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1.
杨柳坪岩浆Ni Cu PGE硫化物矿床位于四川丹巴县城南东 178°方位 ,直距 2 0km。东经 10 1°5 4′10″~ 10 1°5 5′0 0″ ,北纬 30°4 1′30″~ 30°4 2′2 0″。该矿床是中国重要的PGE矿床之一 ,PGE金属储量超过 30t。矿区分为杨柳坪、协作坪、正子岩窝 3个矿段 ,总面积约 18km2 ,属丹巴县格宗乡所辖。该矿床的一般地质特征及PGE矿物组合已有报导。与Uitkomst ,Noril sk Talnakh ,Voisey sBayNi Cu PGE硫化物矿床相似 ,杨柳坪Ni Cu PGE硫化物矿床也产出在相对较小的侵入岩体中。为进一步探讨矿床成因及其与矿区附近大石包组… 相似文献
2.
采用ICP-MS方法分析了布什维尔德杂岩体Platreef矿床含矿岩石的主量及微量元素含量,并与金川铜镍硫化矿床进行对比研究.Platreef矿床含矿岩石与金川二辉橄榄岩的∑REE接近,球粒陨石标准化后的稀土元素(REE)均表现为轻稀土元素(LREE)富集、重稀土元素(HREE)平坦的右倾型配分曲线,但Platreef含矿岩石总体表现为正Eu异常,金川二辉橄榄岩与矿石样品则大部分表现为较强的负Eu异常,二者的差异实质上反映了成岩矿物斜长石与斜方辉石比率细微的变动.Platreef矿床岩(矿)石富集和高度分异不相容元素,Nb、Ta亏损,显示地幔柱岩浆受到地壳混染后,产生与弧苦橄岩相似的微量元素地球化学特征.金川含矿岩石富集Fe和Ti以及强不相容亲石元素,显示铁质玄武岩微量元素分布特征,虽然也可能受到地壳物质混染,但总体表现出含矿岩体母岩浆则可能来自EMI型富集地幔源区.Platreef矿层原始地幔标准化后Pt、Pd、Ru富集,Ir、Rh相对亏损的PGE配分型式以及Cs、Rb、Th、U、LREE等不相容元素和亲铜元素Cu、Ni的富集.暗示布什维尔德杂岩体岩浆源区残留地幔橄榄岩遭受含高度不相容元素的富矿流体的渗透混染即地幔交代,导致幔源岩浆发生PGE分异. 相似文献
3.
宋谢炎 《矿物岩石地球化学通报》2006,25(Z1):186-187
与大陆溢流玄武岩有关的Cu-Ni-(PGE)硫化物矿床,是指形成于与大陆溢流玄武岩同源的镁铁-超镁铁侵入体中的岩浆硫化物矿床,是目前镍和铂族元素最重要的来源之一.典型代表是与俄罗斯西伯利亚暗色岩有关的Noril'sk-Talnakh矿床,其镍储量世界第一,铂族元素储量仅次于南非Bushveld[1].研究表明底部成矿的Noril'sk和Talnakh岩席是岩浆通道,大量硫不饱合的玄武岩浆随着玄武岩浆分离结晶,尤其是围岩硫的混入而逐渐达到硫饱和,从而使Cu、Ni和PGE这些具有很高硫化物熔体/硅酸盐熔体分配系数的元素进入硫化物熔体,并从玄武岩质岩浆中分离出来形成巨大的矿体,残余岩浆喷出形成玄武岩或形成新的不含矿岩体[2]. 相似文献
4.
峨眉火成岩省岩浆矿床成矿作用与地幔柱动力学过程的耦合关系 总被引:28,自引:1,他引:28
峨眉火成岩省位于扬子地块西部,为中二叠世末地幔柱活动产物。迄今为止,峨眉火成岩省已发现超大型V-Ti磁铁矿矿床4处,大中型岩浆硫化物型Ni-Cu-(PGE)矿床近10处。这些矿床的含矿镁铁-超镁铁岩体为260Ma±,与峨眉山玄武岩为同一地幔柱的产物。系统归纳和分析上述两类含矿镁铁-超镁铁岩体在空间分布、岩体规模、岩石组合和造岩矿物组成等方面存在明显的差异:可以分为内带和外带,内带以巨厚的峨眉山玄武岩、大型层状岩体和众多小型镁铁-超镁铁岩体、低Ti玄武岩、碱性岩体和丰富的成矿作用为标志。外带则玄武岩厚度降低,以高-Ti玄武岩为主,很少有侵入岩体。在对这两类岩浆矿床的分布及其与低Ti和高Ti玄武岩地质和地球化学联系的归纳和分析基础上,结合对杨柳坪Ni-Cu-(PGE)硫化物矿床成矿过程与峨眉山玄武岩岩浆起源和演化相互关系的研究结果,认为峨眉山火成岩省这些不同类型的矿床是地幔柱动力学过程不同阶段的产物。V-Ti磁铁矿矿床的形成于高Ti玄武岩浆有关,主要受控于岩浆的分离结晶作用;而Ni-Cu-(PGE)硫化物矿床成矿主要取决于3个因素:高程度的部分熔融,下地壳同化混染和分离结晶。Ni-Cu-(PGE)硫化物矿床是地幔柱活动早期阶段的产物,而V-Ti磁铁矿矿床则形成则晚于岩浆硫化物矿床。 相似文献
5.
攀西裂谷地区层状镁铁岩的PGE矿化作用 总被引:2,自引:1,他引:1
攀西裂谷位于四川西部,裂谷经历了元古宙和海西期二次地幔柱活动,形成多处穹窿构造和层状镁铁质岩体的侵入。后一期的层状岩体赋存著名的超大型钒钛磁铁矿床。中国和南非合作研究认为,层状岩体PGE矿化应进一步研究。以新街岩体为代表,经钻探工程建立了岩体剖面;岩石学、矿物学和地球化学研究证实,岩体有三个岩浆旋回和许多韵律层,层厚仅2~3cm。自上而下岩相为辉长岩、橄辉岩、辉石岩和橄榄岩,造岩矿物为贵橄榄石、普通辉石、钛普通辉石和中长石。岩体下部旋回,硫化物较富集,多在高镁质岩相。硅酸盐、氧化物和硫化物三系列矿物共生而不混熔。硫化物呈浸染状,主要有三层,产在橄榄岩、辉石岩和下辉长岩内。铂族矿物有砷铂矿、自然铂、硫锇矿、铋碲钯矿、碲铋矿、碲银矿、自然银等。PGE富集可能有三个阶段:岩浆早期,岩浆中"S"不饱和,PGE易进入硅酸盐;岩浆晚期"S"逸度增高,硫化物富集,为PGE富集阶段;热液阶段PGE再分配富集。PGE和Ni、Cu、S为正相关关系,和Fe、Ti相辅相成,无明显关系。岩石中PGE背景值为(0.166~0.411)×10-6,PGE矿化体的品位变化较大,为(0.94~0.976)×10-6。有的钻孔样品Pt+Pd含量大于1×10-6,可做进一步找矿的依据。 相似文献
6.
核桃树富铂岩浆硫化物矿床位于四川会理县小关河地区,是峨眉山大火成岩省中含较高铂族元素含量的岩浆硫化物矿床之一。本文通过对核桃树岩体及部分硫化物矿石主量元素、微量元素及铂族元素的系统分析,讨论了该岩体的岩浆源区及母岩浆性质、地幔部分熔融程度,并探讨了其成因机制。研究认为,核桃树含矿岩体属拉斑玄武岩成因系列,具有与峨眉山玄武岩相似的微量元素组成特征,是峨眉山大火成岩省构造-岩浆活动的产物;铂族元素的原始地幔标准化配分型式与金宝山铂钯矿相似,没有PGE相对于Ni和Cu的明显亏损,Pt和Pd相对Os、Ir、Ru和Rh富集,为PPGE富集的左倾型式,Pd/Ir=1.5~13.1,低于一般大陆拉斑玄武岩,与原始地幔接近。通过岩石地球化学及模拟分析表明,成矿母岩浆MgO约为11.93%、SiO_2约为49.88%、FeOT约为13.71%、TiO_2约为2.61%,为高Mg拉斑玄武质岩浆,是由类似于洋岛玄武岩岩浆源区成分的地幔经过较高程度(约20.17%)的部分熔融形成的苦橄质岩浆演化而来。与小关河地区主要的几类岩浆硫化物矿床的镍铜铂族元素组成及硫化物熔离模式对比分析发现,核桃树高的PGE含量和低的Cu/Pd比值说明了该矿床的硫化物是从PGE不亏损的玄武质岩浆中熔离出来的,类似金宝山矿床。成岩成矿机制分析认为,部分熔融形成的苦橄质岩浆在上升的过程中,发生了以橄榄石(约12.7%)为代表的镁铁质矿物堆积,并形成残余髙镁玄武质岩浆;部分残余髙镁玄武质岩浆向浅部运移过程中,由于温度降低、混染等因素的影响,导致岩浆S饱和,触发硫化物熔离作用的发生(R值为2000~50000),熔离出硫化物熔体与岩浆通道内晶出的橄榄石构成含矿"晶粥",在构造挤压作用下,在浅部岩浆房中由于重力影响发生堆积作用形成具有较富PGE的含矿岩体,R值较大变化正好与PGE含量较大变化相对应。 相似文献
7.
晚二叠世峨眉山地幔柱岩浆作用同时形成了Cu-Ni-PGE硫化物矿床和V-Ti-Fe氧化物矿床等不同类型的岩浆矿床。从硫化物矿床的PGE富集型、Cu-Ni-PGE富集型到Cu-Ni富集型,再到钒钛磁铁矿矿床,成矿基性-超基性岩体中基性岩石比例逐渐增加,PGE含量降低。铜镍铂族硫化物矿床具Nb和Ta负异常,岩浆流体组分含量较高,含有较高的H2;而钒钛磁铁矿矿床具Nb、Ta和Ti正异常,Zr和Hf负异常,岩浆流体组分含量较低,含有较高的H2O、CO2和H2。两类矿床强不相容元素和轻稀土元素(LREE)富集,Sr-Nd同位素组成与峨眉山玄武岩的演化趋势一致。Sr-Nd-Os-C-He同位素组成揭示岩浆上升过程中经历了不同程度的地壳混染,高钛玄武岩和钒钛磁铁矿矿床成矿岩体的地壳混染程度较低,部分低钛玄武岩和铜镍硫化物矿床存在明显的地壳混染。这两类岩浆矿床的形成与峨眉山地幔柱玄武岩浆有关,岩浆介质环境中H2含量较高,V-Ti-Fe 氧化物矿床的形成与分离结晶、高含量的水和氧逸度的升高有关,Cu-Ni-(PGE)硫化物矿床的形成与还原性流体介质、结晶分异和地壳混染作用有关。 相似文献
8.
铂族元素(PGE)矿化主要与镁铁-超镁铁杂岩有关,成矿类型主要为岩浆型矿床,这类PGE矿床的形成主要依赖两个条件:一是岩浆中富含PGE;二是具备PGE从岩浆中分离和富集的机制,主要是在岩浆演化过程中硫达到饱和。新疆北部镁铁-超镁铁质杂岩发育,并产有喀拉通克、黄山、黄山东、图拉尔根4个大型铜镍矿床和香山、土墩、葫芦、白石泉等中、小型铜镍矿,以及香山西、尾亚等中型钒钛磁铁矿矿床,但迄今尚未发现成型的PGE矿床。文中通过对PGE矿床的形成机制与镁铁-超镁铁杂岩源区特征研究,探讨了北疆地区PGE矿床的成矿问题。综合分析认为,新疆北部后碰撞镁铁-超镁铁质岩的岩石类型为经过了分离结晶形成的铁质岩石系列,是PGE矿床的有利容矿岩石;矿床的Sr、Nd、Pb、O、Os和S同位素和含矿岩石地球化学特征表明,铜镍硫化物矿床含矿岩浆在岩浆演化和成矿过程中有地壳物质加入并可导致硫化物熔离作用,说明在成矿机制上也存在形成岩浆型PGE矿化的条件。新疆北部PGE矿化微弱的原因可能在于该区广泛发育的亏损型地幔源(具正的εNd值特征),这一亏损型地幔可能部分源于洋壳熔融,与产于后碰撞造山带环境、发育于"洋壳"或"不成熟"陆壳基底之上有关,由此决定了原始岩浆为贫PGE的源区,因此不利于PGE的富集成矿。 相似文献
9.
本文报道了东天山沙泉子地区石炭纪火山岩的主量、微量及铂族元素(PGE)地球化学特征,初步探讨了岩浆源区特征和岩浆演化过程。采用改进的溶样方法,即Teflon密闭溶样-Te共沉淀富集PGE,阳离子交换树脂结合P507萃淋树脂分离干扰元素方法,测定了玄武岩及玄武安山岩中的PGE含量。结果表明,沙泉子火山岩具有较低的MgO含量,且整体表现为强烈的PGE亏损,暗示其可能形成于较低的部分熔融程度(<10%),可能有少量硫化物(~0.001%)残留于地幔。火山岩较低的Cu/Zr值表明原始岩浆有了亲铜元素的亏损。玄武岩较稳定的Pd/Ir和Pt/Pd值,较高且变化较大的Cu/Pd值,表明岩浆上升或侵位过程达到过S饱和而发生硫化物熔离。IPGE与Cr、Ni的相关性表明,原始岩浆可能发生了橄榄石和铬铁矿的分离结晶作用。 相似文献
10.
首次采用盐酸-过氧化氢封闭熔矿与ICP-MS相结合的方法,对金厂沟梁金(铜)矿床东、西两矿区典型矿石的铂族元素(PGE)、亲铁以及亲硫元素的含量进行了系统测定,结果显示矿石中上述元素的含量均高于实验的检测限;地球化学演化特征显示含矿流体具有岩浆性质,PGE对原始地幔/球粒陨石标准化后的配分曲线均呈强烈左倾斜的分馏模式,其配分曲线和与幔源岩浆有关的富铜硫化物和富铜镍硫化物熔体的形式相似,并与幔源玄武岩、碳酸盐熔体的配分模式基本一致,反映含矿流体具有幔源岩浆属性;从区域构造、岩浆热事件角度出发,结合典型斑岩铜(钼)矿床的PGE特征,初步确定其含矿流体形成于中生代大陆边缘环境,其直接的热动源是中生代底侵的玄武岩浆。成矿阶段富含金、铜矿石的Pd/Pt、Pd/Ir比值接近低钛玄武岩浆以及玄武安山岩,而成矿早阶段贫金、铜样品的Pd/Pt、Pd/Ir比值接近地幔;反映早期含矿流体可能是直接来自中生代幔源玄武质岩浆结晶分异,而富金(铜)流体的形成可能是玄武质岩浆演化晚期被地壳物质强烈混染后的富超临界流体岩浆(低钛熔体)发生岩浆与流体分离而产生;含矿流体演化过程的PGE地球化学行为与Cu或S(As)的饱和度有关,即主要受亲硫(铜)元素或结晶分异的硫化物矿物相所制约。 相似文献
11.
The Ni–Cu–PGE sulfide deposits in the Yangliuping area, SW China, are hosted in mafic–ultramafic sills. The four mineralized sills are located in the Yangliuping tectonic dome and intrude Devonian carbonaceous marble, graphitic schist. The sills are 200–300 m thick and 1,000–2,000 m in strike length and now consist chiefly of serpentinite, talc schist, tremolite schist, and meta-gabbro. Disseminated Ni–Cu sulfide mineralisation occurs in the serpentinite in the lower parts of the sills. Massive sulfide mineralisation is located in the base of the sills and in the footwall along fractures beneath the mineralized serpentinite. Although the sulfide ores have been modified by hydrothermal activity, there are relict cumulate textures in the disseminated sulfides indicating a magmatic origin for the ores. The Yangliuping Intrusions and the Dashibao Formation have similar primitive-mantle normalized trace element and platinum group element (PGE) patterns, indicating that they are derived from a common parental magma type. The positive correlation between Cu concentrations and Cu/Zr ratios of the Dashibao Formation basalts indicates that the chalcophile elements were removed before eruption. We propose that fractional crystallization of the Yangliuping magma accompanied by the introduction of S and CO2 from the wall rocks caused the magma to become S-saturated leading to the segregation of magmatic sulfides that became enriched in Ni–Cu–(PGE). The sills acted as conduits for the overlying Dashibao Formation basalts with the sulfide liquid, along with early crystallizing olivine and pyroxene, segregating from the magma as it passed through the conduits prior to eruption.Editorial handling: H.E. Frimmel 相似文献
12.
Xiao-Qi Zhang Xie-Yan Song Lie-Meng Chen Song-Yue Yu Wei Xie Yufeng Deng Jia-Fei Zhang Shu-Guang Gui 《Contributions to Mineralogy and Petrology》2013,166(1):193-209
The Permian Baima mafic layered intrusion, believed to be related to the S-undersaturated Emeishan high-Ti basalts, hosts a giant Fe–Ti-V oxide deposit in the lower part of the intrusion. Uniformly high Cu/Pd (1.9 × 106–6.1 × 104) and low Pd/Zr (<0.1) indicate that the Baima parental magma experienced prior sulfide segregation. Mantle-liked δ34S values and low S/Se values indicate negligible external sulfur addition. Primitive mantle-normalized PGE patterns and MELTS calculations indicate that extensive fractional crystallization (~59 %) of chromite, olivine and pyroxene at depth drove the primitive picritic magma to S saturation. Strong positive correlation between IPGE and PPGE and between PGE and V, Cr and S suggest that magmatic sulfide is the dominant mineral controlling the distribution of PGE in the Baima intrusion. A positive correlation between S and Cr, FeOT + TiO2 and V content, together with MELTS calculations, indicate that the parental magma of the Baima intrusion reached a second stage of S saturation in the shallower Baima magma chamber, which was likely triggered by decreasing Fe2+ accompanying magnetite precipitation. Primitive mantle-normalized PGE patterns for Baima intrusion rocks display similar trends to high-Ti basalts inside the Panxi area, suggesting that they are comagmatic, and following a similar differentiation trend. However, the lavas erupted before they reached sulfide saturation. The more evolved nature of high-Ti basalts outside the Panxi area indicate that they experienced more extensive pre-eruption fractional crystallization. Further fractional crystallization process led these lavas show more PGE fractionated feature. 相似文献
13.
Mingjie Zhang Chusi Li Piaoer Fu Peiqing Hu Edward M. Ripley 《Mineralium Deposita》2011,46(2):153-170
The Permian Huangshanxi Cu–Ni deposit is the second largest magmatic sulfide deposit discovered to date in a major Ni–Cu province
related to protracted basaltic magmatism in eastern Xinjiang, China. It is hosted by a small mafic–ultramafic intrusion comprised
predominantly of lherzolites, olivine websterites, gabbronorites, and gabbros. The Huangshanxi intrusion is coeval with Permian
basalts of tholeiitic and alkaline affinities in the Tuha and Tarim basins, respectively. To evaluate a possible genetic relationship
between the Huangshanxi intrusion and a specific type of coeval basalt in the region, as well as ore genesis in the intrusion,
we have carried out an integrated mineralogical, petrological, and geochemical study. Our data reveal that the Huangshanxi
intrusive rocks are characterized by relatively flat chondrite-normalized REE patterns, depletion in Nb and Ta, and elevated
εNd values varying between 6 and 10. These features are similar to those of coeval tholeiitic basalts in the nearby Tuha basin,
but are significantly different from those of coeval alkaline basalts in the relatively remote Tarim basin. The geochemical
similarities and differences suggest that the Huangshanxi intrusion is genetically related to the tholeiitic basalts in the
Tuha basin, not to the alkaline basalts in the Tarim basin, as suggested previously by some researchers. This implies that
regional exploration for the Huangshanxi-type Cu–Ni deposits should be centered in the Tuha basin instead of the Tarim basin.
More specifically, the uplifted areas around the Tuha basin where similar intrusions may have been brought close to the surface
should be carefully examined for mineralization potential. Intrusive relations and mass balance constraints from incompatible
trace elements and sulfide abundances suggest that the Huangshanxi intrusion represents a dynamic magma conduit through which
multiple pulses of magma ascended to higher levels or to the surface. Numerical simulation of magma evolution and mixing calculations
using Sr–Nd isotopes indicate that selective assimilation of S-bearing crustal materials is important for sulfide saturation
during the early stages of magma evolution when lherzolites formed. Fractional crystallization may have also played a role
in the attainment of sulfide saturation during the later stages of magma evolution when olivine websterites and gabbronorites
formed. In both cases, immiscible sulfide droplets were retained in the conduit to form disseminated sulfide lenses while
the fractionated silicate liquids and buoyant phases such as plagioclase continued to ascend. Extremely low PGE tenors in
the sulfide ores of the Huangshanxi deposit suggest that the parental magma was highly depleted in chalcophile elements possibly
due to previous sulfide segregation at depth. 相似文献
14.
岩浆Cu-Ni-PGE矿床研究现状及发展趋势 总被引:4,自引:0,他引:4
从全球视野分析研究了世界岩浆铜镍硫化物矿床的大地构造分布和成岩成矿类型,特别是通过上世纪末新发现的加拿大Voisey′s Bay矿床与俄罗斯Noril′sk等世界级矿床特征的对比研究,突出强调了大火成岩省(LIPs)对大规模岩浆硫化物矿床形成的意义,从更加宏观的角度审视了世界级岩浆硫化物矿床形成的地质背景和岩浆作用条件,为中国金川等岩浆Cu-Ni-PGE硫化物矿床的深入研究提供了参照背景。评述分析了当代岩浆硫化物矿床成矿研究中,幔源岩浆中硫化物液相不混溶(熔离)的演化轨迹,对岩浆萃取地壳中的硫改变硫化物饱和度促成不混溶作用发生的可能性和条件进行了探讨,进一步讨论了岩浆演化过程中,亲铜元素(Ni、Cu、Co、Pt和Pd等)进入硫化物液相成为金属硫化物或先期进入先结晶的橄榄石、辉石矿物成为氧化物的物理化学行为,并通过加拿大Sudbury陨石撞击构造成因矿床复合热液对硫化物矿体形成贡献的讨论,提出了热液作用对岩浆硫化物矿床成矿的可能贡献。分析判断了中国岩浆Cu-Ni-PGE硫化物矿床的成矿特点和金川超大型岩浆Cu-Ni-PGE矿床外围的找矿潜力。 相似文献
15.
The Qingkuangshan Ni-Cu-PGE deposit, located in the Xiaoguanhe region of Huili County, Sichuan Province, is one of several Ni-Cu-PGE deposits in the Emeishan Large Igneous Province (ELIP). The ore-bearing intrusion is a mafic-ultramafic body. This paper reports major elements, trace elements and platinum-group elements in different types of rocks and sulfide-mineralized samples in the intrusion. These data are used to evaluate the source mantle characteristics, the degree of mantle partial melting, the composition of parental magma and the ore-forming processes. The results show that Qingkuangshan intrusion is part of the ELIP. The rocks have trace element ratios similar to the coeval Emeishan basalts. The primitive mantle-normalized patterns of Ni-Cu-PGE have positive slopes, and the ratios of Pd/Ir are lower than 22. The PGE compositions of sulfide ores and associated rocks are characterized by Ru depletion. The PGE contents in bulk sulfides are slightly depleted relative to Ni and Cu, which is similar to the Yangliuping Ni-Cu-PGE deposit. The composition of the parental magma for the intrusion is estimated to contain about 14.65 wt% MgO, 48.66 wt% SiO2 and 15.48 wt% FeOt, and the degree of mantle partial melting is estimated to be about 20%. In comparison with other typical Ni-Cu-PGE deposits in the ELIP, the Qingkuangshan Ni-Cu-PGE deposit has lower PGE contents than the Jinbaoshan PGE deposit, but has higher PGE contents than the Limahe and Baimazhai Ni-Cu deposit, and has similar PGE contents to the Yangliuping Ni-Cu-PGE deposit. The moderate PGE depletions in the bulk sulfide of the Qingkuanghan deposit suggest that the parental magma of the host intrusion may have undergone minor sulfide segregation at depth. The mixing calculations suggests that an average of 10% crustal contamination in the magma, which may have been the main cause of sulfide saturation in the magma. We propose that sulfide segregation from a moderately PGE depleted magma took place prior to magma emplacement at Qingkuangshan, that small amounts of immiscible sulfide droplets and olivine and chromite crystals were suspended in the ascending magma, and that the suspended materials settled down when the magma passed trough the Qingkuangshan conduit. The Qingkuangshan sulfide-bearing intrusion is interpreted to a feeder of Emeishan flood basalts in the region. 相似文献
16.
金川超大型铜镍硫化物矿床的铂族元素地球化学特征 总被引:21,自引:2,他引:19
对金川超大型铜镍岩浆硫化物矿床岩石、矿石的铂族元素地球化学特征研究表明 ,金川岩体的平均Cu/Pd值远大于原生地幔岩浆的Cu/Pd值 ,说明其岩石为因硫化物析离而失去Pd的岩浆所结晶 ;且岩石的PGE具有部分熔融趋势 ,与地幔橄榄岩接近 ,这些均指示存在岩浆熔离作用。该矿床岩石、矿石的PGE球粒陨石标准化分布模式比较对应 ,均可分为两种类型 ,反映了岩浆多次侵入、熔离分异同时成岩成矿的特征。另外 ,PGE S关系分析表明其成岩成矿过程中有少量地壳物质混染。PGE地球化学特征参数还指示了其高镁拉斑玄武质母岩浆的性质。 相似文献
17.
位于芬兰北部中拉普兰绿岩带的克维特斯塔(Kevitsa)镍-铜-铂族元素矿床是世界上主要的岩浆镍-铜硫化物矿床之一。该矿床储量大,含丰富的镍-铜硫化物和铂族元素。对矿床产出环境、地质特征、矿床成因等进行了总结,结果表明:矿体主要赋存于克维特斯塔基性—超基性层状侵入体的超基性单元中。主要矿石类型为普通型和镍-铂族元素型2种,其中镍-铂族元素型矿石内橄榄石具极高的Ni含量。主要矿石矿物为磁黄铁矿、镍黄铁矿、黄铜矿、黄铁矿、针硫镍矿、红砷镍矿、砷镍矿、辉砷镍矿等,绝大部分铂族矿物包含在硅酸盐中和附着在硫化物颗粒边界。Re-Os、Sm-Nd、Sr及S同位素特征显示成矿岩浆为幔源,但受到地壳物质的混染作用。Pb同位素年代学结果表明克维特斯塔侵入体形成于古元古代。 相似文献
18.
寄主岩浆硫化物和氧化物矿床的镁铁质-超镁铁质岩体对比分析与成矿过程评述 总被引:4,自引:2,他引:2
镁铁质-超镁铁质岩体是世界上岩浆硫化物(Ni-Cu-PGE)和氧化物(Fe-Ti-V-P)矿床的主要载体.全球主要岩浆硫化物和氧化物矿床均可以产于大火成岩省、克拉通区的裂谷带或伸展环境、褶皱带内的后碰撞伸展环境.寄主岩浆硫化物矿床的岩体规模相差甚大(从6×104km2到<0.1km2),既有超镁铁质岩石组合也有镁铁质岩石组合,但其原生岩浆主要为拉斑玄武质岩浆.含镍铜的铂族元素矿床主要赋存于规模很大的层状岩体中,而镍铜硫化物矿床主要赋存于小岩体中.寄主钒钛磁铁矿或磁铁矿矿床的岩体主要是以辉长岩为主的层状杂岩体.寄主钛铁矿-磷灰石矿床的岩体均为层状的斜长岩-纹长二长岩-紫苏花岗岩岩体.尽管其岩石组合相差很大,但其原生岩浆均属拉斑玄武质.寄主硫化物矿床的岩体相对富Si、Mg、Cr、Ni,而寄主氧化物矿床的岩体相对富Fe-Ti-P-V,造岩矿物晶体化学也反映了这种差异.对全球主要含矿岩体的对比分析表明,导致这种反差的主要控制因素应该是岩浆生成时的压力状态,源区性质和熔融程度的差异可能只在局部范围内起作用.对岩浆硫化物矿床成矿过程的认识集中体现在金川模式和岩浆通道模式上,对岩浆氧化物矿床成矿过程的认识体现在氧化物和磷灰石是堆晶相还是从不混溶的矿浆中结晶的.对比分析表明,成矿过程具有多样性,试图用一种模式概括所有同类矿床成矿过程的想法未必可取.毫无疑问,适宜的氧化还原环境是形成岩浆矿床的必要务件,伴随岩浆演化及成矿过程的氧速度变化及其诱因问题尚待进一步探索. 相似文献
19.
There are two types of temporally and spatially associated intrusions within the Emeishan large igneous province (LIP); namely, small ultramafic subvolcanic sills that host magmatic Cu-Ni-Platinum Group Element (PGE)-bearing sulfide deposits and large mafic layered intrusions that host giant Ti-V magnetite deposits in the Panxi region. However, except for their coeval ages, the genetic relations between the ore-bearing intrusions and extrusive rocks are poorly understood. Phase equilibria analysis (Q-Pl-Ol-Opx-Cpx system) has been carried out to elucidate whether ore-bearing Panzhihua, Xinjie and Limahe intrusions are co-magmatic with the picrites and flood basalts (including high-Ti, low-Ti and alkali basalts), respectively. In this system, the parental magma can be classified as silica-undersaturated olivine basalt and silica-saturated tholeiite. The equivalents of the parental magma of the Xinjie and Limahe peridotites and picrites and low-Ti basalts are silica-undersaturated, whereas the Limahe gabbro-diorites and high-Ti basalts are silica-saturated. In contrast, the Panzhihua intrusion appears to be alkali character. Phase equilibria relations clearly show that the magmas that formed the Panzhihua intrusion and high-Ti basalts cannot be co-magmatic as there is no way to derive one liquid from another by fractional crystallization. On the other hand, the Panzhihua intrusion appears to be related to Permian alkali intrusions in the region, but does not appear to be related to the alkali basalts recognized in the Longzhoushan lava stratigraphy. Comparably, the Limahe intrusion appears to be a genetic relation to the picrites, whereas the Xinjie intrusion may be genetically related to be low-Ti basalts. Additionally, the gabbro-diorites and peridotites of the Limahe intrusion are not co-magmatic, and the former appears to be derived liquid from high-Ti basalts. 相似文献