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1.
大别山北部榴辉岩和英云闪长质片麻岩锆石U-Pb年龄及多期变质增生 总被引:50,自引:3,他引:47
大别山北部榴辉岩及英云闪长质片麻岩的锆石U-Pb年龄分析表明:北部榴辉岩相峰期变质时代为226~230Ma左右;北部塔儿河一带英云闪长质片麻岩经历过印支期变质事件;大别山北部与南部超高压岩石中一致的(226~230Ma)高压或超高压变质年龄表明,北部镁铁-超镁铁质岩带中部分岩石也曾作为扬子俯冲陆壳的一部分,在印支期发生过高压或超高压变质作用;本区锆石发生过两期变质增生事件,一是印支期高压或超高压变质,另一期是燕山期热变质事件;榴辉岩及英云闪长质片麻岩的原岩形成时代为晚元古代;锆石U-Pb年龄可用多期变质增生模型来解释。 相似文献
2.
南苏鲁超高压变质地体中罗迪尼亚超大陆裂解事件的记录 总被引:14,自引:11,他引:14
通过苏鲁超高压变质地体南部不同类型超高压变质岩石的原岩重塑.揭示超高压变质岩的原岩形成于由大陆玄武质岩石、辉长岩、表壳岩和花岗岩组成的被动陆缘拉伸构造环境。中国大陆科学钻探主孔中不同类型超高压变质岩石的锆石SHRIMP U-Pb定年表明。花岗质片麻岩原岩年龄为780~680Ma;榴辉岩、石榴角闪岩的原岩年龄为765~730Ma,副片麻岩中包含了730Ma、680Ma、621Ma和较年轻的继承性碎屑锆石和结晶锆石年龄。结合前人的研究成果表明,苏鲁超高压变质地体南部正片麻岩类和榴辉岩的原岩所代表的花岗岩浆和基性岩浆活动为罗迪尼亚超大陆形成后的新元古代裂解事件的产物.而副片麻岩的原岩为新元古代.古生代时期形成的扬子被动陆缘的沉积-火山表壳盖层,它们与结晶基底一起在240~220Ma期间经历了超高压变质作用。 相似文献
3.
苏鲁超高压变质带的形成时代究竟是印支期还是新元古代争议始终很大。对山东胶南地区超高压变质带中超镁铁岩和榴辉岩的锆石激光拉曼、阴极发光和离子探针原位定年的研究获得超高压变质作用发生的时代为印支期。其中超镁铁岩含柯石英锆石的年龄为221±12Ma,该深成岩侵位时代为新元古代(581±44Ma)。此外,锆石中另有约400Ma年龄记录,可能代表岩石形成后另有一期热事件。榴辉岩的下交点年龄为228±29 Ma,与超镁铁岩含柯石英锆石年龄一致,代表超高压变质时代;上交点为中元古代(1821±19Ma),代表原岩年龄,后者与其片麻岩围岩时代相一致,说明榴辉岩是原位俯冲。 相似文献
4.
北苏鲁超高压变质带前寒武纪基底研究新进展 总被引:1,自引:0,他引:1
北苏鲁超高压变质带位于胶东牟平-即墨断裂以东的地区,其前寒武纪基底以出露新元古代的双峰式火成岩为主要特征,其主要岩石组合包括大量花岗片麻岩以及少量变(超)基性岩(榴辉岩)、变沉积岩。对花岗片麻岩、变质(超)基性岩的岩石组合、地球化学、锆石U-Pb和Lu-Hf同位素的研究表明,北苏鲁存在新太古代-古元古代的残留地壳,经历了1.8~2.2 Ga期间的岩浆-火山-变质事件;新元古代中期(0.72~0.80 Ga)与Rodinia超大陆的裂解相关的岩浆活动促使地壳的生长和再造,形成了北苏鲁的前寒武纪基底的主体;北苏鲁和苏鲁-大别造山带一样,其前寒武纪基底是扬子板块北缘的一部分,苏鲁造山带的西北边界是五莲-烟台断裂带。 相似文献
5.
华中榴辉岩带地球化学和年代学研究 总被引:8,自引:0,他引:8
根据地质产状,华中高压超高压变质带中的榴辉岩可划分为与超基性岩伴生的P类和与片麻岩、斜长角闪岩等伴生的G类。它们具有不同的地球化学特征,但均为大洋基性火成岩经复杂成分演化作用的产物。全岩-矿物Sm-Nd和颗粒锆石207Pb-206Pb年代学研究表明,超高压变质作用很可能发生在加里东期(480Ma);而印支期(265Ma)则可能是超高压变质岩的后期高压退变质改造阶段。 相似文献
6.
胶东地块东部变质岩锆石U-Pb定年和氧同位素研究 总被引:18,自引:10,他引:18
对胶东地块东部高压-超高压变质岩作了系统的锆石U-Ph定年和矿物氧同位素分析,结果对这些变质岩的原岩性质提供了制约。研究得到:(1)区域花岗片麻岩及岩浆锆石普遍不同程度地亏损~(18)O,3个片庥岩样品中岩浆核锆石U-Pb年龄分别为723±36Ma、738±17Ma和744±63Ma,低δ~(18)O值(-0.42~4.14‰)岩浆核锆石说明其原岩为新元古代低δ~(18)O值岩浆岩,石英-石榴石氧同位素温度及少量印支期变质锆石的出现,指示片麻岩与榴辉岩曾经共同经历了印支期超高压变质作用;(2)花岗片麻岩中的榴辉岩原岩年龄有两种,一种是新元古代,其U-Ph年龄为806±79Ma。另一种是古元古代晚期,其 U-Pb年龄为1838±41Ma。这2个榴辉岩的超高压变质年龄分别为229±3Ma和242±21Ma。多数榴辉岩中的变质增生或变质重结晶锆石也具有低δ~(18)O值特征(0.22~3.4‰),指示在榴辉宕相变质作用之前,这些榴辉岩原岩为低δ~(18)O值蚀变岩或低δ~(18)O值基性岩浆岩;(3)大理岩中榴辉岩变质增生锆石δ~(18)O值高达15.9‰,U-Pb年龄为229±4Ma,指示在榴辉岩相变质作用之前,榴辉岩原岩与大理岩一样具有高δ~(18)O值;(4)斜长角闪岩的原岩U-Pb年龄为1719±18Ma,与同时期榴辉岩原岩一起构成扬子板块北缘新元古代岩浆侵位时的裂谷肩部围岩,在三叠纪大陆碰撞时同样受到变质改造。 相似文献
7.
威海地区超高压变质花岗片麻岩锆石U-Pb定年和氧同位素研究 总被引:3,自引:0,他引:3
在苏鲁超高压变质带东北端山东威海地区皂埠镇发现锆石δ18O值低至-7.8‰左右的花岗片麻岩, 与前人在苏鲁超高压变质带西南端江苏东海青龙山地区发现的锆石δ18O值为-7‰~-9‰左右的花岗片麻岩一致.对这些低δ18O值花岗片麻岩进行了锆石SHRIMP法UPb定年和系统的激光氟化法矿物氧同位素分析, 结果对低δ18O值锆石成因和花岗片麻岩的原岩性质提供了制约.研究得到: (1) 这些低δ18O值锆石以新元古代岩浆锆石为主, 但部分岩浆锆石在印支期超高压变质作用过程中发生了不同程度的重结晶作用.δ18O值为-7.08‰的岩浆核锆石UPb定年得到的花岗片麻岩原岩谐和年龄和不一致线上交点年龄分别为(760±49) Ma和(751±27) Ma, 变质谐和年龄和不一致线下交点年龄分别为(232±4) Ma和(241±33) Ma, 指示其原岩为新元古代花岗岩并经历了印支期变质作用; (2) 锆石δ18O值在局部范围内变化于-7.76‰~5.40‰之间, 低δ18O值岩浆锆石表明它们是从新元古代低δ18O值岩浆中直接结晶形成, 锆石δ18O值的局部变化表明其原岩岩浆的氧同位素组成具有不均一性, 指示低δ18O值岩浆源区物质曾经在地表与极度亏损18O的大气降水发生过不同程度的高温水岩反应; (3) 低δ18O值花岗片麻岩在印支期板块俯冲和折返过程中基本没有与外部发生显著的氧同位素交换, 在退变质作用过程中花岗片麻岩内部缓冲流体对原岩岩浆锆石的δ18O值影响不大.威海皂埠镇地区和东海青龙山地区的花岗片麻岩在原岩时代、变质时代和氧同位素组成等方面基本相同, 指示它们应具有相同的原岩性质, 并经历了相同的变质作用和水岩相互作用过程.因此, 极度亏损18O的新元古代双峰式基性-酸性岩浆岩可能分布于整个大别-苏鲁造山带. 相似文献
8.
位于华北和扬子两板块碰撞带中的苏鲁榴辉岩形成的温压条件不但是超高压,而且是高温。榴辉岩的PTt轨迹表明其为陆-陆磁撞俯冲带的产物。榴辉岩的区域性围岩花岗质片麻岩为新元古代同碰撞期花岗岩,榴辉岩及其他直接围岩皆呈包体存在于其中,并见新元古代花岗岩呈脉状侵入榴辉岩包体中。区域性围岩新元古代花岗岩的锆石中发现有柯石英、绿辉石等包裹体,表明新元古代花岗岩的组成物质也经受过超高压变质作用,且榴辉岩与围岩新元古代花岗岩的锆石U-Pb体系同位素年龄基本相同。但新元古代花岗岩所记录的变质作用和变形作用期次(或阶段)却少于榴辉岩。椐上述可得如下推断:超高压榴辉岩与新元古代花岗岩岩浆是同时在碰撞带底部(俯冲板块前部)形成的;榴辉岩的第一折返阶段是由新元古代花岗岩岩浆携带上升的,其第二折返阶段是和新元古代花岗岩一起由逆冲及区域性隆起而上升,遭受剥蚀。 相似文献
9.
南苏鲁晚中生代花岗岩的形成年龄及源区 总被引:5,自引:1,他引:5
本文对苏鲁造山带西南端(南苏鲁)的中生代花岗岩采用激光探针等离子体质谱(LA-ICP-MS)方法进行了年代学测定,李埝岩体为122±5Ma(6个测点的加权平均值),抗日山岩体的年龄为119±2Ma(5个测点的加权平均值),这些结果表明,南苏鲁地区的花岗岩主要形成于燕山期,相当于早白垩世。两个花岗岩体中还分别检测出新元古代的锆石,年龄范围为751~639Ma,表明有新元古代的岩石参与了中生代花岗岩的形成。花岗岩与围岩花岗质片麻岩地球化学和Sr-Nd同位素以及锆石特征的对比表明,经历超高压变质的花岗质片麻岩不是中生代花岗岩的主要源岩。花岗岩中存在暗色包体,结合该地区存在大量同时代的幔源岩浆活动,推测壳幔岩浆的混合可能是南苏鲁花岗岩形成的主要方式。 相似文献
10.
大别—苏鲁超高压地体折返过程中岩石组合演化的地球化学约束 总被引:7,自引:2,他引:5
大别—苏鲁超高压地体现今的岩石组合是超高压变质岩石经历快速折返过程中各种地质作用叠加改造的最终产物, 其中拆沉、底侵、构造体制转换是改造的动力; 退变质作用、构造置换、深熔作用是改造的主要方式.超高压地体的主要岩石组合有榴辉岩、大理岩、硬玉石英岩、斜长角闪岩、片麻岩和面理化花岗岩.地质、常量、微量、同位素地球化学研究表明, 斜长角闪岩是榴辉岩退变的产物, 片麻岩、面理化花岗岩是榴辉岩退变的斜长角闪岩递进深熔的产物, 即退变榴辉岩折返到中下地壳, 初次熔融产生相当于片麻岩成分的半原地英云闪长质-花岗闪长质-花岗质岩浆, 片麻岩再次熔融产生成分相当于面理化花岗岩的A型花岗岩岩浆. 相似文献
11.
苏鲁高压—超高压变质地体的陆—陆碰撞深俯冲剥蚀模式 总被引:21,自引:4,他引:17
中国苏鲁高压—超高压变质地体由2个不同时代的变质基底组成.南苏鲁(临沭—连云港地区)中不同类型高压—超高压变质岩石的原岩形成于由大陆玄武质岩石、辉长岩、表壳岩和花岗岩组成的被动大陆边缘拉伸构造环境.研究表明南苏鲁高压—超高压变质岩石的原岩所代表的花岗岩浆和基性岩浆作用为罗迪尼亚超大陆形成后的新元古代(780-700Ma)裂解事件的响应.北苏鲁(青岛—威海)超高压变质地区的花岗质片麻岩锆石SHRIMPU-Pb定年表明,变质基底的年龄是2400Ma(或 & 2400 Ma),并经历了1800-1700Ma和-200Ma的变质事件,研究表明苏鲁高压—超高压变质地体由2个不同时代变质基底组成,北苏鲁的变质基底属于北中国板块胶辽朝地块的一部分,形成时代比南苏鲁基底老得多,其与南苏鲁地块之间的界限位于五莲以北到海阳所以南一线.由于在北苏鲁含柯石英的透辉石石英岩锆石SHRIMPU-Pb定年获得精确超高压峰期变质年龄为(234.1±4.2)Ma,退变质年龄为(218.2±1.5)Ma,表明南、北苏鲁2个不同时代基底地块同时经历了超高压变质作用.根据上述事实,提出苏鲁高压—超高压变质地体的陆—陆碰撞俯冲剥蚀新模式,即扬子板片在240-220Ma的深俯冲作用中拽动上部胶辽朝板片的—部分老变质基底岩石向下俯冲至大于100km的深度,并形成楔形俯冲剥蚀体,之后又与南苏鲁俯冲板片一起快速折返上来。 相似文献
12.
大悟杂岩位于大别山西段,主体为花岗质片麻岩。为了限定其形成与变形过程,本文综合运用锆石U-Pb法和白云母~(40) Ar/~(39) Ar法进行年代学研究。锆石U-Pb LA-ICP-MS法对这些花岗质片麻岩定年结果显示:锆石的Th/U值为0.79~4.29,属于典型的岩浆锆石特征;206Pb/238 U的加权平均年龄为(810±63)Ma(n=12,MSWD=0.021),代表这些花岗质片麻岩的形成时代。大悟杂岩核部花岗质片麻岩的白云母坪年龄为(210.5±1.4)Ma,相应的等时线年龄为(211.6±2.5)Ma。这些新的研究结果支持以下两点认识:大悟杂岩中的花岗质片麻岩形成于新元古代,而不是白垩纪;这些前寒武纪岩石的构造抬升过程发生在三叠纪晚期(211 Ma)。由于西大别晚三叠世构造与高压—超高压变质岩的出露过程有关,因此,大悟杂岩的变形与高压—超高压变质岩的抬升之间的关系就成为一个耐人寻味的科学问题。同时,由于大悟杂岩中的多数构造面理和线理形成于区域高压—超高压变质作用之后,据此推断西大别三叠纪晚期的变形发生在造山晚期-后造山背景下,伴随着地壳和岩石圈的大规模伸展与减薄。 相似文献
13.
鲁东地区侵入岩形成时代和期次划分——锆石SHRIMPU—Pb年龄的证据 总被引:1,自引:0,他引:1
鲁东地区前寒武纪侵入岩其侵入活动集中于新太古代和新元古代,均遭受不同程度的区域变质和韧性剪切带的改造,形成一套花岗质片麻岩类。新太古代早期TTG质花岗岩分布于胶北隆起区莱州一栖霞一带,经受了区域变质作用,形成一套灰色片麻岩,锆石内核SHRIMPU—Pb年龄2726—2707Ma基本代表岩浆结晶年龄,锆石变质边为2500Ma;古元古代侵入岩——莱州基性一超基性岩组合形成于1900~1850Ma左右,锆石SHRIMPU—Pb年龄(1852±9)Ma,(1868±11)Ma;新元古代侵入岩主要为花岗闪长质-二长花岗质片麻岩,出露于胶南-威海造山带,锆石U~Pb定年结果集中为892~605Ma,其中荣成超单元锆石SHRIMPU—Pb年龄720~780Ma。中生代侵入岩以花岗岩类为主,集中出露于半岛北部和东南沿海一带。燕山早期侵入岩文登超单元、垛崮山超单元、玲珑超单元锆石SHRIMPU—Pb同位素年龄值集中在167~150Ma;燕山晚期侵入岩大店超单元锆石SHRIMPU~Pb年龄120±4Ma,崂山超单元锆石SHRIMPU~Pb同位素年龄值为(120±2)~(114±2)Ma。 相似文献
14.
Hezbullah Moiny Shah Wali Faryad Renata Čopjaková Radim Jedlicka 《Journal of Metamorphic Geology》2020,38(7):693-717
Basement rocks from the Western Hindu Kush preserve evidence of multiple metamorphic and magmatic events that occurred along the boundary between the Archean–Proterozoic Afghan Central and Afghan–Tajik Blocks. To verify the different metamorphic stages or events, mineral textures and phase equilibria in metamorphic basement rocks and their age relations to magmatic episodes have been investigated. Quartzofeldspathic gneiss and migmatite with lenses of amphibolite (with assumed Proterozoic age for their metamorphism) are intruded by the Triassic Hindu Kush granitoid batholith and small Cretaceous and Oligocene granite intrusions. The age of thermal overprint (210–170 Ma) by the Triassic batholith is confirmed by new monazite data. Both Triassic and Cretaceous granitoids and surrounding basement rocks underwent subsequent metamorphism up to epidote–amphibolite facies. The degree of this metamorphism increases southward at the contact to the Kabul Block, which under-plates the Western Hindu Kush from the south. An early Miocene age was obtained by Pb–Th analyses in thorite and huttonite, which are close or slightly younger than the Oligocene granite in this area. The Cretaceous meta-granodiorite near the border with the Kabul Block contains xenoliths of granulite facies rocks that could come from the Neoarchean granulite facies basement of the Kabul Block. The multi-stage metamorphic and magmatic evolution classifies the Hindu Kush mountain belt as a long-lived suture zone that was active since the early Palaeozoic. The results of this study support the interpretation about possible relations of the Afghan Central Blocks to the southern margin of Eurasia during the evolution of Para- and Neotethys. 相似文献
15.
南阿尔金木纳布拉克地区长城系巴什库尔干岩群LA-ICP-MS锆石U-Pb定年及其地质意义 总被引:3,自引:0,他引:3
采用LA-ICP-MS微区原位锆石U-Pb同位素测定技术,测得木纳布拉克地区原划长城系巴什库尔干岩群红柳泉组的二云二长片麻岩和扎斯勘赛河组二云石英片岩的原岩形成年龄分别介于498~840Ma和500~647Ma之间,表明这2种岩石原岩的形成时代均为新元古代,而不是之前认为的中元古代。另外,红柳泉组二云二长片麻岩边部锆石表现为重稀土元素相对富集型稀土配分模式,其Th/U值大部分小于0.1,为变质锆石,测得其变质时代为498±4Ma,与该地区高压麻粒岩的峰期变质时代(486±5Ma)一致,且与南阿尔金阿尔金岩群中的高压-超高压岩石的峰期变质时代一致,推断其为阿尔金俯冲碰撞引发的高压-超高压变质作用的产物,属于南阿尔金高压-超高压变质带的一部分。通过原岩残留碎屑锆石的年代学对比,发现研究区内这2种岩石及已发现的高压麻粒岩均具有与阿尔金岩群相似的锆石年龄信息,表明本区红柳泉组和扎斯勘赛河组的这3种岩石不应再划归为中元古代的长城系巴什库尔干岩群,将其归属为阿尔金岩群更为合适。 相似文献
16.
Zircon Dating and Geological Implications of Granitic Gneiss in the Metamorphic Zone of Gaoligong Mountains in Western Yunnan, China 总被引:1,自引:0,他引:1
The general classification of intermediate-acid intrusive rocks in the metamorphic zone of Gaoligong Mountains as one of the metamorphic terranes of Proterozoic Gaoligong Mountains is problematic regarding the intrusion stage and age, as well as the subsequent metamorphism and deformation. In this study, we investigated granitic gneiss in the metamorphic zone of Gaoligong Mountains based on the 1:50,000 regional geological survey of Qushi Street (2011-2013) and SHRIMP U-Pb zircon geochronology. Results showed that the SHRIMP U-Pb zircon dating of granitic gneiss ranged from 163.5±5.7 Ma to 74.0±2.0 Ma. Thus, the granitic gneiss was grouped into orthometamorphic rocks (metamorphic intrusions). The dating data of granite rocks associated with intense metamorphism and deformation were divided into three groups, 163.5±5.7 to 162.3±3.1 Ma, 132.2-101.0 Ma and 99.4±3.5-74.0±2.0 Ma, which respectively represented three independent geologic events including an important magma intrusion with superimposed metamorphic effects in the late Middle Jurassic, regional dynamic metamorphism and superimposed reformation of fluid action in the early Cretaceous, and dynamic metamorphism dominated by ductile shear and metamorphism starting from the late Cretaceous. 相似文献
17.
Protolith and metamorphic ages of the Haiyangsuo Complex, eastern China: a non-UHP exotic tectonic slab in the Sulu ultrahigh-pressure terrane 总被引:8,自引:0,他引:8
J. G. Liou T. Tsujimori W. Chu R. Y. Zhang J. L. Wooden 《Mineralogy and Petrology》2006,88(1-2):207-226
Summary The Haiyangsuo Complex in the NE Sulu ultrahigh-pressure (UHP) terrane has discontinuous, coastal exposures of Late Archean
gneiss with amphibolitized granulite, amphibolite, Paleoproterozoic metagabbroic intrusives, and Cretaceous granitic dikes
over an area of about 15 km2. The U–Pb SHRIMP dating of zircons indicates that theprotolith age of a garnet-biotite gneiss is >2500 Ma, whereas the granulite-facie
metamorphism occurred at around 1800 Ma. A gabbroic intrusion was dated at ∼1730 Ma, and the formation of amphibolite-facies
assemblages in both metagabbro and granulite occurred at ∼340–460 Ma. Petrologic and geochronological data indicate that these
various rocks show no evidence of Triassic eclogite-facies metamorphism and Neoproterozoic protolith ages that are characteristics
of Sulu-Dabie HP-UHP rocks, except Neoproterozoic inherited ages from post-collisional Jurassic granitic dikes. Haiyangsuo
retrograde granulites with amphibolite-facies assemblages within the gneiss preserve relict garnet formed during granulite-facies
metamorphism at ∼1.85 Ga. The Paleoproterozoic metamorphic events are almost coeval with gabbroic intrusions. The granulite-bearing
gneiss unit and gabbro-dominated unit of the Haiyangsuo Complex were intruded by thin granitic dikes at about 160 Ma, which
is coeval with post-collisional granitic intrusions in the Sulu terrane. We suggest that the Haiyangsuo Complex may represent
a fragment of the Jiao-Liao-Ji Paleoproterozoic terrane developed at the eastern margin of the Sino-Korean basement, which
was juxtaposed with the Sulu terrane prior to Jurassic granitic activity and regional deformation. 相似文献
18.
青岛榴辉岩及胶南群片麻岩的锆石U-Pb 年龄——胶南群中晋宁期岩浆事件的证据 总被引:2,自引:1,他引:2
研究表明,苏鲁地体是扬子与华北陆-陆碰撞造山带的一部分(东段)。其主要变质岩系——胶南群,是扬子陆块北缘俯冲陆壳的基底。在已有的文献中,人们均将胶南群划为早、中元古代地体。组成胶南群的主要岩石是长英质片麻岩,在其中间包含有少量斜长角闪岩、大理岩、超镁铁岩和榴辉岩。大量的Sm-Nd 及 40Ar/39Ar 同位素定年已证明了,胶南群在三叠纪时,经历了与华北和扬子陆块碰撞有关的高压或超高压变质作用,原岩的时代缺乏可靠的年龄测定,被认为是早、中元古代岩石。然而最近我们对青岛附近仰口的退变质榴辉岩及胶南群片麻岩的 相似文献
19.
Orthogneisses are the major country rocks hosting eclogites in the Sulu UHP terrane, eastern China. All of the analyzed orthogneiss cores from the main drilling hole of the Chinese Continental Scientific Drilling Project (CCSD-MH) have similar major and trace element compositions and a granite protolith. These rocks have relatively high LREE/HREE ratios, strong negative Eu anomalies (Eu/Eu*=0.20–0.39), and negative Ba anomalies (Ba/Ba*=0.25–0.64). Coesite and coesite-bearing UHP mineral assemblages are common inclusions in zircons separated from orthogneiss, paragneiss, amphibolite, and (retrograded) eclogite of the CCSD-MH. This suggests that the eclogite, together with its country rocks, experienced in situ ultrahigh-pressure (UHP) metamorphism. Laser Raman spectroscopy and cathodoluminescence (CL) images show that zircons from the orthogneisses are zoned and that they have distinct mineral inclusions in the different zones. Most zircons retain early magmatic cores with abundant low-pressure mineral inclusions, which are mantled with metamorphic zircon-containing inclusions of coesite and other UHP minerals. The outermost rims on these grains contain low-pressure mineral inclusions, such as quartz and albite. SHRIMP U–Pb dating of the zoned zircons gives three discrete and meaningful groups of ages: Proterozoic ages for the protolith, 227±2 Ma for the coesite-bearing mantles, and 209±3 Ma for the amphibolite facies retrograde rims. The widespread occurrence of UHP mineral inclusions in zircons from the Sulu metamorphic belt dated at about 227 Ma suggests that voluminous continental crust experienced late Triassic subduction to depths of at least 120 km and perhaps more than 200 km. Eighteen million years later, the terrane was rapidly exhumed to midcrustal levels, and the UHP rocks were overprinted by amphibolite facies metamorphism. The exhumation rate deduced from the zircon age data and previously obtained metamorphic P–T data is estimated to be 5.6–11.0 km/Ma. Such rapid exhumation of the Sulu UHP terrane may be due to the buoyancy forces produced by subduction of low-density continental material into the deep mantle. 相似文献