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1.
The three most crucial factors for the formation of large and super-large magmatic sulfide
deposits are: (1) a large volume of mantle-derived mafic-ultramafic magmas that participated in the
formation of the deposits; (2) fractional crystallization and crustal contamination, particularly the input
of sulfur from crustal rocks, resulting in sulfide immiscibility and segregation; and (3) the timing of
sulfide concentration in the intrusion. The super-large magmatic Ni-Cu sulfide deposits around the world
have been found in small mafic-ultramafic intrusions, except for the Sudbury deposit. Studies in the past
decade indicated that the intrusions hosting large and super-large magmatic sulfide deposits occur in
magma conduits, such as those in China, including Jinchuan (Gansu), Yangliuping (Sichuan), Kalatongke
(Xinjiang), and Hongqiling (Jilin). Magma conduits as open magma systems provide a perfect environment
for extensive concentration of immiscible sulfide melts, which have been found to occur along deep
regional faults. The origin of many mantle-derived magmas is closely associated with mantle plumes,
intracontinental rifts, or post-collisional extension. Although it has been confirmed that sulfide immiscibility
results from crustal contamination, grades of sulfide ores are also related to the nature of the
parental magmas, the ratio between silicate magma and immiscible sulfide melt, the reaction between
the sulfide melts and newly injected silicate magmas, and fractionation of the sulfide melt. The field relationships
of the ore-bearing intrusion and the sulfide ore body are controlled by the geological features of
the wall rocks. In this paper, we attempt to demonstrate the general characteristics, formation mechanism,tectonic settings, and indicators of magmatic sulfide deposits occurring in magmatic conduits which
would provide guidelines for further exploration. 相似文献
2.
李建康 《吉林大学学报(地球科学版)》2014,44(2):518-526
花岗岩浆液态不混溶作用和饱和H2O花岗岩浆的热液出溶作用是花岗岩类矿床成矿流体形成的重要机制。利用最新式热液金刚石压腔,开展了成矿流体形成机制的原位观测实验。在岩浆热液出溶过程的实验中,初始样品为各类硅酸盐和纯H2O或LiCl水溶液,在H2O饱和状态中,硅酸盐熔体珠不断分异出富H2O的流体。花岗岩浆液态不混溶实验的初始样品为NaAlSi3O8-LiAlSiO4-SiO2-LiCl-H2O。在硅酸盐完全重熔后的降温过程中,硅酸盐熔体珠分离出富H2O熔体相和贫H2O熔体相,压力的突然降低促进了相分离的发生。研究表明:岩浆热液的出溶作用发生在H2O饱和的条件下,是岩浆的“第二次”沸腾作用,对花岗岩型稀有金属矿床的形成具有重要意义;花岗岩浆液态不混溶产生的富H2O熔体易于结晶出粗大晶体,暗示岩浆液态不混溶作用可能是一些花岗伟晶岩形成的主要机制。两类成矿流体形成机制实验条件的差异表明,Li是花岗岩浆发生不混溶作用的重要因素。在今后的研究中,应把热液金刚石压腔的原位观测与微束分析技术结合,在高温高压状态下分析成矿元素的迁移和富集规律。 相似文献
3.
大型-超大型岩浆硫化物矿床的形成需要满足3个基本条件:(1)大量幔源岩浆参与成矿;(2)岩浆演化导致硫化物熔离;(3)硫化物在有限空间聚集。然而,除Sudbury矿床外,全球与镁铁质岩浆有关的超大型铜镍硫化物矿床都发现于小的镁铁-超镁铁岩体中。近10年来的研究表明这些含矿岩体实际上都是岩浆通道系统的一部分,中国金川、杨柳坪、喀拉通克、红旗岭等大型和超大型Ni-Cu-(PGE)硫化物矿床都形成于岩浆通道系统中,正是岩浆通道这样特殊的开放系统为大规模岩浆硫化物矿床提供了成矿条件。总结国内外最新研究结果,可以发现与成矿有关的岩浆通道系统都分布在深大断裂附近,大规模的幔源岩浆补充与地幔柱、大陆裂谷、碰撞造山后伸展等地质事件有密切的关系。尽管研究证明硫化物熔离都与地壳物质的混染有关,但矿石各种元素的品位却受母岩浆性质、硫化物熔离强度、与新注入镁铁质岩浆反应、以及硫化物本身结晶分异等多重因素的影响;含矿岩体和硫化物矿体的形态和大小都强烈地受围岩地质特征的控制。进一步明确这类矿床的地质特征、形成机制、成矿背景和成矿标志,对未来的研究和找矿工作都是非常必要的。 相似文献
4.
M. E. Fleet N. D. MacRae C. T. Herzberg 《Contributions to Mineralogy and Petrology》1977,65(2):191-197
The partition of Ni between olivine, crystallised from basalt liquids, and iron-nickel monosulfide has been determined experimentally at 1160 and 1050 °C using alumina crucibles in sealed silica glass tubes. The compositional ranges investigated are 83 to 88 mol. % Fo and 5 to 50 mol. % NiS. The average distribution coefficient for the exchange reaction FeS +NiSi0.5O2NiS+FeSi0.5O2 is remarkably similar to the literature value of 33.2 for 900 °C. It is concluded that within the temperature and pressure range of magmatic olivine crystallisation the exchange reaction is effectively independent of temperature, pressure, olivine composition and composition and physical state of the sulfide.The NiO contents of early magmatic olivine are appreciably greater than the calculated NiO contents for equilibration with any hypothetical iron-rich immiscible sulfide liquid, suggesting that an immiscible sulfide liquid may not be a normal product of upper mantle magmatic processes. Similarly, it appears unlikely that sulfide liquid immiscibility had any role in the genesis of nickel sulfide ores.Olivine from upper mantle and crustal rock associations has characteristic NiO/MgO distributions. Both distributions appear to be the products of extensive fractionation by crystal-liquid processes although the crustal olivine distribution may be complicated by the added factor of heterogeneity of mantle magma source. 相似文献
5.
岩浆硫化物矿床研究现状及重要科学问题 总被引:4,自引:2,他引:2
20世纪90年代,岩浆通道成矿模型的提出为岩浆硫化物矿床成因研究提供了崭新的思路,但对成矿机制和找矿标志的认识依然存在分歧。2000年以来,不同学者从岩浆通道形成的构造因素,外来硫加入的方式和控制因素,硫化物熔离、运移和沉降的热力学条件及动力学机制,区域找矿标志等方面对岩浆通道成矿机理进行了更深入的探讨。最近的研究发现,原来建立在热力学平衡假设基础上的一些认识需要纠正,硫化物熔离的化学动力学机制以及岩浆流体动力学状态对矿床的地质和地球化学特征具有不可忽视的影响,玄武岩铂族元素亏损的形成机制和找矿意义需要重新认识。 相似文献
6.
通过对熔体网络结构中基性组分和酸性组分的分布特征和各自联结程度的定量描述,确定了岩浆液态分离作用发生的临界状态。长英质岩石中广泛分布的暗色微粒包体是岩浆演化过程中液态不混溶作用发生的结果,是岩浆体系自身演化到某一特阶段的产物。 相似文献
7.
河南桐柏老湾花岗岩岩浆动力学与成矿 总被引:6,自引:1,他引:6
基于岩浆岩岩石学、流体动力学、热力学研究。本文计算了河南桐伯老湾花岗岩岩浆过程的上升速度、冷凝速度及岩浆熔体的密度、粘度、含水量等物理参数,探讨了熔体中晶体的成核密度和生长速度以及岩浆对流形式等动力学行为,并分析了它们与成矿作用的联系。研究表明,老湾花岗岩岩浆含水量为4.76%,在侵位的温度和压力下是饱和的,较高的水含量有利于矿化。老湾花岗岩熔体上升较快而冷却缓慢,晶体成核密度和生长速度较低,以挥发分为迁移形式的成分对流是熔体中成矿物质迁移、富集的主要方式。老湾花岗岩特殊的岩浆物理性质和动力学行为指示其岩浆作用与老湾金矿床的形成具有密切的成因联系。 相似文献
8.
山东沂南金铜铁矿床中的液态不混溶作用与成矿:流体包裹体和氢氧同位素 证据 总被引:17,自引:5,他引:12
沂南矽卡岩型金铜铁矿床产于燕山期中酸性侵入岩与新太古界—寒武系地层接触带附近。氢、氧同位素研究表明,早期干矽卡岩阶段(Ⅰ)和湿矽卡岩-磁铁矿阶段(Ⅱ)的成矿流体主要为岩浆水,晚期石英-硫化物阶段(Ⅲ)和碳酸盐阶段(Ⅳ)的成矿流体则显示有大气降水混入的岩浆水特点。流体包裹体研究表明,成矿各阶段热液矿物中的包裹体类型丰富,以气液两相盐水包裹体、含子晶多相包裹体和CO2-H2O包裹体为主,次为纯液相水包裹体和纯气相水包裹体,偶见晶质熔融包裹体。由Ⅰ→Ⅱ→Ⅲ→Ⅳ阶段,气液水包裹体均一温度(520~430℃→430~340℃→250~190℃→190~130℃)呈现逐渐降低的趋势。在Ⅰ、Ⅱ阶段的石榴子石和绿帘石中,晶质熔融包裹体与同期次捕获的具不同气相分数的气液水包裹体及含子晶的多相包裹体共生,表明它们被捕获时是一种熔体与流体共存的不混溶状态。在Ⅲ阶段的石英(少量Ⅱ阶段的绿帘石)中,常见气相充填度变化很大的气液水包裹体与同期次捕获的纯液相水包裹体、纯气相水包裹体、含子晶的多相包裹体以及CO2-H2O包裹体共生,且共生的不同类型包裹体均一温度相近,表明此阶段成矿流体曾发生过广泛的沸腾(不混溶)。因而认为,在沂南矿床由岩浆... 相似文献
9.
Marta Adamuszek Timm John Marcin Dabrowski Yuri Y. Podladchikov Ralf Gertisser 《Mineralogy and Petrology》2009,97(3-4):203-222
Magmatic enclaves from the Rudolfov quarry near Liberec (Czech Republic) are interpreted to represent remnants of lamprophyric melt that intruded the Karkonosze granite at a stage at which the granite was not fully solidified. Based on the observation that larger enclaves are generally more circular than the smaller ones, we conclude that bigger blobs of mafic magma became more spherical during flow in the gravity field (sink or float). This flow is also interpreted to be responsible for the incorporation of mineral grains into the enclaves and may have facilitated the assimilation of granitic melt. Linear mixing trends on Harker diagrams for most network-forming and mainly slow-diffusing or fluid-immobile elements indicate such an assimilation process between granite and lamprophyre. In contrast, all fast-diffusing or fluid-mobile elements display scattered element distributions, implying that chemical diffusion also played a role. Pressure and temperature for this late magmatic stage are estimated at around 1 kbar and 500°C. These results suggest that two processes modified the composition of the enclaves in the Karkonosze granite: (1) assimilation (mechanical mixing) of granitic melt during the injection of the lamprophyric melt and the subsequent flow of the forming enclaves in the gravity field (responsible for the linear mixing trends) and (2) diffusion-controlled redistribution of elements between both solidifying rock types at the magmatic stage and/or due to late-stage magmatic fluids (responsible for the scattering and deviation from the linear mixing trends). 相似文献
10.
金川硫化铜镍矿床成矿模式 总被引:26,自引:0,他引:26
金川矿床产出于过渡区,位于中朝地块西南部阿拉善边缘隆起上,含矿岩体是多期上侵贯入形成的,时代为1509~1526Ma。 导源于地幔深郎富硫的铁质超基性岩浆,沿超壳深断裂上侵到达地壳岩浆房。注入岩浆房的岩浆在橄榄石结晶温度的区间内,发生熔离作用和橄榄石结晶作用,按重力效应正岩浆房中自下而上先后形成了矿浆、富矿岩浆、含矿岩浆和岩浆的分层格局。随着温度下降,在构造应力脉动式驱动下,岩浆房中自上而下按岩浆、含矿岩浆、富矿岩浆和矿浆的顺序,先后分别沿相同通道上侵、贯入于现存空间成岩成矿、每次上侵、贯入的浆体都沿着前次浆体的下侧部和根部定位。 整个成矿过程由岩浆房中的深部熔离、橄榄石结晶和重力分层作用→第一期次岩浆上侵→第二期次含矿岩浆上侵→第三期次富矿岩浆贯入→晚期矿浆贯入→接触交代成矿→热液叠加成矿,构成一个完整的硫化铜、镍矿床的成矿模式和时空分布系列。 相似文献
11.
亲铜元素的地球化学行为研究进展及其在岩浆硫化物矿床中的应用 总被引:3,自引:0,他引:3
亲铜元素在岩浆演化和硫化物熔离过程中的行为是解释岩浆硫化物矿床形成过程的一个窗口,通过实验研究来探讨亲铜元素的地球化学行为,并用于岩浆硫化物矿床的定量化研究是此类矿床今后的一个发展方向。本文总结了硫和亲铜元素在岩浆演化过程中的行为规律,并阐明了在岩浆硫化物矿床中的应用,在如下五个方面分别做了讨论:① 通过实验对玄武质岩浆中S溶解度的研究,总结出引起硫化物饱和的4个控制因素: 岩浆混合、温度迅速降低、壳源混染、快速的结晶分异作用;② 通过Ni在橄榄石和硅酸盐熔浆中的分配,定量模拟了岩浆演化过程中,橄榄石中的Ni含量随着橄榄石成分(Fo)变化的规律;③ 总结了Ni—Cu—PGE—Au在液态硫化物和硅酸盐岩浆中的分配系数,总结了控制分配系数的因素,并探讨了“R因素”对亲铜元素富集的控制机理;④ 橄榄石被硫化物包围时,与硫化物发生交换反应,通过交换反应系数(KD)可以定量估算硫化物熔浆中Ni的含量;⑤ 通过实验得出的亲铜元素在单硫化物固溶体(MSS)和液态硫化物之间的分配,总结了岩浆铜镍硫化物矿床中的分带现象。最后探讨了岩浆硫化物矿床存在的问题和发展方向。 相似文献
12.
福建下西坑铁矿及与之相关的矿浆实验研究 总被引:1,自引:0,他引:1
福建下西坑铁矿是与闽南晚三叠世文宾山组火山-沉积岩有关的铁矿床.许多证据如岩石中含有磁铁矿浆角砾及各种流纹状铁矿浆,矿石中TiO_2含量高且稳定(3%~7%),与含铁量呈正相关关系,岩石中稀土含量也与铁含量呈正相关关系等,表明其铁质直接采源于从原始岩浆中分熔的铁质矿浆.实验研究表明,模拟下西坑原始岩浆体系的实验体系(Fs_60'Usp_40)-Ap-Ap在latm,1250℃等温面上存在一个液相不混溶区,即下西坑铁矿的原始熔浆在一定条件下能够分熔出富铁熔浆. 相似文献
13.
幔源岩浆活动过程中的去气作用
——以云南老王寨金矿煌斑岩为例 总被引:7,自引:2,他引:7
黄智龙 《矿物岩石地球化学通报》2001,20(1):1-5
本文以云南老王寨金矿煌斑岩为例,从岩石产出的构造环境、源区地幔交代富集作用、岩浆演化中硅酸盐熔体-碳酸盐熔体液态不混熔作用、岩石中CO 相似文献
14.
The study of melt microinclusions in olivine megacrysts from meimechites and alkali picrites of the Maimecha–Kotui alkali ultramafic and carbonatite province (Polar Siberia) revealed that the melt compositions corrected for loss of olivine due to post-entrapment crystallization of olivine on inclusion walls (differentiates of primary meimechite magma) match well to the composition of nephelinites and olivine melilitites belonging to carbonatite magmatic series. Modeling of fractional crystallization of meimechite magmas results in the high-alkali melt compositions corresponding to the silicate–carbonate liquid immiscibility field. The appearance of volatile-rich melts at the base of magma-generating plume systems at early stages of partial melting can be explained by extraction of incompatible elements including volatiles, by near-solidus melts at low degrees of partial melting, and meimechites are an example of such magmas. Subsequent accumulation of CO2 in the residual melt results in generation of carbonate magma. 相似文献
15.
E. Bruce Watson 《Contributions to Mineralogy and Petrology》1976,56(1):119-134
Partition coefficients for Cs, Ba, Sr, Ca, Mg, La, Sm, Lu, Mn, Ti, Cr, Ta, Zr, and P between immiscible basic and acidic liquids in the system K2O-Al2O3-FeO-SiO2 were experimentally determined at 1,180 °C and 1 atm. Phosphorus is most strongly enriched in the basic melt (by a factor of 10), followed by rare earth elements, Ta, Ca, Cr, Ti, Mn, Zr, Mg, Sr, and Ba (enriched by a factor of 1.5). Of the elements studied, only Cs is enriched in the acidic melt. The two-liquid partition coefficients of Zr, Ta, Sm, and Mn are constant for concentrations ranging from <0.1% to as high as 1 wt.-%, suggesting that Henry's law is applicable in silicate melts (at least for these elements) to concentrations well above typical trace element levels in rocks. The strong relative preference of many elements for the basic melt implies that the structural characteristics of basic melts more readily permit stable coordination of cations by oxygen. Partitioning of elements between crystal and liquid in a magma must therefore be influenced by the composition (and consequent structure) of the liquid.Application of the two-liquid partition coefficients to possible occurrences of liquid immiscibility in magmas reveals that typical basalt-rhyolite associations are probably not generated by two-liquid phase separation. However, liquid immiscibility cannot be discounted as a possible origin for lamprophyric rocks containing felsic segregations. 相似文献
16.
安徽铜陵地区中酸性侵入岩及其岩石包体中的矿物包裹体研究 总被引:14,自引:2,他引:14
铜陵地区是长江中、下游铁、铜、硫、金成矿带的重要组成部分。笔者对铜陵地区中酸性侵入岩及其岩石包体中的包裹体进行了较系统的岩相学、显微测温和激光拉曼光谱研究。通过岩相学观察发现了 3类包裹体 ,即晶质熔融包裹体、流体熔融包裹体和流体包裹体。显微测温资料表明 ,本区的岩浆流体成矿演化可分为 3个阶段 :岩浆阶段 ( >12 5 0~ 90 0℃± )、过渡岩浆阶段 ( 90 0~ 75 0℃± )和岩浆期后热液阶段 ( <75 0℃ )。部分熔浆的温度之高 (可达 12 5 0℃ ) ,表明其可能是底侵幔源岩浆同熔下地壳形成的。在老庙基岩体、小铜官山岩体、鸡冠石岩体和小陶家岩体中产有晶质熔融包裹体、流体熔融包裹体和流体包裹体这 3种包裹体 ,表明相应的岩浆流体演化具有连续性、继承性和阶段性 ,其对应的成矿溶液以岩浆热液为主 ;与此不同的是 ,在鸡冠山岩体和白芒山岩体中仅产有晶质熔融包裹体和流体包裹体两种类型的包裹体 ,表明相应的岩浆流体演化不具连续性 ,其对应的成矿溶液以天水热液为主。此外 ,在小铜官山岩体和鸡冠石岩体的中酸性侵入岩中 ,发现了不混溶包裹体 ,其可能是在压力释放条件下形成的。 相似文献
17.
Ni、Cu和PGE具有不同于其他微量元素的特殊的地球化学性质,这些特殊的性质使得它们在幔源岩浆起源和演化以及岩浆硫化物矿床的成因研究中具有不可替代的作用。在S不饱和的条件下,Ni、Os、Ir和Ru具有相容元素的特性,而Cu和Pd是强不相容元素,因此,它们在玄武岩浆分离结晶过程中常常发生分异。一旦体系达到S饱和,这些元素则会强烈地进入硫化物熔浆,特别是PGE具有极高的硫化物熔浆/硅酸盐熔浆分配系数,极微量的硫化物熔离便可导致残余岩浆中PGE的显著亏损,因此,PGE是玄武岩浆硫化物熔离作用最敏感的示踪元素。硫化物熔离和成矿实质上是幔源岩浆特殊演化过程的结果,所以,Ni,Cu和PGE的特殊性质可用来探讨岩浆硫化物成矿的关键控制因素。Ni、Cu和PGE具有不同的单硫化物固溶体/硫化物熔浆分配系数,因此,它们也是硫化物熔浆结晶分异的重要示踪元素。本文试图从Ni、Cu和PGE地球化学性质和行为入手,并借助一些研究实例,对它们在幔源岩浆起源和演化以及岩浆硫化物矿床成因研究中的示踪意义进行系统介绍。 相似文献
18.
《Applied Geochemistry》1996,11(3):481-487
Geological studies demonstrate that liquid immiscibility in felsic magma closely associates with the ore forming process. In order to obtain experimental evidence demonstrating the relationship between the ore forming process and liquid immiscibility in felsic magma, we carried out a series of experiments at high temperature and atmospheric pressure. The experimental results show that the granite ∼ KBF4∼Na2MoO4 system is a homogeneous melt at high temperature. With decrease in temperature, however, the melt decomposes into two immiscible melts: silicate melt and ore-forming melt. The ore-forming melt exists as globules in the silicate phase. Molybdenm, Ca, Na, Mg, P, Mn, F, B, and OH are concentrated in these globules. The ore forming melt is characterized with very low SiO2 and Al2O3 concentrations but the concentration of MoO3 and CaO is very high. In contrast, the silicate melts are significantly enriched in SiO2 and Al2O3, and depleted in MoO3 and CaO. In the silicate melt the concentrations of network modifying elements (e.g. Mo, Ca, Na, P, Mg) and volatiles (F, OH) are very low. The differences between the two immiscible melts exist not only in chemical composition but also in structure. The ore-forming melt structurally consists of [MoO4], [MoOF4], [B(OH)4], and OH, while the silicate melt is [Si04]. Because of the difference in composition and structure the two immiscible melts possess different physical properties. Compared to silicate melt, the ore-forming melt has a lower density and viscosity, which permits the globules to behave as bubbles in granite magma and to move and concentrate in the upper part of magma chamber. This process is probably responsible for the concentration of ore-forming elements in the upper part of granite bodies and their immediate aureoles. The present experimental results suggest that liquation in felsic magma can be the first step in the ore-forming process during granitoid evolution. 相似文献
19.
为探讨长英质岩浆作用过程中金属成矿元素的地球化学行为及其成矿意义,我们进行了常压下花岗岩-KBF3-Na2MoO4-WO3体系的实验研究。结果表明,高温(1250℃)条件下呈均一状态的花岗岩-KBF4-NaMoO4-WO3体系,当温度降低时发生液态不混溶,从中分离出含矿熔体的小液滴,体系中的Mo(W)几乎全部富集在这种小液滴中。含矿熔体中极富含Ca、Mg和P,而贫Si、Al和K,H2O和F富集在含矿熔体中。此实验结果表明:长英质岩浆中液态不混溶作用的发生可以使成矿元素W和Mo富集到与硅酸盐熔体不混溶的独立的非硅酸盐熔体中。这种熔体在适当的地质条件下继续演化可形成类似镁铁质岩浆演化过程中常出现的岩浆熔离型矿床。本实验结果可能为斑岩矿床的形成机理提供一种新的解释。 相似文献
20.
富氟花岗岩浆液态不混溶作用及其成岩成矿效应 总被引:4,自引:0,他引:4
除了结晶分异模式外,富氟花岗岩浆液态不混溶作用也是伟晶岩成岩成矿的重要机制。熔体包裹体和实验研究表明,富氟花岗岩浆的液态不混溶会形成富挥发份的贫硅熔体和与其共轭的富硅酸盐熔体。花岗岩中的异离体型伟晶岩和贯入状脉型伟晶岩,挥发份、助熔剂等元素和同位素组成在不混溶相间的突变性是该类不混溶作用的主要标志。富氟花岗岩浆不混溶作用不但可以解释伟晶岩的特征性矿物分带,对传统的伟晶岩成岩理论提出了挑战;还对稀有金属有高度富集作用,这主要归功于F、B、P等挥发份对稀有金属元素的亲和力。然而,目前该类不混溶作用成矿效应的研究还比较薄弱,这主要要归因于没有理想的地质对象。甲基卡矿床是亚洲最大的固体锂矿床,初步研究表明该矿床发生了富氟花岗岩浆液态不混溶作用,是研究氟花岗岩浆液态不混溶过程中稀有金属的分配、迁移、富集规律和机制的理想对象。 相似文献