铝对铬成矿地球化学的依存性和对抗性

基于岩浆铬矿床与超镁铁质岩石的关系，从元素亲合性和共生规律的角度揭示了铝对铬成矿制约的主导作用，分析了铝和铬亲石、亲氧的二重性及其晶体化学的依存关系。论证了超镁铁Ｓｉ－Ｏ体系中铝丰度过高或过低均不利于铬的成矿。揭示了制约元素分散富集的因素都是在一定条件下互为依存和转化的，是在动态中的矛盾的对立和统一。     

铝对铬成矿地球化学的依存性和对抗性

基于岩浆铬矿床与超镁铁质岩石的关系，从元素亲合生和共生规律的角度揭示了铝对铬成矿制约的主导作用，分析了铝和铬亲石、亲氧的二重性及其晶体化学的依存关系。论证了超镁铁－Ｓｉ－Ｏ体系中铝在度过高或过低不利于铬的成矿。揭示了制约元素分散富集的因素都是一一条件下互为依存和转化的是在动态中的矛盾的对立和统一。     

山东、辽宁金伯利岩中石榴石的类型、标型特征及其与金刚石的关系

金伯利岩中的镁铝榴石是寻找金刚石的重要指示矿物。镁铝榴石的Cr2O3、CaO等氧化物含量及其颜色、折光率等物理光学性质可作为这种石榴石的标型特征。 本文将山东、辽宁等地金伯利岩中的石榴石的电子探针分析结果按分子数配分的方法计算了端员分子百分数及其他化学参数。用MPV—1显微光度仪测定了石榴石的透射率色散值,通过计算求得颜色指数。按Dawson等人的分类,本次研究样品以铬镁铝榴石为主,其次是低钙-铬镁铝榴石、钙铬-镁铝榴石和镁铬-钙铬-镁铝榴石;钛镁铝榴石和钙镁铝-铁铝榴石等少量。作者用铬、钙、镁三组份数绘制了石榴石与金刚石关系判别图解,分为五个区(A、B、C、D、E)、落入A区的低钙-铬镁铝榴石、铬镁铝榴石和钙铬-镁铝榴石等与金刚石的形成关系最密切。     

流体在岩浆型铬铁矿和铂族元素成矿过程中的作用及意义

镁铁- 超镁铁岩是揭示地幔物质组成和壳幔相互作用的重要窗口，也是Ni- Cu- PGE- Cr等金属矿产资源的重要载体。不同的镁铁- 超镁铁岩体赋矿特征明显不同：蛇绿岩以产出铬铁矿床为特征，阿拉斯加型岩体主要赋含铂族元素(PGE)矿床，大型层状岩体则可同时产出铬铁矿床、PGE矿床和Cu- Ni硫化物矿床。这种成矿差异显然与赋矿岩体形成的构造背景、母岩浆经历的岩浆演化过程有关，但缺少关键控制因素的研究。前人对上述不同种类矿床的研究工作主要集中于地幔源区的部分熔融、上升过程中或岩浆房内的围岩混染和结晶分异等岩浆过程，而极少关注流体作用。近年来，实验岩石学和岩石地球化学的研究均表明幔源岩浆演化过程中的流体活动可能对成矿元素的富集迁移起到至关重要的作用，同时这些成矿元素的赋存状态和分配系数也在不断更新。厘清Cr和PGE在熔体演化——尤其是流体出溶过程中的地球化学行为，刻画并揭示其迁移富集、分离和再富集的成矿过程及控制因素，已成为当前岩浆矿床研究的热点。本文围绕富水流体与铬铁矿和PGE成矿关系的科学问题，总结了不同镁铁- 超镁铁岩体的成矿差异以及铬铁矿和PGE矿床成矿过程中的流体活动记录，提出流体性质和组分对铬铁矿和PGE迁移富集的控制作用，强调有必要开展蛇绿岩、大型层状镁铁- 超镁铁岩体和阿拉斯加型岩体的对比研究。     

东天山二叠纪镁铁-超镁铁质成矿岩体造岩矿物特征及其成因意义

东天山造山带与镁铁-超镁铁质岩体有关的铜镍硫化物矿床数量多,分布集中,是我国重要的铜镍成矿带之一。成矿岩体多以小岩体群形式产出,由西向东分布有白鑫滩、黄山和图拉尔根3个岩体群,大型矿床主要赋存在黄山岩体群内。本文对3个岩体群内成矿岩体的主要造岩矿物进行了系统的对比研究。成矿岩体的主要造岩矿物为贵橄榄石、古铜辉石、单斜辉石、斜长石和角闪石以及少量的铬尖晶石和金云母。橄榄石Al温度计计算结果表明,黄山岩体群内成矿岩体的母岩浆结晶温度介于1 143~1 257℃之间,略低于白鑫滩和图拉尔根岩体群(1 283~1 301℃)。单斜辉石压力计算表明成矿岩体的结晶压力相似,介于0.31~0.33 GPa之间。成矿岩体中均富含含水矿物,且单斜辉石结晶早于斜长石,指示成矿岩体的原始岩浆形成于富水环境。成矿岩体的单斜辉石具有较高的Al/Ti值,铬尖晶石和橄榄石具有与岛弧火山岩相似的矿物学特征,结合区域构造演化,认为东天山镁铁-超镁铁质成矿岩体的原始岩浆是被消减板片交代过的地幔部分熔融的产物。矿物学特征对比显示了黄山岩体群内成矿岩体更富斜方辉石和中性斜长石,且具有较低的铬尖晶石Cr~#值和橄榄石Ca含量。结合前人研究成果和相关地球化学数据,认为相对高的混染程度导致了黄山岩体群的母岩浆富SiO_2和Al_2O_3,同时降低了岩浆的结晶温度。     

镁铁岩-超镁铁岩侵入体含铂性评价标志

镁铁岩-超镁铁岩侵人体中常常含有少量及微量硫化物,它们是硅酸盐岩浆与硫化物熔体不混溶作用的产物。由于岩石圈环境下铂族元素亲硫性的制约,当硅酸盐岩浆与硫化物熔体呈液态熔离时,铂族元素便被硫化物熔体所捕集和运载,尔后在重力分异过程中下沉到岩盆底部富集成矿。能否依据岩盆上部岩浆熔离硫化物的铂族元素丰度值来判断岩盆深部铂族元素潜在成矿能力呢?这是本试图回答的问题。     

镁铁-超镁铁质岩成岩成矿过程中的锂同位素地球化学:回顾与展望

锂（Li）同位素体系是示踪镁铁-超镁铁质岩成岩成矿过程（如结晶分异、地壳混染和熔/流体-矿物相互作用等）的全新工具.通过实例研究综述了原位Li同位素在镁铁-超镁铁质岩中应用的主要进展,主要包括:（1）美国Yellow Hill阿拉斯加型杂岩体Li同位素研究揭示弧岩浆早期堆晶过程可发生明显的Li同位素分馏;（2）土耳其和西藏蛇绿岩的Li同位素研究证明其在示踪蛇绿岩地幔序列岩石成因及豆荚状铬铁矿演化过程中的潜力;（3）Stillwater层状岩体超镁铁岩带Li同位素研究揭示流体对于大型层状岩体各矿物形成及铬铁岩中矿物元素交换的作用;（4）橄榄石Li含量与同位素分析在揭示岩浆铜镍矿床成矿过程的应用.      

青海省化隆地区镁铁-超镁铁质侵入岩含矿特点与成矿规律

铁质系列的镁铁-超镁铁质侵入岩具有镍矿成矿专属性,但并非所有的类似侵入岩都含矿,根据镁铁-超镁铁质侵入岩含矿特点可总结成矿规律,有效指导区域找矿实践。青海省化隆地区发育114个镁铁-超镁铁质侵入岩体,其含矿性特点与成矿规律是制约该岩带找矿突破的关键因素。本文通过对区内裕龙沟、亚曲、阿什贡及下什堂等岩体地质特征、年代学、岩石地球化学特征及区域对比分析研究,发现这些岩体具有相近的成岩时代,集中于436~449 Ma,可能是同一构造背景的产物。S同位素、Re-Os同位素及Sr-Nd同位素共同揭示了岩体的母岩浆来自一个曾被交代富集的地幔源区,其εNd(t)=-7.74~+8.36,初步表明其岩浆源区应该位于软流圈地幔,并混有一部分被俯冲板片交代的地幔楔物质。而这种交代富集事件可能与祁连、柴北缘在早古生代期间大规模的俯冲有关,是弧岩浆作用的成矿表现。化隆群富硅地层S的混入为硫化物的不混溶创造了条件,致使岩浆中熔离出的硫化物液滴聚集,侵位到理想空间形成不同品位不同类型的铜镍矿体。岩相分异充分、橄榄石富集、基性程度较高的侵入岩体相对易形成镍矿体,对青海省化隆地区镁铁-超镁铁质岩体的含矿性评价具有重要指示作用。     

辽宁瓦房店金伯利岩中石榴石特征及种类鉴定

辽宁瓦房店金刚石矿区金伯利岩中的石榴石一直被当作镁铝榴石。为了确定矿区颜色复杂的石榴石种类,本文对矿区的石榴石进行了系统的采样分析,测定了112件石榴石样品的晶胞参数、50件样品的微区化学成分和40件样品的红外光谱。利用石榴石晶胞参数、红外光谱、化学成分和化学分子式方法对矿区石榴石进行分类,结果显示:晶胞参数分类法误差大,容易得出错误结论;红外图谱分类法准确度不高,只能作为参考方法;化学成分分类法太过笼统,达不到详细划分石榴石种类的目的;化学分子式分类法可把矿区的石榴石详细划分6个矿种:镁钙铁-铝铬铁榴石、镁铁钙-铝铬铁榴石、镁钙铁-铝铬榴石、镁钙-铝铬铁镁榴石、镁铁钙-铝铬榴石、镁铁钙-铝铁铬榴石,每种石榴石都充分反映了A、B离子的种类及占位特征,是4种分类方法中最为科学的方法。研究认为瓦房店金刚石矿区金伯利岩中石榴石A端元成分以Mg²⁺离子占位为主;B端元成分以Al³⁺离子占位为主。由于阳离子替代普遍,A、B端元成分复杂,瓦房店金伯利岩中不存在单纯意义上的镁铝榴石。     

幔源岩与自然金

根根文献报道,近年来在一些地区的幔源岩中不断发现自然金如: 1.在我国西藏红区幔源超镁铁岩中除常量矿物橄榄石、辉石、铬尖晶石和少量矿物铁铝—镁铝榴石、碳硅石、锆石、刚玉、碳铬矿等矿物之外,还发现了自然金。 2.在取自印度洋断裂下部幔源超镁铁岩的碎块中找到了20粒与硫化物共生的自然金,粒度为～0.05mm,他形晶(片状、树枝状、变形虫状)。自然金的直接围岩为蛇纹石     

富碱斑岩中超镁铁深源包体岩石的元素地球化学分析

云南省鹤庆县六合乡富碱斑岩体中的超镁铁深源岩石包体，对于研究富碱斑岩岩浆的起源和演化及其成岩成矿作用具有重要意义。在对深源包体岩石的元素地球化学特征进行系统研究后，发现该深源包体具有原始上地幔岩在地幔条件下受到一定程度富集地幔流体交代作用改造的特征，具有富集地幔的低程度部分熔融属性，为富碱斑岩的成岩成矿作用提供了重要的元素地球化学依据。     

Late Paleozoic mafic–ultramafic intrusions in southern Central Asian Orogenic Belt (NW China): Insight into magmatic Ni–Cu sulfide mineralization in orogenic setting

The mafic–ultramafic intrusions hosting magmatic Ni–Cu sulfide ore deposits, usually present within the Precambrian cratons and on their margin, have been extensively studied, whereas those occurring within the Phanerozoic orogenic belts have received little attention. The southern margin of the Central Asian Orogenic Belt is a region of late Paleozoic mafic–ultramafic intrusions emplaced during post-orogenic stage. In order to recognize the mineralization features, this study compares barren or weakly mineralized mafic–ultramafic intrusions in the Beishan with those hosting Ni–Cu sulfide ore deposit in the Altay and Eastern Tianshan in petrology, mineralogy and geochemistry aspects. Several mineralization features can be recognized with respects to petrology, mineralogy and geochemistry from comprehensive comparisons. Among the mineralization indicators, we highlight strong alteration accompanying sulfide emplacement, post-erosion exposure of magma conduit, abundant primary hydrous minerals and potential transportation mechanism of ore-forming elements. Other indicators are the presence of orthopyroxene and pyroxenite for potential sulfide formation through crystal fractionation, restricted Fo and Ni ranges in olivines for sulfide segregation, and some other special geochemical characteristics related to crustal contamination. The variation in mineralization could be ascribed to different degrees of partial melting, crustal assimilation and subduction-related modification of a mantle source. We suggest that the Ni–Cu sulfide mineralization of mafic–ultramafic intrusions within orogenic belts is remarkably different from that of cratonic and continental marginal settings in respects of petrogenesis and mineralizing mechanism. Magmatic conduit-type Ni–Cu sulfide ore deposit is a target for future prospecting and exploration for mafic–ultramafic intrusions in the orogenic belts.     

四川杨柳坪Cu—Ni—PGE矿区基性—超基性岩的地球化学特征及其含矿性

杨柳坪矿区的基性-超基性岩主要呈层状产出，可以分为2类，即含矿的强蚀变超基性岩和不含矿的弱蚀变或未明显蚀变的基性岩，前者属于苦橄岩并具有科马提岩的地球化学特征（不具鬣刺结构，但可称为科马提质的苦橄岩），同时还具有高H2O^ 、高CO2的特点，并且H2O^ 、CO2越高矿化越强，表明成矿作用与热液蚀变有关，后者在地质特征和地球化学特征上与峨眉山玄武岩相似，成矿元素含量正常。     

Chromium mineralization in the Khibiny alkaline massif (Kola Peninsula,Russia)

This paper presents new data on chromium mineralization in a fenitized xenolith in Mt. Kaskasnyunchorr in the Khibiny alkaline massif (Kola Peninsula, Russia) and summarizes data on Cr mineralogy in the Khibiny Mountains. Protolith silicates that contained Cr³⁺ admixture are believed to be the source of this element in the fenite. Cr-bearing (maximum Cr₂O₃ concentrations, wt %, are in parentheses) aegirine (5.8), crichtonite-group minerals (2.1), muscovite (1.3), zirconolite (1.1), titanite (1.0), fluorine-magnesioarfvedsonite (0.8), biotite (0.8), ilmenite (0.6), and aenigmatite (0.6) occur in the fenite. The late-stage spinellides of the FeTi-chromite-CrTi-magnetite series, which are very poor in Mg and Al and which formed after Crrich aegirine and ilmenite, are the richest in Cr (up to 42% Ct₂O₃). Cr concentrations grew with time during the fenitization process. Unlike minerals in the Khibiny ultramafic rocks where Cr is associated with Mg, Al (it is isomorphic with Cr), and with Ca, chromium in the fenites is associated with Fe, Ti, and V (with which Cr³⁺ is isomorphic) and with Na in silicate minerals. Cr³⁺ Mobility of Cr³⁺ and the unique character of chromium mineralization in the examined fenites were caused by high alkalinity of the fluid.     

新疆托里萨Ⅰ金矿床的地质特征及成因研究

新疆托里萨I金矿床产于托里蛇纹岩套的超镁铁岩相内,与超镁铁岩的蚀变交代作用有关.矿床地球化学研究表明该矿床的形成与海底热泉活动有关,是一种新的金矿床类型.     

Petrology, geochemistry and mineralization of the Las Águilas and Virorco mafic–ultramafic bodies, San Luis Province, Argentina

The layered mafic–ultramafic rocks in the Sierras de San Luis, Argentina (Las Águilas, Las Higueras and Virorco), constitute a 3–5-km-wide belt that extends over 100 km from NE to SW. They carry a sulphide mineralization consisting of pyrrhotite, pentlandite and chalcopyrite, in veins and as disseminated to massive ore. Disseminated spinels are frequently associated with the sulphide minerals as well as platinum group minerals. A strong correlation between S, Ni, Co, Cu, Cr, Pt and Pd indicates the presence of one to three levels of mineralization within the ultramafic units. The maximum concentration of these elements coincides with the units containing platinum group minerals (PGM) and spinel group minerals. This clear relationship constitutes a good prospecting guide in the search for layers with high-grade ore, probably associated with deeper stratigraphic levels where ultramafic rocks are dominant. The bulk rock chemistry and concentrations of metals and platinum group elements as well as textural evidence suggest that the parental magma was mafic with tholeiitic affinities and MgO rich. The Las Águilas layered mafic–ultramafic body and the remaining bodies in the area bear similar characteristics to well-known stratified complexes developed in extensional tectonic regimes, as it is the case of Jinchuan (China), Kabanga (Tanzania) and Fiambala (Argentina).     

关于我国超基性岩含铬性评价探讨

铬铁矿的找矿和研究工作有三个相互联系的环节,即在有利构造部位寻找超基性岩带(蛇绿岩带),圈定其中的超镁铁岩体;评价岩带和岩体的含铬性,选择铬铁矿找矿靶区;在含矿岩体中普查勘探工业铬铁矿矿床.我国近三十年来的铬矿找矿工作,对解决第1、3环节问题,已在实践和方法上积累了丰富经验:关键是如何从大量岩带(体)中判别具有成矿远景的岩带(体),建立起—套简易而有效的评价超基性岩含铬性的准则.     

Geochemistry and mineralogy of platinum-group elements(PGE) in chromites from CentralnoyeⅠ,Polar Urals,Russia

The Polar Urals region of northern Russia is well known for large chromium(Cr)-bearing massifs with major chromite orebodies,including the Centralnoye I deposit in the Ray-Iz ultramafic massif of the Ural ophiolite belt.New data on platinum(Pt)-group elements(PGE).geochemistry and mineralogy of the host dunite shows that the deposit has anomalous iridium(Ir) values.These values indicate the predominance of ruthenium-osmium-iridium(Ru-Os-Ir)-bearing phases among the platinum-group mineral (PGM) assemblage...     

The Early Permian mafic–ultramafic complexes in the Beishan Terrane,NW China: Alaskan-type intrusives or rift cumulates?

The petrogenesis and geodynamic setting of the Early Permian mafic–ultramafic complexes in the Beishan Terrane, NW China have important bearing on the prospects of Ni–Cu–PGE sulfide and Ti–Fe oxide deposits, as well as in understanding the history of evolution of the southern Central Asian Orogenic Belt (CAOB). Here we present results from a detailed study on a representative suit of a mafic–ultramafic rocks from the Bijiashan complex in the Beishan Terrane. The complex is composed of dunite, troctolite, olivine gabbro and gabbro without clinopyroxenite or hornblendite. In addition to olivine and clinopyroxene, orthopyroxene and plagioclase are also present in all these rock types, in the absence of chromite or primary hornblende. The minerals display marked compositional variations with the Fo content in olivines ranging from 66 to 83 and the clinopyroxenes ranging from diopside to augite. The whole-rock geochemistry shows good correlations among the major elements, and the trace elements are characterized by flat REE patterns with Eu positive anomalies, and HFSE depletion relative to LILE. These features are comparable to other mafic–ultramafic complexes in the Beishan and Eastern Tianshan terranes, but obviously deviate from the typical features of Alaskan-type intrusives. The present study suggests that the Beishan complexes were formed in a post-orogenic extensional environment with potential for Ni–Cu mineralization, rather than in arc-related setting with Alaskan-type PGE mineralization. Our study confirms that the Beishan area does not conform to an arc-related setting, but was located within a rift setting in Permian probably related to Permian mantle plume event, suggesting that the subduction of the Paleo-Asian ocean had culminated by this time, and the southern CAOB witnessed a post-orogenic extensional regime in late Paleozoic.