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1.
江西武功山穹隆复式花岗岩的锆石U-Pb年代学研究 总被引:21,自引:4,他引:17
采用锆石U-Pb法对武功山穹隆复式花岗岩中广泛分布的花岗质岩石开展精细定年研究,结果表明:山庄、张佳坊和武功山岩体的锆石U-Pb年龄分别为460.5±1.5 Ma、427.9±1.2 Ma和428.0±1.0-462.3±2.3 Ma,属早古生代晚期花岗岩;而雅山、温汤和明月山等岩体的锆石U-Pb年龄分别为161.0±1.0 Ma、143.8±1.6 Ma和126.3±6.4.Ma,属晚侏罗世-早白垩世花岗岩。因此认为武功山穹隆复式花岗岩中花岗岩分属早古生代晚期及晚侏罗世-早白垩世岩浆活动产物。从一个侧面说明华南地区大地构造演化过程中可能存在早古生代晚期构造一岩浆作用事件及晚侏罗世-早白垩世构造-岩浆作用事件,为华南大地构造演化研究提供了新的依据。结合前人在武功山地区花岗质片麻岩中白云母40Ar/39Ar法定年(225-233 Ma)资料,说明本区韧性变形形成于晚i叠世,可能意味着武功山伸展构造的启动时间,而晚侏罗世-早白垩世花岗岩浆的形成及向上运移,使周围的岩石软化乃至部分熔融,使得围岩环境更有利于伸展构造发展,并在早白垩世最终形成武功山花岗岩穹隆伸展构造。 相似文献
2.
孙吴-嘉荫地区早中生代花岗岩的年代学、地球化学与成因 总被引:3,自引:0,他引:3
对小兴安岭北部孙吴-嘉荫地区早中生代花岗岩进行了年代学和地球化学研究,据此探讨其成因及形成的构造背景。锆石U-Pb同位素定年结果表明,研究区早中生代花岗岩分为晚三叠世和早侏罗世两期,形成时代分别为210 Ma和187~181 Ma。晚三叠世碱长花岗岩属铝质A型花岗岩,岩浆源区为新元古代从亏损地幔中增生的基性火成岩地壳。早侏罗世英云闪长岩-花岗闪长岩和二长花岗岩属埃达克岩,是由加厚下地壳物质部分熔融形成的;正长花岗岩-碱长花岗岩与同期埃达克岩具明显不同的地球化学特征,岩浆源区为中元古代从亏损地幔中增生的基性地壳物质。结合区域地质构造演化特征,认为晚三叠世花岗岩是华北板块和西伯利亚板块碰撞造山后伸展构造环境下的产物,早侏罗世花岗岩的形成与古太平洋板块俯冲产生的挤压构造环境有关。 相似文献
3.
内蒙古突泉—科尔沁右翼中旗地区位于大兴安岭中南段,中生代岩浆活动较为频繁,岩浆作用形成的岩石类型主要包括花岗闪长岩、正长花岗岩、二长花岗岩和花岗斑岩等。鉴于目前研究区地质资料缺乏对整个突泉—科右中旗地区中生代花岗岩较为完善的研究和论述,笔者旨在对全区范围内的中生代花岗岩进行LA-ICP-MS锆石U-Pb年龄测定,同时在总结前人资料的基础上划分该地区不同的中生代岩浆作用期次,进而讨论本区不同花岗岩所代表的地质意义。花岗岩锆石U-Pb年龄测试结果表明,孟恩陶勒盖花岗闪长岩的形成时代为(241.2±2.8) Ma,杜尔基镇南部正长花岗岩的形成时代为(148.2±1.0) Ma,宝格吐岩体的花岗闪长岩的形成时代为(226.0±1.1) Ma,马家屯花岗斑岩的形成时代为(124.6±1.1) Ma,这与广泛分布于本区中生代火山岩的形成时代较为一致。结合前人研究成果以及邻区的地质资料,认为本区岩浆活动可以划分为中—晚三叠世、晚侏罗世和早白垩世;中—晚三叠世花岗岩可能属于古亚洲洋闭合造山后岩石圈伸展作用的产物,而晚侏罗世花岗岩的形成可能与中侏罗世蒙古—鄂霍茨克洋闭合后岩石圈伸展作用有关,早白垩世花岗岩可能反映了板内拉张的构造背景。 相似文献
4.
北秦岭太白花岗岩体LA-ICP-MS锆石U-Pb测年及其地质意义 总被引:2,自引:2,他引:0
北秦岭太白岩体位于商丹构造带北侧。野外侵入关系和LA-ICP-MS锆石U-Pb定年显示,该岩体由早志留世的五里峡岩体、晚三叠世的红崖河岩体和早白垩世的下板寺岩体组成。五里峡岩体的主要岩石类型为片麻状黑云母二长花岗岩,锆石U-Pb年龄为(431±2) Ma;红崖河岩体的主要岩石类型为黑云母二长花岗岩,锆石U-Pb年龄为(214±2) Ma;下板寺岩体为粗粒黑云母花岗岩,锆石U-Pb年龄为(130±1) Ma,表明太白岩体是由3个不同时代岩体组成的侵入复合杂岩体。结合区域构造背景和前人的研究成果,得出早志留世五里峡岩体可能与秦岭微板块沿商丹缝合带俯冲碰撞有关;晚三叠世红崖河岩体与秦岭早中生代主期岩浆作用一致,是华北地块与扬子地块碰撞的产物;燕山期的下板寺花岗岩属于板内岩浆作用。研究显示,今后应注意大岩体的解体,其可能隐含着不可忽视的构造-岩浆作用信息。 相似文献
5.
岩石学及元素地球化学研究结果表明,黑龙江省东部五营-汤旺河一带存在晚三叠世过铝质A 型花岗岩。A 型花岗岩由正长--碱长花岗岩类和碱性花岗岩组成,相当于Liegeois 提出的后碰撞作用阶段的产物,标志着造山事件趋于结束,新的板内环境开始。Rb --Sr 同位素测年显示其形成于晚三叠世,代表了佳木斯板块和松嫩-张广才岭板块在晚三叠世末期沿着嘉荫-牡丹江缝合带碰撞拼合后的伸展作用,标志着古亚洲洋构造域演化结束,黑龙江东部此时已经开始进入了滨太平洋构造域的板内演化阶段。 相似文献
6.
为了查明出露于云南省西部潞西市邦木二长花岗岩体的时代和形成的构造背景,对其进行了锆石SHRIMP定年研究。结果显示该花岗岩的锆石具有清晰的生长振荡环带,其Th/U比值为0.13~1.00,属于典型的岩浆成因锆石。邦木二长花岗岩中锆石的8个测点206Pb/238U年龄加权平均值为(120.5±1.7)Ma(n=8,MSWD=1.6)(95%置信度),代表了岩体的结晶年龄,表明该花岗岩体的形成时代为早白垩世。岩石地球化学研究表明,邦木二长花岗岩为过铝质钙碱性I型花岗岩,形成于早白垩世岛弧构造环境,具有岛弧花岗岩的特征,属于燕山中期侵入的花岗岩。在中—晚侏罗世,左贡—保山微板块沿班公湖—怒江—泸水—瑞丽板块缝合带由北东向南西方向与波密—腾冲微板块发生洋壳俯冲,导致班公湖—怒江—泸水—瑞丽洋关闭。左贡—保山板块俯冲插入到波密—腾冲板块之下。晚侏罗世末—早白垩世初,随着板块俯冲碰撞造山作用的进行,形成波密—腾冲岛弧。不同板块之间的碰撞拼合导致大规模的中酸性岩浆形成、侵入活动。邦木二长花岗岩就是这期构造岩浆活动的产物。邦木二长花岗岩体形成时代的厘定,为进一步探讨腾冲地块中生代构造演化提供了新证据。 相似文献
7.
黑龙江省东部古生代—早中生代的构造演化:火成岩组合与碎屑锆石U-Pb年代学证据 总被引:17,自引:0,他引:17
黑龙江省东部松嫩—张广才岭地块与佳木斯地块之间的演化历史以及古亚洲洋构造体系与环太平洋构造体系的叠加与转化一直是地学领域研究的热点问题之一。依据该区古生代—早中生代火成岩的年代学与岩石组合研究,结合碎屑锆石的年代学研究成果,讨论了松嫩—张广才岭地块与佳木斯地块之间的演化历史以及两大构造体系叠加与转化的时间。锆石U-Pb定年结果表明:黑龙江省东部古生代—早中生代岩浆作用可划分成8期:早奥陶世(485Ma)、晚奥陶世(450Ma)、中志留世(425Ma)、中泥盆世(386Ma)、早二叠世(291Ma)、中二叠世(268 Ma)、晚三叠世(201~228 Ma)以及早侏罗世(184 Ma)。早奥陶世—中志留世,岩浆作用主要分布在松嫩—张广才岭地块的东缘,并呈南北向带状展布,主要由闪长岩-英云闪长岩-二长花岗岩组成,显示活动陆缘—碰撞的构造演化历史,揭示松嫩—张广才岭地块与佳木斯地块于中志留世(425Ma)已经拼合在一起,这也得到了早泥盆世地层碎屑锆石年代学的支持。中泥盆世,火山作用分布在佳木斯地块东缘和松嫩—张广才岭地块上,前者为双峰式火山岩组合,后者为A型流纹岩,它们共同揭示该区处于一种碰撞后的伸展环境。早二叠世,佳木斯地块东缘发育一套钙碱性火山岩组合,揭示古亚洲洋俯冲作用的存在,而同期的张广才岭地区则发育一套典型的双峰式火成岩组合,揭示了陆内伸展环境的存在。中二叠世,同碰撞型火山岩分布于佳木斯地块东缘及东南缘,其形成可能与佳木斯地块和兴凯地块的碰撞拼合有关。晚三叠世,张广才岭地区存在的双峰式火山岩和敦—密断裂东南区发育的A型流纹岩均显示陆内的伸展环境,其形成应与古亚洲洋最终闭合后的伸展环境相联系。此外,结合牡丹江断裂两侧均发育中—晚二叠世花岗岩以及佳木斯地块上晚三叠世—早侏罗世岩浆作用的缺失,暗示松嫩—张广才岭地块与佳木斯地块在三叠纪早期沿牡丹江断裂可能存在一次裂解事件。而早—中侏罗世陆缘(东宁—汪清—珲春)钙碱性火山岩和陆内(小兴安岭—张广才岭)双峰式火成岩组合的出现,结合牡丹江断裂两侧"张广才岭群"和"黑龙江群"构造混杂岩的就位,暗示松嫩—张广才岭地块与佳木斯地块在早—中侏罗世再次拼合,这也标志着环太平洋构造体系的开始。 相似文献
8.
北秦岭太白岩体位于商丹构造带北侧。野外侵入关系和LA-ICP-MS锆石U-Pb定年显示,该岩体由早志留世的五里峡岩体、晚三叠世的红崖河岩体和早白垩世的下板寺岩体组成。五里峡岩体的主要岩石类型为片麻状黑云母二长花岗岩,锆石U-Pb年龄为(431±2)Ma;红崖河岩体的主要岩石类型为黑云母二长花岗岩,锆石UPb年龄为(214±2)Ma;下板寺岩体为粗粒黑云母花岗岩,锆石U-Pb年龄为(130±1)Ma,表明太白岩体是由3个不同时代岩体组成的侵入复合杂岩体。结合区域构造背景和前人的研究成果,得出早志留世五里峡岩体可能与秦岭微板块沿商丹缝合带俯冲碰撞有关;晚三叠世红崖河岩体与秦岭早中生代主期岩浆作用一致,是华北地块与扬子地块碰撞的产物;燕山期的下板寺花岗岩属于板内岩浆作用。研究显示,今后应注意大岩体的解体,其可能隐含着不可忽视的构造-岩浆作用信息。 相似文献
9.
内蒙赤峰楼子店拆离断层带下盘变形花岗质岩石的时代、成因及其地质意义——锆石U-Pb年龄和Hf同位素证据 总被引:2,自引:0,他引:2
对内蒙赤峰楼子店拆离断层带下盘前人划为前寒武纪岩石的糜棱状花岗质岩石中锆石进行了U-Pb年龄测定和Hf同位素测试,结果显示其时代为晚古生代至中生代。楼子店扎兰营子片麻状花岗岩的锆石206Pb/238U年龄为253.6±1.2Ma,锆石εHf(t)值为-8.6~-14.6,锆石Hf同位素地壳模式年龄为1.8~2.2Ga;朝阳沟糜棱岩化片麻状花岗岩的锆石206Pb/238U年龄为150.43±0.79Ma,锆石εHf(t)值为-5.6~-14.9,锆石Hf同位素地壳模式年龄为1.6~2.1Ga;莫里海沟片麻状闪长岩的锆石206Pb/238U年龄为127.6±3.1Ma,锆石εHf(t)值为-5.1~-13.9,锆石Hf同位素地壳模式年龄为1.5~2.1Ga。不同岩性、不同形成年龄的3个样品的εHf(t)值主要为负值,说明这些岩石主要来自地壳岩石的部分熔融。2.2~1.5Ga的锆石Hf同位素两阶段模式年龄表明它们可能主要来源于华北克拉通下地壳物质的部分熔融。结合该区已经获得的锆石U-Pb年龄,将该区古生代至中生代花岗质岩浆作用划分为4个时期:早石炭世(327Ma)、二叠纪(285~252Ma)、中三叠世—早侏罗世(241~184Ma)、中侏罗世—早白垩世(163~125Ma)。早石炭世喇嘛洞混合花岗岩的产出对应于古亚洲洋古生代向南俯冲于华北板块的时期,二叠纪花岗岩是古亚洲洋最后闭合、蒙古弧与华北陆块北缘拼合与伸展有关的岩浆活动的产物,大面积的中三叠世—早侏罗世的花岗岩是西伯利亚与华北陆块碰撞后地壳伸展的记录,中侏罗世—早白垩世(163~125Ma)岩浆活动则发育在伸展构造背景中,与岩石圈减薄存在密切的成因联系。这些新年龄资料将为华北陆块北缘古生代—中生代的地质构造演化提供重要的年代学制约。 相似文献
10.
大兴安岭中部乌兰浩特地区中生代花岗岩的锆石U-Pb年龄及地质意义 总被引:47,自引:23,他引:47
大兴安岭中生代花岗岩浆作用的时间和期次的确定对讨论东北地区中生代的构造-岩浆演化具有重要意义。本文采用激光ICP-MS技术进行锆石U-Pb年龄测定的结果表明,大兴安岭中部乌兰浩特-索伦地区的中生代花岗岩浆活动可以划分为3期:中-晚三叠世花岗岩岩浆侵位结晶年龄为235-225Ma;早-中侏罗世花岗岩岩浆侵位结晶年龄为182-175Ma;早白垩世花岗岩岩浆侵位结晶年龄为140-125Ma,与该区广泛分布的中生代火山岩时代一致。该区花岗岩的年代学格架与松辽盆地东缘的张广才岭-小兴安岭地区完全可以对比。花岗岩中的捕获锆石具有与额尔古纳地块新元古代花岗岩一致的的年龄信息(-800Ma),反映该区曾经具有前寒武纪结晶基底。结合岩石学特征和邻区的其它地质资料,该区三叠纪花岗岩的形成可能与古亚洲洋闭合造山后的岩石圈伸展体制有关,侏罗纪花岗岩可能是佳木斯地块西缘洋壳俯冲及与松嫩地块拼合作用的产物,而早白垩世花岗岩的形成则与板内拉张性构造体制有关。 相似文献
11.
以往将位于湘南、桂东北的都庞岭花岗岩基分为西体、中体和东体三部分。野外观察和岩相学研究表明,都庞岭中体和东体主要由黑云母正长花岗岩、黑云母二长花岗岩和二云母二长花岗岩组成,岩石具斑状结构,部分钾长石斑晶呈椭球状至球状,具斜长石环边,构成环斑结构。采用锆石SHRIMP U-Pb法获得都庞岭中体和东体中环斑花岗岩的侵位年龄分别为226.6±6.9 Ma和209.7±3.1 Ma,均属于晚三叠世,相当于印支晚期。都庞岭环斑花岗岩富硅、碱,贫钛、磷、镁和钙,其Rb、Cs、Th、U、REE、Pb、Y含量和Rb/Sr、Rb/Ba比值较高,而Sr、Ba含量和Zr/Hf比值(8.16~25.01)较低,具强烈的Eu负异常(δEu=0.02~0.13),10000×Ga/Al比值(2.64~4.38,平均3.15)高,显示A型花岗岩的地球化学特征。与华南印支早期S型花岗岩相比,都庞岭环斑花岗岩的εNd(t)值(-8.0~-8.3)明显偏高(前者低于-10),而tDM2值(1624~1645 Ma)则明显偏低(前者1800 Ma),表明它们可能直接源于地壳物质的部分熔融,但成岩过程中有地幔物质的参与。都庞岭环斑花岗岩的发现及其时代的确定,揭示了晚三叠世华南东部处于大陆裂解或造山后伸展的构造环境。结合华南东部沉积/岩石大地构造分析,认为华南早中生代构造体制的转换发生在中、晚三叠世,而非前人所认为的发生在中、晚侏罗世;同时,环斑花岗岩的出现,指示了华南中生代大规模成矿作用的来临,晚三叠世是华南中生代大规模成矿的第一个高峰期。 相似文献
12.
本文对华北克拉通北缘中段内蒙古化德地区二叠纪—三叠纪5个花岗质侵入体进行了岩相学、地球化学、锆石U Pb年代学以及Sr Nd Hf同位素研究。结果表明本次所研究的岩体主要起源于华北克拉通古老下地壳的部分熔融,八音察汗岩体形成于早二叠世(276±1 Ma),在岩浆上升过程中发生了岩浆混合作用;白音特拉岩体形成于中二叠世(270±1 Ma),为地壳加厚作用下变质杂砂岩部分熔融形成的S型花岗岩;毛忽庆岩体形成于晚二叠世(254±1 Ma),为I型花岗岩;张万良岩体与康家地岩体分别形成于早三叠世(248±1 Ma)和晚三叠世(229±1 Ma),两者均为A型花岗岩。综合前人研究,本文认为研究区在早二叠世—晚三叠世经历了古亚洲洋向华北板块俯冲、俯冲 同碰撞、持续碰撞以及造山后的伸展4个阶段,古亚洲洋东段在研究区的闭合时间应为中二叠世晚期。 相似文献
13.
The tectonic transition from the palaeo-Tethyan to palaeo-Pacific dynamic domains in the South China Block (SCB) is still a matter of debate. The A-type granites collected from the southeastern SCB offered an opportunity to illustrate this tectonic transition. This article records a set of petrographic, geochronological, and geochemical data for the Wengong granitic pluton from the eastern Nanling Range. LA-ICP-MS zircon U–Pb dating shows a crystallization age of 196.9 ± 4.4 Ma with εHf(t) values ranging from +2.1 to +7.7. The samples have high SiO2, Zr+Nb+Ce+Y, FeOt/MgO, Ga/Al, and Y/Nb and are depleted in Nb–Ta, Zr–Hf, Ba, Sr, Ti, and Eu, similar to those of the A2-type granite. Their initial 87Sr/86Sr ratios range from 0.70885 to 0.70983 and the εNd(t) values range from ?2.9 to ?1.1, close to those of the Early Palaeozoic mafic rocks in the southeastern SCB. The Wengong A2-type granite was derived from partial melting of the mafic rocks underplated into the lower crust during the Early Palaeozoic.The Mesozoic A-type granites in the southeastern SCB can be subdivided into 229–215 Ma (Late Triassic), 197–152 Ma (Jurassic), and 135–92 Ma (Cretaceous). They differ in geochemical and spatial distribution characteristics. The Late Triassic A-type granites were formed in the post-collision extensional setting associated with the palaeo-Tethyan dynamic domain, whereas the Cretaceous A-type granites were under the control of the palaeo-Pacific dynamic domain. The A-type granites were hardly exposed during the Late Triassic–Early Jurassic and Late Jurassic–Early Cretaceous. The Jurassic A-type granites were formed in the intra-plate extensional setting, a response to the tectonic transition from the palaeo-Tethyan to palaeo-Pacific dynamic domains. Thus, the occurrence of the Wengong A2-type granite indicates that this tectonic transition possibly initiated at the earliest Early Jurassic. 相似文献
14.
15.
Geology and geochronology of the Xilamulun molybdenum metallogenic belt in eastern Inner Mongolia,China 总被引:1,自引:0,他引:1
Qingdong Zeng Jianming Liu Zuolun Zhang Weijun Chen Weiqing Zhang 《International Journal of Earth Sciences》2011,100(8):1791-1809
The Xilamulun molybdenum metallogenic belt, located in eastern Inner Mongolia, China, has great economic potential as a major
producer of molybdenum. Four major types of Mo deposits have been recognized in the Xilamulun molybdenum metallogenic belt:
porphyry, quartz vein, volcanic-hosted, and greisen. These Mesozoic Mo deposits are closely related to Si- and K-rich intrusives
and are usually hosted by granite plutons or located at the endo- or exo-contact zones of the granite porphyry. SHRIMP zircon
U–Pb dating gives the emplacement ages of the intrusions related to Mo mineralization as 245.1 ± 4.4, 152.4 ± 1.6, and 139.1 ± 2.3 Ma.
Re–Os analysis of five molybdenite samples from the Chehugou porphyry Mo deposit yields an isochron age of 245 ± 5 Ma (2σ),
indicating that the mineralization age of the porphyry Mo deposit is about 245 Ma. Re–Os analyses of six molybdenite samples
from the Nianzigou quartz-vein-type Mo deposit yield an isochron age of 154.3 ± 3.6 Ma (2σ), constraining the mineralization
age of the quartz-vein Mo deposit to 154 Ma. Our results suggest that the Mo mineralization in the Xilamulun belt formed during
at least three stages, i.e., the Triassic, Late Jurassic, and Early Cretaceous, and is coeval with the granitic magmatism.
The corresponding geodynamic background covers the syncollision between the North China and Siberian plates during the Early
to Middle Triassic, a compression setting related to the subduction of the Paleo-Pacific plate during the Jurassic and lithospheric
thinning during the Early Cretaceous in eastern China. 相似文献
16.
《International Geology Review》2012,54(9):832-849
Pitinga Province is one of the main tin provinces of the Amazonian craton. The oldest unit in the studied area is the Iricoumé Group, which consists of rhyolites and rhyodacites with a 207Pb/206Pb zircon age of 1888 ± 3 Ma. This volcanic sequence is intruded by five A-type granite plutons. The studied portion of the Europa pluton is homogeneous, and composed of a peralkaline alkali-amphibole hypersolvus granite that yielded a 207Pb/206Pb zircon age of 1829 ± 1 Ma. The early facies of the Madeira pluton consists of a metaluminous amphibole-biotite syenogranite (rapakivi facies) with a 207Pb/206Pb zircon age of 1824 ± 2 Ma. It is intruded by a 1822 ± 1 Ma, mildly peraluminous biotite syenogranite. The later facies of this pluton consist of a porphyritic, hypersolvus, alkali-feldspar granite and an albite granite. Field relationships and an extensive drilling survey indicate that these two facies are sheet-shaped and were emplaced almost simultaneously. The hypersolvus alkali-feldspar granite has a 207Pb/206Pb zircon age of 1818 ± 2 Ma. Taking in account its field relationships with the albite granite, a similar age is assumed for the latter. The albite granite intrudes the biotite granite and rapakivi granite facies of the Madeira pluton, which was emplaced by shallow-level cauldron subsidence. The albite granite is sheet shaped and consists of a magmatic peralkaline cryolite-bearing core facies partially surrounded by an autometa-somatic peraluminous fluorile-bearing border facies. Both albite granite facies are strongly tin-mineralized and display anomalous contents of Nb, Rb, Zr, and REE. A massive body of cryolite and pegmatitic rocks is associated with the albite granite. The contrast in age between the Iricoume Group and the Europa + Madeira granites demonstrates that the plutons are not subvolcanic intrusions related to the extrusives. The ages of 1824 ± 2 Ma, 1822 ± 2 Ma, and 1818 ± 2 Ma obtained, respectively, for the amphibole + biotite syenogranite, biotite granite, and porphyritic hypersolvus granite of the Madeira pluton are consistent with the emplacement sequence inferred for these facies. These ages indicate that the Madeira pluton was emplaced in a relatively short time. Its facies are a little younger than the peralkaline granite of the Europa pluton, suggesting that the latter is not coeval with the Madeira peralkaline albite granite. 相似文献
17.
Numerous granitic intrusions crop out in the eastern segment of the North Qaidam block (NQ), NW China. To evaluate their ages, petrogenesis and genetic relationships to other granitoids in the NQ, we present geochemical and geochronologic data for six intrusive bodies and review regional data. Zircon U-Pb (SHRIMP) dating yielded ages of 413 ± 3 Ma for the Hadesengou granite; 254 ± 3 Ma for the Xugeigou granite; 251 ± 1 Ma for the Qiluoshan granite; 249 ± 1 and 248 ± 2 Ma for the Chahannuo hornblende diorite and granite, respectively; 240 ± 2 Ma for the Chahanhe granite; and 250 ± 1 and 244 ± 3 Ma for the Shailekegoulei granodiorite and granite, respectively. Consequently, the Wulan plutons can be divided into two petrologic groups: Early Devonian (D1) quartz monzonite and syenogranite, and Late Permian to Early Triassic (P3-T1) hornblende diorite, granodiorite, and granite. The D1 granitic intrusions have geochemical affinities with A-type granites (A2-type) characterized by low Ca, Sr, Ba and Nb, and high Fe, Ga, Y and Rb, consistent with derivation by partial melting of metapelitic source rocks containing a small amount of metagraywacke. The P3-T1 I-type granitic intrusions are geochemically typical of active continental margin rocks, consistent with derivation by partial melting of metabasalt and clay-poor metagraywacke. Combined with previous studies, we recognize five periods of granitic magmatism in the NQ: (1) 465–473 Ma; (2) 423–446 Ma; (3) 391–413 Ma; (4) 372–383 Ma; and (5) 240–271 Ma. Based on the temporal-spatial distribution of granitic intrusions in the NQ and the regional tectonic evolution, we interpret the first and second periods of granitic magmatism as related to normal plate subduction, and the third period to slab break-off and exhumation of the subducted plate. The fourth stage of granitic magmatism is attributed to large-scale lithospheric mantle delamination, involving the differential movement of orogenic blocks. The fifth period of granitic plutonism probably reflects northward subduction of the East Kunlun Paleotethys oceanic crust and southward subduction of Zongwulong oceanic crust beneath the Oulongbuluke continental block. 相似文献
18.
《International Geology Review》2012,54(4):428-445
The Triassic (Indosinian) granites in the South China Block (SCB) have important tectonic significance for understanding the evolution of Eastern Asia. The Dengfuxian biotite granite in eastern Hunan Province, China, reported in this article, was recognized as Late Triassic (late Indosinian) weakly peraluminous A-type granite with a zircon laser ablation inductively coupled plasma mass spectrometry U–Pb age of 225.7 ± 1.6 Ma. It is enriched in F, Cs, Rb, Th, high field strength elements, and rare earth elements (REEs) and depleted in Ba, Sr, P, Ti, Nb, and Ta, with high Ga/Al ratios and zircon saturation temperatures. The Dengfuxian biotite granite shows high initial Sr isotope values (0.715932 to 0.716499) and negative ?Nd(t) (?10.46 to ?9.67) and ?Hf(t) (?9.92 to ?6.29) values, corresponding to the Nd model ages of 1.79 to 1.85 Ga and the Hf model ages of 1.65 to 1.88 Ga. It is proposed that the Dengfuxian biotite granite was derived from high-temperature partial melting of the Palaeoproterozoic lower crust undergoing granulitization. Some Late Triassic A-type granites were recently identified in the SCB with the ages between 202 and 232 Ma. These A-type granites have the same geochemical characteristics and petrogenesis as Dengfuxian A-type granite, and show A2-subtype granite affinity. The Late Triassic A-type granite formed a NE-trending granite belt, which is consistent with the main NE-trending faults in the SCB. The formation of these A-type granites was in response to the subduction of the palaeo-Pacific plate underneath the SCB, and indicates an extensional tectonic environment in the SCB. Combined with previous studies on tectonic evolution, we suggest that there may be a tectonic transition inside the SCB from compression to extension at least from 225 to 230 Ma. 相似文献
19.
Y. V. Amelin Anatoly M. Larin Robert D. Tucker 《Contributions to Mineralogy and Petrology》1997,127(4):353-368
The U-Pb dating of 18 samples, representing the principal rock types of the 4000 km2 Salmi anorthosite-rapakivi granite complex and its satellite Uljalegi pluton, southeastern Baltic (Fennoscandian) Shield,
reveals that six temporally distinct episodes of igneous activity occurred in a timespan of 17 million years. From oldest
to youngest they are: (1) gabbronorite and monzonite at 1546.7 Ma; (2) syenogranite at 1543.4 Ma; (3) early wiborgite and
pyterlite at 1540.6–1537.9 Ma; (4) biotite granite and more evolved granite at 1538.4–1535 Ma; (5) late pyterlite at 1535.2
Ma; (6) olivine gabbro and biotite-amphibole granite at 1530 Ma. The resolvable intervals between magmatic episodes are 3.5–5.0
million years. Early wiborgite and pyterlite (3, above) and biotite granite (4, above) probably crystallized from multiple
magma intrusions. Age differences of 3.4±1.5 million years between zircon and baddeleyite in olivine gabbro (6, above) are
probably a result of xenocrystic origin of baddeleyite extracted from an earlier mafic phase of the Salmi complex. The ages
and chemical features of early and late zircon populations, together with our modeling of magma crystallization and zircon
growth, show that the duration of magma crystallization and Pb-diffusion in zircon was short lived and insignificant compared
to the precision of dating of about ±1–2 million years. Hence, the range of U-Pb ages for each of the major rock types may
approximate the emplacement intervals of their respective magmas. Average rate of magma emplacement was about 0.01 km3/year for the most voluminous phase of early biotite-amphibole rapakivi granite, and about 0.0024 km3/year for the Salmi complex as a whole. Compositional changes of the Salmi magmas over time are in agreement with the model
of magmatism related to lithospheric extension.
Received: 2 August 1996 / Accepted 19 December 1996 相似文献