共查询到19条相似文献,搜索用时 125 毫秒
1.
中国东北中生代构造体制与区域成矿背景: 来自中生代火山岩组合时空变化的制约 总被引:87,自引:29,他引:58
本文系统总结了东北地区中生代火山岩的年代学、岩石组合及其时空分布规律,以便对环太平洋构造体系和蒙古——鄂霍茨克构造体系中生代的演化历史及其东北地区中生代区域成矿背景给出制约。基于火山岩中锆石U——Pb定年结果,东北地区中生代火山作用可划分成六期:晚三叠世(200~228Ma)、早——中侏罗世(173~190Ma)、中——晚侏罗世(158~166Ma)、早白垩世早期(138~145Ma)、早白垩世晚期(106~133Ma)和晚白垩世(88~97Ma)。晚三叠世火山作用主要分布在吉黑东部和小兴安岭——张广才岭地区,前者为A型流纹岩,后者为双峰式火山岩组合,它们共同揭示了古亚洲洋最终闭合后的伸展环境;早——中侏罗世火山岩主要分布在吉黑东部、小兴安岭——张广才岭和额尔古纳地区,吉黑东部和额尔古纳地区早——中侏罗世钙碱性火山岩的存在分别标志着古太平洋板块和蒙古——鄂霍茨克洋板块俯冲作用的发生,而小兴安岭——张广才岭早——中侏罗世火山岩则以双峰式火成岩组合为特征,反映了双向俯冲的弧后伸展环境;中——晚侏罗世和早白垩世早期火山岩主要分布在松辽盆地以西和冀北——辽西地区,前者为碱性——亚碱性的过渡系列,主要由玄武粗安岩、粗安岩和少量粗面岩组成,后者为A型流纹岩或碱性流纹岩组成,这些火山岩形成于加厚陆壳的坍塌或拆沉阶段;早白垩世晚期火山岩广泛分布于东北地区,吉黑东部为钙碱性火山岩组合,而松辽盆地和大兴安岭地区则主要为双峰式火山岩组合,前者标志着古太平洋板块的俯冲,后者与早期加厚陆壳的拆沉和/或类似弧后的伸展环境有关;晚白垩世火山岩主要分布在吉黑东部和陆内,前者为钙碱性火山岩组合,后者为碱性玄武岩,反映了来自东部环太平洋构造体系的俯冲作用。综合上述中生代火山岩的岩石组合及时空分布特征,可以判定:1)环太平洋构造体系对东亚大陆下的俯冲始于早侏罗世,中生代期间存在早侏罗世、早白垩世晚期和晚白垩世三次俯冲事件,其影响的空间范围主要在松辽盆地及其以东地区,陆缘和古俯冲带是寻找斑岩型矿床的有利场所,而陆内的伸展区域主要与浅成低温热液矿床有关;2)蒙古——鄂霍茨克构造体系经历了中生代早期的俯冲事件和中侏罗世及早白垩世早期两次陆内推覆事件,其影响的空间范围主要在松辽盆地以西地区和华北地块北缘,中生代早期的俯冲事件主要与活动陆缘背景下的斑岩型矿床关系密切,而晚侏罗世和早白垩世两次与加厚陆壳拆沉有关的伸展背景有利于多金属矿床的形成。 相似文献
2.
《四川地质学报》2022,(Z2):26-31
扎弄朗当日复式岩体呈不规则状、近椭圆状侵位于早白垩世多尼组和去申拉组火山岩地层中。早白垩世闪长岩、二长闪长岩为钙碱性-高钾钙碱性准铝质岩,具有低K_2O、高CaO的特征;晚白垩世形成的石英闪长岩、石英二长岩为高钾钙碱性-钾玄岩、准铝质-过铝质岩,明显有K_2O升高、CaO降低的特点。复式岩体富集轻稀土和Rb、K等大离子亲石元素,强烈亏损Nb、Ta、P和Ti等高场强元素,从早白垩世以幔源成分为主向晚白垩世以壳源成分为主演化,形成于典型的活动大陆边缘环境,始于班公湖-怒江洋向南俯冲消减过程中,止于班公湖-怒江缝合带洋陆转换完成后的后碰撞伸展环境。 相似文献
3.
宝兴沟金矿床为近年来在漠河前陆盆地南缘新发现的大型金矿床。区内发育石英闪长岩、闪长玢岩、花岗细晶岩等侵入岩,矿体主要产于石英闪长岩、闪长玢岩内部及其与二十二站组砂岩的内外接触带中。地球化学研究表明,石英闪长岩具高钾、低钛、富碱特征,花岗细晶岩具高硅、高钾、低钛、富碱特征,二者均为高钾钙碱性系列岩石,富集大离子亲石元素Rb、Ba、Sr等,亏损高场强元素Nb、Ta、Ti和重稀土元素Yb、Y,但二者稀土元素特征和配分曲线差异较大,不具成因联系。矿石与石英闪长岩、闪长玢岩具有相似的微量元素、稀土元素组成和稀土元素配分曲线,表明石英闪长岩、闪长玢岩为成矿提供了热液和成矿物质等,与成矿具有密切的成因联系。LA-ICP-MS锆石U-Pb同位素测年结果显示,石英闪长岩成岩时间为118.13~121.77 Ma,限定了宝兴沟金矿床的形成时间不早于118Ma,为早白垩世,形成于太平洋板块俯冲后的伸展环境。漠河前陆盆地除中-晚侏罗世侵入岩外,早白垩世中酸性侵入岩对区域成矿也具有重要的作用,是今后找矿的重要方向之一。 相似文献
4.
华南腹地白垩纪A型花岗岩类或碱性侵入岩年代学及其对华南晚中生代构造演化的制约 总被引:33,自引:14,他引:33
华南腹地存在多个白垩纪的A型花岗岩类或碱性侵入岩,如安徽花山霓辉石钠闪石花岗岩、福建大沅村霓辉石钠铁闪石花岗岩、广东恶鸡脑霞石方钠石正长岩以及浙江大和山辉石石英正长斑岩、苏村晶洞钾长花岗岩。锆石SHRIMP和矿物的40Ar-39Ar年代学研究表明,这些岩石主要形成于137-86Ma。以本文的年代学研究为基础,并结合前人大量研究成果, 将华南晚中生代的A型花岗岩类或碱性侵入岩大致分成三期:(1)侏罗纪(184-152Ma)A型花岗岩类或碱性侵入岩,主要沿“十-杭裂谷带”南段分布,在赣南也有分布,可能与古太平洋板块低速斜向俯冲或平移所导致的走滑伸展或与不受古太平洋板块运动影响的岩石圈伸展有关;(2)早白垩世(139-123Ma)A型花岗岩类或碱性侵入岩,分布于政和-大埔断裂带以西,可能与古太平洋板块快速斜向俯冲所导致的弧后伸展或岩石圈减薄有关;(3)晚白垩世(101-86Ma)A型花岗岩类或碱性侵入岩,主要沿闽浙沿海地区分布,同时在华南腹地也有零星分布,可能与大陆边缘弧的塌陷(collapse)或俯冲洋壳反转(roll- back)后的岩石圈伸展有关。 相似文献
5.
通过岩相学、地球化学、锆石U-Pb年代学对位于大兴安岭主脊上的马勒根坝岩体、朝阳沟岩体和大兴安岭东坡区域的野猪沟岩体、布敦化岩体的4个不同花岗岩岩体的岩石类型、主量和微量元素特征、年代学及构造背景进行对比分析,讨论了研究区在晚侏罗世—早白垩世的岩浆活动及地质背景。LA-ICP-MS锆石U-Pb年龄显示:主脊朝阳沟岩体和东坡布敦化岩体年龄分别为(154±1) Ma和(154.1±1.6) Ma,属于晚侏罗世岩体,主脊马勒根坝岩体和东坡野猪沟岩体年龄分别为(144.62±0.74) Ma和(140.2±2.7) Ma,属于早白垩世岩体。岩相学和地球化学特征显示:主脊岩体为高钾钙碱性-准铝质-过铝质花岗岩岩体,东坡岩体为钙碱性-高钾钙碱性-准铝质-弱过铝质TTG型岩体;主脊比东坡岩体更加亏损Ba、Nb、Sr、P、Ti、Eu元素,为高分异I型花岗岩,东坡岩体为正常的I型花岗岩。结合区域地质资料分析,认为在晚侏罗世—早白垩世伊泽奈崎板块NNW向俯冲和蒙古—鄂霍次克洋闭合共同作用于大兴安岭南段地区,在大兴安岭主脊形成断裂带,导致幔源岩浆上涌底侵下地壳而形成沿断裂带分布的花岗岩体;主脊处于碰撞向伸展环境过渡的时期,东坡区域此时应处于俯冲时期。 相似文献
6.
为确定罕庙地区石英二长闪长岩的形成时代、成因及地质意义,对罕庙地区石英二长闪长岩体进行了岩相学、LA-MC-ICP-MS锆石U-Pb年龄及地球化学研究。结果表明,石英二长闪长岩中的锆石为岩浆成因,~(206)Pb/~(238)U年龄加权平均值为134±1Ma,侵入时代属于早白垩世晚期。石英二长闪长岩中SiO_2含量为63.44%~68.96%,K_2O含量为2.04%~3.84%,Na_2O/K_2O值介于0.47~1.17之间,铝饱和指数A/CNK介于2.12~2.55之间,属于钙碱性-高钾钙碱性过铝质花岗岩类。微量元素特征为富集大离子亲石元素(如Rb、K)和活泼不相容元素(如Th、U),强烈亏损高场强元素(如Nb、Ta、P、Ti)。结合区域构造演化背景,该岩体受俯冲流体改造,与早白垩世晚期古太平洋板块斜向俯冲于欧亚大陆之下的弧后伸展减薄等综合作用有关。 相似文献
7.
湘南早中侏罗世花岗闪长岩的岩石化学特征、构造背景及地质意义 总被引:6,自引:0,他引:6
根据岩石化学特征,湘南地区早中侏罗世花岗闪长岩属于高钾钙碱性系列。按Frost等(2001)的定义,这些岩石为镁质的钙碱质—碱钙质花岗岩类,所处的大地构造背景是与俯冲作用相关的岩浆弧环境,而非伸展环境。早中侏罗世湘南172~181Ma的花岗闪长岩可能代表了燕山运动早期古太平洋板块向华南之下俯冲的起始时间。 相似文献
8.
中国东北地区中生代构造体制的转变:来自火山岩时空分布与岩石组合的制约 总被引:13,自引:3,他引:10
东北地区中生代经历了蒙古-鄂霍茨克构造体系向太平洋构造体系的转换,形成了不同期次火山活动。本文归纳总结了露头区与覆盖区中生代火山岩的年代学、空间分布、岩石组合以及地球化学特征,揭示了两个构造域的时空分布范围。该区火山岩锆石U-Pb年龄统计结果表明中生代存在五期火山活动:早-中侏罗世(190~160Ma)、晚侏罗世(160~145Ma)、早白垩世早期(145~120Ma)、早白垩世晚期(120~100Ma)、晚白垩世早期(100~90Ma)。早-中侏罗世火山岩分布较少,火山岩仅分布在大兴安岭西部满洲里地区和东部张广才岭以及南侧辽宁北票-朝阳地区,火山岩属于高钾钙碱性系列,为蒙古-鄂霍茨克海闭合和法拉隆板块双俯冲作用的产物。晚侏罗世东北地区火山活动明显增强,主要分布在大兴安岭地区,张广才岭以及小兴安岭也有少量分布。西部大兴安岭地区以粗面安山岩、粗面岩为主,属于同碰撞造山成因,为蒙古-鄂霍茨克海闭合造山环境产物。东部以中酸性、酸性岩为主,为法拉隆板块背离欧亚大陆,岩石圈伸展引起的壳源物质熔融产物。早白垩世早期火山活动最为强烈,火山岩主要分布在大兴安岭地区。岩性以高钾钙碱性系列的粗面玄武安山岩、粗面安山岩、安山岩、粗面岩为主,为蒙古-鄂霍茨克海闭合造山后伸展环境产物。早白垩世晚期火山岩主要分布在松辽盆地内部。火山岩以中酸性岩为主,属于中钾-高钾钙碱性系列,为伊泽奈崎板块俯冲引起的弧后拉张,软流圈上涌导致年轻地壳熔融的产物。晚白垩世早期火山岩仅分布在小兴安岭及吉林、黑龙江省东部地区。火山岩为一套玄武岩、玄武安山岩、安山岩和英安岩组合,属于中钾钙碱性系列,是伊泽奈崎-库拉板块高角度俯冲的大陆边缘岩浆活动产物。东北地区中生代不同期次火山岩记录了蒙古-鄂霍茨克构造域向太平洋构造域转换过程及其时空影响范围。 相似文献
9.
中国东北地区中生代火山岩岩石学特征与盆地形成 总被引:41,自引:3,他引:38
中国东部广泛分布中生代火山岩,它是环太平洋火山作用的重要组成部分。东北地区是中生代火山岩分布最广泛的地区之一,其形成时代从晚三叠世到晚白垩世,其中晚侏罗世—早白垩世是火山作用最强烈的时期。中生代火山岩主要有高钾钙碱性火山岩系列和钾玄岩系列,并以高钾钙碱性火山岩为主。岩石类型主要有钾玄岩、安粗岩、粗面岩、橄榄粗安岩、英安岩和流纹岩。从东向西火山岩表现出了一个化学组成上的极性。岩石的Ti、Ta含量低和富K、Rb等,以及构造判别图解表明该区火山岩属造山带火山岩。上述特征表明,东北地区中生代火山活动属于与伊佐奈崎(Izanagi)板块俯冲作用有关的挤压造山。与火山岩共存的早白垩世的A型花岗岩表明,早白垩世东北地区处于拉伸构造环境。因此,松辽、海拉尔以及二连等盆地的形成与早白垩世造山带的崩塌有关。 相似文献
10.
大兴安岭东北部侏罗纪花岗质岩石的锆石U-Pb年龄、地球化学特征及成因 总被引:30,自引:25,他引:30
大兴安岭东北部花岗岩锆石的LA-ICPMS U-Pb年龄测定结果表明,前人划分的元古代、早古生代和晚古生代的花岗岩有相当一部分是侏罗纪花岗岩。根据时间先后关系,可将本区侏罗纪花岗岩的侵位顺序划分为早、晚两期,其锆石U-Pb年龄分别为188~190Ma和171~181Ma,这些侏罗纪花岗岩的年龄数据与东北其它地区侏罗纪花岗岩完全可以对比。在地球化学特征上可以将这些花岗质岩石划分为低Sr高Yb型和高Sr低Yb型两类,它们有相同或相似的源岩组成而起源的深度不同,早期侵入的花岗岩为低Sr高Yb型,起源于压力较低的中地壳,而晚期侵入的花岗岩为高Sr低Yb型,类似于"C"型埃达克岩,起源于压力较高的下地壳。锆石Hf同位素成分特征表明,侏罗纪花岗岩的源区物质主要为新元古代和显生宙期间增生的地壳物质及两期增生地壳物质的混合物。本区侏罗纪花岗岩以花岗闪长岩-二长花岗岩为主,为准铝质或弱过铝质、高钾钙碱性系列的Ⅰ型花岗岩,具有类似于活动大陆边缘花岗岩的岩石组合特征,属于呈北北东向带状展布的中国东北地区侏罗纪花岗岩带的一部分,其形成与古太平洋板块的俯冲作用有关。 相似文献
11.
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
12.
ABSTRACT This paper presents geochronological, geochemical, and zircon Hf–O isotope data for late Mesozoic intrusive rocks from the northeastern North China Craton (NCC), with the aim of constraining the late Mesozoic tectonic nature of the NE Asian continental margin. U–Pb zircon data indicate that the Late Mesozoic magmatism in the northeastern NCC can be subdivided into two stages: Late Jurassic (161 ? 156 Ma) and Early Cretaceous (125 ? 120 Ma). Late Jurassic magmatism consists mainly of monzogranites. These monzogranites display high Sr/Y ratios and the tetrad effect in their REE, respectively, and have negative εHf(t) values (?22.6 to ?15.8). The former indicates that the primary magma was generated by partial melting of thickened NCC lower crust, the latter suggests that the monzogranites were crystallized from highly fractionated magma, with the primary magma derived from partial melting of lower continental crust. Combined with the spatial distribution and rock associations of the Late Jurassic granitoids, we conclude that the Late Jurassic magmatism in the eastern NCC formed in a compressional environment related to oblique subduction of the Paleo-Pacific Plate beneath the Eurasia. The Early Cretaceous magmatism consists mainly of granitoids and quartz diorites. The quartz diorites formed by mixing of melts derived from the mantle and lower crust. The coeval granitoids are classified as high-K calc-alkaline and metaluminous to weakly peraluminous series. Some of the granitoids are similar to A-type granites. The granitoid εHf(t) values and TDM2 range from ?14.3 to ?1.4 and 2089 to 1274 Ma, respectively. These values indicate that their primary magma was derived from partial melting of lower crustal material of the NCC, but with a contribution of mantle-derived material. We therefore conclude that Early Cretaceous magmatism in the northeastern NCC occurred in an extensional environment related to westward subduction of the Paleo-Pacific Plate beneath Eurasia. 相似文献
13.
鲁东晚中生代热隆-伸展构造及其动力学背景 总被引:2,自引:0,他引:2
为理清山东省鲁东地区晚中生代构造-岩浆-成矿的关系及其发生的动力学背景,本文综合分析了晚中生代侵入岩的空间分布、组合特征、成因类型、形成时代和序列、地球化学演化及形成的构造环境等。研究表明:该区侵入岩由侏罗纪陆壳重熔型花岗岩、白垩纪壳幔混合型花岗岩、白垩纪深源花岗岩和白垩纪脉岩组成,并且从早期到晚期,侵入岩的岩石化学成分由高钾钙碱性系列向橄榄安粗岩系列演化,微量元素由高Ba、Sr花岗岩向低Ba、Sr花岗岩演化,稀土元素由无或弱正铕异常向显著负铕异常演化,岩浆岩成因由S型向I型、A型演化。强烈的岩浆活动和复杂的岩浆岩类型指示了剧烈的壳幔相互作用过程,认为鲁东地区在早白垩世处于强烈的拉张构造环境,其在140~110 Ma期间大规模岩浆活动的同时发生了强烈的地壳隆升事件。通过对断陷盆地、火山活动、变质核杂岩和断层系统的类型、性质、控制因素等进行综合分析,提出它们是大规模伸展构造的表现形式,伸展构造的活动时间为130~98 Ma。进一步分析表明,鲁东地区的白垩纪构造-岩浆组合构成了热隆-伸展构造,它们是太平洋板块俯冲与燕山运动主变形时期(岩石圈增厚)后续效应的产物,岩石圈拆沉、地壳减薄和克拉通破坏是引起早白垩世热隆-伸展构造的根本原因,热隆-伸展构造为胶东大规模成矿提供了有利条件。 相似文献
14.
《International Geology Review》2012,54(1):71-94
AbstractThe granitoid suites encountered by drilling in the northern South China Sea (SCS) remain important for understanding the evolution of the late Mesozoic Southeast Asian continental margin. They comprise a range of rock types including diorite, tonalite, granodiorite, monzogranite and syenogranite with SiO2 spanning 56.4–76.8%. Newly acquired secondary ion mass spectrometry (SIMS) U–Pb ages of samples from 14 boreholes indicate two key magmatic episodes: Late Jurassic (161.6–148.2 Ma) and Early Cretaceous (136.5–101.7 Ma). Jurassic magmatism probably began in late Middle Jurassic time, documented by the dates of inherited zircons. The granitoids are dominated by metaluminous to weakly peraluminous I-type granites, are transitional between magnesian and ferroan, and encompass calc-alkaline, high-K calc-alkaline, and shoshonitic series. The geochemical signatures suggest that these granitoids were mostly generated in a normal continental arc environment. Notable features of the I-type samples are well-defined negative Nb–Ta–Ti anomalies typical of arc-related magmas. Taken together, the late Mesozoic arc granites of the SCS, the accretionary wedge of the Palawan terrane to the southeast, and the zone of lithospheric extension north of the SCS throughout Southeast China, define a southeast-to-northwest trench-arc-backarc architecture for the late Mesozoic Southeast Asian continental margin whose geodynamic setting is related to subduction of the Palaeo-Pacific slab beneath the Asian continent. Two key subduction episodes are recognized, one in Late Jurassic and the other in Early Cretaceous time. 相似文献
15.
大兴安岭中段早白垩世花岗质岩石锆石U-Pb年龄及地球化学特征 总被引:1,自引:0,他引:1
大兴安岭地区显生宙花岗岩分布广泛,但区内中生代花岗岩的研究相对薄弱.通过对大兴安岭中段扎兰屯以西的毕家店岩体和神山岩体进行年代学和地球化学研究,探讨了本区早白垩世花岗岩的成因及构造背景.其中毕家店岩体主要由正长花岗岩和花岗斑岩组成,神山岩体主要由碱长花岗岩组成.毕家店岩体的锆石U-Pb年龄为136±3 Ma、139.5±0.9 Ma和128.1±0.8 Ma,神山岩体为119.3±0.8 Ma,均形成于早白垩世.地球化学特征上,两岩体均呈现高硅、低钙、富碱、Eu负异常等特征,亏损Nb、Ta,富集Rb、Th和U,属于弱过铝质高钾钙碱性系列,为岩浆演化晚期的高分异I型花岗岩.两岩体具有活动大陆边缘构造属性,结合大兴安岭地区同时期I型、A型花岗岩特征,认为早白垩世花岗质岩石的形成与太平洋板块俯冲背景下的拆沉作用密切相关. 相似文献
16.
LA-ICP-MS zircon U–Pb ages and geochemical data are presented for the Mesozoic volcanic rocks in northeast China, with the aim of determining the tectonic settings of the volcanism and constraining the timing of the overprinting and transformations between the Paleo-Asian Ocean, Mongol–Okhotsk, and circum-Pacific tectonic regimes. The new ages, together with other available age data from the literature, indicate that Mesozoic volcanism in NE China can be subdivided into six episodes: Late Triassic (228–201 Ma), Early–Middle Jurassic (190–173 Ma), Middle–Late Jurassic (166–155 Ma), early Early Cretaceous (145–138 Ma), late Early Cretaceous (133–106 Ma), and Late Cretaceous (97–88 Ma). The Late Triassic volcanic rocks occur in the Lesser Xing’an–Zhangguangcai Ranges, where the volcanic rocks are bimodal, and in the eastern Heilongjiang–Jilin provinces where the volcanics are A-type rhyolites, implying that they formed in an extensional environment after the final closure of the Paleo-Asian Ocean. The Early–Middle Jurassic (190–173 Ma) volcanic rocks, both in the Erguna Massif and the eastern Heilongjiang–Jilin provinces, belong chemically to the calc-alkaline series, implying an active continental margin setting. The volcanics in the Erguna Massif are related to the subduction of the Mongol–Okhotsk oceanic plate beneath the Massif, and those in the eastern Jilin–Heilongjiang provinces are related to the subduction of the Paleo-Pacific Plate beneath the Eurasian continent. The coeval bimodal volcanic rocks in the Lesser Xing’an–Zhangguangcai Ranges were probably formed under an extensional environment similar to a backarc setting of double-direction subduction. Volcanic rocks of Middle–Late Jurassic (155–166 Ma) and early Early Cretaceous (145–138 Ma) age only occur in the Great Xing’an Range and the northern Hebei and western Liaoning provinces (limited to the west of the Songliao Basin), and they belong chemically to high-K calc-alkaline series and A-type rhyolites, respectively. Combined with the regional unconformity and thrust structures in the northern Hebei and western Liaoning provinces, we conclude that these volcanics formed during a collapse or delamination of a thickened continental crust related to the evolution of the Mongol–Okhotsk suture belt. The late Early Cretaceous volcanic rocks, widely distributed in NE China, belong chemically to a low- to medium-K calc-alkaline series in the eastern Heilongjiang–Jilin provinces (i.e., the Eurasian continental margin), and to a bimodal volcanic rock association within both the Songliao Basin and the Great Xing’an Range. The volcanics in the eastern Heilongjiang–Jilin provinces formed in an active continental margin setting related to the subduction of the Paleo-Pacific Plate beneath the Eurasian continent, and the bimodal volcanics formed under an extensional environment related either to a backarc setting or to delamination of a thickened crust, or both. Late Cretaceous volcanics, limited to the eastern Heilongjiang–Jilin provinces and the eastern North China Craton (NCC), consist of calc-alkaline rocks in the eastern Heilongjiang–Jilin provinces and alkaline basalts in the eastern NCC, suggesting that the former originated during subduction of the Paleo-Pacific Plate beneath the Eurasian continent, whereas the latter formed in an extensional environment similar to a backarc setting. Taking all this into account, we conclude that (1) the transformation from the Paleo-Asian Ocean regime to the circum-Pacific tectonic regime happened during the Late Triassic to Early Jurassic; (2) the effect of the Mongol–Okhotsk suture belt on NE China was mainly in the Early Jurassic, Middle–Late Jurassic, and early Early Cretaceous; and (3) the late Early Cretaceous and Late Cretaceous volcanics can be attributed to the subduction of the Paleo-Pacific Plate beneath the Eurasian continent. 相似文献
17.
华南中生代大地构造研究新进展 总被引:33,自引:0,他引:33
华南地区中生代构造动力体制经历了从特提斯构造域向滨太平洋构造域的转换,由此产生了强烈的陆内造山作用和岩浆活动,形成了复杂构造组合的晚中生代陆内造山带和火成岩省。本项研究在下列几个方面取得了新的进展:(1)通过对雪峰山地区沅麻盆地的野外调查和构造测量,确定了该盆地晚中生代-早新生代5期构造应力场及其演替序列:中晚侏罗世近W—E向挤压、早白垩世NW—SE向伸展、早白垩世中晚期NW—SE向挤压、晚白垩世近N—S向伸展、古近纪晚期NE—SW向挤压。构造应力场方向的变化记录了不同板缘的动力作用对该区的影响。(2)识别了湖南地区晚古生代-早中生代海相地层中发育的横跨叠加褶皱构造,并基于地层接触关系和已有火成岩同位素年代学数据分析,认为该地区横跨叠加褶皱构造记录了中生代两期构造挤压和地壳增厚事件:早期近东西向褶皱构造是对三叠纪华南地块南北边缘大陆碰撞和增生作用的远程响应,晚期NE—NNE向褶皱构造则是对中晚侏罗世古太平洋板块向华南大陆之下低角度俯冲作用的变形响应。(3)对湖南衡山西缘拆离断裂带的变形结构和运动学特征进行了详细的调查和构造测量,确定了衡山变质核杂岩构造,并对拆离带中韧性剪切变形的钠长岩脉的锆石进行了SHRIMP U-Pb测年,从而确定了华南地区伸展构造的起始时代约137 Ma,即早白垩世早中期。(4)通过锆石U-Pb年代学测试分析,揭示了东南沿海长乐—南澳构造带早白垩世2期构造-岩浆事件:早期(147~135 Ma)表现为强烈的混合岩化作用和深熔作用形成的片麻状花岗岩、花岗片麻岩等;晚期(135~117 Ma)岩浆岩以含石榴子石花岗岩为主。这个结果表明东南沿海构造带是晚中生代陆缘造山带,造山作用可能起始于晚侏罗世,于早白垩世早中期(135 Ma)以来发生伸展垮塌。在上述研究结果的基础上,探讨了华南地区三叠纪"印支运动"和中、晚侏罗世"燕山运动"的表现及其产生的板块构造动力体制及其转换时代、早白垩世从挤压构造应力体制向伸展构造应力体制转变的时间节点。 相似文献
18.
Qing-Bin Guan Bin Wang Xiong Wang Xing-An Wang Qiang Shi 《International Geology Review》2018,60(15):1883-1905
This study presents new zircon U–Pb geochronology, geochemistry, and zircon Hf isotopic data of volcanic and subvolcanic rocks that crop out in the Bayanhushuo area of the southern Great Xing’an Range (GXR) of NE China. These data provide insights into the tectonic evolution of this area during the late Mesozoic and constrain the evolution of the Mongol–Okhotsk Ocean. Combining these new ages with previously published data suggests that the late Mesozoic volcanism occurred in two distinct episodes: Early–Middle Jurassic (176–173 Ma) and Late Jurassic–Early Cretaceous (151–138 Ma). The Early–Middle Jurassic dacite porphyry belongs to high-K calc-alkaline series, showing the features of I-type igneous rock. This unit has zircon εHf(t) values from +4.06 to +11.62 that yield two-stage model ages (TDM2) from 959 to 481 Ma. The geochemistry of the dacite porphyry is indicative of formation in a volcanic arc tectonic setting, and it is derived from a primary magma generated by the partial melting of juvenile mafic crustal material. The Late Jurassic–Early Cretaceous volcanic rocks belong to high-K calc-alkaline or shoshonite series and have A2-type affinities. These volcanics have εHf(t) and TDM2 values from +5.00 to +8.93 and from 879 to 627 Ma, respectively. The geochemistry of these Late Jurassic–Early Cretaceous volcanic rocks is indicative of formation in a post-collisional extensional environment, and they formed from primary magmas generated by the partial melting of juvenile mafic lower crust. The discovery of late Mesozoic volcanic and subvolcanic rocks within the southern GXR indicates that this region was in volcanic arc and extensional tectonic settings during the Early–Middle Jurassic and the Late Jurassic–Early Cretaceous, respectively. This indicates that the Mongol–Okhotsk oceanic plate was undergoing subduction during the Early–Middle Jurassic, and this ocean adjacent to the GXR may have closed by the Late Middle Jurassic–Early Late Jurassic. 相似文献
19.
《International Geology Review》2012,54(14):1801-1816
We present new geochronological and geochemical data for granites and volcanic rocks of the Erguna massif, NE China. These data are integrated with previous findings to better constrain the nature of the massif basement and to provide new insights into the subduction history of Mongol–Okhotsk oceanic crust and its closure. U–Pb dating of zircons from 12 granites previously mapped as Palaeoproterozoic and from three granites reported as Neoproterozoic yield exclusively Phanerozoic ages. These new ages, together with recently reported isotopic dates for the metamorphic and igneous basement rocks, as well as Nd–Hf crustal-residence ages, suggest that it is unlikely that pre-Mesoproterozoic basement exists in the Erguna massif. The geochronological and geochemical results are consistent with a three-stage subduction history of Mongol–Okhotsk oceanic crust beneath the Erguna massif, as follows. (1) The Erguna massif records a transition from Late Devonian A-type magmatism to Carboniferous adakitic magmatism. This indicates that southward subduction of the Mongol–Okhotsk oceanic crust along the northern margin of the Erguna massif began in the Carboniferous. (2) Late Permian–Middle Triassic granitoids in the Erguna massif are distributed along the Mongol–Okhotsk suture zone and coeval magmatic rocks in the Xing’an terrane are scarce, suggesting that they are unlikely to have formed in association with the collision between the North China Craton and the Jiamusi–Mongolia block along the Solonker–Xra Moron–Changchun–Yanji suture zone. Instead, the apparent subduction-related signature of the granites and their proximity to the Mongol–Okhotsk suture zone suggest that they are related to southward subduction of Mongol–Okhotsk oceanic crust. (3) A conspicuous lack of magmatic activity during the Middle Jurassic marks an abrupt shift in magmatic style from Late Triassic–Early Jurassic normal and adakite-like calc-alkaline magmatism (pre-quiescent episode) to Late Jurassic–Early Cretaceous A-type felsic magmatism (post-quiescent episode). Evidently a significant change in geodynamic processes took place during the Middle Jurassic. Late Triassic–Early Jurassic subduction-related signatures and adakitic affinities confirm the existence of subduction during this time. Late Jurassic–Early Cretaceous post-collision magmatism constrains the timing of the final closure of the Mongol–Okhotsk Ocean involving collision between the Jiamusi–Mongolia block and the Siberian Craton to the Middle Jurassic. 相似文献