioritic magma represented by our samples, and perhaps the bulk of the Tongchang granodioritic magma was rich in Cl. The melt inclusion compositions are consistent with a high-salinity, hydrosaline liquid being exsolved directly from the granodioritic melt directly. This high-salinity hydrosaline liquid was likely very efficient at dissolving, transporting and precipitating ore metals in the mineralizing magmatic–hydrothermal system. 相似文献
10.
Empirical geothermometer dealing with Ti solubility in the Fe‐Mg biotites was originally proposed for biotites in graphitic, peraluminous metapelites containing ilmenite or rutile that equilibrated roughly at 4–6 kbar. Given that biotites are abundant in the porphyry copper systems, this geothermometer has frequently been used for the determination of magmatic–hydrothermal temperatures in the porphyry copper systems. Common associations of porphyry copper deposits (PCDs), that is, low Al content of biotite, biotite chloritization (causes the biotite to become more magnesian and to lose Ti), and biotite formation by amphibole replacement, as well as disequilibrium, local equilibrium, or re‐equilibration of biotites, especially through potassic alteration, may provide significant uncertainty in the temperatures estimated a by Ti‐in‐biotite geothermometer. In addition, besides the calibration range of thermometer for pressure (400–600 MPa), the temperatures of major sulfide precipitation in PCDs (>~400°C) does not fit with the temperature range of thermometer calibration (480–800°C). Worth noting, as confirmed by fluid inclusion data in the Sarkuh PCD, regardless of presence of mineralogical requirements, obtained temperatures of sulfide mineralization using Ti in biotite thermometer could be overestimated. This may be due to the difference between general conditions of sulfide mineralization and calibration range of Ti in the biotite thermometer for pressure and temperature, as well as the metaluminous nature of biotites in PCDs. 相似文献
11.
《Ore Geology Reviews》2011,39(4):367-381
The giant Sarcheshmeh porphyry Copper deposit is located 65 km southwest of Kerman City, southeastern Iran. Numerous Miocene porphyry stocks and dykes intruded thick sequences of Upper Cretaceous sedimentary and Eocene volcanic rocks. Hypogene and supergene porphyry Cu mineralization occurs within the granodioritic porphyry and host rock sequence, which was extensively altered to a dominantly potassic, phyllic, and argillic assemblage with interstitial to distal propylitic types.Biotite-bearing assemblages occur as both primary phenocrysts and secondary replacements showing variable size, colour, and shape. Fluorine contents (0.22 to 1.33 wt.%) and XMg (0.54 to 0.71) in biotites from the potassic and phyllic zones are higher than those of non-mineralized granitoids (F = 0.09 to 0.56 wt.%, XMg = 0.43 to 0.54), whereas their Cl contents (Cl = 0.05 to 0.24 wt.%) are lower than those of the non-mineralized granitoids (Cl = .0.11 to 0.45). The biotites from the phyllic zone have higher log (fH2O/fHF) and log (fH2O/fHCl) values than those of the potassic zone, as well as the granitoid and andesitic dykes. The log (fHF/fHCl) values determined for the granitoid, potassic and phyllic zones are similar, though more negative than those of the andesitic dykes. The log (fHF/fHCl) values have a similar range for biotite from the granitoid, and potassic and phyllic zones. The halogen fugacity ratios established for fluids associated with the Sarcheshmeh deposit from their F and Cl contents in biotite show that the granitoid, potassic zone and phyllic zone are increasingly affected by meteoric waters. The fluids that circulated in the phyllic zone are predominantly of meteoric origin, possibly overprinting original phyllic zone halogen contents.The Cl intercept values of biotite in the granitoid, and phyllic and potassic are similar to other ore-forming systems and tend to be more Cl-rich than Cl-intercept values of biotites in common igneous rocks. Calculated F/Cl intercept values for biotite in the granitoid and potassic zone are also consistent with many other porphyry copper forming systems. 相似文献
12.
内蒙古陈台屯斑岩型铜矿地质、地球物理特征
及找矿方向 总被引:1,自引:0,他引:1
内蒙古陈台屯铜矿区是一个以斑岩型铜矿为主要目标的勘查区,位于大兴安岭中段,成矿时代为中侏罗世。目前在矿区发现了斑岩型铜矿化和脉状铜矿化两种矿化类型。斑岩型铜矿化主要形成于陈台斑岩体顶部与二叠系大石寨组安山质火山岩的内、外接触带上,围岩蚀变作用强烈,并具有明显的分带特征,自下而上、由内到外可分为钾化带、黄铁-绢英岩化带、泥化带和青磐岩化带,斑岩型铜矿化主要集中于黄铁-绢英岩化带中。脉状铜矿主要充填于万宝组沉积地层和大石寨组火山岩的裂隙中,围岩蚀变仅发育黄铁-绢英岩化和弱青磐岩化。通过对矿区开展激电中梯测量和CSAMT电阻率测深并施工钻探验证,发现高极化率异常与斑岩型铜矿体和脉状铜矿体均具有良好的空间对应关系,可以作为下一步铜矿勘查的重要目标;低电阻率异常既可以由斑岩型铜矿化作用所引起,又可以由孔隙度较高的万宝组砂岩所引起,因此首先需要区分异常形成的原因,进而用低电阻率异常指导找矿,但高电阻率异常通常代表了致密的、不含矿的地质体。 相似文献
13.
Stephen F. Foley Wayne R. Taylor David H. Green 《Contributions to Mineralogy and Petrology》1986,93(1):46-55
Phase relationships in the system kalsilite-forsterite-quartz with fluorine added by direct substitution for oxygen were examined at 28 kb. A large liquidus field for fluorphlogopite exists with approx. 4 wt% F added to the system and the thermal stability of phlogopite is increased by 300° C relative to the water saturated system. Fluorine expands the phase volume of enstatite relative to forsterite so that the peritectic point PHL+EN+FO+L, a model for melting of a phlogopite harzburgite, lies in the silica-undersaturated field. Experimental phlogopites have excess Si which correlates with F content and are Al-deficient. The high Si contents indicate solid solution with an end member intermediate between tri- and di-octahedral micas. Glasses with compositions analogous to partial melts from phlogopite harzburgite were examined by infrared spectroscopy in the mid- and far-IR regions. Results show that fluorine polymerises the melt by bonding with all the network modifying cations K, Mg and Al. At higher F contents, but still less than 1 wt%, tetrahedral KAlO2-groups are complexed by fluorine and removed from the aluminosilicate network simultaneously polymerising and increasing the Si/(Si+Al) ratio of the network. However, when HF rather than F is present, the overall effect will be to depolymerise melts due to the effect of OH released by dissolution of HF. The presence of abundant Si-F bonds is considered unlikely even in silica-rich magmas: the viscosity decrease characteristic of fluorine-bearing melts can be attributed to the formation of fluoride complexes. 相似文献
14.
玉龙斑岩铜矿含矿与非含矿斑岩元素和同位素地球化学对比研究 总被引:3,自引:3,他引:3
地质地球化学对比研究表明,玉龙含矿与非舍矿斑岩是由岩石圈地慢中交代成因的金云母-石榴石单斜辉石岩脉发生不同程度部分熔融而形成的。分矿斑岩是最早阶段熔融体,主要是由交代成因脉中副矿物(如磷灰石和碳酸盐矿物等)和舍水矿物金云母发生部分熔融而形成的,因而富含 F、Cl 和水等挥岌份,加上该阶段岩浆具有高氧化性特征,从而富含 Cu 等成矿元素;非含矿斑岩是交代成固咏相对较高熔融程度的产物,单斜辉石和石榴石介入了熔融作用,岩浆熔体相对贫乏F、Cl 和水等挥发份,加上该阶段岩浆具有较低的 f_(0_2),从而不利于成矿。斑岩体全岩的 F 和 Cl 含量(舍矿斑岩 F>1200 ppm,Cl>150 ppm;非含矿斑岩 F<1200 ppm,Cl<150 ppm)、K_2O/Na_2O(含矿斑岩>1.2,非含矿斑岩<1.2)和 Sm/Yb(含矿斑岩>6.5,非含矿斑岩<6.5)比值以及黑云母中的 Fe~(3 )/Fe~(2 )比值(含矿斑岩>0.7,非舍矿斑岩<0.7)是区分含矿与非含矿斑岩的重要地球化学参数。含矿斑岩与非分矿斑岩具有非常相似的 Sr-Nd-Pb 同位素组成,,表明含矿与非含矿班岩具有相同的源区。 相似文献
15.
YANG Yang TANG Juxing ZHANG Zebin TANG Pan XIE Fuwei RAN Fengqin YANG Zongyao YANG Huaichao BAI Yun SUN Miao QI Jing 《《地质学报》英文版》2024,98(2):399-415
The Jiama deposit, a significant porphyry-skarn-type copper polymetallic deposit located within the Gangdese metallogenic belt in Tibet, China, exemplifies a typical porphyry metallogenic system. However, the mineral chemistry of its accessory minerals remains under-examined, posing challenges for resource assessment and ore prospecting. Utilizing electron microprobe analysis and LA-ICP-MS analysis, this study investigated the geochemical characteristics of apatite in ore-bearing granite and monzogranite porphyries, as well as granodiorite, quartz diorite, and dark diorite porphyries in the deposit. It also delved into the diagenetic and metallogenic information from these geochemical signatures. Key findings include: (1) The SiO2 content, rare earth element (REE) contents, and REE partition coefficients of apatite indicate that the dark diorite porphyry possibly does not share a cogenetic magma source with the other four types of porphyries; (2) the volatile F and Cl contents in apatite, along with their ratio, indicate the Jiama deposit, formed in a collisional setting, demonstrates lower Cl/F ratios in apatite than the same type of deposits formed in a subduction environment; (3) compared to non-ore-bearing rock bodies in other deposits formed in a collisional setting, apatite in the Jiama deposit exhibits lower Ce and Ga contents. This might indicate that rock bodies in the Jiama deposit have higher oxygen fugacity. Nevertheless, the marginal variation in oxygen fugacity between ore-bearing and non-ore-bearing rock bodies within the deposit suggests oxygen fugacity may not serve as the decisive factor in the ore-hosting potential of rock bodies in the Jiama deposit. 相似文献
16.
新疆玉海-三岔口铜矿黑云母矿物化学特征及成岩成矿意义 总被引:1,自引:0,他引:1
黑云母的化学成分对于揭示结晶条件、岩石成因、成矿演化以及含矿性评价等具有重要的指示意义.利用电子探针(EPMA)对新疆玉海和三岔口铜矿中的黑云母进行成分分析,结果表明与成矿相关岩体的黑云母具有富镁贫铁的特征,而无矿化岩体中的黑云母则呈现富铁贫镁的特征.分析结果显示矿化岩体中黑云母为再平衡镁质黑云母,而无矿化岩体中黑云母为原生铁质黑云母;它们的寄主岩石均属于I型花岗岩,形成于与俯冲相关的构造背景,但是与矿化相关岩体的岩浆源区为壳幔混合来源,而无矿岩体的源区为地壳来源,形成过程中有新生地壳组分的混染;两类黑云母的结晶温度为529~677 ℃,寄主岩体的固结压力为1.1~2.8 kbar,均形成于高氧逸度条件;此外,黑云母的Mg/Fe和Fe2+/(Fe2++Mg2+)还可以区分斑岩型铜矿的含矿性. 相似文献
17.
18.
江西武山铜矿区花岗闪长斑岩的地球化学和Sr-Nd-Hf同位素组成及成因探讨 总被引:48,自引:29,他引:19
武山铜矿床是位于长江中下游地区九瑞矿集区中的一个大型铜矿床.本文对该矿床中与成矿关系密切的花岗闪长斑岩进行了详细的矿物化学、主量元素、微量元素、Sr-Nd-Hf同位素研究.结果表明,岩体中黑云母富镁,为金云母,其Fe3 /Fe2 组成表明岩浆氧逸度很高;角闪石具有Mg/(Mg Fe)高而Si低的特征,为阳起石和镁质角闪石,角闪石压力计计算表明岩体具有超浅成侵位特征.花岗闪长斑岩具有埃达克岩地球化学特征.岩石具有相对较高的SiO2(64.9%~68.62%,平均66.52%)和Al2O3(14.0%~15.3%,平均14.8%)含量,同时岩石的Mg#很高(0.53~0.71),并具有相对较高的相容元素含量;岩石富集轻稀土((La/Yb)N=27.8~64.5),Eu负异常不明显,岩石同时富集大离子亲石元素,亏损高场强元素,具有较高的Sr/Y比值(35.0~68.2).岩石的初始87Sr/86Sr比值为0.7067~0.7075,εNd(t)值为-4.08~-4.44,锆石的εHf(t)值为-2.1~-7.0.详尽的元素和同位素地球化学特征表明武山花岗闪长斑岩是强烈壳幔相互作用的产物,很有可能是由拆沉的加厚下地壳发生部分熔融,并在其上升过程中与地幔橄榄石发生相互作用而形成的. 相似文献
19.
K. BUCHER-NURMINEN 《Journal of Metamorphic Geology》1988,6(6):667-672
Abstract The textural and compositional features of phlogopites in a contact-metamorphic dolomite marble inclusion in the Bergell intrusion (central Alps) and in a metasomatic reaction vein cutting through this marble suggest different origins for vein phlogopites:
(a) High-Al vein phlogopite represents former marble phlogopite which has been compositionally modified by reaction with the vein forming fluid.
(b) Low-Al vein phlogopite represents phlogopite precipitated from the vein forming fluid.
As both types of vein phlogopite were in contact with the same vein forming fluid at the same time, low-Al phlogopite most likely represents an equilibrium phlogopite composition, whereas high-Al phlogopite does not. High-Al vein phlogopite retained its Al-content from the contact-metamorphic marble parent phlogopite and only underwent Fe-Mg exchange with the metasomatic fluid.
All the vein phlogopites studied are strongly enriched in Fe relative to marble phlogopite. The data may suggest in general that phlogopite Al/Si ratios may be retained from the conditions under which the phlogopites first formed, whereas the Mg/Fe-ratios may be substantially modified by exchange with other ferromagnesian solid phases and/or a metamorphic fluid at later stages in their metamorphic history. This may have significant effects on calculated pressures and temperatures from thermobarometers involving biotite. 相似文献
(a) High-Al vein phlogopite represents former marble phlogopite which has been compositionally modified by reaction with the vein forming fluid.
(b) Low-Al vein phlogopite represents phlogopite precipitated from the vein forming fluid.
As both types of vein phlogopite were in contact with the same vein forming fluid at the same time, low-Al phlogopite most likely represents an equilibrium phlogopite composition, whereas high-Al phlogopite does not. High-Al vein phlogopite retained its Al-content from the contact-metamorphic marble parent phlogopite and only underwent Fe-Mg exchange with the metasomatic fluid.
All the vein phlogopites studied are strongly enriched in Fe relative to marble phlogopite. The data may suggest in general that phlogopite Al/Si ratios may be retained from the conditions under which the phlogopites first formed, whereas the Mg/Fe-ratios may be substantially modified by exchange with other ferromagnesian solid phases and/or a metamorphic fluid at later stages in their metamorphic history. This may have significant effects on calculated pressures and temperatures from thermobarometers involving biotite. 相似文献
20.
斑岩铜矿若干问题的最新研究进展 总被引:8,自引:1,他引:8
斑岩铜矿是最重要的铜矿床类型,对其成矿作用的认识对找矿实践具有重要指导意义,为此,文章通过收集和整理有关文献总结了近年来斑岩铜矿研究在构造和岩浆对成矿作用的控制、成矿金属和成矿流体来源、矿石伴生金属组分含量的影响因素等方面所取得的成果。近几年的研究工作揭示:斑岩铜矿的大规模成矿作用与洋壳高浮力块体(包括无震海岭和洋底高原)的俯冲有关,高氧逸度的岩浆活动有利于斑岩铜矿的形成,与无矿斑岩体相比,含铜斑岩体一般具有低稀土元素含量以及亏损Ho和Er等特征;斑岩铜矿中铜和金多由俯冲洋壳所释放的流体对地幔中硫化物的氧化作用释放而来;在部分斑岩铜矿中,岩浆来源流体可构成绢英岩化期流体的主体;斑岩铜矿伴生金属组分的含量受许多因素控制,其中包括岩浆源区地幔演化、火成岩岩石类型、岩浆侵位深度和成矿温度等多个方面。部分研究成果应作为找矿标志在实践中运用。 相似文献