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1.
Coals of various rank (ranging from lignite to anthracite), and originating from seven coal basins in Bulgaria, were investigated for the occurrence and types of carbonate minerals. The following carbonates are present in their characteristic forms: Calcite (clastic, organogenic, cryptograined, xenomorphic, massive and infiltrational); siderite (cryptograined, xenomorphic both infilling and replacing, massive, euhedral, framboidal and infiltrational both fracture-filling and cleat-filling); dolomite (cryptograined, xenomorphic, massive and infiltrational) and magnesite.Carbonate mineralization depends on the penetration of ready mineral forms and mineralized solutions during peat genesis and the infiltration of mineralized solutions during coalification. The mineral composition of the carbonates in the coals studied and the occurrences of the various carbonate minerals depend on the combination of a series of factors such as: (1) the presence of carbonate rocks in the province feeding the peat bogs; (2) the way and capacity of feeding; (3) acidity (pH) and reducing conditions (Eh) of the environment, (4) tectonic situation during the peat genesis; and (5) availability of infiltrational mineral solutions during coalifications.No infiltrational carbonate mineralization was found in the lignites studied. Due to the combination of the above five factors, bituminous coals from the Balkan basin and the anthracite from Svoge are characterized by the greatest variety of carbonate minerals and their forms. 相似文献
2.
Auriferous quartz pebble conglomerates (QPC) formed during Tertiary sedimentary recycling in the Waimumu district, Southland, New Zealand. These sediments contain fine-grained gold of detrital origin with abundant surface textures and gold-forms associated with authigenic gold remobilisation. Most authigenic gold contains no detectable silver and occurs as overgrowths on detrital Au–Ag and Au–Ag–Hg alloys that contain up to 13 wt.% Ag, and 9 wt.% Hg. Fine-grained Au–Ag and Au–Ag–Hg alloys are compositionally heterogeneous, exhibiting both well-defined silver-depleted and silver-enriched rims. Rare coarse Au–Ag alloy is intergrown with quartz and is homogenous. Discrete grains of authigenic, porous, sheet-like gold occur in carbonaceous mudstone within a QPC sequence. Some QPC contain abundant sulphide minerals. Some of these sulphides (pyrite and arsenopyrite) are of long-distance detrital origin, presumably from the Otago Schist, whereas the bulk of the sulphide suite is marcasite of variably transported diagenetic origin, derived from the erosion of QPC and underlying Tertiary sediments. There has also been authigenic deposition of sulphide minerals in the QPC themselves. These diagenetic sulphides include framboidal and anhedral marcasite, and framboidal and euhedral pyrite. Sulphur isotope data for the sulphide minerals range from − 45‰ to + 18‰ (relative to VCDT). Sulphur isotope data for euhedral detrital pyrite and arsenopyrite range from − 9‰ to − 1‰ and are most likely derived from the Otago Schist to the north. Both framboidal and anhedral marcasite have lower values (< − 20‰) reflecting microbial sulphate reduction as a source for the precursor hydrogen sulphide. Anhedral marcasite contains elevated concentrations of Ni, Co, As and Cr, commonly with compositional banding of these metals.Both the gold and diagenetic sulphides from the Belle-Brook QPC are compositionally similar to gold and sulphides from Archaean QPC. Porous, sheet-like authigenic gold is morphologically similar to gold associated with carbonaceous material in the Witwatersrand. In addition, Southland marcasite textures resemble the rounded and banded pyrite in Witwatersrand QPC placers. There is abundant evidence from these Tertiary QPC in southern New Zealand for sedimentary transport of sulphide minerals and post-depositional sulphide mineralisation in the surficial environment despite an oxygen-rich atmosphere. These young deposits thus provide an example of authigenic gold and sulphide textures formed during diagenesis in unmetamorphosed placers. Many of these textures are similar to those commonly ascribed to metamorphic processes in Archaean auriferous QPC. 相似文献
3.
甘孜–理塘缝合带是四川重要的金矿带之一。梭罗沟大型金矿床是该带上的典型矿床,但其矿床成因仍存在争议。为了准确厘定其矿床成因,本文对梭罗沟金矿床中的它形和自形(五角十二面体)的载金黄铁矿进行了LA-ICP-MS原位微量元素分析。结果显示梭罗沟它形黄铁矿元素含量变化较小,较为集中,而自形黄铁矿具有明显的核–幔–边结构,元素含量变化范围较大。总体上,两种黄铁矿中Au与As均具有明显的正相关性,但Au与FeS2和Co/Ni值具有负相关性。它形黄铁矿和自形黄铁矿的Co/Ni值分别为0.2和57.1,两者都具有较高的Au和较低的Ag含量;这表明它形黄铁矿主体来源于沉积作用,受后期成矿热液改造,而自形黄铁矿属于热液成因。梭罗沟金矿床成矿过程为火山–沉积岩中的Au在变质热液作用下再活化富集的结果,属于典型的造山型金矿床。 相似文献
4.
黔西南水银洞金矿床载金黄铁矿标型特征 总被引:28,自引:3,他引:25
水银洞金矿床为近年来在黔西南地区所发现的又一重要卡林型金矿床,黄铁矿为矿床的重要载金矿物。通过系统采样和光片鉴定,区分出具有不同标型特征的四种黄铁矿,即草莓状黄铁矿、生物碎屑状黄铁矿、粗粒自形黄铁矿和细粒自形黄铁矿。四种黄铁矿的含金性存在着显著差异,以生物碎屑状黄铁矿和细粒自形黄铁矿的含金性为优,而草莓状黄铁矿和粗粒自形黄铁矿的含金性较差。各种黄铁矿的主成分及微量组分也显示出一定的变化规律。本文初步分析了四种黄铁矿的形成条件及金的差异性富集机理。 相似文献
5.
Geochemical effects of oxidation products and framboidal pyrite oxidation in acid mine drainage prediction techniques 总被引:1,自引:0,他引:1
P. A. Weber W. A. Stewart W. M. Skinner C. G. Weisener J. E. Thomas R. St. C. Smart 《Applied Geochemistry》2004,19(12):1953-1974
Acid mine drainage predictive testwork associated with the Australian Mineral Industries Research Association (AMIRA) P387A Project: Prediction and Kinetic Control of Acid Mine Drainage (AMD) has critically examined static acid assessment and kinetic information from acid–base accounting techniques, including net acid production potential (NAPP), net acid generation (NAG) and column leach tests. This paper compares results on two waste rock samples that were obtained from the Kaltim Prima Coal mine (KPC) containing significant quantities of fine-grained framboidal pyrite. In agreement with other research, the authors' results indicated that framboidal pyrite is more reactive than euhedral forms due to the greater specific surface area of framboidal pyrite. This is evidenced by optical microscopy of reacted samples. Importantly, the results showed that NAPP testing is biased by the rapid acid generating oxidation of framboidal pyrite prior to, and during the acid neutralisation capacity (ANC) test. This can result in negative ANC values for samples containing significant framboidal pyrite (often “corrected” to zero kg H2SO4/t) when significant ANC is actually present in the sample. NAG testing using H2O2 indicated that samples containing a significant quantity of framboidal pyrite can result in the catalytic decomposition of the H2O2 prior to complete oxidation of the sulfide minerals present, requiring sequential addition of H2O2 for completion. A benefit of the NAG test, however, is that it assesses the net acid generation capacity of the sample without bias towards acid generation as is observed using NAPP methods. The kinetic NAG test also gives information on the reaction sequence of framboidal and euhedral pyrite. Periodic (kinetic) analysis of sub-samples from column leach tests indicated rapid oxidation of the framboidal pyrite compared to the euhedral pyrite, which was correlated with the greater framboidal pyrite surface area.Calculations to determine the sulfide/sulfate acidity derived from the oxidation of framboidal pyrite prior to; and during the ANC test have been developed to provide a better indication of the actual ANC (ANCActual) of the sample. Paste pH values of <pH 4–5 may be one suitable trigger mechanism for the implementation of this new method. This has led to an improved NAPP estimation of total acid production. Together with NAG and column leach testing this improved methodology has resulted in accurate AMD characterisation of samples containing acidic oxidation products and framboidal pyrite. 相似文献
6.
Hassan Baioumy 《Chemie der Erde / Geochemistry》2010,70(1):61-67
Jurassic high-sulfur coals from the Maghara area in Egypt were analyzed for the abundance and isotopic composition of different forms of sulfur. Analyses indicated that the sulfur occurs in the form of organic, pyrite, and sulfate forms. Pyrite sulfur represents the major fraction, while sulfate sulfur is minor and could be formed during sample preparation for the analyses.The δ34S CDT values of the organic sulfur are positive ranging between 1.0‰ and 13.5‰ with an average of 9.1‰. Pyrite δ34S values are also positive ranging between 1.5‰ and 15.4‰ with an average of 6.6‰. The high δ34S values of the organic sulfur in the Maghara coals suggest a freshwater origin of the organic components of these coals. The lack of correlation between pyrite and organic sulfur isotopes implies different incorporation mechanisms of sulfur. The high-sulfur contents along with the positive and high δ34S values suggest a marine origin of pyrite sulfur and support the geological interpretation of marine invasion after the peat formation that was responsible for the incorporation of the pyrite sulfur.The occurrence of pyrite as euhedral crystals as well as the high and positive δ34S values of the pyrite sulfur indicates the formation of pyrite during diagenesis as a result of marine water invasion of the preexisting peat in a brackish coastal plain environment. 相似文献
7.
The Marl Slate, the English equivalent of the Kupferschiefer, has been studied with particular reference to the relationships between dolomitization and the origin of the metal sulphides. Dolomite occurs as: 1) discontinuous lenses of ferroan dolomicrite, 2) micronodules of finely crystalline dolospar in association with length-slow chalcedony and 3) discrete laminae of ferroan or non-ferroan dolospar. The ferroan dolomicrite has excess CaCO3, and is more abundant in the lower, sapropelic facies of the Marl Slate. It is considered to have formed by the penecontemporaneous alteration of calcium carbonate under hypersaline conditions. Small micronodules (typically about 0.3 mm in diameter) are also more abundant in the sapropelic Marl Slate. These frequently contain cores of length-slow chalcedony (quartzine) fibres and sometimes quartz megacrysts. Textural observations clearly indicate that this silica is of authigenic origin and the dolomite/chalcedony micronodules are interpreted as diagenetic replacements of a calcium sulphate mineral such as anhydrite. The discrete laminae of finely crystalline dolospar are often inter-laminated with calcite in the upper part of the Marl Slate. This dolomite is also calcium rich and represents a replacement, possibly of anhydrite, during a later phase of diagenesis. Metal sulphides occur in two distinct forms: as disseminated framboidal pyrite and as discrete lenses of pyrite, chalcopyrite, galena, sphalerite and rarer sulphides. The framboidal pyrite originated during early diagenesis by reaction of sulphide, produced by reduction of sulphate by organic material and micro-organisms, with iron also released in the reducing environment. The sulphide lenses are often in intimate association with dolospar, length-slow chalcedony and authigenic quartz megacrysts. This indicates that the lenses were produced during diagenesis by the reduction and replacement of calcium sulphate (anhydrite). Various sources, such as co-precipitation with dolomite precursors and the underlying Yellow Sands, may have supplied metals which were mobilized and transported by connate brines as diagenesis progressed. 相似文献
8.
沉积地层中的黄铁矿形态及同位素特征初探——以华南埃迪卡拉纪深水相地层为例 总被引:1,自引:1,他引:0
地质历史时期新元古代大气氧含量普遍较低。在硫酸盐还原细菌作用下,作为海洋重要的氧化性离子,陆源硫酸根离子有效促进了深层海水的氧化进程。在此过程中,硫元素在硫酸根和黄铁矿之间发生显著同位素分馏,其分馏程度可反推当时古海洋的氧化还原状态。沉积地层中的黄铁矿普遍具有多种形态,不同形态黄铁矿的形成环境多有不同。如草莓状黄铁矿多形成于底层缺氧水体或沉积物的浅表面,而大颗粒单晶黄铁矿或脉状黄铁矿则多沉积于成岩早期的沉积物孔隙或形成于成岩后期的热液改造。与草莓状黄铁矿不同,大颗粒单晶或脉状黄铁矿的硫同位素组成并不能反映沉积时期的古海洋氧化还原条件。判定沉积地层中不同形态的黄铁矿及形成过程,是获得有效反映海洋沉积环境硫同位素组成特征的基本前提。简要总结了地质历史时期沉积地层中的黄铁矿类型及矿物形成过程,并以华南埃迪卡拉纪蓝田组岩芯样品为例,识别出各个样品中的黄铁矿形态组成特征,对比分析了全岩黄铁矿与样品中大颗粒黄铁矿硫同位素组成差异。研究结果表明:不同岩性样品中黄铁矿的形态种类及含量均存在差异。页岩样品保存有更好形态的自形晶以及草莓状黄铁矿;碳酸盐岩样品中具有较多自形晶以及他形晶黄铁矿,并且其中的少量草莓状黄铁矿遭受后期成岩作用而发生不同程度的晶体蚀变。样品中大颗粒黄铁矿的硫同位素值(δ34SL-pyr)通常显著高于全岩黄铁矿的硫同位素值(δ34ST-pyr),最大差值可达48.5‰。在利用黄铁矿的硫同位素组成来反推当时古海洋环境时,需要区分不同形态黄铁矿,仔细剔除大颗粒黄铁矿,降低成岩期黄铁矿对样品中硫同位素组成的影响。更细致的微区黄铁矿硫同位素分析工作将依赖于SIMS分析测试手段进行。 相似文献
9.
沁水盆地晚古生代煤中硫的地球化学特征及其对有害微量元素富集的影响 总被引:1,自引:0,他引:1
煤中硫是多种有害微量元素的重要载体。基于形态硫分析、电感耦合等离子质谱及X射线衍射等方法分析沁水盆地晚古生代煤中硫和有害微量元素的分布规律,探讨了煤中硫对有害微量元素富集的影响,运用带能谱的扫描电镜和光学显微镜划分煤中硫化物的微观赋存特征。结果表明,沁水盆地煤中硫整体上以有机硫为主,平均占全硫的78%,只有在太原组个别高硫煤中以黄铁矿硫为占优势。显微镜和扫描电镜下可识别出煤中黄铁矿的微观赋存状态包括莓球状、薄膜状、晶粒状、结核状、团窝状黄铁矿和细粒黄铁矿集合体,白铁矿的微观赋存特征包括聚片状、板状和矛头状白铁矿,部分白铁矿与黄铁矿共生。沁水盆地煤中有害微量元素含量整体较低,黄铁矿是有害微量元素As、Se和Hg的重要载体,而有机硫决定了煤中U的富集。研究认为,成煤时期海水对泥炭沼泽的影响导致太原组煤中全硫和黄铁矿硫较高,太原组煤中硫的来源具有多样性,煤中黄铁矿具有多阶段演化的特点。 相似文献
10.
S. C. Tripathi 《Journal of Earth System Science》1985,94(3):315-321
The present paper records the occurrence of framboidal pyrite and algal pyrite in the Mussoorie phosphorite deposit. The significance
of organic matter and sediment composition have also been discussed. The petrographic and analytical data indicate the dominant
role of organic matter in the formation of pyrite. It is concluded from the textural study of pyrite that framboids have formed
earlier in the sediment and subsequently the euhedral pyrite nucleated on them, gradually increasing in its abundance. 相似文献
11.
The bedded clastic ore widespread on the slopes and flanks of the deeply eroded sulfide mound at the Saf’yanovka volcanic-hosted
copper massive sulfide deposit consists of products of destruction of the Paleozoic black smoker along with diverse newly
formed sulfides. The size of ore clasts gradually decreases with distance from the massive ore mound, from more than tens
of centimeters to a few millimeters. The clastic sediments are characterized by good preservation of sulfide material composed
of hydrothermal sedimentary colloform pyrite, chalcopyrite with lamellae of relict isocubanite, and concentrically zoned sphalerite.
Numerous pyrite framboids, nodules, and euhedral crystals; chalcopyrite segregations; and twinned sphalerite are typical of
sulfide-bearing black shale. Enargite, tennantite, and galena were formed after pyrite, filling interstices between nodules
or partially replacing and corroding the previously formed minerals. The interrelations between minerals show that the fine-clastic
sulfide-bearing black shale underwent diagenesis in the presence of organic matter. 相似文献
12.
Craig H. B. Leitch 《Mineralium Deposita》1981,16(2):241-257
A distinct vertical zonation very similar to that described for the Kuroko deposits of Japan, is displayed by both mineralogy and textures of sulphides from the Lahanos and Kzlkaya massive sulphide deposits of northeastern Turkey. A deeper erosional level is exposed at the Kzlkaya deposit, so that only remnants of the massive sulphide ore zone are present. The zonation is from an upper zone of massive Cu and Zn sulphides (black and yellow ore) with fine-grained, colloform, banded, framboidal, and spherulitic textures, downwards through an intermediate zone of low Cu-Zn massive pyrite with transitional textures, to a lower zone of stockwork and impregnated pyrite displaying euhedral, zoned textures. The fine-grained and colloform pyrite of the upper zones is progressively overgrown by, and recrystallized to, the massive and euhedral pyrite of lower zones. The original textures of these deposits are best preserved by pyrite. The previous interpretation of these textures, of sulphide deposition from colloidal solutions ponded by an impermeable pyroclastic horizon, is reexamined in the light of present observations. Although ultra-fine-grained sulphides, framboids, and radially-cracked spherules could have formed by replacement of pre-existing minerals by a colloidal solution, the colloform and banded textures are indicative of growth in open spaces. It thus seems likely that the fine-grained colloform sulphides, including chalcopyrite, sphalerite, and tennantite as well as pyrite, were initially deposited on or near the surface of the sea-floor. Additional evidence for this interpretation is seen in the progressive recrystallization of the sulphide textures to massive, much coarser, pyrite in the lower zones. This recrystallization may in part be due to diagenetic and hydrothermal processes operating after formation of the original layered sulphides. These conclusions are in agreement with those reached for the similar, but larger Madenköy deposit 100 km to the east. 相似文献
13.
广西宁明组植物化石中黄铁矿及其沉积意义 总被引:1,自引:1,他引:0
对化石中的黄铁矿进行研究,有助于明确生物的化石化过程以及期间的沉积微环境。利用光学显微镜和扫描电镜,对广西宁明组植物化石中保存的黄铁矿进行了分析,发现离散型单晶和成群的莓状体共同保存。单晶绝大多数为无规则至球状体,晶棱不明显,表面可见凹点;少数为八面体,晶棱明显,表面光滑;单晶直径为0.79~1.58 μm;莓状体为圆球状,粒径为7.23~14.95 μm,S/Fe原子个数比的均值为1.54。莓状体的粒径大小和变化幅度均处于低值段,其S/Fe原子个数比值小于2,结果均说明当时植物体上、下表皮间为一种贫氧的水体环境,并在短时间内形成了莓状体。植物化石上、下表皮间由于未保存组织结构,而被大量的、近似层状分布的黄铁矿单晶和莓状体充填,结果支持了化石内莓状体形成与有机质降解之间存在着必然联系。 相似文献
14.
滇东南马关都龙是一个以锡锌为主,共-伴生铟、铜、铅、钨、铁、银等多种元素的锡锌多金属超大型矿床。虽然前人从矿物学、矿床地球化学、年代学等不同角度开展了较多的研究,该矿床锡锌多金属矿化为燕山晚期岩浆热液活动的产物已是不争的事实,但关于该矿床是否存在热水沉积作用及其与锡锌多金属成矿作用的关系依然存在较大争议。本文选取都龙矿区广泛存在的黄铁矿作为主要研究对象,在矿相学基础上利用LA-ICPMS对不同阶段黄铁矿的微量元素组成开展了系统的研究。野外及显微鉴定结果表明,矿区存在四种类型(期次)的黄铁矿,即:鲕状黄铁矿Py1;穿切或交代Py1的细脉状黄铁矿Py2;与闪锌矿等硫化物共生的自形黄铁矿Py3;包裹早期黄铁矿或闪锌矿等硫化物的他形黄铁矿Py4。LA-ICPMS分析结果表明,该矿床黄铁矿中富集多种微量元素,其中Co、Ni、As、Ge等元素以类质同象的形式存在黄铁矿晶格中,而其余元素多以显微矿物包体形式赋存于黄铁矿中。上述四期黄铁矿微量元素组成存在较大差别,Py1相对富集Zn和As,而其余微量元素含量较低,Co与Ni含量较低,Co/Ni比值远低于1.00,其微量元素组成与典型沉积作用形成黄铁矿基本一致; Py2与Py1具有相似的微量元素组成特征,其Co/Ni比值接近Py1变化范围; Py3和Py4除富集Zn、As外,Mn、Co、Ni、Cu、Sb、Pb、Bi元素含量也相对较高,其Co/Ni比值相对较高,多大于1,与典型岩浆热液型黄铁矿微量元素组成相似,而与沉积型黄铁矿差异明显。结合各阶段黄铁矿产出地质特征,对比不同类型黄铁矿微量元素组成,本研究认为:Py1鲕状黄铁矿为热水沉积作用形成; Py2为Py1变质改造形成的细脉状黄铁矿,其微量元素继承了Py1; Py3为岩浆热液活动形成的自形黄铁矿; Py4为岩浆热液活动晚期形成的他形黄铁矿,Ag和Bi组成作为区分不同成因类型黄铁矿的化学指标的潜力。矿区早期沉积作用形成鲕状黄铁矿过程可能为后期成矿作用提供了部分硫源及少量Zn等成矿物质,海西-印支期区域变质改造作用对矿区成矿作用影响不大,而燕山晚期岩浆热液活动才是矿区锡多金属大规模成矿作用的主导因素。 相似文献
15.
江西武山铜矿床海底喷流与岩浆热液叠加成矿作用: 控矿地质条件、矿石结构构造与矿床地球化学制约 总被引:4,自引:2,他引:2
长江中下游成矿带存在一套产于泥盆系五通组砂岩和石炭系黄龙组白云质灰岩层间的层状含铜硫化物矿体,对其成因存在很大争议。本文以产出典型层状矿体的武山铜矿为解剖重点,结合区域控矿地质要素、矿石结构构造特征及矿石中黄铁矿的稀土元素地球化学,提出层状矿体是海底喷流同生沉积与岩浆热液叠加成矿作用的产物。对武山铜矿层状矿体中的胶黄铁矿和黄铁矿、矽卡岩矿体中黄铁矿和脉状矿体中黄铁矿进行的稀土元素含量分析发现,从层状矿体胶黄铁矿、层状矿体黄铁矿、到矽卡岩和脉状矿体黄铁矿,稀土总量和稀土配分曲线显示递变规律,即层状矿体胶黄铁矿具有较低的稀土总量和轻重稀土分异不明显的较平坦型配分曲线;而矽卡岩和脉状矿体黄铁矿具有较高的稀土总量和轻重稀土分异较明显的右倾型配分曲线。层状矿体黄铁矿的稀土特征则介于两者之间,反映了岩浆热液的叠加作用。根据矿物组合共生关系及矿石结构构造的研究,可将武山铜矿黄铁矿分为3个期次:I期为微球粒、草莓状、条带状、纹层状沉积型黄铁矿; II期为半自形、自形粒状和港湾状黄铁矿,可见与长英质斑晶、岩屑或晶屑凝灰岩伴生或共生, 说明黄铁矿形成与同沉积期火山凝灰岩的密切关系。III期为块状、粗晶状、碎裂状黄铁矿。黄铜矿的形成晚于I、II期黄铁矿,成微粒状、脉状交错穿插或包裹早期球粒状、粒状黄铁矿及长英质矿物。对新发现的灰泥丘构造的详细研究表明,武山铜矿中含矿的灰泥丘与武山外围乌石街出露的不含矿的灰泥丘具有不同的特征,其中前者具有封闭的孔洞系统,而后者为开放的孔洞系统。总之,武山铜矿控矿地质条件、矿石结构构造及不同类型矿石黄铁矿的稀土元素证据表明矿床存在两期成矿事件,即海西期海底喷流同生沉积成矿期和燕山期岩浆热液叠加成矿期。 相似文献
16.
黔东南金成矿区位于江南造山带金成矿省的西南端,成矿条件优越。坑头金矿床是黔东南金成矿区的一个中型矿床,在其深部找矿中,发现除石英脉型矿体外,还存在蚀变岩型矿体。然而,这种蚀变岩型矿体的构造形态、蚀变类型、与石英脉型矿体之间关系和金的赋存状态尚不清楚。本研究与当前的勘查工作紧密结合,围绕石英脉型矿体和新发现的蚀变岩型矿体为研究切入点,借助微区分析技术(扫描电镜和电子探针)进行系统的“流体- 蚀变- 成矿”研究。蚀变矿物金红石矿物化学显示为热液成因,具有典型造山型金矿床的金红石标型特征。围岩的沉积- 成岩过程(包括低级变质作用过程),主要形成了草莓状黄铁矿和含铁碳酸盐岩,为后期含金硫化物(黄铁矿和毒砂)的形成提供物质基础(如Fe)。金的成矿富集过程主要经历了绢云母+毒砂+黄铁矿+石英(Ser+Apy+Py+Qtz)阶段、黄铁矿+毒砂+石英(Py+Apy+Qtz)阶段和自然金+石英(Au0+Qtz)阶段。在Ser+Apy+Py+Qtz阶段,主要表现为含矿流体与围岩的初级交代,形成大量浸染状黄铁矿+毒砂的硫化带;Py+Apy+Qtz阶段主要为流体沿着剪切带再交代,形成蚀变岩型矿体;Au0+Qtz阶段主要表现为含金石英大脉的形成。金的赋存状态研究显示,蚀变岩矿体中Au以他形显微- 次显微自然金赋存在蚀变岩硫化物裂隙中,或以化学结合态方式赋存在黄铁矿和毒砂中(后者占主导)。在晚期Au0+Qtz阶段,自然金呈自形、粗粒(~0. 5 mm)赋存在石英脉中。综合研究认为,多期构造(流体)交代导致的溶解- 再沉淀可能是坑头金富集成矿主要原因之一。 相似文献
17.
The Nature of Ore‐forming Fluids of the Carlin‐type Gold Deposit in Southwest China: A Case from the Zimudang Gold Deposit 
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下载免费PDF全文 The Zimudang gold deposit is a large Carlin‐type gold deposit in the Southwest Guizhou Province, China, with an average Au content of 6.2 g/t. Gold is mainly hosted in the fault zone and surrounding strata of the F1 fault and Permian Longtan Formation, and the ore bodies are strictly controlled by both the faults and strata. Detailed mineralogy and geochemistry studies are conducted to help judge the nature of ore‐forming fluids. The results indicate that the Au is generally rich in the sulfides of both ores and wall rocks in the deposit, and the arsenian pyrite and arsenopyrite are the main gold‐bearing sulfides. Four subtypes of arsenian pyrite are found in the deposit, including the euhedral and subhedral pyrite, framboidal pyrite, pyrite aggregates and pyrite veins. The euhedral and subhedral pyrite, which can take up about 80% of total pyrite grains, is the dominant type. Au distributed unevenly in the euhedral and subhedral pyrite, and the content of the Au in the rim is relatively higher than in the core. Au in the pyrite veins and pyrite aggregates is lower than the euhedral and subhedral pyrite. No Au has been detected in the points of framboidal pyrites in this study. An obvious highly enriched As rim exists in the X‐ray images of euhedral pyrites, implying the ore‐forming fluids may be rich in As. The relationship between Au and As reveals that the Au may host as a solid solution (Au+) and nanoparticles of native gold (Au0) in the sulfides. The high Co/Ni ratio (>1) of sulfides and the enrichment of W in the ores all reflect that the gold‐bearing minerals and ore‐forming process were mainly related to the hydrothermal fluids, but the magmatic and volcanic activities cannot be neglected. The general existence of Au and As in the sulfides of both ores and wall rocks and the REE results suggest that the ore‐forming fluids may mainly be derived from the basin itself. The enrichment of Tl suggests that the ore‐forming fluids may be enriched in Cl. The Ce and Eu show slightly or apparently negative anomalies, which means the ore fluids were probably formed under reducing environment. The Y/Ho ratios of ore samples fluctuate around 28, implying the bicarbonate complexation and fluorine were both involved in the ore‐forming process. Combined with the previous studies and our results, we infer that the ore‐forming fluids enriched Au, As, HS? and halogen (F, Cl) were derived from the mixture of reducing basinal fluids and magmatic or volcanic hydrothermal fluids. 相似文献
18.
Heather A. Lowers George N. Breit John Whitney Md. Nehal Uddin 《Geochimica et cosmochimica acta》2007,71(11):2699-2717
Sediment from two deep boreholes (∼400 m) approximately 90 km apart in southern Bangladesh was analyzed by X-ray absorption spectroscopy (XAS), total chemical analyses, chemical extractions, and electron probe microanalysis to establish the importance of authigenic pyrite as a sink for arsenic in the Bengal Basin. Authigenic framboidal and massive pyrite (median values 1500 and 3200 ppm As, respectively), is the principal arsenic residence in sediment from both boreholes. Although pyrite is dominant, ferric oxyhydroxides and secondary iron phases contain a large fraction of the sediment-bound arsenic between approximately 20 and 100 m, which is the depth range of wells containing the greatest amount of dissolved arsenic. The lack of pyrite in this interval is attributed to rapid sediment deposition and a low sulfur flux from riverine and atmospheric sources. The ability of deeper aquifers (>150 m) to produce ground water with low dissolved arsenic in southern Bangladesh reflects adequate sulfur supplies and sufficient time to redistribute the arsenic into pyrite during diagenesis. 相似文献
19.
Taldybulak Levoberezhny(又称左岸)矿床位于吉尔吉斯斯坦北天山东段,是区内第三大金矿(金储量130 t,平均品位6.9 g/t)。长期以来,该矿床矿物学研究薄弱,成因类型存在争议,已有观点包括斑岩型、造山型、多阶段叠加成矿等。野外地质调查及室内岩相学鉴定发现:金矿化同时受韧性剪切带和岩体控制,局部显示一定的顺层特征;常见矿石类型包括浸染细脉浸染型、石英电气石硫化物型、块状硫化物型、稀疏浸染型、方解石硫化物脉型等;相关围岩蚀变以硅化、绢云母化、电气石化、碳酸盐化最为强烈,可见绿泥石化、绿帘石化、泥化等。电子探针分析发现,左岸金矿同时发育可见金和不可见金。前者包括银金矿(w(Au)=67.90%~80.86%,w(Ag)=14.24%~30.76%)、含银自然金(w(Au)=88.95%,w(Ag)=8.09%)等,以包体金、裂隙金或粒间金形式赋存于黄铁矿中。后者可赋存于黄铁矿和黄铜矿中(w(Au)=0.16%~0.33%)。不同类型矿石中黄铁矿的形态、结构、成分存在一定差异,显示了叠加成矿的可能性。浸染状细脉浸染型矿石中黄铁矿以中粗粒(30~1 300 μm,多数>200 μm)、半自形自形立方体为主,基本无碎裂或碎裂不明显,可含有自然金、银金矿或硅酸盐包体;成分上具有中等的As(0.03%~1.72%,平均0.66%)、Co(0.06%~0.19%,平均0.13%)、Te(0.03%~0.06%,平均0.04%)含量和As/S、Fe/S、Co/As比值,基本不含Cu、Pb、Zn、Ag。石英电气石硫化物型矿石中黄铁矿多呈中粗粒(30~2 000 μm)、半自形它形粒状,往往发生碎裂,并被黄铜矿、方铅矿等矿物交代;部分颗粒可含有银金矿或硅酸盐包体;总体具有较高的As(0.05%~2.05%,平均0.97%)、Co(0.05%~0.34%,平均0.15%)含量和As/S、Fe/S比值,Co/As比值较低。块状硫化物型矿石中黄铁矿多呈半自形它形粒状产出,但粒度变化较大(250~3 000 μm或者30~300 μm);化学成分上以较高的As(0.05%~2.20%,平均1.21%)、Te(0.04%~0.09%,平均0.06%)含量,高的As/S、Fe/S比值和低的Co/As比值为特征。稀疏浸染型矿石中黄铁矿呈中粒(集中于50~200 μm)、半自形它形粒状产出,内部可含有硫化物、硅酸盐、银金矿、自然金等包体;可发生碎裂并被黄铜矿等沿裂隙充填交代;化学成分变化较大,总体具有较高的Co(0.08%~1.04%,平均0.35%)含量和Co/As比值,几乎不含Te、Cu、Zn。方解石硫化物脉型矿石中黄铁矿呈中粗粒(40~480 μm)、半自形它形粒状产出,内部往往含硅酸盐等包体;黄铁矿以显著低的As(0.04%~0.08%,平均0.06%)、Co含量(0.04%~0.20%,平均0.10%)以及As/S、Fe/S比值为特征,Co/As比值较高,且不含Zn。从上述左岸金矿的控矿构造、矿化类型、围岩蚀变以及不同类型矿石中黄铁矿形态、结构、成分的差异等4方面特征显示,左岸金矿可能存在多期次矿化、叠加成矿。 相似文献
20.
Air entrainment in fragmented magmas controls the dynamics of volcanic eruptions. Pyroclast oxidation kinetics may be applied to quantify the degree of magma–air interaction. Pyrrhotite (Po) in volcanic rocks is often oxidized to form magnetite (Mt) and hematite (Hm), and its reaction mechanisms are well constrained. To test utilizing Po oxidation as a marker for magma–air interactions, we compared the occurrence of Po oxidation products from three different eruption styles during the Sakurajima 1914–1915 eruption. Pumices from the Plinian eruption include columnar-type Fe oxides (Mt with subordinate width of Hm) often accompanied by relict Po. This columnar type is also found in clastogenic lava, where it is almost completely oxidized to Hm. The effusive lava contains framboidal aggregates of subhedral to anhedral Mt crystals without Hm. The formation mechanisms of columnar and framboidal Fe oxides were estimated. The columnar type Fe oxides were formed syn-eruptively through gaseous reactions, as opposed to the melt in a magma chamber, as demonstrated by the Ti-free nature of the columnar Mt and its synchronous oxidation to Hm. By contrast, the framboidal type was formed in a melt with decreasing fS2. The calculation of Hm growth in a conductively cooling pumice clast constrains the surface temperature of pumice in the eruption column. The paragenesis and oxidation degree of Po and Fe oxides are consistent with the eruption processes in terms of magma fragmentation, air entrainment, and welding, and can, therefore, be a responsive marker for the magma–air interaction. 相似文献