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东北亚中生代火山岩研究若干问题的思考 总被引:14,自引:1,他引:13
东北亚中生代火山岩包括大陆边缘北北东向线型火山岩带,以及大陆内部俄罗斯西伯利亚、蒙古、中国大兴安岭等面型火山岩带。它们是东北亚古亚洲洋构造域向太平洋构造域转换时期深部地幔地球化学过程以及东亚大陆与古太平洋板块相互作用的产物。对它们的研究涉及古生代古亚洲构造域闭合过程的深部地幔的动力学和地球化学演化历史,以及东亚大陆边缘由被动边缘向活动大陆边缘转换历史。古亚洲域大洋岩石圈向地幔深部潜入而引发的热地幔 相似文献
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【研究目的】黑龙江南部大贵屯一带位于松嫩—张广才岭地块东部,为古亚洲洋构造域与太平洋构造域的叠加与转换部位,开展小型或微观构造形迹特征的研究,对进一步解析二大构造域的叠加与转换背景具有重要的理论意义。【研究方法】基于系统的野外调查和镜下矿物变形特征识别,结合前人研究成果,讨论研究区的构造演化历史以及两大构造体系叠加与转换的时限。【研究结果】提出大贵屯一带存在3期构造作用:一是早古生代古亚洲洋开裂扩张作用,二是晚二叠世—早三叠世古亚洲洋闭合挤压造山作用,三是晚三叠世—早侏罗世太平洋板块对欧亚板块俯冲挤压造山作用。太平洋板块对欧亚大陆的俯冲期形成褶皱与古亚洲洋闭合挤压期形成褶皱明显不同,不仅体现构造层次的显著差别,也体现了区域应力场转换过程。【结论】太平洋板块对欧亚大陆的俯冲期不仅形成褶皱,还形成了与此相匹配的脆性断裂,为研究古亚洲洋与环太平洋构造域的转换作用,特别是古太平洋板块向欧亚大陆的俯冲历史提供重要的科学依据。 相似文献
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将蒙古-鄂霍次克褶皱系的地质构造特征及其演化进程,置于古亚洲洋和滨太平洋构造域的宏观格架中加以对比研究,可以看出,蒙古-鄂霍次克构造带属于复合褶皱系.依据其主体特征,可以分为西、东两部分.西部地区,杭盖-肯特-达斡尔褶皱带的晚新元古代-晚古生代地质特征,与古亚洲洋构造域演化进程的特征类同,早中生代构造演化与古亚洲洋构造域板块汇聚后的大陆裂解有关,晚中生代叠加了大规模走滑和逆冲作用.东部地区,褶皱系的主体属于滨太平洋活动大陆边缘中生代构造演化的一部分,西段的中生代陆缘弧盆系和大型走滑断裂带叠加在古欧亚大陆板块及古生代褶皱带之上,东段的中晚侏罗-早白垩世乌达-穆尔加陆缘褶皱-逆冲带被晚白垩世的锡霍特-阿林、鄂霍次克-楚科奇大陆边缘火山岩带斜截并覆盖. 相似文献
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大兴安岭火山喷发带北段中性、中酸性火山岩地球化学特征及其地质意义 总被引:11,自引:0,他引:11
通过对大兴安岭北段晚侏罗世吉祥峰组中酸性火山岩的岩石地球化学研究,发现其中存在高Sr低Y型火山岩,即文献上所称的埃达克质岩,笔者认为中酸性火山岩的岩浆起源于下地壳玄武质岩浆,为玄武质岩浆底辟上侵引起地热梯度增加、下地壳中 基性变质火成岩石部分熔融的之混合岩浆,是古太平洋板块向西伯利亚板块斜向俯冲过程中,蒙古 鄂霍次克海槽封闭,陆壳碰撞使地壳加厚,形成兴蒙造山带时所引起的一系列构造岩浆活动。其形成时的构造环境应是在滨太平洋构造域背景下受古亚洲构造域的影响和限制,并非是滨太平洋构造活动带的单一活动所致。早白垩世上库力组酸性火山岩属陆壳重熔型(S型)火山岩,其形成可能与印度 澳大利亚板块朝北偏东方向推挤运移、中国东部岩石圈拉张引起的下地壳拆沉作用有关。 相似文献
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中国东北古亚洲与古太平洋构造域演化与转换 总被引:6,自引:0,他引:6
现今分布于中朝、塔里木古陆与西伯利亚古陆之间的古亚洲构造域,既存在于前中生代,也存在于中新生代.古亚洲构造域不能等同于古亚洲洋及其构造域.作为古亚洲构造域一部分的古亚洲洋开始于晚寒武世-奥陶纪,结束于中三叠世.古太平洋及其构造域形成于晚古生代,印支期后,成为滨太平洋构造域.在晚三叠世-侏罗纪时期与古亚洲构造域并存,形成两个构造域的板内造山带、局部盆山构造和东北高原.早白垩世形成以滨太平洋构造域为主体的北北东向盆山体系. 相似文献
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古太平洋俯冲作用的开始:来自吉黑东部早-中侏罗世火山岩的年代学及地球化学证据 总被引:5,自引:0,他引:5
研究区位于兴蒙造山带东段,该区古生代期间是一个由多块体拼贴的造山带,这些块体包括佳木斯地块、兴凯地块、松嫩-张广才岭地块、额尔古纳地块等,它们经历了古亚洲洋构造体系的演化.中生代该区叠加了环太平洋构造体系.古亚洲洋构造体系与古太平洋构造体系是何时转化的?这是该区地质研究中一直存在的争论问题.吉黑东部早-中侏罗世火山岩的年代学、岩石组合及地球化学的研究为此提供了制约. 相似文献
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王金锁 《矿物岩石地球化学通报》1990,(1)
张家口地区位于蒙古洋板块和华北板块的衔接部位,华北地台北缘中段。漫长而复杂的地质演化历史导致本区具有复杂的地质构造及频繁的岩浆活动。著名的环太平洋巨型火山岩带内的太行山—大兴安岭火山岩带及阿尔泰—阴山构造岩浆带从本区东部及中部通过,使燕 相似文献
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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
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《International Geology Review》2012,54(4):336-360
Mesozoic igneous rocks occur in various tectonic units of the Intra-Carpathian Area of Eastern Europe. These rocks were situated several hundred km apart from one another during their formation, and subsequent large lateral displacements resulted in their present positions. They formed during a relatively wide temporal range (Middle Triassic to Late Cretaceous) through different petrogenetic processes associated with the Mesozoic evolution of the northwestern part of Tethys. In the Transdanubian subunit of the Alcapa block, Middle Triassic calc-alkaline, intermediate-to-acidic, and potassic rocks occur as pyroclastics, lava flows, and dikes in the Bakony and Buda mountains. The Gemer-Bükk subunit of the Alcapa block comprises two different igneous series: (1) slightly metamorphosed Middle Triassic volcanic rocks of the Eastern Bukk Mountains, which can be divided into an older (Anisian-Early Ladinian) calc-alkaline, intermediate-to-acidic volcanic series and a younger (Late Ladinian) alkaline basaltic series; and (2) two series of the Middle Triassic to Middle Jurassic ophiolite complex (Bódva Magmatic Series and Darnó-Szarvaskö Magmatic Series), embedded in a tectonic melange and in an olistostrome suite along a SW-NE-oriented zone. The Tisza block contains Early Cretaceous alkaline volcanic rocks in the Mecsek-Alföld subunit. Strong temporal and geochemical correlations have been observed between the Middle Triassic volcanic rocks of the Bakony and Buda mountains and the Southern Alps, and those of the Eastern Bükk Mountains and the Outer Dinarides. We propose that all these rocks were formed during the same extension-related volcanic activity along the Southern Alps-Bakony and Buda mountains-Eastern Bükk Mountains-Dinarides region. The Middle Triassic-Middle Jurassic ultramafic-mafic igneous rocks of the Gemer-Bükk subunit can be correlated with the ophiolites of the Inner Dinarides. Geochemistry of the mafic rocks is consistent with an origin from an N-MORB and E-MORB source mantle. The Middle to Late Triassic ultramafic and mafic rocks of the Bódva and Darnó-Szarvaskö series could have originated along the mid-oceanic ridge system of the northwestern segment of the Vardar ocean (Meliaticum). The Middle Jurassic igneous rocks of the Darno-Szarvasko series could have corresponded to the opening of a back-arc basin. Early Cretaceous alkaline volcanic rocks of the Mecsek-Alföld zone in the Tisza block formed as a result of continental rifting along the southern margin of the European plate. Two volcanic series-a mafic and a sodic group-were generated from an OIB-like asthenospheric mantle. Separation of the Tisza block from the European plate occurred contemporaneously with volcanic activity during the late Early Cretaceous. 相似文献
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对大兴安岭北段漠河盆地南缘的塔木兰沟组玄武安山岩进行锆石LA-ICP-MS U-Pb定年以及岩石地球化学研究,以便限定其形成时代以及火山活动和漠河断陷盆地演化之间的关系.测年结果显示该地区塔木兰沟组玄武安山岩的形成时代为129~147 Ma,为早白垩世早期.塔木兰沟组火山岩主要为高钾钙碱性火山岩系列,具有富集大离子亲石元素(LILE)和轻稀土元素(LREE),亏损高场强元素(HFSE)的特征.岩浆源区为富集型地幔源区,上升过程中可能受上地壳物质混染.地球化学特征及构造背景显示,研究区塔木兰沟组火山岩形成于大陆板内拉张环境,与中生代漠河盆地断陷构造有关. 相似文献
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新识别的“下二台”构造杂岩作为华北板块北缘东段分布的构造混杂岩带重要组成部分,其物质组成、形成时代和构造属性仍需进一步研究,这将为探讨华北板块北缘东段晚古生代构造演化提供重要依据。作者在“下二台”构造杂岩中识别出一套早-中二叠世变质火山-碎屑岩,其以变质碎屑岩为主,并夹变质火山岩,二者在野外产出上混杂在一起。变质火山岩原岩类型包括流纹岩、英安岩、安山岩、玄武安山岩,为一套钙碱性火山岩,属于准铝质-弱过铝质岩石。根据岩相学和地球化学特征,将其分为变质酸性火山岩和变质中-基性火山岩;二者均相对富集轻稀土元素,亏损重稀土元素,轻重稀土元素分馏明显,Eu负异常不明显,但变质酸性火山岩明显亏损P、Ti元素,结合高场强元素相关性特征,认为二者不是同一基性岩浆分异的产物。变质火山岩锆石LA-ICP-MS U-Pb同位素年龄为272~288Ma,代表其原岩结晶年龄,时代为早二叠世;变质酸性火山岩原始岩浆来源于地壳物质的部分熔融,变质中-基性火山岩原始岩浆来源于岩石圈地幔(俯冲带附近),并遭受了地壳物质的混染,二者均形成于活动大陆边缘火山弧环境。变质碎屑岩原岩恢复为泥砂质沉积岩和砂泥质沉积岩,相对亏损轻稀土元素,富集重稀土元素,轻重稀土元素分馏较明显,Eu异常不明显。两件碎屑岩样品锆石LA-ICP-MS U-Pb同位素年龄主要介于267~347Ma,推断其沉积下限为267Ma和269Ma,均为中二叠世;泥砂质沉积岩可能来源于再旋回的以长英质岩石为母岩的沉积岩,砂泥质沉积岩可能来源于再旋回的以长英质和镁铁质岩石为母岩的沉积岩,二者分别形成于活动大陆边缘大陆岛弧和大洋岛弧环境。下二台地区早-中二叠世变质火山-碎屑岩为“下二台”构造杂岩重要组成部分,它表明二叠纪时期华北板块北缘东段经历了三个构造演化阶段:早二叠世古亚洲洋加速俯冲,形成新的大陆弧阶段;中二叠世古亚洲洋持续俯冲,大陆弧和大洋弧碰撞阶段;晚二叠世陆-陆碰撞前阶段。 相似文献
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大兴安岭北部中生代火山岩特征及岩浆演化 总被引:12,自引:0,他引:12
据火山岩岩石组合、地球化学特征、喷发旋回特征及岩浆来源,将大兴安岭北部中生代火山岩划分为三个岩浆演化旋回。晚侏罗世塔木兰沟—吉祥峰旋回火山岩为碱性系列亚碱性系列,岩浆来源于上地幔并有陆壳物质的混染;早白垩世的上库力旋回火山岩为高钾钙碱性系列,岩浆来源于地壳的部分熔融;早白垩世伊列克得旋回火山岩为碱性到亚碱性过渡系列,岩浆来自于地幔并受地壳的混染。综合研究表明,大兴安岭北部中生代火山岩形成于板内环境,早白垩世火山岩可能形成于大陆裂谷环境。 相似文献
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Liu K.Zhang J.-J.Ge M.-H.Ling Y.-Y. 《矿物岩石地球化学通报》2016,(6):1098-1108
The eastern pari of the Xing-Meng Orogenic Belt( XMOB )consists of the Lesser Xing'an-Zhangguangcai Range Orogenic belt, the Bureya-Jiamusi-khanka Block and the Sikhote-Alin accretionary belt. This area is located between the Paleo-Asian oceanic and Paleo-Pacific tectonic regimes. Recent researches imply that the Paleo-Pacific subduction might have begun since early Permian and influenced the both sides of the Mudanjiang Fault during Triassic, which generated a N-S trending magmatic belt and accretionary complexes, such as the Heilongjiang Complex. In Late Jurassic to Early Cretaceous, some tectono st rati graph ic terranes were produced in Sikhote-Alin, which were then dismembered and migrated northwards in late Early Cretaceous by sinistral strike-slip faults. The continental margin parallel transportion weakened subduction-related magmatism in NE China which was under an extensional setting. However, in Lite Cretaceous, the Paleo-Pacific subduction was re-Activated in the eastern XMOB, which contributed to the magmatism in Sikhote-Alin. 相似文献
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拉萨地体北部出露大面积早白垩世岩浆岩,对它们的成因和形成机制的研究,有助于揭示拉萨地块白垩纪时期的岩浆作用过程及动力学背景.通过岩石学、地球化学和同位素地质学方法对拉萨地体北带永珠地区早白垩世中-酸性岩浆岩进行了研究.结果显示黑云母二长花岗岩、流纹岩和安山岩的锆石LA-ICP-MS U-Pb年龄分别为118±1.0 Ma、121±0.8 Ma和115±0.8 Ma,代表了其侵入和喷出时代.黑云母二长花岗岩、花岗斑岩和流纹岩为高钾钙碱性过铝质-强过铝质岩浆岩(A/CNK=1.01~1.35),亏损高场强元素Nb、P、Ti和大离子亲石元素Ba、Sr,富集大离子亲石元素Rb、K和放射性元素U、Th;稀土配分图显示LREE富集,HREE近平坦,Eu明显负异常,为形成于大陆边缘的岛弧岩浆岩特征.黑云母二长花岗岩和流纹岩的锆石Hf初始比值εHf(t)分别为-1.21~3.01和-0.68~5.35,对应的两阶段模式年龄分别为0.99~1.26 Ga和0.84~1.22 Ga,为壳幔混源岩浆.安山岩为高钾钙碱性,亏损Nb、Ta、P、Ti、U和Sr,富集Rb、K和Th,稀土配分图显示LREE富集,HREE近平坦,Eu轻微负异常,为形成于大陆边缘弧的岩浆岩.结合前人研究成果,分析认为永珠地区早白垩世岩浆岩形成于班公湖-怒江特提斯洋壳南向俯冲作用下的大陆边缘弧环境,由俯冲的班公湖-怒江中特提斯洋板片在深部脱水熔融,进而诱发上覆地幔楔部分熔融形成基性岩浆上涌,导致下地壳物质发生部分熔融形成酸性岩浆,它们在上升过程中按不同比例混合,形成中性和酸性岩浆侵入到地下或喷出地表,形成侵入岩和火山岩. 相似文献