共查询到18条相似文献,搜索用时 218 毫秒
1.
岗上超镁铁质岩主要由纯橄岩和石榴橄榄岩组成,主要组成矿物有橄榄石、铬尖晶石、石榴子石、单斜辉石和斜方辉石等。铬尖晶石的Cr#[Cr/(Cr+Mg)×100]从51到89变化,铬尖晶石矿物表现为4期次演化的特点,反映了从岩浆期向榴辉岩相、角闪岩相和绿片岩相演化特征。随着超镁铁质岩的演化,铬尖晶石中Cr#不断增大(51增大到89),而铬尖晶石Mg#[Mg×100/(Mg+Fe2+)]不断减少,氧逸度不断增加。在绿片岩相—绿片角闪岩相退变质过程中,铬尖晶石中Cr、Mg和Al减少,Fe相对增加,产生富Cr尖晶石变质作用样式。晚期剪切变形等次生变化有利于富铬铬尖晶石矿物的形成和铬尖晶石的富集。同时,角闪岩相和绿片岩相变质作用使铬尖晶石富集呈现容易开采的条带状,降低了铬尖晶石与其他硅酸盐矿物的结合强度,降低了开采强度和成本,使原本不易于开采的铬铁矿矿体变得可以开采。这些意味着铬铁矿矿体展布要结合后期变质作用进行综合分析。 相似文献
2.
提要:岗上超镁铁质岩主要由纯橄岩和石榴橄榄岩组成,主要组成矿物橄榄石、铬铁矿、石榴子石、单斜辉石和斜方辉石等。铬铁矿的Cr#[Cr/(Cr+Mg)×100]从51到89变化,铬铁矿矿物表现为4期次演化的特点,反映了从岩浆期向榴辉岩相、角闪岩相和绿片岩相演化特征。随着超镁铁质岩的演化,铬铁矿中Cr#不断增大,而铬铁矿Mg#〔Mg×100/(Mg+Fe2+)〕不断减少,氧逸度不断增加。在绿片岩相-绿片角闪岩相退变质过程中,铬铁矿中Cr、Mg和Al减少,Fe相对增加,产生富Cr尖晶石变质作用样式。晚期剪切变形等次生变化有利于富铬铬铁矿矿物的形成和铬铁矿的富集。同时,绿片岩相变质作用降低了铬铁矿与其他硅酸盐矿物的结合强度,降低了开采强度和成本,使原本不易于开采的铬铁矿体变得可以开采。这些意味着该地区铬铁矿矿体展布要结合区域构造特征和变质作用进行研究、尤其是结合中晚期脆韧性构造进行分析。 相似文献
3.
胶北地块变质基底超镁铁岩的矿物岩石地球化学特征 总被引:2,自引:2,他引:0
胶北地块变质基底的蛇纹岩、蛇纹岩化尖晶石方辉橄榄岩、尖晶石橄榄斜方辉石岩、角闪石岩自形成以后,经历了早期的高角闪岩相和晚期绿片岩相的变质作用,因而记录了三个阶段的矿物组合:早期的Opx1+Ol1+Spl1;中期的Opx2+Ol2+Spl2+Amp2和晚期的Amp3+Srp3+Mag3+Cal组合。超镁铁岩中普遍存在的角闪石,具有粒状变晶结构特征,形成于角闪岩相和绿片岩相的变质作用过程。蛇纹石没有受到应力作用的迹象,显示其形成于晚期非挤压环境的交代变质作用过程。尖晶石橄榄岩中斜方辉石的矿物化学以及尖晶石橄榄岩的高Mg O含量都表现出克拉通橄榄岩的性质。角闪石岩的稀土元素配分图解的(La/Sm)N的比值1.11~1.41,(La/Yb)N的比值0.91~1.61,超镁铁岩多元素图解显示无高场强元素异常,都表明胶北地块变质基底的超镁铁岩形成的构造背景或是裂谷环境。尖晶石矿物的Mg#0.72~0.79、Cr#0.06~0.12表明交代变质成因。方辉橄榄岩橄榄石的Fo值88.42~90.50、超镁铁质岩石全岩主元素的分散性、较大的∑REE含量变化以及Si/Al-(Mg+Fe)/Al和Mg/Ti-Fe/Ti主元素的比值图解所表现出的超镁铁岩与角闪石岩具有成因联系等,都表明胶北变质基底的超镁铁岩可能是具有堆晶成因的一套幔源岩浆系列。高MgO含量(16%~42%)表现出前寒武纪变质基底的橄榄岩地幔性质;高水含量反映出漫长地质历史时期变质作用过程。 相似文献
4.
两类蛇绿岩中变质橄榄岩的矿物表现出的共同特征是:从二辉橄榄岩→斜辉橄榄岩→斜辉辉橄岩→纯橄岩→铬铁矿石,其橄榄石、斜方辉石和单斜辉石的Mg/(Mg+Fe)(矿物牌号)依次升高,表现出富Mg贫Fe的演化趋势;铬尖晶石的Cr/(Cr+Al)亦同时升高,表现为富Cr贫Al的演化特征。 变质橄榄岩中的矿物均是原始上地幔岩部分熔融的残余物。在部分熔融过程中,橄榄石与铬尖晶石是生成相矿物,而斜方与单斜辉石则是消失相矿物,正是通过两种辉石的不断消失,岩石才从二辉橄榄岩依次转化为纯橄岩,并造成纯橄岩与铬铁矿的紧密伴生。在此过程中,矿物成分时刻都在变化,造岩矿物向富Mg贫Fe,金属矿物向富Cr贫Al方向调整,这与实际测定结果是一致的。 相似文献
5.
大陆科学钻探CCSD-PP3钻孔超镁铁岩岩石学和矿物学特征及其意义 总被引:5,自引:1,他引:5
PP3超镁铁岩在钻孔中出露厚度达480米,包括纯橄岩、石榴橄榄岩和闪石化金云母橄榄岩等岩石类型。岩石主要组成矿物橄榄石、铬尖晶石、石榴子石、单斜辉石和斜方辉石等。橄榄石为镁橄榄石(Fo在88.7-93.1之间),SiO2含量在38.8wt.%-42.4wt.%;石榴子石为钙饱和的镁铝榴石(Py65.945Alm18.095Uv7.518Gr4.695And3.605Sp0.142),MgO含量在16.77wt.%-20.04wt.%,CaO含量在5.4到6.4wt.%之间,Cr2O3含量在0.3到3.3wt.%,FeO含量在2.48wt.%-11.78wt.%,TiO2含量小于0.04wt.%,代表早期矿物组合;两类斜方辉石的成分都为顽火辉石(OpxⅠ:En91.86Fs7.80Wo0.34,OpxⅡ:En91.83Fs7.91Wo0.21Ac0.06)。斜方辉石Mg#(Mg/(Mg Fe)×100)在91.7-92.5间,Cr2O3含量低于0.32wt.%,CaO含量在0.102-0.199wt.%间,Al2O3含量为0.32-1.06wt.%,均值在0.72wt.%;单斜辉石可分为早期透辉石(Wo45.98En47.89Fs2.73Ac3.39)和晚期顽透辉石(Wo27.61En68.78Fs2.27Ac1.34)两种。铬尖晶石的Cr#(Cr/(Cr Mg)×100)从51到89变化,TiO2和MnO2含量分别低于0.26wt%和0.46wt%。橄榄石、铬尖晶石和单斜辉石等矿物组合表现为3-4期次的特点。 相似文献
6.
拉萨地块松多超高压变质带含石榴石白云母石英片岩为榴辉岩的围岩,岩石的矿物组合为石榴石、白云母、钠长石、绿泥石、石英及少量金红石、榍石。石榴石具有明显的成分环带,从核部到幔部Xprp=[Mg/(Mg+Fe+Mn+Ca)]缓慢升高,Xsps=[Mn/(Mg+Fe+Mn+Ca)]逐渐降低,表明石榴石从核部到幔部的成分记录了温度逐渐升高的进变质过程;幔部到边部,Xprp=[Mg/(Mg+Fe+Mn+Ca)]略微降低,Xgrs=[Ca/(Mg+Fe+Mn+Ca)]明显升高,Xsps=[Mn/(Mg+Fe+Mn+Ca)]先升高后降低,表明石榴石边部成分受到了退变质作用改造,呈现扩散环带的特征。利用Thermocalc变质相平衡计算软件在Mn NCKFMASHO体系下计算出含石榴石云母石英片岩的P-T、P-M(H2O)视剖面图,结合石榴石镁铝榴石等值线、钙铝榴石等值线及饱和水含量等值线限定出含石榴石云母石英片岩的峰期变质条件为约27×105k Pa,523/580℃,对应的峰期矿物组合为(g-Jd-Cr-Law(+Phn+q/Coe+H2O)。石榴石核部到幔部成分记录了主要的进变质演化,结合饱和水等值线的变化,判断进变质阶段为升温升压的冷俯冲过程,岩石经历了蓝片岩相至榴辉岩相的变质演化;P-M(H2O)视剖面图及饱和水等值线反映了岩石在减压中的流体行为,通过其变化特征可以确定岩石在峰期之后先经历近等温降压的早期退变质过程,晚期降温降压的退变轨迹则由石榴石边部成分所确定,此过程中,岩石发生了角闪岩相至绿帘角闪岩相变质,并在后期经历了绿片岩相变质叠加。近等温降压的退变质过程反映了快速抬升的构造运动过程,早期硬玉转变为钠长石可能发生在这个阶段。对比含石榴石云母石英片岩与榴辉岩的P-T轨迹,峰期变质温压及变质演化特征,提出含石榴石云母石英片岩曾经历过高压变质,结合野外相互伴生的地质关系,认为该片岩与榴辉岩经历了相同或者相似的俯冲折返过程。 相似文献
7.
中国大陆科学钻探工程第三先导孔(PP3钻孔),位于秦岭-大别-苏鲁超高压造山带的东部,赣榆岗上超镁铁岩体中。钻孔中超镁铁岩的岩性包括纯橄岩和石榴超镁铁岩等,该超镁铁岩的SiO_2含量均值在43.68%,变化范围为41.9%~47.11%;MgO均值在44.71%,变化范围为47.12%~48.62%;Cr_2O_3均值在0.39%,变化范围为0.30%~0.47%;CaO均值0.12%(变化范围为0.006%~0.34%);Na2O均值在0.05%(变化范围为0.005%~0.32%)。超镁铁质岩的Mg#(Mg/(Mg+Fe)×100)稳定在91.9~93.0之间,Cr#(Cr/(Cr+Fe)×100)均值在38,较高;变化在30~45之间,变化小。其中闪石化金云母超镁铁岩具有最低的值(Cr#=19)。Ni含量在2100×10~(-6)~2500×10~(-6),CaO含量均值为0.13%,Al_2O_3含量均值为0.41%。岩体成分均一,表现为高镁,低钙和低铝的特征。超镁铁岩的不相容元素和稀土元素总量很低,稀土元素总量均值在0.60×10~(-6)。(La/Yb)N比值在6.9~51.2,均值在16.1,重稀土元素严重亏损,是中国东部最亏损的地幔岩之一。超镁铁岩中橄榄石成分(Fo在88.7~93.1之间,Fa在6.8~11.1之间),从早期到晚期,岩石Fo值从93→91~92.4→88.7~89.1。铬尖晶石Cr#值从51到89变化,TiO_2和MnO_2值分别低于0.26%和0.46%,晚期铬尖晶石Cr#值增大,Ti含量减小。单斜辉石由透辉石(Wo_(45.9)8En_(47.89)Fs_(2.73)Ac_(3.39))和顽透辉石(Wo_(27.61)En_(68.78)Fs_(2.27)Ac_(1.34))两种,透辉石(Cpx_Ⅰ)在顽透辉石(Cpx_Ⅱ)中呈被交代的残余粒状。角闪石和金云母呈明显的条带状和脉状,局部发育。岩石具有弱的Na和K交代作用,较高的Sr和Ba等元素,亏损高场强元素(HSFE),以及特征的稀土元素和微量元素配分曲线;岩石中主要组成矿物橄榄石从早期到晚期,矿物Mg#指数下降(Mg#从93→88);单斜辉石中可看到透辉石被顽透辉石交代现象;次生角闪石和金云母的形成等特征都显示超镁铁岩经历了碳酸盐交代作用。在超镁铁岩矿物橄榄石中发现细小白云石和菱镁矿等碳酸盐矿物更有力证明了苏鲁超高压变质带超镁铁岩经历了深部碳酸盐交代作用。PP3钻孔超镁铁岩属于强烈亏损地幔岩区域,单斜辉石和角闪石等含水矿物在超镁铁岩中含量低,交代作用的范围和规模有限,且交代作用在动力学上是快速的和不平衡的过程。 相似文献
8.
山东半岛早前寒武纪高级变质基底中超镁铁质岩的成因 总被引:13,自引:12,他引:1
山东半岛早前寒武纪高级变质基底广泛出露超镁铁质岩,它们呈大小不等的透镜体产于TTG片麻岩中,且与基性高压麻粒岩密切"伴生"。岩相学和矿物相转变分析、温压条件估算以及锆石原位U-Pb定年结果表明,山东半岛超镁铁质岩记录了十分复杂的演化历史,其中早期残留的原岩标志性的矿物组合 (M1) 以尖晶石 (富Mg)+橄榄石 (富Mg)+斜方辉石 (富Mg) 为特征,相应的岩浆结晶温压条件T=980~1050℃、P=1.55~1.65GPa;峰期高压麻粒岩相变质阶段 (M2) 的典型的矿物组合以尖晶石 (富Fe)+橄榄石 (富Fe)+斜方辉石 (富Fe) 为特征,相应的温压条件T=840~880℃、P=1.40~1.55GPa,此阶段形成的变质锆石记录的高压麻粒岩相变质时代为1858~1877Ma;峰后中低压角闪-麻粒岩岩相退变质阶段 (M3) 的矿物组合以斜方辉石+单斜辉石+橄榄石+角闪石 (富 (Na+K))+尖晶石+磁铁矿(富Cr) 为特征,相应的温压条件T=760~820℃、P=0.55~0.65GPa,此阶段形成的变质锆石记录的退变质时代为1820~1840Ma;晚期低角闪岩相-绿片岩相变质阶段 (M4),以形成角闪石 (贫 (Na+K))+磁铁矿 (贫Cr)+蛇纹石±绿泥石±金云母的矿物组合为特征,相应的温压条件T=500~600℃、P=0.32~0.40GPa。超镁铁质岩的变质演化具有典型碰撞造山带顺时针P-T-t轨迹,指示山东半岛超镁铁岩是古老陆块之间碰撞造山的产物。该项成果对于进一步深入探讨华北克拉通东南缘早前寒武纪古老陆块的碰撞-拼贴及其演化的动力学过程具有重要科学意义。 相似文献
9.
北秦岭松树沟榴辉岩的确定及其地质意义 总被引:9,自引:8,他引:1
松树沟石榴石角闪岩(榴闪岩)呈透镜状产于松树沟超镁铁岩旁侧的斜长角闪岩中,一直以来被认为是形成于接触交代变质或麻粒岩相变质过程。详细岩相学及矿物元素分析,在榴闪岩的基质矿物、石榴石幔部及锆石包体中发现残留的绿辉石,而且石榴石也保存了明显的进变质主、微量元素成分环带,表明松树沟榴闪岩为榴辉岩退变质的产物,至少经历了从角闪岩相到榴辉岩相再到角闪岩相的三阶段顺时针PT演化过程。锆石定年结果得到榴辉岩的变质年龄为500±8Ma,原岩结晶时代为796±16Ma,与秦岭岩群北侧官坡超高压榴辉岩的变质年龄和原岩年龄完全一致,也与北秦岭区域高压-超高压变质时代和原岩的结晶时代一致。表明松树沟榴辉岩与北秦岭造山带已发现的高压-超高压变质岩石一起都应是古生代大陆深俯冲作用的结果,而松树沟超镁铁岩可能是俯冲的大陆板片在折返过程中携带的俯冲隧道中的交代地幔岩。 相似文献
10.
阿尔卑斯超镁铁岩的演化及上地幔的局部熔融 总被引:5,自引:1,他引:5
西藏新疆超镁铁岩是上地幔局部熔融的产物。超镁铁岩在矿物成分上的演化表现为两个平行的演化系列:一是随各亚类岩石的递变,硅酸盐矿物的100Mg,(Mg+Fe~(2+))值递增,即硅酸盐矿物向富镁方向演化;二是副矿物铬尖晶石的100Cr/(Cr+Al)值相应递增,向富铬方向演化;上述演化趋势与岩浆分异演化趋势相反。在组构上则由原粒结构向熔融残余、后成合晶,碎斑结构,然后递变为等粒镶嵌;板状镶嵌结构。二辉橄榄岩的熔融实验资料清楚表明、阿尔卑斯超镁铁岩的演化乃是地幔岩熔融的结果。各亚类岩石代表了不同程度的局部熔融,岩体所显示的上部偏基性,下部偏酸性的垂直分带实属地幔岩的熔融分带。 相似文献
11.
Petrological investigation of the Ganyu peridotite in the Sulu ultrahigh-pressure terrane, eastern China 总被引:1,自引:0,他引:1
The ultramafic body sampled in the Chinese Continental Scientific Drilling (CCSD) Hole PP3 is located in the eastern part of the Dabie-Sulu UHP metamorphic belt near Donghai County. It is about 480 m thick, and consists chiefly of garnet peridotite, dunite and serpentinite. The principal minerals include olivine, chromium spinel, diopside, enstatite, garnet with minor secondary augite, phlogopite and amphibole. Both the olivine and orthopyroxene are highly magnesian, and the garnet is pyropic with 5.4-6.4% CaO and 0.3-3.3% Cr2O3. Two generations of clinopyroxene are present; an early diopside followed by augite. Chromium spinels are highly variable with Cr#s (100Cr / (Cr + Al)) between 51 and 89, and their compositions reflect different processes of formation, namely partial melting and eclogite, amphibole and greenschist facies metamorphism. The Mg#s (100 Mg / (Mg + Fe2+))of the spinels correlate positively with the Cr#s but negatively with oxygen fugacity. Based on the spinel compositions the ultramafic rocks originated in the shallow mantle, then subducted to depths of more than 100 km and finally exhumed to the surface. They underwent partial melting at shallow depths, mostly in the spinel facies, and were later transformed into garnet peridotites during deep subduction. All of the rocks were weakly metasomatized during exhumation and were subjected to retrograde metamorphism. 相似文献
12.
Composition of chromiferous spinel included in olivines of Mg-rich basalts and gabbros of the Deccan Traps (Gujarat and Western Ghats) are reported here. They vary from Al-rich compositions [Al2O3 = 53wt.%; Cr#, 100Cr/(Cr + Al) = 12] to Cr-rich compositions [Cr2O3 = 51wt.%; Cr# = 84], and from Cr-Al rich compositions towards Cr-rich Ti-magnetite (TiO2 up to 23 wt.%, ulvöspinel up to 67mol.%). The Mg# [100Mg/(Mg + Fe2+)] of spinel decreases from 81 to nearly zero. The highest Cr# has been found in the Bushe Fm., Thakurvadi Fm., and some high-Ti basalts of the Pavagadh section, whereas some of the low-Ti basalts of Saurashtra have Al-rich compositions typical of spinels found in mid-ocean ridge basalts. The chemical composition of the Deccan Trap spinels is completely different compared to that observed in mantle spinel suites, with very few exceptions. The decreasing Al and increasing Fe and Ti of spinel seems to be mainly the result of decrease of Mg in the locally coexisting melts and favourable cationic substitutions in the lattice. There is barely any evidence of general relationships between the composition of the Deccan spinels and inferred mantle sources of the host magmas. Pyroxene inclusions in spinels may witness a high-pressure stage of crystallization, but the possibility of non-equilibrium crystallization, or even magma mixing, cannot be ruled out. Overall, the compositional ranges of chromiferous spinel in the Deccan Traps closely match those observed in the other Large Igneous Provinces having mafic/ultramafic intrusions and mafic magma compositions (e.g., Siberian Traps, Karoo, Emeishan). 相似文献
13.
Subbarayudu V. Gogineni Charles E. Melton A. A. Giardini 《Contributions to Mineralogy and Petrology》1978,66(3):251-261
Based on modal and chemical composition, the rocks of the Prairie Creek diatreme situated 4 km SSE of Murfreesboro, Pike County, Arkansas, are classified as micaceous kimberlite. The K-Ar isotopic analysis of phlogopite from this diatreme yielded an age of 106 ± 3 m.y. (Albian) which is in agreement with stratigraphic relations. Electron beam probe data on minerals from kimberlite breccia, one of the three textural types, are presented. The breccia is considered as the potential source of the diamonds that have been mined at the diatreme. It contains phenocrysts of olivine (Fo90–92) and serpentine pseudomorphs after olivine embedded in a groundmass of serpentine, minor calcite, chrome-diopside, phlogopite (Mg/Mg+Fe = 84.15%), perovskite, spinels, and pentlandite. Xenoliths of shales, sandstones, and mantle-derived ultramafic material are also present. Spinels are rich in Cr, Ti, and Fe and generally low in Al. Zoned spinels show enrichments in Ti and Fe towards their rims. A positive correlation between 100(Fe3++Ti)/(Cr+Al+Fe3++Ti) and 100 Mg/(Mg+Fe2+) ratios exists in these spinels and probably reflects an oxygen fugacity increase during magma crystallization. Occluded gases in diamonds and kimberlites corroborate the hypothesis that the parent magma of the Prairie Creek kimberlite was derived by partial melting of upper-mantle garnet lherzolite under volatile-rich conditions, primarily enriched in H2O and CO2. 相似文献
14.
Karen L. Kimball 《Contributions to Mineralogy and Petrology》1990,105(3):337-346
Chromite spinels in hydrothermally altered rocks from fracture-zone ultramafic rocks and from both ultramafic cumulate pods and sheeted dikes in the Josephine ophiolite, California, display a wide variety of compositions. Alteration of the spinel may not be visible in thin section. The primary composition changes accompanying hydrothermal alteration are increase in Cr/(Cr+Al) and/or Fe2+/(Fe2++Mg). In general, altered spinel grains associated with hornblende and chlorite show an increase in Cr/(Cr+Al) from core to rim. Altered spinel grains associated with serpentine show an increase in Fe2+/(Fe2++Mg) from core to rim but may not show an increase in Cr/(Cr+Al). The compositional zoning in some altered spinel grains appears to result both from reaction of clinopyroxene plus spinel to form hornblende, and from reaction of hornblende to form chlorite. These observations suggest that subsolidus hydrothermal metamorphic effects need to be considered when interpreting spinel compositions and the compositions should not be interpreted solely in terms of igneous processes. Further, the presence of highly altered spinels may be indicative of hydrothermal alteration in rocks where other evidence of such alteration is absent. 相似文献
15.
R. PALMERI B. GHIRIBELLI G. RANALLI F. TALARICO C. A. RICCI 《Journal of Metamorphic Geology》2007,25(2):225-243
Northern Victoria Land is a key area for the Ross Orogen – a Palaeozoic foldbelt formed at the palaeo‐Pacific margin of Gondwana. A narrow and discontinuous high‐ to ultrahigh‐pressure (UHP) belt, consisting of mafic and ultramafic rocks (including garnet‐bearing types) within a metasedimentary sequence of gneisses and quartzites, is exposed at the Lanterman Range (northern Victoria Land). Garnet‐bearing ultramafic rocks evolved through at least six metamorphic stages. Stage 1 is defined by medium‐grained garnet + olivine + low‐Al orthopyroxene + clinopyroxene, whereas finer‐grained garnet + olivine + orthopyroxene + clinopyroxene + amphibole constitutes the stage 2 assemblage. Stage 3 is defined by kelyphites of orthopyroxene + clinopyroxene + spinel ± amphibole around garnet. Porphyroblasts of amphibole replacing garnet and clinopyroxene characterize stage 4. Retrograde stages 5 and 6 consist of tremolite + Mg‐chlorite ± serpentine ± talc. A high‐temperature (~950 °C), spinel‐bearing protolith (stage 0), is identified on the basis of orthopyroxene + clinopyroxene + olivine + spinel + amphibole inclusions within stage 1 garnet. The P–T estimates for stage 1 are indicative of UHP conditions (3.2–3.3 GPa and 764–820 °C), whereas stage 2 is constrained between 726–788 °C and 2.6–2.9 GPa. Stage 3 records a decompression up to 1.1–1.3 GPa at 705–776 °C. Stages 4, 5 and 6 reflect uplift and cooling, the final estimates yielding values below 0.5 GPa at 300–400 °C. The retrograde P–T path is nearly isothermal from UHP conditions up to deep crustal levels, and becomes a cooling–unloading path from intermediate to shallow levels. The garnet‐bearing ultramafic rocks originated in the mantle wedge and were probably incorporated into the subduction zone with felsic and mafic rocks with which they shared the subsequent metamorphic and geodynamic evolution. The density and rheology of the subducted rocks are compatible with detachment of slices along the subduction channel and gravity‐driven exhumation. 相似文献
16.
In the Kakkaponnu area within the Achankovil Shear Zone (ACSZ), southern India, an undeformed ultramafic body occurs within intensely deformed granulite facies metamorphic rocks of Pan-African age. The Kakkaponnu ultramafic body is composed of spinel-dunite, phlogopite-dunite, glimmerite, graphite-spinel-glimmerite, and phlogopite-graphite-spinellite. The spinel-dunite is a fine- to medium-grained rock composed mainly of olivine and aluminous spinel and is characterized by relatively high MgO (50.39–50.90 wt.%), (Mg/ (Mg+Fe) = 0.95), Al2O3 (7.8–8.98 wt.%), and low Ni (10–14 ppm). The phlogopite-dunite comprises serpentinized olivine, phlogopite and subordinate amounts of dolomite and is high in MgO (36.5 wt.%), Mg# [(Mg/(Mg+Fe) = 0.97], and K2O (%%5.5 wt.%). Olivine in the spinel-dunite is marked by unusually high MgO (Mg# = 0.96) and extremely low NiO (<0.14 wt.%). Spinels in all rock variants are highly aluminous with low Cr# [Cr/(Al+Cr)] ratio (<0.01). Magnesian ilmenite [Mg# = 59], rutile, zirconolite and baddeleyite are main accessory phases. No significant compositional variation is noted between large grains and small inclusions for all minerals. Abundant graphite, magnesite, melt and ubiquitous CO2 fluid inclusions are identified in the olivine and spinel grains. The data imply that the Kakkaponnu ultramafic body was formed by progressive crystallization of highly potassic CO2-rich melts injected into lower crustal levels. K-Ar ages of 470.5±9.3 and 464.5±9.2 Ma are obtained for phlogopite separates from glimmerite and phlogopite-dunite respectively. These ages are comparable to the phlogopite K-Ar ages reported from lithospheric shear zones in southern Madagascar, which was once conjugated to the Southern Peninsular India prior to the Gondwana breakup. This implies widespread highly potassic CO2-rich fluid/melt influx along shear zones in this part of East Gondwana continent. 相似文献
17.
皖南蛇绿岩带位于江南造山带北东段,该区地幔橄榄岩多已发生蚀变甚至全部蛇纹石化,成为制约该区深部研究工作的一个现实瓶颈.为查明该蛇绿岩及赋存其中的伏川铬铁矿床的成因,本研究通过电子显微镜以及电子探针等手段,对皖南蛇绿岩和不同类型铬铁矿石(Ⅰ类以铬绿泥石为主要脉石矿物和Ⅱ类以异剥辉石为主要脉石矿物)中铬铁矿及其共生矿物进行深入研究,发现铬铁矿为典型的阿尔卑斯型高铝型铬铁矿,大多发育裂隙结构,在颗粒边缘或裂隙处部分蚀变为铁铬铁矿.对铬铁矿核部未蚀变部分进行研究,得出方辉橄榄岩中铬尖晶石Cr#(100×Cr/(Cr+Al))为54.12~65.18,Mg#(100×Mg/(Mg+Fe2+))为42.37~54.84,铬铁矿石中铬铁矿Cr#为53.97~62.29,Mg#为59.49~68.57.铬铁矿母岩浆成分和MORB(mid-ocean ridge basalt)基本一致,表明伏川铬铁矿结晶时母岩浆的成分可能为MORB.对其氧化环境的研究发现其成岩成矿环境为低氧逸度(-0.14至+0.68log(QFM)),并具有从MORB向SSZ(suprasubduction zone)过渡的特征.结合野外地质现象,认为铬铁矿石可能是地幔橄榄岩和洋中脊玄武岩浆反应而形成,而方辉橄榄岩又体现出SSZ特征,说明皖南蛇绿岩应该是地幔橄榄岩部分熔融、岩石-熔体反应和板块俯冲等综合作用的结果,这为研究江南造山带的构造和演化提供重要依据. 相似文献
18.
Ayano Sofiya Akira Ishiwatari Naoto Hirano Tatsuki Tsujimori 《International Geology Review》2017,59(13):1621-1631
Serpentinites (massive and schistose) and listvenite occur as tectonic sheets and lenses within a calcareous metasedimentary mélange of the Tulu Dimtu, western Ethiopia. The massive serpentinite contains high-magnesian metamorphic olivine (forsterite [fo] ~96 mol%) and rare relict primary mantle olivine (Fo90–93). Both massive and schistose serpentinites contain zoned chromian spinel; the cores with the ferritchromite rims preserve a pristine Cr/(Cr+Al) atomic ratio (Cr# = 0.79–0.87), suggesting a highly depleted residual mantle peridotite, likely formed in a suprasubduction zone setting. Listvenite associated with serpentinites of smaller ultramafic lenses also contain relict chromian spinel having identical Cr# to those observed in serpentinites. However, the relict chromian spinel in listvenite has significantly higher Mg/(Mg+Fe2+) atomic ratios. This suggests that a nearly complete metasomatic replacement of ultramafic rocks by magnesite, talc, and quartz to prevent Mg–Fe2+ redistribution between relict chromian spinel and the host, that is, listvenite formation, took place prior to re-equilibration between chromian spinel and the surrounding mafic minerals in serpentinites. Considering together with the regional geological context, low-temperature CO2-rich hydrothermal fluids would have infiltrated into ultramafic rocks from host calcareous sedimentary rocks at a shallow level of accretionary prism before a continental collision to form the East African Orogen (EAO). 相似文献