鄂西黄陵背斜南部元古宙庙湾蛇绿岩的发现及其构造意义

对鄂西黄陵背斜南部宜昌太平溪、邓村一带崆岭岩群中的元古宙庙湾岩组强烈变形变质超镁铁—镁铁质岩的研究表明,镁铁质岩主要为似层状细粒斜长角闪岩,变辉长岩岩体、岩脉及辉绿岩岩脉,超镁铁质岩则主要为蛇纹石化纯橄榄岩、方辉橄榄岩,呈构造岩片、岩块分布于斜长角闪岩之中。细粒斜长角闪岩TiO2=1.14%～1.48%,稀土元素配分型式为略亏损—平坦型,无明显的Eu异常,(La/Yb)N=0.87～1.12,La/Nb、Ce/Zr、Zr/Nb、Zr/Y、Ti/Y平均值分别为1.04、0.15、18.78、2.53、290.51,Nb/Th平均为9.88,显示为大洋中脊构造环境形成的N-MORB型拉斑玄武岩;变辉长岩具典型的堆晶结构特征,稀土元素配分型式为平坦型,具明显的Eu正异常;蛇纹石化纯橄榄岩的稀土元素配分型式具中稀土元素略亏损的U形特征,显示为LREE略富集的地幔岩。上述特征表明,黄陵背斜南部崆岭岩群中的元古宙庙湾岩组实际上是一套混杂堆积的古大洋蛇绿岩残片。元古宙庙湾蛇绿岩的发现为华南扬子克拉通存在中元古代洋盆和哥伦比亚超大陆聚合、裂解构造事件提供了重要的证据。     

中国新元古代大陆拼合与Rodinia超大陆

在对前人研究成果分析的基础上,结合对中祁连块块前寒武纪基底的研究,认为新元古代（1000－9000Ma）中国各主要克拉通地块（包括华夏地块、扬子地块、华北地块、阿拉善－祁连－柴达木地块、塔里木地块）曾经通过晋宁期碰撞拼合带发生过一次全面的多块体复杂拼贴。这次拼贴过程是全球性新元古代格林威尔碰撞造山作用和Rodinia超大陆形成过程的一个组成部分。新元古代拼合的古中国地块在当时位于Rodinia超大陆中北部澳大利亚、劳伦提亚和西伯利亚克拉通地块之同。中国的各主要克拉通地块只不过是巨型格林威尔碰撞带之中夹裹的一些小型地块,且都处于新元古代晚期Rodinia超大陆破裂的中心部位,这些正是中国大陆上克拉通地块活动性大的早期地质背景。     

Mesoproterozoic ophiolitic mélange from the SE periphery of the Indian plate: U–Pb zircon ages and tectonic implications

The Kanigiri mélange within the Proterozoic Nellore–Khammam schist belt in southern Peninsular India includes ophiolitic fragments that represent the remnants of an oceanic plate. The ophiolitic units were accreted along a NE-trending suture that juxtaposes the Proterozoic Eastern Ghats Granulite Belt (EGGB) against the Archean Nellore Schist Belt of the Dharwar craton. The ophiolite components in the Kanigiri mélange include plagiogranites and gabbros which show mutually intrusive relations indicating their coeval nature. We report laser ablation-ICP-MS age data and REE geochemistry of zircons from the gabbro and granite. The zircons from both gabbro and granite show high REE contents, prominent HREE enrichment and a conspicuous negative Eu anomaly, suggesting a common melt source. Zircon REE abundances and normalized patterns show little intersample and intrasample variations. U–Pb dating of the zircons reveals prominent Mesoproterozoic ages for the plagiogranite, with the ca.1.33 Ga age of the Kanigiri ophiolitic mélange offering important clues for arc–continent collision during the final stages of amalgamation of the Columbia-derived fragments within the Neoproterozoic supercontinent assembly.     

桂北地区南华系沉积物源分析——来自碎屑锆石U-Pb年龄的证据

江南造山带西南部是扬子克拉通新元古代地层发育较完整的地区之一。其中,桂北地区的南华系地层自下而上依次为:长安组、富禄组、大塘坡组和黎家坡组,沉积厚度从几十米到几千米不等,总体趋势是西厚东薄。本文对长安组、富禄组、黎家坡组的5个样品进行了碎屑锆石LA-ICP-MS U-Pb年龄测试。其中长安组碎屑锆石U-Pb年龄存在一个峰值,峰值区间为724~972Ma之间,最年轻的年龄加权平均值为746±5Ma(n=19),指示南华系长安组沉积年龄可能介于746~780Ma之间;富禄组碎屑锆石U-Pb年龄有三个峰值,主峰为705~936Ma,两个次峰分别为1823~2163Ma和2241~2673Ma之间;黎家坡组下部121109-3样品的碎屑锆石主峰值为1966~2118Ma,两个次峰为724~921Ma和2221~2688Ma;中部121109-4样品碎屑锆石主峰值为1813~2192Ma,两个次峰为748~944Ma和2296~2726Ma;上部121109-5样品碎屑锆石主峰值为1984~2193Ma,两个次峰为653~1007Ma和2215~2675Ma。桂北地区南华系长安组、富禄组、黎家坡组5个样品的年龄峰值区间相近,但主峰和次峰有明显的区别,反映了三个组沉积地层主要物源可能来自不同的地区,并经历了不同的沉积环境。碎屑锆石年龄分布特征反映了在653~1007Ma之间扬子克拉通东南缘、江南造山带西南部的桂北地区有强烈的岩浆活动,可能与Rodinia超大陆的聚合和裂解事件有关,而1792~2261Ma的岩浆活动则与Columbia超大陆的聚合和裂解事件相对应,2298~2500Ma碎屑锆石年龄可能暗示在扬子克拉通南缘存在古元古代基底,少量大于2500Ma的锆石年龄表明在扬子克拉通南缘还存在太古宙基底物质。5个样品均缺少1100~1300Ma格林威尔造山时期的记录,说明江南造山带并非处在Rodinia超级大陆的中心。总之,扬子克拉通南缘及江南造山带西南部至少经历了三期强烈的构造-岩浆热事件,这三期事件在桂北地区的南华系沉积地层中均有非常清楚的记录。     

康滇地轴元古代重大地质事件与拉拉IOCG矿床成矿响应

有关IOCG最新研究成果建议,将IOCG矿床限定于资源量大于1 Mt的大型/超大型矿床。对世界上已知的大型/超大型IOCG矿床的成矿背景和成矿作用进行分析对比,发现前寒纪大型/超大型IOCG矿床均位于前寒纪超大陆的边缘、形成于非造山期,与壳幔相互作用有关,与板底垫托、地幔柱等相关的重大地质事件关系密切。通过对康滇地轴元古代地质体岩石/矿物的同位素年龄数据分析研究,同时对拉拉IOCG矿床成矿特征及同位素测龄分析,认为扬子地台西缘康滇地轴存在早元古代早期(2 486～1 884 Ma BP)古陆壳,是Kenorland超大陆的一部分。在中元古代发育了康滇陆缘裂谷(1 725～1 466 Ma BP),与Columbia超大陆非造山期同时。新元古代的晋宁运动使该裂谷产物变质,及形成康定杂岩,成为康滇地轴的上层结晶基底(1 100～721 Ma BP)。其是Rodinia超大陆的拼贴与裂解事件的响应。拉拉矿床具有2期成矿作用。第一期火山喷发成矿期(1 712～1 680 Ma BP),是康滇裂谷事件的产物。第二期变质热液成矿期主成矿阶段(1 000～900Ma BP),是Rodinia超大陆的拼贴作用的响应。康滇地轴元代地层中具有形成IOCG矿床的巨大潜力。     

U–Pb SHRIMP zircon geochronology,petrogenesis, and tectonic setting of the Neoproterozoic Baekdong ultramafic rocks in the Hongseong Collision Belt,South Korea

The Hongseong area, located in the western Gyeonggi Massif, South Korea, can be correlated with the northern margin of the South China block (Yangtze Craton). This area experienced Neoproterozoic igneous activity related to subduction before the amalgamation of Rodinia. Several isolated, lenticular, and serpentinized ultramafic–mafic bodies occur in the Hongseong area. The Baekdong body, one of the largest ultramafic bodies, has been highly deformed and metamorphosed to eclogite- and granulite-facies. The petrogenesis and tectonic environment of the Baekdong rocks are assessed using the composition of unaltered cores of spinel and olivine grains, and show that these rocks represent the mantle section of a suprasubduction ophiolite. The rocks originated from oceanic lithosphere that formed during the transition from nascent back-arc to mature island arc, related to subduction roll-back. During the back-arc stage, Al-rich spinel harzburgite formed through melt–rock interaction caused by the intrusion of magma. This magma was produced in small amounts, by less than 10% of partial melting of the wedge mantle. Subsequently, during the mature island arc stage, Cr-rich spinel dunite formed through melt–rock interaction caused by the intrusion of relatively evolved magma that formed by 30–35% partial melting due to a high input of volatiles from the subducted slab and sediments. The Baekdong ultramafic rocks, together with the Bibong ultramafic rocks, indicate that a suprasubduction tectonic setting prevailed before the amalgamation of Rodinia (at 860–890 Ma) in the Hongseong area, which may be an extension of the northern margin of the Yangtze Craton.     

Revisiting the tectonic evolution of South China: interaction between the Rodinia superplume and plate subduction?

New field observations and zircon U‐Pb age data, combined with previous studies, are employed here to evaluate the process of assembly of the Yangtze and Cathaysia Blocks. We show that the process started from the west prior to 1.0 Ga and migrated eastward with the final amalgamation along the suture at around 830–820 Ma. During the period of 850–820 Ma, both the mantle plume which possibly started at 850 Ma and the north‐directed plate subduction along the southern margin of the Yangtze Block controlled the formation and closure of a back‐arc basin along the middle to eastern segment of the Yangtze Block, as well as the diverse and complex magmatic activities. The closure of the back‐arc basin and almost synchronous rift basin overlying the folded “basement” sequence mark the termination of subduction when the Rodinia plume exerted a dominant control on the evolution of the middle to late Neoproterozoic basin and the related magmatic pulses.     

巴基斯坦吉尼奥德矿区新元古代火山岩年代学及地质意义

罗迪尼亚超大陆的裂解及与之相关的吉尼奥德玢岩型铁矿的形成是目前研究的热点,对安山岩锆石进行了U-Pb年龄、Hf同位素和微量元素分析.所有锆石都属岩浆成因,具有一致的稀土配分型式以及明显的Ce正异常、Eu负异常和重稀土元素富集特征.锆石年龄主要分为两组,分别为947.8±4.0 Ma和883.0±5.1 Ma,代表两期安山岩的成岩年龄,指示安山岩为两期岩浆活动的混合产物;此外,捕获的基底锆石年龄为1 523.0±66 Ma,属于中元古代.ε_Hf（t）值变化范围较大（-4.67~+13.10）,指示其为壳幔物质混合的产物.安山岩产生于罗迪尼亚超大陆时期,是由高温幔源岩浆通过底侵作用,使得中元古代花岗质岩石组成的下地壳发生熔融,壳幔熔体混合形成的,与伸展裂谷有关的构造热事件及地幔柱的活动有着密切关系.吉尼奥德铁矿与凯特里铜矿在成矿地质背景方面具有诸多相似性,暗示其有大型IOCG型矿床的成矿潜力.在960~880 Ma期间,印度板块西北部与华北-刚果-圣弗朗西斯科板块可能连接在一起.      

Evolution of Cambrian and Early Ordovician arcs in the Kyrgyz North Tianshan: Insights from U-Pb zircon ages and geochemical data

Geochronological, geochemical, and structural studies of magmatic and metamorphic complexes within the Kyrgyz North Tianshan (NTS) revealed an extensive area of early Palaeozoic magmatism with an age range of 540–475 Ma. During the first episode at 540–510 Ma, magmatism likely occurred in an intraplate setting within the NTS microcontinent and in an oceanic arc setting within the Kyrgyz-Terskey zone in the south. During the second episode at 500–475 Ma, the entire NTS represented an arc system. These two phases of magmatism were separated by an episode of accretionary tectonics of uncertain nature, which led to obduction of ophiolites from the Kyrgyz-Terskey zone onto the microcontinent. The occurrence of zircon xenocrysts and predominantly negative whole-rock ɛ_Nd(t) values and ɛ_Hf(t) values of magmatic zircons suggest a continental setting and melting of Precambrian continental sources with minor contributions of Palaeozoic juvenile melts in the generation of the magmatic rocks. The late Cambrian to Early Ordovician 500–475 Ma arc evolved mainly on Mesoproterozoic continental crust in the north and partly on oceanic crust in the south. Arc magmatism was accompanied by spreading in a back-arc basin in the south, where supra-subduction ophiolitic gabbros yielded ages of 496 to 479 Ma. The relative position of the arc and active back-arc basin implies that the subduction zone was located north of the arc, dipping to the south. Variably intense metamorphism and deformation in the NTS reflect an Early Ordovician orogenic event at 480–475 Ma, resulting from closure of the Djalair-Naiman ophiolite trough and collision of the Djel'tau microcontinent with the northern margin of NTS. Comparison of geological patterns and episodes of arc magmatism in the NTS and Chinese Central Tianshan indicate that these crustal units constituted a single early Palaeozoic arc and were separated from the Tarim Craton by an oceanic basin since the Neoproterozoic.     

攀枝花大田地区前震旦纪斜长角闪岩地球化学特征及构造意义

对攀枝花大田地区斜长角闪岩进行了系统的主微量地球化学特征、锆石LA-ICP-MS U-Pb年代学以及Lu-Hf同位素特征研究.结果表明:斜长角闪岩的SiO₂含量为47.88%~50.05%,原岩为亚碱性-碱性玄武岩.斜长角闪岩稀土总量(ΣREE)较高,稀土元素配分模式为轻稀土富集的右倾型,与洋岛玄武岩相似.微量元素原始地幔标准化蛛网图为"隆起"型,与板内玄武岩特征类似.Zr/Nb、Hf/Th等比值均表明其与板内玄武岩类似,而与岛弧玄武岩具有明显的差异.锆石U-Pb定年结果表明岩浆结晶年龄为816.0~833.6 Ma,同期岩浆结晶锆石的ε_Hf(t)值在-6.8~+3.8之间,其岩浆源区为与OIB类似的富集地幔源区且受到了地壳物质的混染.综合上述资料,认为其形成于Rodinia超级地幔柱活动导致的大陆裂谷环境.      

The Late Proterozoic ophiolite of Sol Hamed,NE Sudan

The Sol Hamed complex, a sequence from ultramafics, through gabbros, thin sheeted dykes, to pillow lavas, is an ophiolite. It was obducted, tilted nearly to vertical, eroded and covered unconformably by the Nafirdeib Series. This is a volcaniclastic series, dated at 712 ± 58 Ma, the lower part of which includes conglomerates with ophiolitic clasts, olistostromes, one with large oolitic limestone slabs, felsitic and dacitic tuffs, turbidites and black shales, with andesites above. Some of the structures in the ophiolite are attributed to sub-oceanic deformation. Deformation after the deposition of the Nafirdeib Series produced folds and cleavage trending about NE-SW and, more locally, a cleavage trending NW in a shear zone where the ophiolite was thrust northeastwards over the Nafirdeib Series. The ophiolite and the Nafirdeib Series were intruded by the batholithic granite dated elsewhere at ca. 669 Ma. The ophiolite is thought to occur on a suture with the Nafirdeib Series representing part of an island arc sequence.     

柴北缘超高压变质带变质泥质岩碎屑锆石年代学研究及其地质意义

柴北缘超高压变质带作为中国西部深俯冲的一个研究热点,对其变质泥质岩的碎屑锆石年龄研究对了解此区内深俯冲大陆的前寒武纪演化历史,及与华北克拉通及华南克拉通的亲缘性讨论具有重要意义。本文选取柴北缘超高压变质带中绿梁山和都兰的变质泥质岩,筛选锆石利用LA-ICP-MS进行定年并讨论其地质意义。实验结果表明碎屑锆石年龄分为三个组别集中,分别是1100Ma、1000~800Ma和800~500Ma,并分别代表了古老的结晶基底、与Rodinia超大陆相关的碰撞和裂解事件以及古祁连洋的演化。板块亲缘性分析表明柴达木-祁连地区可能与扬子克拉通西缘具有亲缘性,可能作为扬子克拉通西缘的延伸而与扬子克拉通相连。通过结合碎屑锆石数据及板块亲缘性分析并对比现今西太平洋边缘的演化模式,本文提出了一个在早古生代北祁连为主动大陆边缘,柴北缘为被动大陆边缘;在祁连地体北侧的古祁连洋闭合后柴北缘转变为主动大陆边缘的构造演化模式。     

秦岭造山带东段秦岭岩群的年代学和地球化学研究

对东秦岭地区的陕西省洛南县、宁陕县、长安县和河南省淅川县出露的四个秦岭岩群变质岩进行的岩石学和地球化学研究表明,样品主要由变质火山岩和变质沉积岩组成.详细的锆石U-Pb定年结果显示三个正变质岩均形成于新元古代早期(971～843Ma),而副变质岩中富集大量新元古代碎屑锆石,根据最年轻的谐和年龄(859Ma)和早古生代的变质年龄,推测其沉积时代为新元古代中晚期.因此,北秦岭南部的秦岭岩群的变质岩主要由新元古代早期的火成岩和新元古代中晚期的沉积岩组成.变质作用主要发生在加里东期,局部有燕山期的变质作用叠加.指示北秦岭的造山作用主要发生在早古生代.岩石地球化学研究还显示秦岭岩群的新元古代火山岩均形成于火山弧构造环境,沉积岩沉积于大陆弧-活动大陆边缘环境,指示秦岭造山带在新元古代早期是一个火山弧.秦岭岩群的火山岩和沉积岩在形成时代和构造环境方面与扬子克拉通西缘的特征非常相似,表明位于北秦岭造山带的秦岭岩群应归属于扬子克拉通陆块,是扬子北缘的一个大陆边缘弧.     

The Late Jurassic Zedong ophiolite: A remnant of subduction initiation within the Yarlung Zangbo Suture Zone (southern Tibet) and its tectonic implications

The Zedong ophiolite is the largest ophiolite massif east of Dazhuqu in the Yarlung Zangbo Suture Zone in the southern Tibetan Plateau. However, its age, geodynamic setting and relationship to the Xigaze ophiolite remain controversial. New zircon U–Pb ages, whole-rock geochemical and Nd–Pb isotopic data from ophiolitic units provide constraints on the geodynamic and tectonic evolution of the Zedong ophiolite. U–Pb zircon geochronology of dolerite lavas and late gabbro–diabase dikes yield weighted mean ages of 153.9 ± 2.5 Ma and 149.2 ± 5.1 Ma, respectively. Strong positive ε_Nd(t) and positive Δ7/4Pb and Δ8/4Pb values indicate derivation from a highly depleted mantle source with an isotopic composition similar to that of the Indian MORB-type mantle. The geochemistry of ophiolitic lavas and early dikes are analogous to typical island arc tholeiites whereas late dikes are similar to boninites. The geochemistry of these rock types suggests multi-stage partial melting of the mantle and gradually enhanced subduction influences to the mantle source through time. Combined with the MORB-like 162.9 ± 2.8 Ma Luobusha ophiolitic lavas, we suggest that the Luobusha lavas, Zedong lavas and early dikes originated in an infant proto-arc setting whereas late dikes in the Zedong ophiolite originated in a forearc setting. Together, they represent a Neo-Tethyan subduction initiation sequence. The Late Jurassic intra-oceanic proto-arc to forearc setting of the Zedong ophiolite contrasts with the continental margin forearc setting for the Xigaze ophiolite, which suggests a laterally complex geodynamic setting for ophiolites along the Yarlung Zangbo Suture Zone.     

The Neoproterozoic–Early Paleozoic tectonic evolution of the South China Block: An overview

This paper gives a brief review of what I consider as the state of the art regarding the largely accepted data and ideas concerning the Proterozoic to Early Paleozoic tectonic evolution of South China. The South China craton was built by the welding of the Yangtze and Cathaysia blocks, with a different previous history giving a different pre-Neoproterozoic basement composition, due to the Jiangnan (Jinning, Sibao) orogeny. This Jiangnan orogeny was a collisional event, induced by the consumption of an intervening oceanic domain by subduction beneath the Yangzte plate. The evolution involved a volcanic arc on the Yangtze active margin, active from ca. 980 Ma to ca. 850 Ma, the subsequent collision beginning at around 870–860 Ma and responsible for the emplacement of thrust sheets of ophiolitic mélange (dated around 1000–900 Ma) and blueschists (900–870 Ma), followed by late- to post-collisional granitic plutonism (840–800 Ma). The newly amalgamated South China craton suffered from rifting, starting around 850 Ma, marked by mafic–ultramafic magmatism until ca. 750 Ma. The Nanhua rift basin evolved with a thick sedimentation in its middle part until the Ordovician. South China was affected by the Early Paleozoic orogeny (mainly Silurian), characterized by a strong quasi-symmetrical intracontinental shortening, involving the sedimentary cover of the rift and its margins as well as the basement, leading to crustal thickening. This crustal thickening induced an important anatexis and emplacement of peraluminous granites during the Silurian. Unlike the Jiangnan orogeny, which was of collisional type, the Early Paleozoic one was a bit similar to a Pyrenean intracontinental type.Some pending problems need further research for clarification, for example: the location and timing of integration of South China within Rodinia, the triggering factor of the Early Paleozoic orogeny, the mapping of the contacts bounding the Lower Paleozoic thrust sheets responsible for the crustal thickening.     

新疆西准噶尔北部谢米斯台山南坡蛇绿岩带 的发现及其意义

新疆西准噶尔和什托洛盖谷地以北,沿谢米斯台山南坡出露一套蛇绿混杂岩(查干陶勒盖蛇绿岩),岩石组合自下而上包括蛇纹石化橄榄岩、变质辉长岩、玄武岩、细碧岩及伴生的硅质岩、同源火山碎屑岩等,基质为蛇纹石化橄榄岩和绿片岩相变质玄武岩。蛇绿岩中辉长岩的LA-ICP-MS锆石U-Pb定年结果为517Ma±3Ma和519Ma±3Ma,代表了蛇绿岩的形成年龄。蛇绿岩中不同组分(橄榄岩、辉长岩和细碧岩)的稀土元素和微量元素特征,以及细碧岩的Nb/Yb-Th/Yb图解均显示该蛇绿岩为洋中脊(MOR)型。查干陶勒盖蛇绿岩与西准噶尔北部的塔尔巴哈台(库吉拜)蛇绿岩、洪古勒楞蛇绿岩,邻区东哈克斯坦北部的扎乌尔-塔金蛇绿岩和巴尔克别克蛇绿岩可以很好地进行对比连接,为成吉斯-塔尔巴哈台构造带在西准境内的时空特征提供更多的约束。     

再论冀北古缝合带的证据

近南北走向的冀北太古宙麻粒岩相古陆核北侧受到近东西走向的古元古代造山带的交切。在陆缘沉积增生带内发现大量残存的古洋壳残片，包括蛇纹石化方辉橄榄岩、且鬣刺结构的苦橄岩、透闪石岩、橄长岩、异剥钙榴岩、细碧岩、退变榴辉岩、基性枕状熔岩和斜长花岗岩等，与陆缘沉积岩一起构成古蛇绿岩混杂带。推断该蛇绿岩混杂带从古元古代开始直到新元古代末有逐步向北后退发育的特点。     

内蒙古苏左旗南部早古生代蛇绿混杂岩特征及其构造意义

内蒙古苏左旗南部温都尔庙群由早元古代宝音图群(1910Ma),中、新元古代温都尔庙群(1511Ma,825Ma)和早古生代乌勒图-乌兰呼都格-查干乌拉蛇绿混杂岩(409Ma)组成。出露于乌勒图-乌兰呼都格-查干乌拉地区的乌勒图蛇绿混杂岩是由层位不全的,肢解了的蛇绿岩经构造混杂而成。其基质主要为绢云绿泥石英片岩、变质凝灰质砂岩,局部为绿泥片岩。岩块成分复杂,大小不一,形态各异,杂乱分布,主要岩石类型为白云岩、硅质岩、超基性岩、基性火山岩、灰岩。蛇绿混杂岩岩石化学分析表明,超基性岩MgO/FeO^*比值在8-13,MgO/(MgO+ FeO^*)比值在0.85-0.87 之间,与世界大多数变质橄榄岩相同。基性火山岩具大洋拉斑玄武岩特征,常量元素和稀土元素显示陆间洋盆性质。蛇绿混杂岩被晚泥盆世色日巴彦敖包组地层不整合覆盖,前者所含超基性岩块Sm-Nd 同位素等时线年龄为409Ma,表明其形成于中、晚志留世,于晚泥盆世前发生构造侵位。     

对扬子克拉通西缘四川康定—冕宁变质基底的新认识——来自Nd同位素的证据

通过对四川冕宁沙坝及康定－泸定地区的斜长角闪岩－TTG片麻岩的系统Sm-Nd同位素的测定，在该区首次获得706Ma的Sm-Nd等时线年龄。据此等时线年龄及其他样品的Nd亏损地幔模式年龄证明长期以来这套被当作太古宙－古元古代的变质岩是新元古代大陆裂解与其后紧接着的地幔柱引起的热变质作用的产物。与已有数据相结合，初步认为扬子克拉通目前所出露的基底没有统一演化历史，对扬子克拉通的基底有待更深入的研究。     

Infant intra-oceanic arc magmatism due to initial subduction induced by oceanic plateau accretion: A case study of the Bangong Meso-Tethys,central Tibet,western China

The Meso-Tethyan oceanic plateaus are becoming conspicuous as giant units on the oceanic floor and have played important roles in both continental marginal orogenesis and Tethys oceanic evolution. In this study, we present mineralogical, geochronological, geochemical and Sm–Nd isotopic data for basaltic lavas from the Namco ophiolite and a high-Mg pillow lava–dyke–gabbro association from the Pengco ophiolite in central Tibet. Zircon U–Pb and Ar–Ar dating reveals that the Namco lavas erupted at ∼181 Ma while the Pengco boninitic association formed at ∼164 Ma. The Namco lavas display nearly flat rare-earth element (REE) patterns with no Nb–Ta depletions as well as high ε_Nd values, characteristic of oceanic plateau lava. In contrast, the Pengco high-Mg rocks exhibit low REE concentrations below the normal mid-ocean ridge basalt (N-MORB), ubiquitous Nb–Ta depletions and low ε_Nd values, and the dykes and gabbros are characterized by U-shape REE patterns, indicating that they could have derived from a depleted mantle source that was contaminated by sedimentary flux and marking a mid-Jurassic initial intra-oceanic arc magmatism erupted on the Early Jurassic Meso-Tethyan oceanic plateau represented by the Namco ophiolite. Our Pengco boninitic rocks, along with the literature data, indicate a 167–160 Ma boninitic-like initial intra-oceanic arc within the Bangong Meso-Tethys, running from the Shiquanhe area to the Naqu area with a length of ∼1000 km, which was uniformly built on the Early Jurassic Meso-Tethyan oceanic plateau. Our literature investigation also indicates a ∼175 Ma accretionary orogeny with distinct signature of the oceanic plateau involvements along the southern Qiangtang continental margin, which is manifested by regional metamorphic, magmatic and depositional records. We thus suggest that the accretion of the Early Jurassic Meso-Tethyan oceanic plateau onto the southern Qiangtang continental margin resulted in the extensive orogeny along the continental margin, jammed the subduction zone at ∼175 Ma and induced intra-oceanic subduction initiation as well as the intra-oceanic infant arc magmatism in the Meso-Tethys at ∼164 Ma.