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1.
M. Hale 《Journal of Geochemical Exploration》1981,15(1-3)
The potential applications of As, Sb and Bi as pathfinder elements in geochemical exploration have been researched using a new, rapid technique for the simultaneous determination of the three elements. Following a warm hydrochloric acid sample leach, the volatile hydrides of the elements are generated and flushed into an inductively-coupled plasma linked to an emission spectrometer. The technique offers a combination of good analytical precision and detection limits of 100 ppb for each of the elements.The principal sulphide ore minerals commonly contain traces of As, Sb and Bi, and concentrations of more than 1% of any one of these have been found in some sulphide specimens. During sub-aerial oxidation of sulphides, any As, Sb and Bi present is released and forms dispersion patterns in the surficial environment. Geochemical surveys of localities in the United Kingdom have demonstrated that anomalous dispersion trains of these elements can be detected in the sediments of streams draining the mineralized localities. In a geochemical mapping programme covering 16,000 km2 of central Nepal, over 3500 stream sediment samples were analyzed for As, Sb and Bi, and many known occurrences of Cu, Pb and Zn mineralization are reflected by As, Sb and Bi anomalies. However, bedrock lithology appears to be an important factor influencing Sb and Bi dispersion patterns.In the areas studied, some or all of the elements As, Sb and Bi produce stream sediment anomalies that compare favourably in terms of contrast and extent with the heavy metal expressions, even though none of the three elements have been reported as important constituents of the mineralization with which they occur. 相似文献
2.
Gossans associated with the Dugald River zinc-lead lode contain anomalous concentrations of Zn, Pb, Ag, As, Cd, Cu, Sb, Se, Tl and Ba and differ from those on the more pyritic Western Lode (Zn, Pb, Cu, As, Tl) and those associated with copper mineralization in the hanging wall (As, Bi, Co, Cu, Mo, Ni, Sb). Mineralogical and geochemical variations in gossans along strike reflect changes in primary ore and gangue mineralogy, particularly towards the north, where the Dugald River lode and hanging wall copper mineralization merge. Leaching of more soluble elements from the surface and re-precipitation below have resulted in large geochemical variations in the top metre of the profile.Dispersion into wall rocks has occurred over two distinct periods: hydromorphic dispersion, before erosion removed much of the gossan and surrounding Corella Formation, has resulted in very high Zn contents (up to 9%) in the footwall, whereas a more even dispersion of target and pathfinder elements into hanging and footwall rocks is from recent weathering of the slightly elevated gossan. 相似文献
3.
内蒙古哈达门沟金矿13号矿体以含金石英钾长石脉为主,金大部分以包体金形式存在,少数存在于黄铁矿间隙中。金的颗粒大小为0.05~0.25 mm。成矿元素组合特征中Au与Ag、Bi、Pb等亲硫元素具有很高的相关性,显示金的成矿与多金属硫化物联系很密切。通过数据分析,绘制了元素空间分布图,并建立了原生晕轴向垂直分带序列:Au-Pb-(Ni-Co-Ag-Zn-As-Hg )-Cu-W-Bi-Sb-Mo。由于成矿多期叠加特点导致Ag、Sb、As等元素异常同时存在和部分轴向分带序列分带特征不明显。与典型金矿分带序列对比发现,前缘晕元素Sb出现在分带序列的下部,地球化学参数在矿体下方(标高658 m附近)发生转折,这些都暗示深部有隐伏矿体存在,通过后续实际生产实践也验证了本文推测。 相似文献
4.
D. E. Ayres 《Australian Journal of Earth Sciences》2013,60(3-4):155-168
The main Woodlawn ore lens is a polymetallic, massive sulphide deposit’ with pyrite the major constituent, variable sphalerite, galena and chalcopyrite, and minor arsenopyrite, tetrahedrite‐tennantite, pyrrhotite and electrum. The silicate gangue minerals are chlorite, quartz, talc and sericitic mica. Other mineralization in the vicinity consists of footwall copper ore in chlorite schist and several smaller massive sulphide lenses. The predominant country rocks are felsic volcanics and shales, with abundant quartz, chlorite and mica, and talc in mineralized zones. An important textural feature of the massive ore is the fine compositional banding. Bands, which vary in thickness from a few tens of micrometres to several millimetres, are produced by variations in the sulphide content. Post‐depositional metomorphism and minor fracturing have only slightly modified this banding. Apart from the major element constituents—Pb, Zn, Fe, Cu and S—the ore is characterized by significant (100–1000 ppm) values for Ag, As, Cd, Mn, Sb and Sn, and lower (1–100 ppm) values of Au, Bi, Co, Ga, Hg, Mo, Ni, Tl. In and Ge. Variations in the base‐metal sulphide content, the gangue mineralogy, and trace elements, are used to separate the orebody into hanging‐wall and footwall zones. The hanging‐wall zone shows a more variable trace element content, with higher Tl, Sn, Ni, Mn, Ge and Sb, but lower Ag, Cd, and Mo, than the footwall zone. In general style of mineralization, mineralogy, and chemistry, the Woodlawn deposit resembles other volcanogenic massive sulphide deposits in eastern Australia, in New Brunswick in Canada, and the Kuroko deposits of Japan. 相似文献
5.
The two known massive Cu-Zn sulphide deposits in the steeply dipping strata of the Golden Grove District of Western Australia — the Gossan Hill Deposit and Scuddles Prospect — both have a multi-element secondary geochemical dispersion halo in the pisolitic layer of laterite of probable Tertiary age. The Gossan Hill geochemical anomaly is about 1.5 × 2 km and has a Bi-Sn-Mo-In-Sb-As-Cu-Au association. Mean compositions of pisolitic laterite samples range from 4 to 18 times background, with maxima for Bi, Sn and Mo reaching 90 to 100 times background. Relief of Gossan Hill, which rises some 80 m above the laterite plain, would have favoured dispersion during lateritization. Nevertheless at Scuddles, where the laterite surface has only a gentle slope across strike, an anomaly in pisolitic laterite measures 1 to 1.5 by 1.5 to 2.0 km. The anomalous association, Bi-Sn-Mo-Sb-As, is similar to that at Gossan Hill; the mean contents in pisolitic laterite samples from the Scuddles anomaly range from 2.3 to 8 times background, with maxima for Bi being 12 times background.At Gossan Hill, individual pisolites and the concretionary skins contain gossan fragments and cassiterite, indicating mechanical dispersion during interitization. However, anomalous Cu, Zn and As in goethites of the concretionary skins of pisolites and nodules from the centre of the anomaly indicate that there has also been hydromorphic dispersion.The geochemical characteristics of pisolitic laterite samples have been represented by empirically derived additive indices based on up to eleven chalcophile elements. One index is suggested as a method to increase anomaly size and simplify interpretation; a more specific index based on Bi, Sn and Se is suggested for defining more closely the actual centres of mineralization.For routine exploration of lateritic terrain where the dips of the host sequence are steep, 320-m spacing of samples on a triangular grid appears suitable for locating anomalies and generally defining their source. However, for reconnaissance exploration, the density of sampling could be significantly reduced for example to 1 km spacing. 相似文献
6.
D. L. Huston 《Journal of Geochemical Exploration》2001,72(1):135
The Western Tharsis disseminated Cu–Au orebody, which occurs within the Cambrian Mt Read Volcanics of Western Tasmania, is surrounded by a pyritic halo that extends 100–200 m stratigraphically above and below the ore zone. Although this halo extends laterally along the same stratigraphic position to the south, it probably closes off to the north based on limited surface and drill hole data. The ore zone is characterized by extreme enrichment (the enrichments and depletions referred to herein are relative to background; these have not been established using mass balance techniques) in As, Bi, Ce, Cu, Mo, Ni, S and Se; with the exception of Mo, these elements are also enriched, but at a much lower level, in the pyrite halo.Pronounced depletion in K, Cs and Mg occurs in 20–30 m wide stratiform zones that flank the orebody on both sides within the pyritic halo. These anomalies and depletions in Be, Ga, Rb, Y, MREE and HREE are associated with a pyrophyllite-bearing alteration zone that wraps around the main pyrite–chalcopyrite-bearing ore zone. This zone is also characterized by positive Eu anomalies which persist up to 150 m both into the hanging wall and footwall of the orebody. The depletion of these elements is consistent with the advanced argillic alteration assemblage developed about acid-sulfate Cu–Au deposits.The pyrite halo is surrounded by a peripheral carbonate halo which is highly enriched in C, CaO and MnO, and weakly enriched in Zn and Tl. Zinc and Tl are most enriched in the upper 100–150 m of the stratigraphically lower halo. In the stratigraphically upper halo, Zn and Tl values are anomalously high but erratic.Barium and Sr enrichment, although mainly restricted to the pyrite halo, extends into the stratigraphically lower carbonate halo by up to 100 m. A Na depletion anomaly extends from 150 m below the orebody and to at least the Owen contact (i.e. ≥400 m)in the hanging wall.The dispersion patterns observed at Western Tharsis are quite unlike those of Zn–Pb-rich volcanic-hosted massive sulfide (VHMS) deposits in western Tasmania. Rather, the dispersion patterns observed at Western Tharsis are more akin to those surrounding porphyry Cu deposits and related acid-sulfate Cu–Au deposits. 相似文献
7.
金矿立体地球化学探测模型与深部钻探验证 总被引:1,自引:0,他引:1
深部资源地球化学探测科学问题的的焦点是元素大深度垂向迁移机理和立体地球化学探测模型的建立。本文以胶东蚀变岩型金矿和贵州水银洞卡林型金矿钻孔岩芯和地表联合取样获得的数据, 建立千米深度立体地球化学探测模型。蚀变岩型金矿立体地球化学模型显示, Au、S和Hg与金矿密切相关, 分布模式既有相似性又有差异性, Au的立体几何分布模式兼具矿化剂元素S和远程指示元素Hg的双重特征, 金异常和矿化剂元素硫与矿体倾斜方向一致, 反映了成矿过程中流体沿控矿构造的轴向运移; 金异常与类气体元素汞在垂向上一致, 而且出现从矿体到地表的连续贯通式异常, 反映了流体沿微裂隙和纳米孔的垂向迁移。卡林型金矿立体地球化学模型显示, Au、As、Sb、Hg、Tl和S在不整合面都显示高含量特征, 与深部层状主矿体分布一致; 在矿体上覆地层中都存在弱异常, 显示了明显的成矿流体沿隐伏微小断裂垂向迁移特点; 所不同的是Sb和Tl元素在不整合面附近显示了最高的元素含量, 而Sb和Hg在近地表均显示了明显高的异常特征。立体几何模型清晰地显示了矿体的展布特征和范围, 而且金及其伴生元素垂向迁移在地表形成清晰异常, 为利用金及伴生元素和矿化剂元素进行深部矿体三维预测提供了重要依据, 对指导深部金矿勘查发挥了重要作用。针对胶东蚀变岩型金矿地表完全被土壤覆盖区的穿透性地球化学微细粒级土壤采样, 金属活动态提取分析圈定的异常, 经深部钻探验证, 胶东焦家成矿带五一村3200 m钻探, 在2428.00~3234.16 m深度发现6层矿化体, 其中高品位矿体位于2854 m深度; 上宫金矿地表基岩出露, 采集断层泥或裂隙岩石样品, 可以清晰探测深部异常, 经2000 m钻探, 在1312 m处发现高品位金铅锌银矿体; 贵州水银洞采集地表细粒级土壤, 能够直接有效地揭示深部金矿体, 经500~1500 m钻探验证, 在300~1500 m深度新增金资源量203 t。 相似文献
8.
论文给出了中国浙江火山岩区金矿床中黄铁矿的微量元素、形态和物理性质找矿标型特征.例如.(在许多)浙江火山岩区重要金-银矿床中黄铁矿相对富含铅、锌、钼、锡、砷、锑、铋而贫钴,镍、硒、碲:并且S/Se、Ag/Au、Pb/Ni、Se/Te、(As+sb+Bi)/(Se+Te)比值较高,Co/Nj、Ag/Pb、Ag/Zn、Cu/Zn和(Co+Ni)/(Pb+Zn)比值较低,再如含金黄铁矿比不含金黄铁矿的反射率低.总之,黄铁矿的标型性研究对于寻找金矿具有重大的理论意义和实际意义. 相似文献
9.
The mineralogy and geochemistry of the massive pyrite-pyrrhotite mineralization, which contains minor magnetite, sphalerite and galena, the weathered profile and surface gossan at Mugga Mugga in Western Australia have been examined. Reactions between amphibolite wall rocks and acid waters from the oxidation of the iron sulfides have resulted in distinct mineralogical zonation of the weathered profile which is further modified near the surface by lateritization. At the base of the weathered zone an opaline chert (Opal-CT) has been precipitated from fluctuations of the water table. A gossanous zone from 25.14–68.80 m with boxworks after massive pyrite is modified by abundant kaolinite, dickite and an alunite-type mineral derived from amphibolite wall rocks, while above 25.14 m both plinthite and mottled clay zones of a laterite profile are evident. Some characteristics of a mature gossan profile – sulfate-phosphate-arsenate near the base, a carbonate zone higher in the profile, and an oxide zone near the surface – overprint the gross zonation.At the interface between sulfide and weathered rock Mg, Ca, K, S, Zn, Cd, Hg, Ba are depleted, As, Sb, Mo, Cr and V contents increase and in the weathered zone, SiO2, TiO2, P2O5, SO3, Pb, Zn, Hg, Sb, Co, Ni, W, Ba, Sr and Zr decrease up the profile whilst Al2O3, Fe2O3, CO2, Cu and As increase. Of the elements associated with the massive pyrite (Pb, Zn, Cu, Ag, As, Cd, Hg, Sb, Co, Ni) anomalous concentrations of Pb, Cu, Ag, As and Sb occur in the surface gossan despite the possibility of complete leaching by highly acidic solutions. These anomalies are similar to those found in gossans over pyrite mineralization elsewhere in the Yilgarn Block. 相似文献
10.
黄铁矿型铜多金属矿床是与海底火山喷发—沉积建造有关的火山岩矿床,矿化赋存于一套微量元素总体含量水平较高的海相中酸性细碧角斑岩系中。赋矿地层、岩性具有以Cu,Pb,Zn为主,伴生Sb,Ba,Ag,As,Bi,Hg,Cd等多元素的特征组合,这些元素在成矿区域上形成大范围的地球化学异常,其主体异常对应于矿田。矿区大比例尺的岩石地球化学测量显示,这些指示元素的清晰的原生异常相互交替叠置于矿床内矿化富集部位,水平分带不甚明显,而垂直分带清晰。具有不同指示意义的元素组合于矿化的不同部位聚集而出现的分带,是用于评价矿化剥蚀程度及其成矿远景的重要地球化学参量 相似文献
11.
A geochemical reconnaissance heavy mineral survey has been carried out in the area of the Gatineau River Valley, over a part of the Grenville Province of Québec. The majority of samples show gold concentrations below the detection limit of 5 ppb, and anomalies are erratic. To circumvent these problems and to present an accurate image of the gold-bearing potential of the area, a regression analysis has been applied to the samples whose gold concentrations were above the detection limit. The regression of gold on chalcophile pathfinder elements (As, Se and Pb) explains 11% of the gold variance.Bedrock lithologies, overburden cover and physico-chemical characteristics are important factors influencing the chalcophile element dispersion pattern. Principal component analysis was used to characterize the principal inter-element relationships and to identify the factors influencing the dispersion of chalcophile elements. A filtering procedure was used to remove the background effects influencing the pathfinder elements, and to enhance the influence of mineralization. This procedure uses standard formulas for partial reconstruction of the data matrix from results of principal component analysis. The regression model constructed with these corrected data explains 20% of gold variance. It constitutes an improvement over the model which uses non-filtered data.The equation inferred from regression was applied to the whole data set and provided an estimation of gold at each sampling point. Exploration targets are defined from highest gold concentrations estimated by regression. The regression model aided in the definition of some well defined anomalies associated with geological structures favourable to gold mineralization. 相似文献
12.
13.
通过对苋草沟测区1:10000土壤地球化学测量,采用多重分形异常下限计算方法,固定了该区Au、Ag、Fe、cu、Ph、zn、As、Sb、Bi、Hg10元素异常范围。根据各元素所反映的丹常特征并结合元素组合特征及现有矿化点的分布特征,综合评价固定了两处乙,类异常和一处丙,类异常,为进一步找矿提供了指导。运用因子分析方法选... 相似文献
14.
The nature of secondary geochemical dispersion of As, Sb, Hg and Bi in soil and ground water of the semi-arid, tropical, Archaean, auriferous, Hutti-Maski greenstone belt has been investigated for identification of appropriate geochemical techniques for Au exploration in similar terrains.Results indicate that the <180 μm size-fraction of C-horizon soil is an appropriate sampling medium for delineating pedogeochemical anomalies of As, Sb, Hg and Bi related to gold mineralisation. These pedogeochemical anomalies along with anomalous values of alkalinity, chloride, sulphate, As and Sb in groundwater are controlled significantly by primary mineralisation located along shear zones in the greenstone belt. Arsenic anomalies in soil are broad, whereas, those of Sb and Bi are restricted to narrow zones directly over mineralised areas. In contrast, Hg anomalies around known mineralised areas are irregular and do not clearly demarcate the mineralised areas. The study indicates that anomalies of As, Sb and Hg in soil are principally hydromorphic, whereas those of Bi are clastic.The study recommends use of groundwater sampling at 2–3 km spacing with routine analysis of chloride, sulphate and alkalinity along with As and Sb in the first phase. This may be followed up with sampling of C-horizon of soils on a 1 km square grid for As-anomalies. Arsenic-anomalous areas may be sampled for As, Sb, Hg and Bi on a 500 m square grid for detailed exploration. 相似文献
15.
Stratabound mineralization in the Mammoth area of NW Queensland occurs in steeply dipping, faulted Proterozoic arenites and dolomitic rocks overlying basic volcanics. Both syngenetic/diagenetic and epigenetic sulphides are present, with the latter divided into Mammoth- and South Mammoth II-styles. Syngenetic/diagenetic pyrite is distinguished from epigenetic pyrite by higher Co and Ni, and lower As, Mo, Sb and Tl contents. Chalcopyrite is the major copper sulphide associated with syngenetic/diagenetic pyrite and is characterized by low Ag, Bi, Mo, Ni and Tl contents relative to epigenetic chalcopyrite. No substantial wall rock alteration is associated with such sulphides. Disseminated syngenetic/diagenetic sulphides in the mine sequence may have induced deposition of epigenetic Cu mineralization, but alone, even when remobilized, do not reach economic grades.The four epigenetic Mammoth orebodies are all richer in chalcocite and bornite than syngenetic/diagenetic mineralization and have wall rock alteration characterized by alkali depletion and Fe enrichment in the zone between the ore and the fault considered the conduit for the hydrothermal ore-forming fluids. Pyrite associated with Mammoth-style mineralization has high As, Mo, Sb and Tl contents and was formed subsequent to the copper sulphides.Thick, essentially barren, pyritic sequences occur at South Mammoth II where the moderate As, high Mo, Sb and Tl contents reflect their hydrothermal origin but distinguish them from Mammoth-style pyrite. Their low As/Sb ratio and lack of wall rock alteration imply a lower temperature of formation than the Mammoth-style pyrite and possibly such mineralization represents the pre-ore stage of the Mammoth mineralizing hydrothermal system.An essential feature of economic Cu mineralization in NW Queensland is the operation of a hydrothermal system. As all such systems may not necessarily give rise to extensive wall rock alteration, use of the high As, Mo, Sb and Tl contents of hydrothermal pyrite can aid evaluation of mineralization intersected during drilling. 相似文献
16.
C. Trepka-Bloch 《Mineralium Deposita》1989,24(4):279-288
The Rakkejaur volcanogenic massive sulfide deposit is conformably situated in a transition zone between Proterozoic pyroclastic and overlying clastic sedimentary rocks. Ore and host rocks are isoclinally folded and slightly overturned. Two distinct types of mineralization occur: Cu-bearing stringers and disseminations, and Zn-rich stratiform banded massive sulfides. Precipitation of stratiform ore was concurrent with late volcanism and continued during the early stages of clastic sedimentation. Pyroclastic debris containing fragments of the underlying stringer-mineralized metavolcanic rocks were deposited in the lower parts of the massive sulfides. Banding of the stratiform massive ore is evidenced by alternating concentrations of pyrite and sphalerite and by interlayered sedimentary strata. Slumping and synsedimentary fragmentation of the massive sulfides took place locally. Epigenetic stringer mineralization was emplaced in two separate conduits located in the footwall metavolcanic rocks. Both mineralized vents are in contact with and beneath the same cap of massive sulfides.Zn, Pb, Ag, and Sb grades are elevated in the banded ore and tend to increase with stratigraphic and lateral distance from the zones of stringer mineralization. Gold occurs in association with arsenic or in amalgam, and each assemblage displays different distribution patterns. Most of the gold is contained in the stratiform ore where distal areas generally show higher Au/As ratios. The Au-As assemblage, however, occurs within one of the conduit zones and in close proximity to the other conduit within the massive sulfides. The ore-forming processes resulted in metasomatic alteration of the footwall rocks, mainly by introduction of Mg and Fe and depletion of Na. 相似文献
17.
This paper discusses some geochemical mapping techniques and their effectiveness in detecting of gold and its pathfinder's geochemical anomalies. The study area (Marrancos area) is situated in Northern Portugal. Gold occurs in a quartz breccia with pyrite and arsenopyrite hosted by metamorphic rocks (hornfels) and it is present in these two sulphide minerals as inclusions or disseminated in the crystal lattice. In this area, the geochemical anomalies obtained by isoconcentration mapping of single elements were difficult to interpret. The use of alternative geochemical mapping such as multielement halos (additive halos) proved to be effective in the definition of Au, As, Bi, Sb, Te and Se secondary geochemical signature. 相似文献
18.
也金嘎波金矿位于冈底斯成矿带上,是对区域化探发现的Au、As多元素组合异常进行追踪发现的,属于热液型金矿床。矿区各类岩石Au、As、Sb、W、Hg、Ag、Bi、Pb元素平均值高于中国丰度值数倍以上,表明矿区具有丰富的物质来源基础。岩石地球化学研究证明,矿床地表发育Au、As、Sb等10多个元素组合异常。其中Au是成矿指示元素,As、Sb、W是密切伴生元素,Bi、Ag、Pb、Hg是一般的伴生元素。多元素组合异常浓度带发育,浓集中心互相套合叠置部位指示金矿(化)体位置。矿体指示元素(Au、As、Sb、W、Hg、Bi、Ag、Pb)异常分布在岩体、地层接触带和构造交汇处,显示金矿与岩浆活动、热液作用和断裂构造相关,属多次构造作用、岩浆热液叠加富集而成。该金矿床处在冈底斯成矿带内,此研究对该成矿带金异常的识别和查证,寻找新的金矿具有借鉴意义。 相似文献
19.
陕西安康梅子铺金矿区化探异常剖析及找矿潜力分析 总被引:1,自引:0,他引:1
陕西省安康梅子铺金矿区位于秦岭褶皱系北大巴山加里东褶皱带牛山地背斜南缘,通过土壤正规网地球化学测量,重新圈定了化探异常,Au、Ag、Cu、Pb、As、Sb、Bi异常明显,Au—AgPb,As—Sb—Bi相关性较好。通过对异常元素的空间分布特征分析,表明成矿流体或成矿热液自东南向西北方向运移。对重点化探异常进行了优选验证,认为土壤异常与云母石英片岩、北东向片理构造三者配套是确定金矿化富集部位的“三位一体”找矿标志,构造和岩浆活动为主要控矿因素。Au—As—Pb—Ag—Sb异常元素套合良好,浓集中心明显,为矿致异常。Mt-2、Mt-4、Mt-5土壤异常是本区进一步找矿的远景地段。异常组合特征指示本区东部剥蚀程度较高,西部较低,推测西部可能存在金的隐伏矿体,具有较大找矿潜力。 相似文献
20.
云南易门铜厂铜矿床碳酸盐矿物微量元素组成研究 总被引:1,自引:0,他引:1
易门铜厂矿床是云南易门铜矿带中的一个大-中型铜矿床,矿区存在早期沉积-成岩型和晚期热液脉状型2种铜矿类型。为深入阐明2种矿化类型的成矿作用特征,文章分别选取落雪组白云岩及层状矿石中的白云石和热液脉状矿石中的方解石,采用ICP-MS等方法,对其开展碳酸盐矿物的微量及稀土元素地球化学研究。研究结果显示:在微量元素组成方面,沉积-成岩型的白云石以富集Cu、Pb、Zn、Ba、Bi、Sb、Ga、Ag,亏损Mo、Cr、Ni、Co、V元素为特征,脉状方解石中则以亏损亲硫元素(Cu、Pb、Zn)和不相容元素(Ba、Be、Rb、Nb、Ta、Zr、Hf、Th、U等),富集V、Co、Ni元素为特征;在稀土元素组成上,二者稀土元素总量均较低,具不同程度的Eu负异常和微弱的Ce正异常,但在稀土元素配分模式上,白云石为明显右倾的轻稀土元素富集模式,方解石则为轻稀土元素略富集,中稀土元素富集的缓右倾或平缓型配分模式。综合分析结果认为,2类脉石矿物是不同成矿系统的产物,白云石形成于正常浅海环境,为沉积-成岩成因,成矿物质的壳源特征明显。方解石为后期热液成因,有深源物质参与成矿。层状矿体与脉状矿体不具"同期+同源"的特征。 相似文献