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1.
石榴子石是演化花岗岩常见的重要副矿物之一,但石榴子石地球化学特征如何随岩浆演化而变化是有待探讨的问题之一。雅拉香波片麻岩穹隆发育年龄分别为20. 3±0. 5Ma和20. 1±0. 3Ma(锆石U-Pb年龄)的高Sr/Y比二云母花岗岩(TMG)和淡色花岗岩(Grt-LG)。虽然两类花岗岩都含石榴子石,且在形成时代和Sr-Nd同位素组成上相似,但在元素地球化学特征上具有明显的差异,淡色花岗岩和二云母花岗岩分别代表演化程度较高和较原始的岩浆。在同一件样品中,在石榴子石颗粒之间,存在一定程度的微量元素地球化学特征的不均一性,反映了局部熔体地球化学特征。在两类花岗岩中,岩浆型石榴子石具有以下相似的地球化学特征:(1)从核部到边部,Mn和HREE含量降低,表现出典型的生长环带特征;(2)富集HREE,亏损LREE;和(3)显著的Eu负异常。但在关键微量元素Zn、Sc和Y上,具有明显的差异性。在花岗质岩浆演化过程中,贫Fe、Mg和Mn矿物相的分离结晶作用,导致残留熔体的Ca和Sr含量降低,Eu负异常幅度增大,Sc、Zn、Y和HREE增高,是导致淡色花岗岩石榴子石相应元素含量增高的主要原因。上述观测表明:高Sr/Y花岗岩也可以结晶石榴子石,与通常的淡色花岗岩石榴子石相比,这些石榴子石的Sc、Zn和Y含量和Eu异常幅度明显较低。但随分异程度的升高,石榴子石的元素地球化学特征与源自变沉积岩的淡色花岗岩的类似。因此,花岗岩中的石榴子石矿物化学特征变化记录了花岗岩岩浆演化的重要信息。  相似文献   

2.
已有的数据表明,大约在中始新世(44~40Ma),西藏特提斯喜马拉雅带(雅拉香波穹窿地区)经历了一次特别的地壳深熔作用,产生了大量高Sr/Y比值的二云母花岗岩.在雅拉香波穹窿南部的隆子-恰嘎地区,发育一套流纹质次火山岩,以小岩体或岩脉形式侵位于侏罗纪日当组的砂岩和页岩之中.岩相学观察、锆石U-Pb年代学、全岩元素和同住素(Sr、Nd)地球化学数据表明:(1)该次火山岩形成于约43~41Ma,与北部二云母花岗岩体的形成年龄相似;(2)该次火山岩经历了强烈的岩浆演化后期的岩浆-热液作用和钙长石分离结晶作用,导致该套岩浆岩强烈的Eu负异常、明显降低的Sr含量和锆石岩浆增生边的普通Pb和U浓度明显升高;和(3)该套次火山岩和二云母花岗岩属于同一岩浆过程的不同的构造层次,在时间、空间和成岩物质来源上具有一致性,同属于中始新世青藏高原主碰撞时中下地壳部分熔融的产物.  相似文献   

3.
藏南马拉山高钙二云母花岗岩的年代学特征及其形成机制   总被引:7,自引:3,他引:4  
马拉山片麻岩穹窿位于特提斯喜马拉雅带内,由马拉山二云母花岗岩、错布二云母花岗岩和派枯错复合淡色花岗岩组成。马拉山二云母花岗岩东西展布约10km,锆石U-Pb分析表明,马拉山二云母花岗岩的结晶时间较长,从17.6Ma到16.9Ma,或者至少是两次深熔作用的产物,分别发生在17.6Ma和16.9Ma。全岩主量元素、微量元素和Sr、Nd、Hf同位素分析表明马拉山二云母花岗岩是一个较均一岩体,具有以下特征:(1)高SiO2,Al2O3和相对较高的CaO(1.2%~2.0%);(2)较高的Sr,较低的Rb和Rb/Sr比值(<1.3),且随着Ba浓度的增加,Rb/Sr比值保持不变;(3)高度变化的Zr/Hf比值(25.9~39.9);(4)富集轻稀土,亏损重稀土,几乎无或弱的负Eu异常;(5)较一致的Sr和Nd同位素组成;(6)锆石岩浆增生边和继承性锆石的Hf同位素比值高度变化,εHf(t)分别为-20.4~-8.0和-27.2~-9.5。这些特征暗示马拉山二云母花岗岩是变泥质岩在较高温压条件下水致白云母部分熔融的产物,与藏南裂谷系的东西向伸展作用密切相关。  相似文献   

4.
山西吕梁山中段元古代花岗质岩浆活动和变质作用   总被引:9,自引:0,他引:9  
对吕梁山中段花岗质岩石的年代学和地球化学研究表明,研究区存在两期古元古代花岗质岩浆活动,分别形成于2063Ma和1806Ma;它们具有不同的地球化学特征:早期石英二长岩具有埃达克质岩浆特点,低SiO2,MgO,Y和Yb,高Al2O3,Na2O,Sr,Ba和Sr/Y比值,没有明显的Eu异常;后期二长花岗岩则具高SiO2,Rb,Nb,Y,Yb和低Na20,Al2O3,Sr的特点,并具低的Sr/Y比值和明显的Eu负异常。结合同位素特征,道仁沟石英二长岩被解释为古老的地壳物质在地幔深部发生部分熔融形成,并与地幔围岩发生了物质交换。而宽坪花岗岩则由石榴子石麻粒岩在地壳深度分解熔融产生。岩石学和地球化学特征显示它们分别形成于同碰撞和造山后两种不同的构造背景。吕梁群主变质作用与第二期花岗质岩浆活动几乎同时发生,它们具有等温降压的顺时针PTt轨迹,表明它们经历了快速抬升的变质过程。这一期花岗质岩浆活动和变质作用与华北地块许多岩浆活动和变质作用同时发生,暗示从这个时间开始华北地块处于拉张构造背景。  相似文献   

5.
在喜马拉雅碰撞造山带中,石榴石是变泥质岩的主要造岩矿物,也是花岗岩或淡色体的重要副矿物,保存了有关地壳深熔作用的关键信息,是揭示大型碰撞造山带中-下地壳物质的物理和化学行为的重要载体。在喜马拉雅造山带内,新生代花岗质岩石(淡色花岗岩和混合岩中的淡色体)含两类石榴石,大多数为岩浆型石榴石,自形-半自形,不含包裹体,但淡色体中含有港湾状的混合型石榴石。岩浆型石榴石具有以下地球化学特征:(1)从核部到边部,显示了典型的"振荡型"生长环带;(2)富集HREE,亏损LREE,从核部到边部,Hf、Y和HREE含量降低;(3)显著的Eu负异常;(4)相对于源岩中变质石榴石,Mn和Zn的含量显著增高。岩相学和地球化学特征都表明:变泥质岩熔融形成的熔体(淡色体)捕获了源岩的变质石榴石,熔体与石榴石反应导致大部分元素的特征被改变,只在核部保留了源岩的部分信息。同时,在花岗质熔体结晶过程中,形成少量的岩浆型石榴石。这些石榴石摄取了熔体中大量的Zn,浓度显著升高,在斜长石和锆石同步分离结晶作用的共同影响下,石榴石中Eu为明显负异常,Hf、Y和HREE浓度从核部到边部逐渐降低。上述数据和结果表明,花岗岩中石榴石的矿物化学特征记录了精细的有关花岗岩岩浆演化的重要信息。  相似文献   

6.
北喜马拉雅出露一系列片麻岩穹窿,这些穹窿被形成于27.5~10Ma的淡色花岗岩侵入.淡色花岗岩的岩石类型为二云母花岗岩,它们的主量元素组成为SiO2=70.97%~74.54%、K2O+Na2O=6.27%~8.09%、K2O/Na2O=0.91~1.36及A/CNK=1.10~1.33.然而,它们在微量元素组成上呈现出较大的变化:Rb=(41~322)×10-6、Sr=(26~139)×10-6、Ba=(135~594)×10-6、(La/Yb)N=0.97~17.31、Eu/Eu=0.29~0.72.北喜马拉雅淡色花岗岩的主量元素和微量元素组成特征类似于高喜马拉雅中新世的二云母花岗岩,而在Ti、Mg、Ca、Ba含量和Rb/Sr比值上明显不同于高喜马拉雅中新世的电气石-白云母花岗岩.北喜马拉雅淡色花岗岩(87Sr/86Sr)t=0.7344~0.8503(t=10Ma),εNd(10Ma)=-12.5~-19.3,与高喜马拉雅淡色花岗岩无明显差异.在岩石成因上,北喜马拉雅和高喜马拉雅中新世淡色花岗岩均起因于构造减压作用,由此导致白云母发生脱水反应诱发高喜马拉雅结晶岩系的深熔.但北喜马拉雅淡色花岗岩形成的地质背景明显不同于高喜马拉雅淡色花岗岩,前者具有较长的时间跨度,开始形成于喜马拉雅渐新世的地壳增厚期,之后形成于中新世穹窿片麻岩的折返时期,而高喜马拉雅淡色花岗岩与中新世高喜马拉雅结晶岩系的构造挤出作用有关.因此,北喜马拉雅和高喜马拉雅淡色  相似文献   

7.
与花岗岩岩浆作用相关的地壳深熔条件与汇聚板块边缘的构造体制和热结构密切相关。对喜马拉雅新生代花岗岩来说,不同时代的地壳源区深熔条件被两组花岗岩记录下来。第一组形成于43~44 Ma的始新世;第二组形成于17~18 Ma的中新世,具有典型高喜马拉雅淡色花岗岩的地球化学组成。始新世花岗岩经历了分离结晶作用,形成了两个亚组,一组具有高镁铁度、高CaO含量和高Na2O/K2O和Sr/Y值,另一组则恰恰相反。Sr-Nd同位素组成表明,始新世花岗岩的源区物质由角闪岩和变泥质岩组成。相平衡模拟结果显示,始新世花岗岩的原始熔体由角闪岩和变泥质岩构成的混合源区在(850±50)℃和(0.85±0.05)GPa条件下部分熔融产生。而中新世花岗岩的源区熔融条件与典型高喜马拉雅淡色花岗岩的一致,为750~770℃和0.6~0.8 GPa,源岩为变泥质岩。综合包括变质岩石学在内的多学科研究结果,碰撞造山带从同碰撞阶段向碰撞晚期和碰撞后阶段的演化过程中发生了热结构的变化。同碰撞阶段的超高压变质岩记录了低的地温梯度(<10℃/km),碰撞晚期的始新世花岗岩形成于高的...  相似文献   

8.
东南沿海分布大面积的白垩纪晚期侵入岩。这些岩石可分为两期:其中115~100Ma以钙碱性系列岩石为主,岩石组合为辉长岩-闪长岩-花岗闪长岩-二长花岗岩-碱性长石花岗岩;而100~86Ma的岩石为碱性系列,岩石组合为石英二长斑岩-正长斑岩-碱性长石花岗岩。115~100Ma的辉长岩以角闪辉长岩为主,具有极高的CaO、MgO和Al_(2)O_(3)含量,具有极低的SiO_(2)(42.9%~53.8%)、全碱(K_(2)O+Na_(2)O:0.86%~5.28%)、Ba、Nb、Th、Rb和Zr含量,也具有极低的FeO^(T)/MgO、La/Yb和Zr/Hf比值,较高的Eu/Eu^(*)、Sr/Y比值和Sr含量,为基性-超基性堆晶岩。与辉长岩同期的闪长岩和细粒暗色包体具有较高的SiO_(2)(50.34%~63.68%),较低的CaO、P_(2)O_(5)、MgO、Al_(2)O_(3)含量,相对低的Eu/Eu^(*)和Sr/Y比值,变化较大的La/Yb和Zr/Hf比值,代表了从基性岩浆储库中抽取的富硅熔体。115~100Ma的花岗闪长岩和二长花岗岩类岩石为准铝质岩石,SiO_(2)含量变化较大(61.7%~75.3%),具有较低的FeO^(T)/MgO、Ga/Al比值和Nb、Zr及Nb+Zr+Ce+Y元素含量,显示出典型I型花岗岩的特征。这些花岗岩具有相对高的La/Yb、Eu/Eu^(*)和Zr/Hf比值和高的Sr、Ba和Zr含量。结合岩相学特征,这些花岗岩为堆晶花岗岩。而115~100Ma的碱性长石花岗岩具有极高的SiO_(2)含量(大于75%),低的Eu/Eu^(*)、La/Yb、Zr/Hf和Sr/Y比值,具有低的Ba、Sr和Zr含量和高的Rb、Nb、Y和Th含量和Rb/Sr比值,表明这些花岗岩是由富硅岩浆储库中抽离的高硅熔体侵入地壳形成。100~86Ma期间形成的二长斑岩和正长斑岩具有极高的全碱含量,可以达到8%~12%,其SiO_(2)主要集中在60%~70%,具有极高的Zr、Sr和Ba含量和Eu/Eu^(*)、La/Yb和Sr/Y比值,显示出堆晶花岗岩的特征。而100~86Ma期间形成的大部分碱性长石花岗岩具有极高的SiO_(2)含量(大于75%),并显示出A型花岗岩的特征,具有高的Rb/Sr比值和高的Rb、Y和Th和低的Ba、Sr含量和低的Zr/Hf、La/Yb、Eu/Eu^(*)和Sr/Y比值,表明它们是由富硅岩浆储库抽离的高硅熔体侵入浅部地壳形成。东南沿海高硅花岗岩的形成和穿地壳岩浆系统密切相关,高硅花岗岩是由浅部地壳内晶体-熔体分异产生的熔体侵入地壳所形成,而高硅花岗岩的地球化学特征与岩浆储库的水及挥发份含量密切相关。115~100Ma期间,从富水的岩浆储库抽离的熔体形成具有低高场强元素含量和低Rb/Sr比值的高硅花岗岩,这一过程与古太平洋板块俯冲有关;100~86Ma期间,从富挥发份的岩浆储库抽离的熔体形成碱性特征、富含高场强元素和具有高的Rb/Sr比值的高硅花岗岩,这一过程和古太平洋板块回撤软流圈上涌有关。  相似文献   

9.
喜马拉雅碰撞造山带新生代地壳深熔作用与淡色花岗岩   总被引:12,自引:10,他引:2  
曾令森  高利娥 《岩石学报》2017,33(5):1420-1444
自从印度-欧亚大陆碰撞以来,伴随着构造演化和温度-压力-成分(P-T-X)的变化,喜马拉雅造山带中下地壳变质岩发生不同类型的部分熔融反应,形成性质各异的过铝质花岗岩。这些花岗岩在形成时代、矿物组成、全岩元素和放射性同位素地球化学特征上都表现出巨大的差异性。始新世构造岩浆作用形成高Sr/Y二云母花岗岩和演化程度较高的淡色花岗岩和淡色花岗玢岩,它们具有相似的Sr-Nd同位素组成,是碰撞早期增厚下地壳部分熔融的产物。渐新世淡色花岗岩主要为演化程度较高的淡色花岗岩,可能指示了喜马拉雅造山带的快速剥露作用起始于渐新世。早中新世以来的淡色花岗岩是喜马拉雅造山带淡色花岗岩的主体,是变泥质岩部分熔融的产物,包含两类部分熔融作用——水致白云母部分熔融作用(A类)和白云母脱水熔融作用(B类)。这两类部分熔融作用形成的花岗质熔体在元素和同位素地球化学特征上都表现出明显的差异性,主要受控于两类部分熔融作用过程中主要造岩矿物和副矿物的溶解行为。这些不同期次的地壳深熔作用都伴随着高分异淡色花岗岩,伴随着关键金属元素(Nb、Ta、Sn、Be等)的富集,是未来矿产勘探的重要靶区。新的观测结果表明:在碰撞造山带中,花岗岩岩石学和地球化学性质的变化是深部地壳物质对构造过程响应的结果,是深入理解碰撞造山带深部地壳物理和化学行为的重要岩石探针。  相似文献   

10.
喜马拉雅淡色花岗岩世界瞩目,具有重要的理论研究和找矿意义,但是其成因争议较大。本文统计了两千余件样品的全岩主微量地球化学、Sr-Nd-Pb-Hf同位素、锆石/独居石/磷钇矿等副矿物原位U-Pb年龄和锆石Hf同位素等,试图全面地总结喜马拉雅淡色花岗岩的研究进展和现状。喜马拉雅淡色花岗岩分为南北两带,北带花岗岩主要出露于特提斯喜马拉雅和片麻岩穹隆中,而南带花岗岩主要发育在高喜马拉雅顶部和东-西构造结中。从北往南,成岩时代逐渐变新;南北两带均以二云母花岗岩和(石榴石-电气石)白云母花岗岩为主,两期(始新世和中新世)中-基性岩脉和埃达克质岩主要在北带中发育。新生代岩浆活动分为5个阶段:49~40 Ma、39~29 Ma、28~15 Ma、14~7 Ma、6~0.7 Ma,分别主要与新特提斯洋壳板片断离、印度陆壳板片的低角度俯冲、断离或回撤、南北向撕裂(裂谷)和东西构造结的快速隆升有关。喜马拉雅淡色花岗岩起源于高喜马拉雅杂岩系的不一致(不平衡)部分熔融,并经历了矿物分离结晶的高分异演化。淡色花岗岩属于强过铝质岩石,具有高Si、K、Na,低Ca、Fe、Mg、Ti、Mn,高的Rb/Sr、Y/Ho值,低的Th/U、Nb/Ta、Zr/Hf、K/Rb值,稀土元素总量较低,负Eu异常明显的地球化学特征。随着成岩时代变新,Sr-Nd-Pb-Hf等同位素都指示岩浆源区中古老地壳物质的占比逐步增加。喜马拉雅淡色花岗岩/伟晶岩中Li、Be、W、Sn、Ta、Cs和Rb等稀有元素的富集系数大于10,伟晶岩属于典型的LCT型伟晶岩。喜马拉雅新生代淡色花岗岩带有望成为一条新的世界级的Li-Be-Sn-W-Ta稀有金属成矿带。  相似文献   

11.
Magmatic microgranular enclaves (MMEs) are widely developed in the Shaocunwu granodiorite at the northeast margin of the eastern Jiangnan orogenic belt.Field geology showed that the MMEs occur as irregular ellipsoids near the edge of the intrusion,and consist of diorite,dominantly composed of amphibole,biotite,and plagioclase grains,with minor acicular apatite.Zircon U-Pb dating showed the ages of the host granodiorites and MMEs are 145.9±1.1 Ma and 145.6±2.5 Ma,respectively,indicating both originated during coeval late Jurassic magmatism.Whole-rock geochemical results show that the host granodiorite and MMEs have similar rare earth and trace element partition curves in spider grams,and similar ~(87)Sr/~(86)Sr,and ~(147)Nd/~(144)Nd isotope ratios,and their zircon ~(177)Hf/~(176)Hf isotopic ratios are similar.Geochemical studies indicate that both the host granodiorite and MMEs formed by mixing of coeval magma.Zircon Ti thermometers and oxygen fugacity of the host granodiorite and the MMEs show high oxygen fugacity,similar to that of W-Cu (Mo) mineralized granitoids in the eastern Jiangnan orogenic belt.A similar magma mixing process was probably one of the mechanisms that generated the W-Cu (Mo) fertile melts.  相似文献   

12.
北阿尔金造山带中的阿北花岗岩体出露于喀腊大湾与阿尔金北缘断裂交叉部位的东南侧,主要由黑云母二长花岗岩和似斑状二长花岗岩组成,二者岩石地球化学特征较为相似。锆石SHRIMP U-Pb定年结果表明黑云母二长花岗岩结晶年龄为427.3±5.7 Ma。阿北花岗岩体具有以下地球化学特征:1高SiO_2(68.68%~72.83%)、高碱(Na_2O+K_2O=6.52%~7.91%,Na2OK_2O)、准铝质(A/CNK≈1);2高Sr和LREE,低Y(10μg/g)和Yb(1μg/g);3高Sr/Y值(40);4非常弱甚至没有Eu负异常。这些特征表明阿北花岗岩体形成于加厚的镁铁质下地壳部分熔融,其源区残留了大量的石榴子石而不含斜长石;同时,岩浆在上升的过程中经历了分离结晶作用。结合前人研究成果,在440~420 Ma北阿尔金造山带中残留有加厚的镁铁质下地壳,而在420 Ma之后发生了广泛的下地壳拆离与减薄。也就是说,北阿尔金造山带构造体制转换的时限为440~420 Ma,伴随着阿北花岗岩体的侵位。  相似文献   

13.
A combined petrological, geochronological and geochemical study was carried out on felsic veins and their host rocks from the North Qaidam ultrahigh‐pressure (UHP) metamorphic terrane in northern Tibet. The results provide insights into partial melting of deeply subducted continental crust during exhumation. Partial melting is petrograpically recognized in metagranite, metapelite and metabasite. Migmatized gneisses, including metagranite and metapelite, contain microstructures such as granitic aggregates with varying outlines, small dihedral angles at mineral junctions and feldspar with magmatic habits, indicating the former presence of felsic melts. Partial melts were also present in metabasite that occurs as retrograde eclogite. Felsic veins in both the eclogites and gneisses exhibit typical melt crystalline textures such as large euhedral feldspar grains with straight crystal faces, indicating vein crystallization from anatectic melts. The Sr–Nd isotope compositions of felsic veins inside gneisses suggest melt derivation from anatexis of host gneisses themselves, but those inside metabasites suggest melt derivation from hybrid sources. Felsic veins inside gneisses exhibit lithochemical compositions similar to experimental melts on the An–Ab–Or diagram. In trace element distribution diagrams, they exhibit parallel patterns to their host rocks, but with lower element contents and slightly positive Eu and Sr anomalies. The geochemistry of these felsic veins is controlled by minerals that would decompose and survive, respectively, during anatexis. Felsic veins inside metabasites are rich either in quartz or in plagioclase with low normative orthoclase. In either case, they have low trace element contents, with significantly positive Eu and Sr anomalies in plagioclase‐rich veins. Combined with cumulate structures in some veins, these felsic veins are interpreted to crystallize from anatectic melts of different origins with the effect of crystal fractionation. Nevertheless, felsic veins in different lithologies exhibit roughly consistent patterns of trace element distribution, with variable enrichment of LILE and LREE but depletion of HFSE and HREE. There are also higher contents of trace elements in veins hosted by gneisses than veins hosted by metabasites. Anatectic zircon domains from felsic veins and migmatized gneisses exhibit consistent U–Pb ages of c. 420 Ma, significantly younger than the peak UHP eclogite facies metamorphic event at c. 450–435 Ma. Combining the petrological observations with local P–T paths and experimentally constrained melting curves, it is inferred that anatexis of UHP gneisses was caused by muscovite breakdown while anatexis of UHP metabasites was caused by fluid influx. These UHP metagranite, metapelite and metabasite underwent simultaneous anatexis during the exhumation, giving rise to anatectic melts with different compositions in various elements but similar patterns in trace element distribution.  相似文献   

14.
Reported in this paper are the chemical compositions and trace element (REE,Ba,Rb,Sr,Nb,Zr,Ni,Cr,V,Ga,Y,Sc,Zn,Cu,etc)abundances of Tertiary continental alkali basalts from the Liube-yizheng area,Jiangsu Province,China.The olivine basalt,alkali olivine basalt and basanite are all derived from evolved melts which were once af-fected by different degrees of fractional crystallization of olivine and clinopyroxene(1:2)under high pres-sures.The initial melts were derived from the garnet lherzolite-type mantle source through low-degree par-tial melting.The mantle source has been affected by recent mantle-enrichment events(e.g.mantle metasomatism),resulting in incompatible trace element enrichment and long-term depletion of radiogenic isotopic compositions of Sr and Nd.  相似文献   

15.
东喜马拉雅构造结的南迦巴瓦杂岩含有广泛分布的高压麻粒岩,但由于以前获得了许多不同的年龄,对这些麻粒岩的变质与深熔时代、持续时间和成因存在不同认识。本文对泥质高压麻粒岩(蓝晶石榴黑云片岩)中的锆石和独居石进行了系统的内部结构、U-(Th)-Pb定年和微量元素分析,以求揭示这些岩石是否具有相同的演化过程。所研究的6个蓝晶石榴黑云片岩由石榴石、蓝晶石、黑云母、石英、钾长石、斜长石、夕线石、白云母、石墨和副矿物金红石、钛铁矿、锆石和独居石组成,峰期矿物组合是石榴石+蓝晶石+斜长石+钾长石+黑云母+石英+金红石。6个样品中的锆石均由继承碎屑核+变质(深熔)幔+变质(深熔)边组成。其中3个样品中的锆石幔和边较宽,均可进行原位定年,幔部给出了类似的较老年龄范围(39.6~31.6Ma、40.8~32.0Ma和38.1~31.3Ma),而边部给出了类似的较年轻年龄范围(26.8~17.3Ma、28.3~18.6Ma和28.4~18.8Ma)。另外3个样品的锆石幔部较窄,不能进行分析,其边部给出了与前3个样品锆石边部类似的年轻年龄范围(22.0~17.0Ma、20.9~16.9Ma和22.2~16.6Ma)。一个片岩样品中的独居石给出了与其锆石幔部+边部年龄类似的较宽年龄范围(38.1~17.5Ma),而另外3个样品中的独居石获得了与其锆石边部年龄相似的年轻年龄范围(26.0~18.8Ma、22.3~16.9Ma和26.4~19.4Ma)。随着年龄的减小,锆石和独居石的Th/U比值增大,Eu/Eu*减小,独居石的HREE和Y含量减小。基于这些分析结果,笔者认为所研究的6个片岩记录了相同的、从~41Ma持续到~17Ma的进变质与深熔过程。但是,由于某些样品中的锆石和独居石在早期变质和深熔过程中形成的结晶域(锆石幔部)很窄,无法定年,导致不同的样品获得了不同的年龄范围。结合现有研究成果,笔者推测南迦巴瓦杂岩中的高压麻粒岩经历了相似的长期进变质与深熔过程。  相似文献   

16.
Subduction-related Quaternary volcanic rocks from Solander and Little Solander Islands, south of mainland New Zealand, are porphyritic trachyandesites and andesites (58.20–62.19 wt% SiO2) with phenocrysts of amphibole, plagioclase and biotite. The Solander and Little Solander rocks are incompatible element enriched (e.g. Sr ~931–2,270 ppm, Ba ~619–798 ppm, Th ~8.7–21.4 ppm and La ~24.3–97.2 ppm) with MORB-like Sr and Nd isotopic signatures. Isotopically similar quench-textured enclaves reflect mixing with intermediate (basaltic-andesite) magmas. The Solander rocks have geochemical affinities with adakites (e.g. high Sr/Y and low Y), whose origin is often attributed to partial melting of subducted oceanic crust. Solander sits on isotopically distinct continental crust, thus excluding partial melting of the lower crust in the genesis of the magmas. Furthermore, the incompatible element enrichments of the Solander rocks are inconsistent with partial melting of newly underplated mafic lower crust; reproduction of their major element compositions would require unrealistically high degrees of partial melting. A similar argument precludes partial melting of the subducting oceanic crust and the inability to match the observed trace element patterns in the presence of residual garnet or plagioclase. Alternatively, an enriched end member of depleted MORB mantle source is inferred from Sr, Nd and Pb isotopic compositions, trace element enrichments and εHf ? 0 CHUR in detrital zircons, sourced from the volcanics. 10Be and Sr, Nd and Pb isotopic systematics are inconsistent with significant sediment involvement in the source region. The trace element enrichments and MORB-like Sr and Nd isotopic characteristics of the Solander rocks require a strong fractionation mechanism to impart the high incompatible element concentrations and subduction-related (e.g. high LILE/HFSE) geochemical signatures of the Solander magmas. Trace element modelling shows that this can be achieved by very low degrees of melting of a peridotitic source enriched by the addition of a slab-derived melt. Subsequent open-system fractionation, involving a key role for mafic magma recharge, resulted in the evolved andesitic adakites.  相似文献   

17.
Secondary ion mass spectrometer (SIMS) oxygen isotope analyses were performed on 24 clasts, representing 9 clast types, in the Dar al Gani (DaG) 319 polymict ureilite with precisions better than 1‰. Olivine-rich clasts with typical ureilitic textures and mineral compositions have oxygen isotopic compositions that are identical to those of the monomict ureilites and plot along the CCAM (Carbonaceous Chondrite Anhydrous Mineral) line. Other igneous clasts, including plagioclase-bearing clasts, also plot along the CCAM line, indicating that they were derived from the ureilite parent body (UPB). Thus, we suggest that some of the plagioclase-bearing clasts in the polymict ureilites represent the “missing basaltic component” produced by partial melting on the UPB.Trace element concentrations (Mg, K, Sc, Ti, V, Cr, Mn, Fe, Co, Ni, Cu, Rb, Sr and Ba) in ureilitic plagioclase and glass from 13 clasts were obtained by using the SIMS high mass resolution method. The trace element contents of the plagioclase generally show monotonic variations with anorthite content (mol%) that are consistent with partial melting and fractional crystallization. Incompatible trace element concentrations (K, Ti, and Ba) are low and variable for plagioclase with An > 40, indicating that the parental magmas for some clasts were derived from a depleted source. We performed partial melt modeling for CI and CM precursor compositions and compared the results to the observed trace element (K, Ba, and Sr) abundances in the plagioclase. Our results indicate that (1) the UPB evolved from a alkali-rich carbonaceous chondritic precursor, (2) parent melts of porphyritic clasts could have formed by 5-20% equilibrium partial melting and subsequent fractional crystallization, and (3) parent melts of the incompatible trace element-depleted clasts could be derived from fractional melting, where low degree (<10%) partial melts were repeatedly extracted from their solid sources.Thus, both the oxygen isotopic and trace element compositions of the plagioclase bearing clasts in DaG-319 suggest that the UPB underwent localized low degree-partial melting events. The partial melts could have been repeatedly extracted from the precursor, resulting in the formation of the olivine-pigeonite monomict ureilites as the final residue.  相似文献   

18.
青龙-建昌地区的中生代火山岩地层主要有髫髻山组(兰旗组)和义县组。髫髻山组粗安岩富碱高钠、低镁含量;稀土元素总量不高[∑REE=(110.93~169.79)×10~(-6)],轻重稀土分馏明显[(La_N/Yb_N)=13.52~24.46],具有弱的负铕异常或正异常(δEu=0.96~1.15);富集大离子亲石元素Ba、K、Sr,亏损高场强元素Nb、Ta、P、Ti;高Sr含量[(682~1065)×10~(-6)]和Sr/Y值(49~74),低Y[(9.1~17.9)×10~(-6)]和Yb含量[(0.79~1.74)×10~(-6)],显示为埃达克岩的地球化学特征。义县组粗安玢岩与髫髻山组粗安岩具有相似的稀土和微量元素特征,但低Sr、高Y和Yb含量,为非埃达克质岩石。义县组酸性火山岩高硅富碱、低钙铁镁含量;强烈亏损Sr、P、Eu,为斜长石和磷灰石结晶分异的结果。通过与邻区(沽源-红山子)张家口组产铀火山岩的岩石组合、地球化学等特征进行对比分析,认为研究区具有良好的铀成矿前景。  相似文献   

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