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1.
南太行山中新生代隆升过程:磷灰石裂变径迹证据 总被引:2,自引:0,他引:2
南太行山地区地处华北陆块中部,是研究华北岩石圈减薄、克拉通活化期间山脉隆升与剥露机制的理想场所。本文对太行山南麓的中生代岩浆岩和元古宙变质岩开展了磷灰石裂变径迹低温热年代学研究,获得了相关样品的磷灰石径迹年龄和径迹长度。研究表明,南太行山地区磷灰石裂变径迹表观年龄集中在75~32 Ma之间,峰值径迹长度在11μm以上,为宽带单峰分布。综合考虑裂变径迹反演,南太行山地区初始隆升始于100 Ma前,晚白垩世以来的剥蚀去顶量在3 km以上。100~50 Ma的构造抬升相对平静,50~40 Ma及10 Ma左右以来隆升速度加快,是太行山地区的主要隆升期。南太行山区域上表现为北早南晚的倾伏式差异隆升格局,其新生代隆升与华北东部同期的快速沉降相耦合。以上资料有利于更好认知华北陆块中–新生代冷却史及岩石圈减薄地表响应。 相似文献
2.
胶东半岛中生代侵入岩浆活动序列及其构造制约 总被引:25,自引:0,他引:25
胶东半岛是我国东部中生代花岗质岩石较为发育的地区。通过对该区中生代侵入岩体高精度年代学数据资料分析,建立了区内中生代花岗质岩石3个显著不同的演化序列:晚三叠世(225~205 Ma)幔源型花岗岩、晚侏罗世(160~150 Ma)地壳重熔型花岗岩和早白垩世(130~105 Ma)壳幔混合型花岗岩。通过与辽东和鲁西–徐淮地区中生代岩浆活动年代学格架的对比分析,探讨了华北东部地区中生代岩石圈构造演化和深部地球动力学过程。指出胶辽地区晚侏罗世(160~150 Ma)地壳重熔型花岗岩记录了华北东部一次重要的岩石圈地壳增厚事件,其区域动力学背景可能与古太平洋板块低角度向亚洲大陆俯冲作用密切相关。正是这次增厚作用导致了早白垩世时期岩石圈拆沉减薄和大规模伸展型花岗质岩浆活动。岩石圈地壳增厚和减薄作用过程主导了中国东部中生代陆内构造应力体制的转换和岩浆活动序列。 相似文献
3.
位于中央造山带西段的东昆仑造山带因多期次造山和复杂演化历史而备受关注,约束其中生代隆升剥露历史,对于理解青藏高原大规模隆升在东昆仑地区的扩展及影响颇具意义。东昆仑造山带内中生代侏罗系-白垩系地层缺失严重,体现中生代以来强烈的隆升剥露过程,也是该区热演化的研究难点。本文通过对东昆仑造山带样品的磷灰石、锆石裂变径迹分析和热演化史研究,并结合东昆仑及周缘地区现有低温热年代学研究,识别出东昆仑造山带所经历的五次隆升冷却事件,即201~193Ma(早侏罗世)、172~152Ma(中-晚侏罗世)、120~98Ma(早白垩世末-早白垩世初)、98~20Ma(晚白垩世-中新世)及20~0Ma(中新世至今)。所获5个年龄组响应东昆仑地区所经历的构造热事件,其中201~193Ma年龄组响应南部羌塘地块与昆仑地块的碰撞事件;172~152Ma年龄组为中-晚侏罗世古特提斯洋闭合后,造山后伸展的构造事件的记录;120~98Ma热事件吻合拉萨地块和羌塘地块碰撞事件;98~20Ma年龄组为东昆仑地区长期缓慢剥蚀去顶过程的印证;20~0Ma的快速隆升剥露事件则为东昆仑周缘断裂系活化相伴,多期隆升剥蚀事件均得到地层不整合及沉积记录等研究成果的证实。区内剥蚀起始时间从由南到北逐渐变老,体现东昆仑地区隆升剥蚀的不均一性。 相似文献
4.
鄂尔多斯盆地早白垩世构造热事件形成动力学背景及其对油气等多种矿产成藏(矿)期的控制作用 总被引:1,自引:1,他引:1
华北克拉通中西部中生代晚期早白垩世是否存在岩石圈减薄是地学界普遍关注的重大地质问题。本文在作者多年来对鄂尔多斯盆地构造热演化史研究的基础上,充分收集了近年来前人研究的成果及进展,对鄂尔多斯盆地现今地温场、地壳结构、构造热事件、深部热岩石圈厚度、早白垩世火成岩活动期次、构造热事件形成机理及构造热事件与多种矿产成藏成矿关系方面进行探讨。鄂尔多斯盆地现今地温梯度及大地热流中等,属中温型盆地,现今地温场受现今地壳、岩石圈厚度较厚控制。通过对构造背景、古地温恢复、火成岩活动及热岩石圈厚度恢复等资料分析发现早白垩世太行山以西的山西地块及鄂尔多斯盆地处于拉张背景,早白垩世地温梯度高,存在古地温异常及热事件。早白垩世鄂尔多斯盆地热岩石圈厚度明显较现今岩石圈厚度薄,表明华北克拉通中生代晚期以来岩石圈减薄的西界可推到鄂尔多斯盆地。华北克拉通中西部鄂尔多斯盆地周缘、华北克拉通中部山西地块、华北克拉通中西部南缘早白垩世火成岩形成时间相同,岩浆侵入和喷出的时代主要集中在138~108Ma,反映在燕山晚期早白垩世华北克拉通中西部存在一期较为强烈的热事件。火成岩地球化学分析表明火成岩来源为地幔,反映岩石圈处于拉张背景。早白垩世热事件发生的时间与华北克拉通岩石圈减薄的峰期年龄相一致,表明华北克拉通岩石圈减薄作用在华北克拉通中西部广泛存在。早白垩世构造热事件发生的根本原因在于鄂尔多斯盆地岩石圈深部热活动增强,深部软流圈物质上涌,岩石圈厚度减薄。通过对油气、煤、铀等金属矿产成矿(藏)时代与热事件的对应关系分析发现鄂尔多斯盆地油气、煤、铀矿产及华北克拉通中西部金属矿产的形成受控于早白垩世构造热事件及岩石圈拉张减薄的深部热背景,主要成藏(矿)期均为早白垩世,成藏、成矿具有爆发式及同时性特点。 相似文献
5.
龙门山是青藏高原东缘边界山脉,具有青藏高原地貌、龙门山高山地貌和山前冲积平原三个一级地貌单元。利用数字高程模式图像和裂变径迹年代测定方法研究和计算龙门山晚新生代剥蚀厚度与剥蚀速率,结果表明:3.6 Ma以来龙门山的剥蚀厚度介于1.91-2.16 km之间,剥蚀速率介于0.53-0.60 mm/a之间。在此基础上,开展了该地区岩石圈的弹性挠曲模拟,结果表明龙门山的隆升机制具有以构造缩短隆升和剥蚀卸载隆升相叠合的特点。3.6 Ma之前,龙门山的隆升与逆冲推覆构造负载有关,以构造缩短驱动的构造隆升为特色;3.6 Ma之后,龙门山的隆升与剥蚀卸载驱动的抬升有关,并以剥蚀卸载隆升为特色,进而提出了龙门山晚新生代以来的隆升机制以剥蚀成山作用为主的认识。 相似文献
6.
川东南地区燕山期以来的隆升剥蚀历史研究 总被引:2,自引:0,他引:2
川东南地区侏罗系砂岩的磷灰石裂变径迹T—t热史模拟表明,燕山期以来研究区经历了两个阶段的隆升剥蚀。127~105Ma为初始缓慢隆升阶段,隆升剥蚀速率约为5m/Ma,使106m厚的早白垩世地层被剥蚀;105~75Ma间转入快速沉降,75~0Ma由快速沉降转入全面不等速隆升。其中,75—65Ma为快速隆升.隆升剥蚀速率为28m/Ma;65~20Ma为缓慢隆升,隆升剥蚀速率为14m/Ma;20~10Ma期间,研究区由缓慢隆升转为急剧隆升,隆井剥蚀速率为147m/Ma;10Ma到现今,该地区再次由快速隆升转为缓慢隆升。隆升剥蚀速率为10m/Ma。燕山期以来的隆升使大约2580m厚的地层被剥蚀掉。 相似文献
7.
构造体制转折是岩石圈尺度的行为 总被引:12,自引:5,他引:12
试将华北中生代的构造-岩浆演化划分为3个阶段:早中生代岩石圈结构的深部调整和底侵作用;中晚侏罗世的断块差异隆升和火山喷发;早白垩世的地壳伸展和岩石圈减薄。据此说明构造体制转折是一个渐变的过程,其动力来源应与岩石圈地幔乃至软流圈的运动相联系。因此,转折的过程应从深部开始,不同深度的响应必然有一个滞后效应。构造体制转折的标志也应是多方面的,其构造格局的转化是首位的,而且应从全球角度探讨它们的背景。 相似文献
8.
华北克拉通晚中生代壳-幔拆离作用: 岩石流变学约束 总被引:6,自引:5,他引:1
大陆岩石圈的流变学结构对于岩石圈深部过程(壳/幔过程)有着深刻的影响,直接表现在岩石圈壳-幔结构与浅部构造上.本文注意到华北克拉通晚中生代岩石圈减薄期间地壳的伸展、拆离与减薄在不同地区的宏观、微观构造及地壳岩石流变学等方面的差异表现与区域变化,以及现今和晚中生代时期岩石圈厚度的不均匀性.讨论了以水为主体的地质流体的存在对于岩石圈流变性的影响.综合克拉通东部与西部地壳/地幔厚度变化特点以及下地壳和上地幔含水性特点,阐述了晚中生代时期华北克拉通岩石圈内部壳幔耦合与解耦的规律,提出了华北岩石圈壳-幔拆离作用模型以解释华北克拉通晚中生代岩石圈减薄的基本现象与深部过程.提出区域性伸展作用是岩石圈减薄的主要动力学因素,东部地区在晚中生代伸展作用过程中壳-幔具有典型的解耦性,上部地壳、下部地壳和岩石圈地幔的变形具有显著差异性.而西部区壳幔总体具有耦合性,下地壳与岩石圈地幔共同构成流变学强度很高且难以变形的岩石圈根. 相似文献
9.
地形地貌和沉积学研究表明,在内蒙古大青山地区发生过早白垩世晚期、晚白垩世和新生代三期隆升-剥蚀事件,但在大青山北部前寒武纪基底岩石中,磷灰石裂变径迹研究仅识别出晚白垩世早期和中新世以来等两期隆升-剥蚀事件.为了探讨大青山南部晚中生代以来的隆升-剥蚀过程,本文报道了6件古元古代花岗岩样品的AFT结果.这6件样品的最大高差约700 m,AFT年龄介于119±8~79±5 Ma之间,AFT年龄与高程之间无显著关联.平均封闭径迹长度在13.2±2.2~11.8±1.8μm之间,呈单峰负偏斜的分布特征.热史模拟结果显示,晚中生代以来,大青山南部基底岩石的隆升-剥蚀过程中存在3期重要事件:早白垩世晚期(约120~110 Ma)、晚白垩世早期(约100~90 Ma)和新生代以来(约34~15 Ma以来).结合区域构造、沉积和地形地貌资料,并对比南部和北部基底岩石样品的AFT结果,早白垩世晚期(约120~110 Ma)事件时间上与韧性剪切带的隆升-剥蚀过程相当,很可能具有相同的构造成因;晚白垩世早期(约100~90 Ma)事件很可能是阴山-燕山陆内造山带整体隆升-剥蚀的结果;新生代以来(约34~15 Ma以来)的事件很可能反映了南侧山前正断层的活动,且南部基底新生代以来的隆升-剥蚀事件很可能稍早于北部基底,暗示北侧山前正断层启动时间稍晚于南侧山前正断层.通过对比分析北山、北大山、狼山、内蒙古高原中部、燕山及大兴安岭等地的资料,大青山早白垩世晚期快速隆升-剥蚀事件很可能主要与蒙古-鄂霍茨克洋闭合造山后的垮塌有关;晚白垩世早期快速隆升-剥蚀事件很可能受太平洋板块俯冲的影响所致;而新生代以来的快速隆升-剥蚀事件则是印度-欧亚板块碰撞的远程效应. 相似文献
10.
大巴山中-新生代隆升的裂变径迹证据 总被引:8,自引:2,他引:8
大巴山中-新生代隆升作用的研究不仅对全面认识秦岭造山带的演化具有重要的意义,而且对川东北地区的油气勘探也具有重要的指导意义.对采自大巴山地区的18个样品进行了磷灰石裂变径迹测年及热历史模拟分析.分析结果表明大巴山自白垩世120~110Ma开始隆升,表现为持续的隆升过程,经历了快速隆升→平稳→加速隆升3个阶段,并且随着大巴山由北东向南西构造的扩展变形,隆升年龄表现出阶段性递进年轻的特点.大巴山120~110Ma的快速隆升冷却事件是秦岭造山带白垩世区域性隆升剥露作用的体现.随后大巴山进入了一个构造相对稳定的阶段,样品滞留在部分退火带中.10~6Ma以来大巴山加速隆升,这一构造事件是青藏高原东部边界向东扩展的响应. 相似文献
11.
华北克拉通中生代岩石圈减薄过程中,其深部复杂的壳-幔岩浆过程及深部岩浆房系统研究薄弱,岩石圈减薄过程的浅部响应也存在较大争议。本文以华北克拉通中部的邯邢地区符山杂岩体为研究对象,通过详细的野外地质调查、岩相学观察、岩石地球化学分析、锆石年代学和矿物电子探针分析等研究多重岩浆房系统、岩浆深部作用过程和浅部响应。锆石U-Pb测年结果显示,符山早期岩套中细粒二长岩的年龄为129 Ma,晚期似斑状岩套的斑状角闪二长岩的年龄为122 Ma。岩相学观察及背散射电子(back scatter electron,BSE)图像显示,符山杂岩体的角闪石和斜长石均具有复杂的环带结构,并通过对它们的晶体生长过程分析和环带成因讨论,表明其具有复杂的生长环境和过程。符山杂岩体的高镁、高钾、高Sr 等地球化学特征和角闪石、斜长石的环带成因证明了深部岩浆在幔源流体的活化作用下发生了强烈的岩浆混合作用和多重岩浆房过程。符山杂岩体早期岩套侵入岩定位深度为7 km,晚期岩套侵入岩定位深度为1.5 km,表明在7 Ma内地壳隆升了5.5 km。符山杂岩体中大部分侵入岩具高Sr、低Y及δEu正异常等地球化学特征,表明它们可能形成于加厚陆壳的部分熔融。这些特征表明晚中生代中国东部高原的存在。 相似文献
12.
南海北部陆缘地壳结构特征及其构造过程 总被引:5,自引:0,他引:5
根据“北部湾大陆缘地壳结构PS转换波测深”等地球物理测量结果,本文研究了南海北部陆缘的地壳结构特征,讨论了其白垩纪以来的构造过程。地球物理测量表明,由陆向海,南海北部陆缘地壳由陆壳、过渡壳变为洋壳,厚度由34km减薄至8km左右。垂向上地壳为3层结构模式。陆壳、过渡壳和洋壳的下地壳P波速度普遍较高。地壳伸展系数的计算表明南海北部陆缘伸展主要发育于陆坡地区。结合区域地质研究,本文认为:南海北部陆缘及 相似文献
13.
Abstract Recent investigations reveal that the ultrahigh‐pressure metamorphic (UHPM) rocks in the Donghai region of East China underwent ductile and transitional ductile‐brittle structural events during their exhumation. The earlier ductile deformation took place under the condition of amphibolite facies and the later transitional ductile‐brittle deformation under the condition of greenschist facies. The hanging walls moved southeastward during both of these two events. The 40Ar/39Ar dating of muscovites from muscovite‐plagioclase schists in the Haizhou phosphorous mine, which are structurally overlain by UHPM rocks, yields a plateau age of 218.0±2.9 Ma and isochron age of 219.8Ma, indicating that the earlier event of the ampibolite‐facies deformation probably took place about 220 Ma ago. The 40Ar/39Ar dating of oriented amphiboles parallel to the movement direction of the hanging wall on a decollement plane yields a plateau age of 213.1 ± 0.3 Ma and isochron age of 213.4±4.1 Ma, probably representing the age of the later event. The dating of pegmatitic biotites and K‐feldspars near the decollement plane from the eastern Fangshan area yield plateau ages of 203.4±0.3 Ma, 203.6±0.4 Ma and 204.8±2.2 Ma, and isochron ages of 204.0±2.0 Ma, 200.6±3.1 Ma and 204.0±5.0 Ma, respectively, implying that the rocks in the studied area had not been cooled down to closing temperature of the dated biotites and K‐feldspars until the beginning of the Jurassic (about 204 Ma). The integration of these data with previous chronological ages on the ultrahigh‐pressure metamorphism lead to a new inference on the exhumation of the UHPM rocks. The UHPM rocks in the area were exhumed at the rate of 3–4 km/Ma from the mantle (about 80–100 km below the earth's surface at about 240 Ma) to the lower crust (at the depth of about 20‐30km at 220 Ma), and at the rate of 1–2 km/Ma to the middle crust (at the depth of about 15 km at 213 Ma), and then at the rate of less than 1 km/Ma to the upper crust about 10 km deep at about 204 Ma. 相似文献
14.
华北东部中生代构造体制转折峰期的主要地质效应和形成动力学探讨 总被引:95,自引:10,他引:85
华北中生代构造体制转折始于 15 0~ 14 0Ma ,终于 110~ 10 0Ma ,峰期是 12 0~ 110Ma ,总体上是由挤压构造体制转化为伸展构造体制 ,由EW向转变为NNE向的盆岭构造格局。但是转折过程有复杂的细节和多次挤压与伸展的转变 ,边缘与克拉通内部、北缘与南 (东 )缘之间在时间和空间上也有一定的变化。南 (东 )缘的挤压构造以 2 30~ 2 10Ma为主 ,然后在 130~ 110Ma期间达到构造转折的剧变期。北缘则似乎表现出 2 30~ 2 10Ma和 180 ( 170 )~ 16 0 ( 15 0 )Ma两期挤压构造 ,130~ 110Ma是构造转折的峰期。盆地的演化有多样性 ,燕山地区前晚侏罗世时期呈现出北东东向褶皱逆冲带与挤压挠曲盆地带相邻并存的盆山结构 ;而后晚侏罗世时期呈现出北北东向裂谷盆地与断隆相间的盆岭结构 ;晚侏罗世后时期则呈现出北东—北北东向盆地与“活动”断隆相间 ,并受北东东向褶皱逆冲带控制的盆山结构。大别山南北隆升历史完全不同。深部结构的研究表明 ,华北东部的岩石圈在古生代末期已有减薄表现 ,在中生代急剧减薄 ,地幔和下地壳发生大规模置换 ,至 130~ 110Ma到达顶峰。新生代以来又有加厚的趋势。中生代构造转折不具典型造山带特征 ,可能与周围块体夹击引发的区域性大规模地幔隆起有关 相似文献
15.
金沙江中段元古宙变质岩的Sm-Nd同位素年龄报道 总被引:3,自引:0,他引:3
金沙江中段的古老变质岩由多期变质的元古宙变质岩石单元组成。利用Sm-Nd同位素方法获得了雄松群二云母片岩全岩同位素等时线年龄1594Ma和1723Ma、2011Ma两组模式年龄。前者代表了成岩年龄,后者代表金沙江中段地层的基底年龄,这与金沙江流域乃至整个华南地壳最初形成的年龄十分相似。表明,川西、藏东地区雄松群变质岩可能属于华南地壳的组成部分。其形成时间应在早元古代或更早的时期内。 相似文献
16.
在胶东地区莱西-莱阳-栖霞一带的晚太古代花岗片麻岩中,出露一条长约200多公里,NE向展布的高压基性麻粒岩-超镁铁质岩带。由于这条岩带东邻苏鲁高压-超高压变质带,西接华北克拉通基底的古老变质岩,因此其区域构造归属以及大地构造意义是一个十分重要的问题。本文分析的高压基性麻粒岩样品具有降压退变质结构,退变质矿物组合为麻粒岩相。矿物-全岩Sm-Nd等时线年龄为1752Ma,全岩T(DM)模式年龄为2788Ma,与华北克拉通北缘的高压基性麻粒岩的同位素年龄完全相似。根据高压麻粒岩-超镁铁质岩的围岩片麻岩特征和同位素年龄,可以确定这条出露于华北陆块东缘的岩带是早前寒武纪华北克拉通下地壳岩石,其抬升与华北陆块与扬子陆块的拼合有关。 相似文献
17.
Two stages of early Cretaceous post-orogenic granitoids are recognized in the Dabie orogen, eastern China, which recorded processes of extensional collapse of the orogen. The early stage granitoids ( 132 Ma) are foliated hornblende quartz monzonites and porphyritic monzogranites. They are of high-K calc-alkaline series and metaluminous to weakly peraluminous, with high K2O and low MgO contents (Mg# values: 32.0–46.0), they contain high Sr, low Y and heavy rare earth elements (HREE), and have high Sr/Y and (La/Yb)N ratios, without clear negative Eu, Sr and Ti anomalies. The early stage deformed granitoids have adakitic geochemical compositions and are equilibrated with residues rich in garnet and poor in anorthite-rich plagioclase, and thus indicate the existence of an over-thickened (> 50 km) crustal root beneath the orogen at 132 Ma. The later stage granitoids ( 128 Ma) are undeformed fine-grained monzogranites, fine-grained K-feldspar granites and coarse-grained K-feldspar granite-porphyry. They belong to a peraluminous and high-K calc-alkaline to shoshonite series, and display a flat HREE pattern and have strong negative Eu, Sr and Ti anomalies, with low Sr/Y and (La/Yb)N ratios. The late stage granitoids are equilibrated with residues rich in anorthite-rich plagioclase, hornblende, ilmenite/titanite and poor in garnet, indicating that the crust of the Dabie orogen became thinner (< 35 km) at 128 Ma. SHRIMP zircon U–Pb ages and changing compositional trends for these two stages of granitoids indicate that the over-thickened crust formed by the Triassic continental subduction/collision under the Dabie orogen remained until the early Cretaceous, and collapsed quickly in a few million years during the early Cretaceous. 相似文献
18.
The composition of the continental crust of the North China Craton (NCC) is more felsic than that of the average bulk crust, which is regarded to be the result of the delamination of the thickened lower crust during Mesozoic. However, whether the thickened continental crust existed and when the delamination event happened along the southern margin of the NCC are still debated. Here, we report geochronological, geochemical and Sr-Nd-Hf-Pb isotopic evidence that granitoids from the Late Jurassic Wuzhangshan pluton and the Early Cretaceous Huashani complex were derived by partial melting of the lower crust with different thickness. Our new data shows that the two lithofacies of the Wuzhangshan pluton were mainly formed between ca. 157 and 156 Ma, whereas the five lithofacies of the Huashani complex were mainly emplaced between ca. 132 and 125 Ma. The Wuzhangshan pluton and the earlier four lithofacies granitoids of the Huashani complex (ca. 160–125 Ma) both display adakitic geochemical features, which are characterized by as high SiO2 (63.26–72.71 wt%), Al2O3 (13.97–16.89 wt%) and Sr (413–1218 ppm) contents, and low Y (6.30–14.98 ppm) and YbN (1.55–4.43), and high Sr/Y (33−112) and (La/Yb)N (11.53–29.72) ratios. They also have high (87Sr/86Sr)i (0.7066–0.7086), and low εNd(t) (−9.9 to −18.8) and εHf(t) (−11 to −26) values, and two-stage Nd and Hf model ages ranging from 2.4 to 1.7 Ga and 2.7 to 1.7 Ga, respectively. In contrast, the late Early Cretaceous (ca. 125–110 Ma) granitoids have higher SiO2 (71.30–76.78 wt%) and lower Sr (64–333 ppm) contents, and lower Sr/Y (17–29) and (La/Yb)N (13.25–18.36) ratios, and similar εNd(t) (−10 to −16) and relatively higher εHf(t) (−10 to −14) values. These geochemical variations suggest that the ca.160–125 Ma granitoids were most probably produced by partial melting of thickened crust (>45 km) with eclogite, garnet amphibolite or amphibolite residues, whereas that the ca. 125–110 Ma granitoids were formed by partial melting of the thinner crust (<33 km). We thus suggest that the NCC likely underwent a synchronous tectonic transformation at ca. 125 Ma from a compressional setting with thickened crust to an intensive extensional setting with thinner crust at ca. 125 Ma, which demonstrates that the lower crust was most likely delaminated. 相似文献
19.
The Central Asian Orogenic Belt(CAOB) resulted from accretion during the Paleozoic subduction of the PaleoAsian Ocean. The Xilinhot area in Inner Mongolia is located in the northern subduction zone of the central-eastern CAOB and outcropped a large number of late Paleozoic mafic intrusions. The characteristics of magma source and tectonic setting of the mafic intrusions and their response to the closure process of the Paleo-Asian Ocean are still controversial. This study presents LA-ICPMS zircon U-Pb ages and geochemical features of mafic intrusions in the Xilinhot area to constrain the northward subduction of the Paleo-Asian Ocean. The mafic intrusions consist of gabbro, hornblende gabbro, and diabase. Their intrusion times can be divided into three stages of 326–321 Ma, 276 Ma and 254 Ma by zircon U-Pb ages. The first two stages of the 326–276 Ma intrusions mostly originated from subduction-modified continental lithospheric mantle sources that underwent a variable degree partial melting(5–30%), recording the subduction of oceanic crust. The third stage of the 254 Ma mafic rocks also show arc-related features. The primary magma compositions calculated by PRIMELT2 modeling on three samples of ~326 Ma and two samples of ~254 Ma show that these mafic samples are characterized by a variable range in SiO_2(47.51–51.47 wt%), Al_2O_3(11.46–15.55 wt%), ΣFeO(8.27–9.61 wt%), MgO(13.01–15.18 wt%) and CaO(9.13–11.67 wt%), consisting with the features between enriched mantle and lower continental crust. The source mantle melting of mafic intrusions occurred under temperatures of 1302–1351°C and pressures of 0.92–1.30 GPa. The magmatic processes occurred near the crust-mantle boundary at about 33–45 km underground. Combined with previous studies, it is concluded that Carboniferous to early Permian(~326–275 Ma) northward subduction of the Paleo-Asian oceanic crust led to the formation of the mafic magmatism in the Baolidao arc zone. The whole region had entered the collision environment at ~254 Ma, but with subduction-related environments locally. The final collision between the North China craton and the South Mongolian microcontinent may have lasted until ca. 230 Ma. 相似文献
20.
New 40Ar/39Ar ages of igneous rocks clarify the nature, timing and rates of movement of the oceanic Pacific, Phoenix, Farallon and Hikurangi plates against Gondwana and Zealandia in the Late Cretaceous. With some qualifications, cessation of spreading at the Osbourn Trough is dated c. 79 Ma, i.e. 30–20 m.y. later than 110–100 Ma Hikurangi Plateau-Gondwana collision. Oceanic crust of pre-84 Ma is confirmed to be present at the eastern end of the Chatham Rise, and a 99–78 Ma intraplate lava province erupted across juxtaposed Zealandia, Hikurangi Plateau and oceanic crust. We propose a new regional tectonic model in which a mechanically jammed Hikurangi Plateau resulted in the dynamic propagation of small, kinematically misaligned short-length 110–84 Ma spreading centres and long-offset fracture zones. It is only from c. 84 Ma that geometrically stable spreading became localized at what is now the Pacific-Antarctic Ridge, as Zealandia started to split from Gondwana. 相似文献