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胶东地区燕山期岩浆活动及其构造环境——来自单颗锆石SHRIMP年代学的记录 总被引:1,自引:0,他引:1
山东胶东地区中生代构造-岩浆事件和金矿成矿作用密切相关,其主要构造-岩浆事件包括:1220~200 Ma,扬子板块相对华北板块的南北向碰撞形成苏鲁高压-超高压变质带及同造山花岗岩与造山后高碱正长岩,属于典型的幔源型花岗岩系列;2 165~150 Ma,晚侏罗世时期形成与金矿有关的玲珑(昆嵛山)造山早期片麻状二长花岗岩组合,为过铝质花岗岩类,属胶东基底岩系的部分重熔产物。3 135~110 Ma,由壳幔混合岩浆结晶分异形成郭家岭花岗岩和伟德山花岗闪长岩。燕山期是胶东地区岩浆活动的鼎盛时期,表现为四次强烈的构造-岩浆事件,代表了燕山造山事件四个构造幕,并以挤压与伸展相互转化为特征。研究表明胶东地区中生代花岗岩具有继承性和再生性特点,采自郭家岭花岗闪长岩中的SHRIMP锆石U-Pb同位素年代学测定结果表明:锆石由核部到边部年龄值分别为2573~2194Ma、164.8~147.8和126.6~126.2Ma,显示了胶东结晶基底、玲珑花岗岩和郭家岭花岗岩形成的年代学信息,揭示了它们之间复杂的继承性和再生性,即新太古代胶东岩群、TTG岩系和古元古代荆山群、粉子山群等胶东基底岩系交代重熔形成S型玲珑花岗岩,由壳幔混合岩浆形成的郭家岭花岗岩在形成与侵位过程中重熔交代了部分玲珑花岗岩物质并侵位于玲珑花岗岩中。分析认为2573.4~2194.4 Ma是胶东结晶基底的年龄信息,164.8~147.8Ma代表了玲珑花岗岩形成的年龄信息,126.2~126.6Ma则代表了郭家岭花岗岩形成的年龄信息。这种年龄信息组合也反映了胶东地区从新太古代陆块形成、古元古代克拉通化到三叠纪华北陆块与扬子陆块碰撞至玲珑S型花岗岩形成、郭家岭壳幔混合型花岗岩形成演化的年代学记录,浓缩了胶东地区中生代岩浆起源和演化的过程,进而为诠释胶东地区深部岩浆作用过程提供了新的资料,并对后续的相关科学研究尤其是金矿的多期成矿作用提供了佐证。 相似文献
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福建上杭地区燕山期花岗岩锆石U-Pb年代学及Hf同位素组成 总被引:1,自引:0,他引:1
选取福建省西南部紫金山中粗粒花岗岩、石壁寨西部含斑细粒二长花岗岩和东部斑状含黑云母二长花岗岩作为研究对象,利用LA-ICP-MS法对三个岩体的锆石进行了U-Pb、Lu-Hf和微量元素分析,获得了3个岩体的岩浆结晶分别为156.5±2.7Ma(晚侏罗世),166.2±8.1Ma(中侏罗世)和154.1±1.4Ma(晚侏罗世)。锆石的Lu-Hf同位素分析结果表明,锆石的两阶段Hf模式年龄(tDM2)分别为1.6~2.2Ga、1.7~2.0Ga和1.7~1.9Ga。锆石Hf同位素初始值ε_(Hf)(t)均为负,分别为-14.88~-8.40、-11.9~-7.8和-10.9~-7.4。锆石的ε_(Hf)(t)、Hf同位素地壳模式年龄分布范围较小,暗示岩体岩浆来源具有较为均一锆石Hf同位素组成。中侏罗世(166.2±8.1Ma)期间,古太平洋板块与欧亚板块发生碰撞,导致洋壳俯冲至陆壳之下,陆壳并发生了小规模的部分熔融,形成了石壁寨西部岩体;碰撞结束后,在晚侏罗世(145~156Ma)期发生由挤压向拉张环境的转换,闽西南岩石圈伸展减薄、壳源物质发生广泛的熔融作用,形成了大规模的紫金山岩体和石壁寨东部岩体。本文的研究成果,为研究闽西南花岗岩体的来源和区域构造演化提供了新的资料证据。 相似文献
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玲珑金矿区成矿后花岗斑岩脉的锆石SHRIMP U-Pb年龄对胶北地体演化的制约 总被引:12,自引:0,他引:12
采用SHRIMP测年技术对玲珑金矿区成矿后花岗斑岩脉的锆石进行了U Pb年龄测定,获得岩脉岩浆锆石的206Pb/238U平均年龄为119.4 Ma,同时获得大量的继承锆石年龄,范围从3 114~127 Ma。继承锆石年龄显示,胶北地体前寒武纪经历了中太古代的陆核生成阶段;新太古代花岗岩绿岩地体增生阶段;古元古代孔兹岩系的沉积阶段;新元古代蓬莱群盖层形成阶段。整个古生代,地体处于稳定的隆升受剥蚀状态,没有明显的岩浆活动。三叠纪,华南与华北克拉通碰撞,郯庐断裂带形成。晚三叠世—中侏罗世,后碰撞的巨大挤压作用导致华北克拉通南缘地壳增厚,玲珑和蚌埠荆山等花岗岩生成。中晚侏罗世,郯庐断裂带发生了巨大的左行平移,胶北地体从蚌埠—五河的东部推移到现在的位置。早白垩世,郯庐断裂由左旋压扭向右行拉张转化,导致胶北地体上郭家岭岩体生成。中晚白垩世,郯庐断裂发生了大规模的拉张,导致沂沭裂谷、胶莱盆地、青山组火山岩、金矿床形成和隆起区大量脉岩侵入。 相似文献
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胶北地体中生代花岗岩广泛分布,以晚侏罗世最为发育,花岗岩形成时代、成因和地球动力学背景的深入研究对认识研究区构造演化有重要意义。本文选取胶北地体东部和北部侏罗纪花岗岩进行全岩主微量元素、锆石U-Pb年龄和O同位素研究,结果表明,花岗岩样品锆石U-Pb年龄主要分布在166~156 Ma之间,代表岩体的结晶年龄。此外,含有大量3 650~3 294 Ma、2 660~2 445 Ma、770~600 Ma和245~197 Ma的继承锆石。这些花岗岩具有埃达克岩的地球化学特征[高Sr/Y和(La/Yb)_N值,低Y和Yb含量]。本次报道的侏罗纪花岗岩的锆石年龄和地球化学特征与前人报道的玲珑、栾家河花岗岩一致,表明胶北不同地区侏罗纪花岗岩的形成时代和成因没有明显的区别,胶北侏罗纪花岗岩可能由加厚地壳物质部分熔融而成。不同样品的继承锆石年龄分布特征和氧同位素组成具有明显的差异,结合前人资料,认为胶北侏罗纪花岗岩源区的物质来源存在差异,部分花岗岩的源区主要为胶北古老的基底,另一部分源区主要为深俯冲的扬子板块地壳岩石。古太平洋板块或Izanagi板块的俯冲作用可能直接或间接地诱发了加厚地壳的熔融。 相似文献
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胶东地区在晚中生代发生了大规模岩浆活动和"爆发式"成矿作用。为了深入研究岩浆活动的时代及其对成矿的影响,本文在对胶东晚中生代花岗岩类侵入岩及大规模成矿作用进行综合分析基础上,选择福山邢家山钼钨矿区、栖霞香夼铅锌矿区和福山王家庄铜矿区,对成矿岩体进行锆石U-Pb同位素年龄测试。测试结果表明,幸福山斑状二长花岗岩体(邢家山矿区)和香夼花岗闪长斑岩体的SHRIMP锆石U-Pb同位素年龄分别为159.3±1.6Ma和130.4±1.2Ma,养虎山石英闪长玢岩体(王家庄矿区)的LA-ICP-MS锆石U-Pb年龄为116.1±5.1Ma和119.8±1.8Ma,由此确定了三期岩浆活动及与之相对应的三期成矿事件。在晚侏罗世幸福山岩体中测得了前寒武纪残余锆石的年龄信息,三组年龄分别为3548±12Ma、2472.9~2400Ma和2192~1725Ma,指示岩浆物质来源于前寒武纪结晶基底的再循环作用。3548±12Ma是胶东地区迄今为止获得的最大年龄值,指示胶东地区存在古太古代早期的古老结晶基底。综合分析认为,胶东晚侏罗世岩浆活动和160Ma±的成矿事件是华北克拉通与扬子克拉通碰撞造山后续过程的产物,形成于挤压构造背景;早白垩世早期的岩浆活动及130Ma±成矿事件与太平洋板块俯冲有关,形成于挤压向伸展转化背景;早白垩世中晚期岩浆活动形成于拉张环境,与华北克拉通破坏和岩石圈伸展减薄有关,由此产生的胶东热隆-伸展构造体系,为115Ma±的金、银及有色金属等热液矿床大规模爆发式成矿提供了有利成矿条件。 相似文献
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胶西北丛家花岗闪长岩体SHRIMP锆石U-Pb年代学研究 总被引:2,自引:0,他引:2
胶西北地区是我国最重要的金矿集中区,区内大量展布的中生代花岗岩与金矿关系十分密切,本文通过对郭家岭序列的丛家花岗闪长岩体的地质背景和SHRIMP锆石年代学研究,获得该岩体的成岩年龄为(127±1)Ma,地质时代属早白垩世。郭家岭序列各个岩体所测得的年龄值相差不大,表明它们近于同时侵位,侵位时间为127.9 Ma。丛家岩体锆石样品中测得Ar_3、Pt_1、J_3等多个期次的继承锆石年龄。结合前人研究,表明郭家岭序列岩浆源区成分非常复杂,既有来自胶辽陆块的前寒武纪基底、晚侏罗世玲珑序列,也有来自胶南—威海造山带的三叠纪同碰撞花岗岩类,还有幔源组分的加入。其中,壳源组分以玲珑序列为主。郭家岭序列与胶西北地区金矿的关系十分密切。从时间上看,郭家岭序列的形成年龄早于胶西北地区金矿的形成年龄5~10 Ma,符合同源岩浆成因金矿的成岩成矿时间差。从空间上看,胶西北地区三条主要控矿断裂带下均有隐伏郭家岭序列存在,金矿与郭家岭序列形影不离。从物质成分上看,与其他早白垩世岩浆岩类相比,郭家岭序列相对富Na,有可能是郭家岭序列在侵位之前,经历了含Au的富K热液组分分离的结果。因此,郭家岭序列更接近于胶西北地区金矿的成矿母岩。 相似文献
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胶北地体地壳演化:玲珑黑云母花岗岩继承锆石U-Pb年龄、微量元素和Hf同位素证据 总被引:6,自引:5,他引:1
胶北地体晚侏罗世下地壳重熔的玲珑黑云母花岗岩大面积出露,其中残留有大量继承锆石,记录了多期热事件,为复杂的地壳演化过程提供了重要线索。论文通过分析玲珑黑云母花岗岩中继承锆石的U-Pb年龄、微量元素和Hf同位素组成,探讨了胶北地体的地壳演化历史。结果显示胶北地体前寒武纪经历了~2.9Ga和~2.7Ga两期主要的地壳生长事件,~2.5Ga和2.2~1.8Ga两期地壳重熔改造事件,~2.5Ga和1.95~1.8Ga两期变质事件。~2.9Ga的岩浆作用形成于岛弧环境,~2.7Ga岩浆活动与下地壳基性物质的部分熔融有关,~2.5Ga发生的岩浆和变质事件与地幔柱底侵作用有关,并有同时期的表壳岩组合-胶东岩群形成。~2.1Ga地壳处于拉张状态,伴有与裂谷活动有关的双峰式岩浆作用,荆山群和粉子山群开始沉积,而后1.95~1.8Ga发生碰撞造山运动,胶北所有早前寒武纪岩石单元卷入此次事件,并发生变质作用。自此之后,直至二叠纪末,胶北处于岩浆活动的沉寂期,但于~1.7Ga和~1.0Ga发生沉积作用,形成芝罘群和蓬莱群。二叠纪末扬子板块向北俯冲于华北克拉通之下,并于三叠纪与华北克拉通发生陆陆碰撞作用,致使扬子板块北缘新元古代花岗岩发生超高压变质,形成苏鲁超高压变质带,之后超高压变质岩发生折返。玲珑黑云母花岗岩复杂的继承锆石组成可能表征了前寒武纪岩石卷入陆-陆碰撞事件而发生再循环作用。 相似文献
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胶东金矿集区是世界著名的黄金资源基地,截止2020年底,累计查明金矿资源量已达5400余吨。胶东地区中生代花岗岩分布广泛,岩石类型多,并与金矿关系极为密切。本文按时代+岩浆事件+岩性的划分方法,将胶东区域性广泛分布的中生代花岗岩划分为晚侏罗世玲珑期、早白垩世早期郭家岭期、早白垩世晚期伟德山期和崂山期,对上述四期花岗岩与金矿的空间展布、成矿物质来源、形成时代等关系进行了研究。金矿石硫同位素组成特征与玲珑期花岗岩、郭家岭期花岗岩的相近,特别是与玲珑期花岗岩范围重叠,金矿石铅主要为再活化的下地壳铅,即前寒武纪结晶基底铅,有幔源铅加入。金矿石的Sr Nd同位素数据大部分与前寒武纪变质基底、玲珑期花岗岩、郭家岭期花岗岩及中生代脉岩的重叠,暗示Sr、Nd主要来自地壳源区。同位素测试结果说明胶东金矿床Au元素可能来源于胶东岩群、新太古代TTG岩、玲珑期花岗岩和郭家岭期花岗岩,主要来源于下地壳(初始为华北板块和扬子板块前寒武纪结晶基底),有壳幔相互作用的地幔物质加入。空间上,88%的金资源量赋存在玲珑期花岗岩中,7%的金资源量赋存于郭家岭期花岗岩中,伟德山期和崂山期花岗岩中金资源量仅占0.1%。时间上,晚侏罗世玲珑期、早白垩世早期郭家岭期、早白垩世晚期伟德山期和崂山期花岗岩形成时间分别为166~146 Ma、135~123 Ma、123~110 Ma、118~108 Ma,金矿成矿年龄有162~146 Ma、133~120 Ma、120~105 Ma、110~105 Ma四个区间范围,这四个金矿成矿年龄区间与四期花岗岩年龄具有较好的对应关系,成矿事件一般同步或略滞后于同源岩浆活动,即162~146 Ma成矿期对应玲珑期重熔花岗岩的侵位事件,133~120 Ma成矿期对应郭家岭期花岗岩的侵位事件,120~105 Ma的成矿期对应伟德山期和110~105 Ma矿化期对应崂山期花岗岩侵位事件,据此将胶东金矿成矿期划分为玲珑金成矿期、郭家岭金成矿期、伟德山金及多金属成矿期和崂山钼矿化蚀变期。 相似文献
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蓝田和牧护关岩体位于东秦岭造山带西端,两者以洛南-栾川断裂为界。前者主要岩性为巨斑状二长花岗岩和中细粒二长花岗岩,而后者主要由二长花岗岩、花岗闪长岩和黑云母花岗岩组成。选自两岩体的锆石韵律震荡环带发育,Th/U大于0.1,属于岩浆成因锆石,其SIMS U-Pb年龄分别为147±2 Ma和149±1 Ma,均形成于晚侏罗世。蓝田和牧护关岩体锆石εHf(t)值分别集中于-16.9~-7.2和-9.3~-6.8,二阶段Hf模式年龄集中范围分别为1.7~2.3 Ga和1.6~1.8 Ga,指示它们的岩浆来源可能主要为新生的早-中元古代地壳物质。岩石地球化学进一步指示二者形成经历了古老地壳熔融、围岩混染、岩浆混合和结晶分异等复杂演化过程。综合研究表明,东秦岭地区约150 Ma的岩浆作用代表了该区晚侏罗世-早白垩世岩石圈伸展作用,其动力学背景很可能与晚中生代古太平洋板块向东亚大陆边缘俯冲有关。 相似文献
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胶北地块与金成矿有关的郭家岭岩体和上庄岩体年代学及地球化学研究 总被引:4,自引:0,他引:4
胶东半岛是我国最主要的原生金矿矿集区,金矿的主要控矿围岩是郭家岭花岗岩,通过研究郭家岭花岗岩的地球化学特征对研究金矿的成因和物质来源具有指示性意义。本文研究的两个花岗岩岩体为上庄岩体和郭家岭岩体,两岩体同属郭家岭型花岗岩。通过对两岩体的花岗岩样进行岩相学矿相学观察、全岩主、微量元素和U-Pb同位素分析,获得胶东半岛中生代岩浆岩的成因机制与源区性质及自然金的产出形式等科学信息。LAICP MS锆石U-Pb年龄得出郭家岭岩体年龄125.4±2.2 Ma,上庄岩体U-Pb年龄128.8±2.0 Ma,都为中生代早白垩世,两岩体年龄相差3Ma,在年龄误差范围来看可以把两岩体作为同一期岩体,也在年龄角度证实两岩体都同属郭家岭花岗岩。两岩体的锆石组成都含有太古宙和晚侏罗纪的继承锆石,指示两岩体的成岩物质来源具相似性,都包含太古宙岩石成分和晚侏罗世花岗岩成分。两岩体具有相似的稀土元素和微量元素分配模式,表现出明显的LREE富集和HREE极度亏损,没有明显的铕负异常。郭家岭岩体和上庄岩体花岗岩都具有类似埃达克岩的特征,都具有高的Sr含量(913×10-6~1325×10-6),低的Y含量(2.2×10-6~8.4×10-6)和Yb含量(0.21×10-6~0.68×10-6),较高的(Dy/Yb)N比值1.62~2.28,暗示花岗岩岩浆形成时石榴石是一个重要的残留相,而没有斜长石作为残留相。两岩体具有较低的MgO、Cr、Ni含量和Mg#,反映郭家岭型花岗岩岩浆的形成可能是岛弧环境榴辉岩相压力条件下洋壳玄武质岩石的部分熔融。 相似文献
13.
Huo T.Yang D.Xu W.Wang F.Liu H.Shi J. 《大地构造与成矿学》2015,(2):355-368
LA-ICP-MS U-Pb dating and in situ Hf isotope analysis were carried out for the detrital zircons to constrain the depositional age and provenance of the Wawukuang Formation, which is believed as the earliest unit of the Laiyang Group in the Jiaolai Basin, and its implications. Most of these detrital zircons from the feldspar quartz sandstone in the Wawukuang Formation are magmatic in origin, which are euhedral-subhedral and display oscillatory zoning in CL images; whereas few Late Triassic detrital zircons are metamorphic in origin and structureless in CL images. U-Pb isotopic dating of 82 zircon grains yields age populations at ca. 129 Ma, 158 Ma, 224 Ma, 253 Ma, 461 Ma, 724 Ma, 1851 Ma and 2456 Ma. U-Pb dating and Hf isotopic results indicate that: 1) the Wawukuang Formation deposited during the Early Cretaceous (129-106 Ma); 2) the detrital zircons with the ages of 1851 Ma and 2456 Ma mainly sourced from the Precambrian basement rocks of the North China Craton; the Neoproterozoic (729-721 Ma) magmatic zircons and the Late Triassic (226-216 Ma) metamorphic zircons sourced from the Su-Lu terrane; The Late Paleozoic detrital zircons could source from the Late Paleozoic igneous rocks in the northern margin of the North China Craton; the Late Triassic (231-223 Ma) magmatic zircons and the 158-129 Ma zircons sourced from the coeval igneous rocks in the Jiaobei and Jiaodong; 3) the deposition age and provenance of the Jiaolai Basin are different from those of the Hefei Basin; 4) the recognition of clastic sediments from the Su-Lu terrane in the Wawukuang Formation suggests that the Su-Lu terrane was under denudation in the Early Cretaceous. ©, 2015, Science Press. All right reserved. 相似文献
14.
A combined study of zircon U–Pb ages and Lu–Hf isotopes, mineral O isotopes, whole-rock elements and Sr–Nd isotopes was carried out for Mesozoic granitoids from the Shandong Peninsula in east-central China, which tectonically corresponds to the eastern part of the Sulu orogen that formed by the Triassic continental collision between the South and North China Blocks. Four plutons were investigated in this region, with the Linglong and Guojialing plutons from the northwestern part (Jiaobei) and the Kunyushan and Sanfoshan plutons from the southeastern part (Jiaodong). The results show that these granitoids mostly have high Sr, low Yb and Y contents, high (La/Yb)N and Sr/Y ratios with negligible to positive Eu anomalies (Eu/Eu* = 0.69–1.58), which are similar to common adakites. On the other hand, they have relatively low MgO, Cr, Ni contents and thus low Mg#. Zircon U–Pb dating yields Late Jurassic ages of 141 ± 3 to 157 ± 2 Ma for the Linglong and Kunyushan plutons, but Early Cretaceous ages of 111 ± 2 to 133 ± 3 Ma for the Guojialing and Sanfoshan plutons. Some zircon cores from the Linglong and Kunyushan granitoids have Neoproterozoic U–Pb ages. All the granitoids have variably negative zircon εHf(t) values of ?39.6 to ?5.4, with Mesoproterozoic to Paleoproterozoic Hf model ages of 1515 ± 66 to 2511 ± 97 Ma for the Sanfoshan pluton, but Paleoproterozoic to Paleoarchean Hf model ages of 2125 ± 124 to 3310 ± 96 Ma for the other three plutons. These indicate that the Mesozoic granitoids formed in the postcollisional stage and were derived mainly from partial melting of the subducted South China Block that is characterized by Paleoproterozoic juvenile crust and Neoproterozoic magmatic rocks along its northern edge. However, there are some differences between the Jiaobei and Jiaodong plutons. Compared to the Jiaodong granitoids, the Jiaobei granitoids have very old zircon Hf model ages of 3310 ± 96 Ma suggesting the possible involvement of a Paleoarchean crust that may be derived from the North China Block. Therefore, the continental collision between the two blocks would bring crustal materials from both sides into the subduction zone in the Triassic, yielding subduction-thickened crust as the magma source for the adakite-like granitoids. While lithospheric extension and orogenic collapse are considered a major cause for postcollisional magmatism, anatexis of the subducted mafic crust is proposed as a mechanism for chemical differentiation of the continental crust towards felsic composition. 相似文献
15.
《地学前缘(英文版)》2020,11(3):895-914
A section from the Linglong gold deposit on the northwestern Jiaodong Peninsula,East China,containing Late Mesozoic magmatic rocks from mafic and intermediate dikes and felsic intrusions,was chosen to investigate the lithospheric evolution of the eastern North China Craton(NCC).Zircon U-Pb data showed that low-Mg adakitic monzogranites and granodiorite intrusions were emplaced during the Late Jurassic(~145 Ma) and late Early Cretaceous(112-107 Ma),respectively;high-Mg adakitic diorite and mafic dikes were also emplaced during the Early Cretaceous at~139 Ma and ~118 Ma,and 125-145 Ma and 115-120 Ma,respectively.The geochemical data,including whole-rock major and trace element compositions and Sr-Nd-Pb isotopes,imply that the mafic dikes originated from the partial melting of a lithospheric mantle metasomatised through hydrous fluids from a subducted oceanic slab.Low-Mg adakitic monzogranites and granodiorite intrusions originated from the partial melting of the thickened lower crust of the NCC,while high-Mg adakitic diorite dikes originated from the mixing of mafic and felsic melts.Late Mesozoic magmatism showed that lithosphere-derived melts showed a similar source depth and that crust-derived felsic melts originated from the continuously thickened lower crust of the Jiaodong Peninsula from the Late Jurassic to Early Cretaceous.We infer that the lower crust of the eastern NCC was thickened through compression and subduction of the Palaeo-Pacific plate beneath the NCC during the Middle Jurassic.Slab rollback of the plate from ~160 Ma resulted in lithospheric thinning and accompanied Late Mesozoic magmatism. 相似文献
16.
《International Geology Review》2012,54(2):159-181
In order to constrain the detrital provenance of the siliciclastic rocks, palaeogeographic variations, and crustal growth history of central China, we carried out simultaneously in situ U–Pb dating and trace element and Hf isotope analyses on 368 detrital zircons obtained from upper Permian–Triassic sandstones of the Songpan terrane, eastern Tibetan Plateau. Two groups of detrital zircons, i.e. magmatic and metamorphic in origin, have been identified based on cathodoluminescence images, zircon Ti-temperatures, and Th/U ratios. Our data suggest that the derivation of siliciclastic rocks in the Songpan terrane was mainly from the Qinling, Qilian, and Kunlun orogens, whereas the Yangtze and North China Cratons served as minor source areas during late Permian–Triassic times. The detrital zircons from Middle–Late Triassic siliciclastic rocks exhibit wide age spectra with two dominant populations of 230–600 Ma and >1600 Ma, peaking at ~1.8–1.9 Ga and ~2.4–2.5 Ga, suggestive of a derivation from the Qinling, Qilian, and Kunlun orogens and the Yangtze Craton being the minor source area. The proportions of detrital zircon populations from the northern Qinling, Qilian, and Kunlun orogens distinctly decreased during Middle–Late Triassic time, demonstrating that the initial uplift of the western Qinling occurred then and it could have blocked most of the detritus from the Qilian–northern Qinling orogens and North China Cratons into the main Songpan–Ganzi depositional basin. The relatively detrital zircon proportions of the Yangtze Craton source decreased during Early-Middle Late Triassic time, indicating that the Longmenshan orogen was probably being elevated, since the early Late Triassic and gradually formed a barrier between the Yangtze Craton and the Songpan terrane. In addition, our Lu–Hf isotopic results also reveal that the Phanerozoic magmatic rocks in central China had been the primary products of crustal reworking with insignificant formation of a juvenile crust. 相似文献
17.
林寺山组是胶莱盆地莱阳群底部重要的地层单元之一.准确限定其沉积时代与物源性质对于客观重建华北陆块东部晚中生代大地构造格局以及周缘造山带/前寒武纪变质基底晚中生代的折返过程具有重要的制约作用.以莱阳盆地蛇窝泊地区莱阳群林寺山组细砾岩为研究对象,对其开展了野外地质调查、岩相学观察、锆石U-Pb测年与锆石稀土元素分析等综合研究,并获得了如下初步认识.(1)林寺山组细砾岩中最小一组碎屑锆石加权平均年龄分别为129±1 Ma与127±5 Ma,结合区域上不整合于莱阳群之上青山群火山岩锆石谐和年龄为119±1 Ma,推测蛇窝泊地区林寺山组沉积时代介于127~119 Ma.(2)蛇窝泊地区林寺山组细砾岩的碎屑锆石年龄变化于2 858~126 Ma之间,并以新太古代晚期与白垩纪早期碎屑锆石为主.前古元古代的碎屑锆石主要来源于胶北前寒武纪变质岩,表明胶北太古宙-古元古代变质岩至少在白垩纪早期已折返至近地表.(3)160~120 Ma岩浆型碎屑锆石主要来源于胶东同时代的中酸性侵入体,暗示在白垩纪早期至少部分160~120 Ma中酸性侵入体已抬升至地表.(4)林寺山组发育少量的二叠纪(280 Ma)和印支期(213 Ma)变质锆石,表明胶东地区可能存在二叠纪约280 Ma区域变质-变形事件,同时暗示早白垩世苏鲁超高压变质岩已经折返到地表. 相似文献