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青藏高原西北缘祁漫塔格山中新世快速抬升的磷灰石裂变径迹证据 总被引:2,自引:0,他引:2
对祁漫塔格山体不同海拔高度所取的9个磷灰石样品的裂变径迹分析结果表明,东昆仑西段中新世早中期为主要的隆升期且隆升速率较高,早期隆升速率为111m/Ma,晚期隆升速率为98m/Ma,总体隆升速率为100m/Ma。样品显示出磷灰石裂变径迹长度大致分2类,一类磷灰石裂变径迹长度为(12.21±10.20)-(13.75±0.30)μm,径迹长度分布图基本上为窄而对称的正态分布,反映具有快的剥露冷却速率,未受到后期热事件的干扰。另一类磷灰石裂变径迹长度为(11.88±0.33)~(13.32±0.27)μm,较前一类具有稍慢的剥露冷却速率,并且受到了后期热事件的干扰。 相似文献
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阿尔金断裂带东端40Ar/39Ar和裂变径迹定年及其地质意义 总被引:4,自引:1,他引:3
通过对酒西盆地北缘阿尔金构造岩中3件钾长石加40Ar/39Ar同位素和沿赤金堡到下天津卫石油河剖面花岗岩磷灰石、锆石裂变径迹定年研究,获得了断裂带内构造岩220~207Ma的钾长石40Ar/39Ar激光探针概率年龄,其中锆石裂变径迹定年也获得了233±19Ma以及192±26Ma的近似同时的年龄,代表了晚三叠世到早侏罗世快速的冷却事件,其可能与羌塘和昆仑地块的碰撞有关.锆石裂变径迹定年记录的149~135Ma年龄,也可能反映了晚侏罗世到早白垩世的冷却事件的存在,这一冷却剥露伴随而来的早白垩世的广泛沉积作用.磷灰石裂变径迹中值年龄主要介于42~28Ma,这一年龄结果和热史模拟表明晚始新世到渐新世,40~30Ma的冷却事件.研究区经历了类似于青藏高原北缘地区的冷却降温历史,其隆升和剥露演化受控于欧亚板块南部昆仑、羌塘、拉萨地体的碰撞拼合和印度碰撞后持续挤压作用. 相似文献
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西昆仑及邻区区域构造演化的碎屑锆石裂变径迹年龄记录 总被引:2,自引:0,他引:2
通过对西昆仑北部山前的碎屑锆石裂变径迹年代学分析,将年龄划分为8个峰值区间:P1—4.7Ma以来;P2—13~9Ma;P3—24~18Ma;P4—47~33Ma;P5—79~57Ma;P6—131~103Ma;P7—185~180Ma;P8—267~235Ma,各峰值分布受阶段性抬升剥露和热事件共同影响。P8与P5主要受热事件控制,P6、P4、P3、P2、P1主要和抬升剥露有关,P7主控因素不明显。裂变径迹年龄峰值与西昆仑及邻区发生的一系列重大构造事件的时限吻合,并伴随强烈的区域性断裂活动,指示裂变径迹年龄峰值记录了西昆仑及邻区构造演化的重大事件;其中,晚白垩世以来喜马拉雅东、西构造结抬升具有相似性,反映了青藏高原自印度板块与欧亚大陆碰撞以来经历了相似的阶段性抬升。柯克亚连续沉积剖面显示西昆仑及邻区4.7Ma以来开始最后一次大规模抬升,并指示上新世以来西昆仑及邻区的径迹年龄储备表现出由多样性向一致性、由无规律向年轻化的发展趋势,暗示4.7Ma以来的抬升具整体抬升性质;3.6Ma为抬升的转折点,表现为抬升剥露速率加快、基底开始大规模出露地表,西昆仑山对南边的水流形成障碍。 相似文献
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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
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青藏高原西北缘高原面与陡坡地貌形成过程的裂变径迹热年代学约束 总被引:9,自引:1,他引:9
对青藏高原西北缘高原内部和陡坡地貌带2个花岗岩体10件磷灰石裂变径迹年龄测定表明,高原内部大红柳滩—郭扎错逆冲断裂上盘磷灰石裂变径迹年龄为24.8±4.9~14.0±1.3Ma,此外,一个玄武岩烘烤的热事件年龄为7.9±0.8Ma;而陡坡地貌带的西昆仑中间逆冲断裂上盘的磷灰石裂变径迹年龄为2.9±0.5~0.9±0.3Ma。进一步的热历史模拟结果显示,高原内部自渐新世以来经历了2期隆升-剥露,分别是渐新世—早中新世(30~16Ma)和上新世以来(≤5Ma),而陡坡带只记录了晚中新世以来(≤8Ma)的隆升-剥露,暗示他们经历了不同的热演化历史。结合前人在该区的磷灰石裂变径迹年龄数据和野外地质现象,认为现今高原边缘陡坡地貌带可能是自晚中新世以来(≤8Ma)高原边界断裂伴有向塔里木盆地后展式叠瓦逆冲产生的构造抬升的结果;现今高原面有可能是由高原边界断裂系于大约5~2Ma以来强烈活动逐渐形成的,其隆升-剥蚀幅度>2000~3000m。这对自晚中新世以来青藏高原西北缘高原面与陡坡地貌形成过程提供了磷灰石裂变径迹热年代的重要约束。 相似文献
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青藏高原西北缘祁漫塔格山中新世快速抬升
的磷灰石裂变径迹证据 总被引:1,自引:0,他引:1
对祁漫塔格山体不同海拔高度所取的9个磷灰石样品的裂变径迹分析结果表明,东昆仑西段中新世早中期为主要的隆升期且隆升速率较高,早期隆升速率为111m/Ma,晚期隆升速率为98m/Ma,总体隆升速率为100m/Ma。样品显示出磷灰石裂变径迹长度大致分2类,一类磷灰石裂变径迹长度为(12.21±10.20)-(13.75±0.30)μm,径迹长度分布图基本上为窄而对称的正态分布,反映具有快的剥露冷却速率,未受到后期热事件的干扰。另一类磷灰石裂变径迹长度为(11.88±0.33)~(13.32±0.27)μm,较前一类具有稍慢的剥露冷却速率,并且受到了后期热事件的干扰。 相似文献
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班公湖- 怒江缝合带为青藏高原内部分隔羌塘和拉萨两地块的构造边界,是研究青藏高原构造演化的重要窗口之一。该缝合带自西向东分为西段(班公湖至改则)、中段(安多至东巧)和东段(丁青至怒江),其中东段的研究程度较低。本次以东段八宿县郭庆乡一条花岗岩高程剖面为研究对象,采用激光剥蚀电感耦合等离子体质谱仪(LA- ICPMS)法对锆石和磷灰石开展裂变径迹测试。花岗岩锆石U- Pb年龄为~180 Ma,指示其结晶时代为早侏罗世。锆石和磷灰石裂变径迹年龄分别为180~130 Ma、86~61 Ma,对应的年龄- 海拔曲线分别为负斜率和正斜率。QTQt模拟显示花岗岩高程剖面顶部在130~60 Ma时剥蚀冷却速率快,中部在130~40 Ma时剥蚀冷却速率居中,而底部在~130 Ma之后一直保持最低的剥蚀冷却速率。这种差异性隆升源自班公湖- 怒江缝合带东段的南向俯冲板片断离早于北向俯冲板片断离。 相似文献
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构造活动性是核废处置场评价的一项基本判别要素。文中通过对东天山阿齐山—雅满苏地区磷灰石裂变径迹测年及 构造隆升剥蚀过程的模拟来评价核废处置场的构造活动性。结果表明阿齐山—雅满苏地区样品磷灰石裂变径迹年龄集中分 布在81.7~51.4 Ma之间,反映出东天山地区晚白垩世—始新世存在一次明显的构造冷却事件,这与天山地区晚白垩世的抬 升剥露事件相一致。磷灰石裂变径迹长度介于13.60±0.11~14.36±0.10 μm之间,其长度标准差为0.98~1.22 μm,显示该区 磷灰石径迹形成后没有发生过明显的退火作用。根据地温梯度计算得到晚白垩世—始新世东天山阿齐山—雅满苏地区隆升 剥蚀速率为270~580 m/Ma。现有地质资料及热史模拟结果表明,东天山阿齐山—雅满苏地区在晚白垩世—始新世(84~49 Ma)期间经历了强烈的构造隆升—剥露事件,自始新世以后50 Ma以来,地壳处于稳定状态,新生代构造活动不明显,其 活动强度明显有别于天山其他地段。东天山阿齐山—雅满苏地区现在的构造地貌基本继承了晚白垩世的特征,处于构造活 动平稳期,符合核废处置场选址的构造要求。 相似文献
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前人已经对西天山及邻区以及阿尔金断裂带进行了大量中—新生代隆升-剥露的研究工作,但对东天山地区的研究工作很少。天山造山带中—新生代期间的隆升-剥露过程是否具有均一性,目前仍没有确切的认识。为了获得东天山地区中生代以来的隆升-剥露信息,对吐哈盆地东南缘雅满苏地区磷灰石裂变径迹进行了研究。研究表明,在不同构造位置采集的花岗岩、砂岩、火山岩样品年龄集中分布在81~53Ma,样品年龄记录了东天山地区晚白垩世—古新世发生的冷却事件。磷灰石裂变径迹平均长度为13.60~14.36μm,接近于磷灰石初始径迹长度约14.5μm,表明径迹形成后没有发生过明显的退火作用。根据地温梯度计算得到东天山晚白垩世以来的平均隆升速率约为4.31×10-2 mm/a。进一步的热史模拟表明,晚白垩世—古新世(80~50Ma)期间东天山地区经历了一次隆升-剥露事件;始新世以后(50 Ma),东天山地区地壳处于稳定状态,东天山隆起带现在的构造面貌基本继承了中生代的特征。 相似文献
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裂变径迹测年技术用于确定伸展山脉的隆升时间, 进而可以研究伸展构造的演化规律。 对采自鲁西隆起中部莲花山的 9 个样品进行了磷灰石/锆石裂变径迹分析, 结合已有数据分析鲁西隆起的抬升史。 结果表明莲花山晚白垩世以来经历了两期抬升剥露过程, 一次是在晚白垩世—古新世初期 86~60 Ma, 抬升速率为 0.019 mm/yr, 另一次是在中始新世 44~38 Ma, 抬升速率为 0.10 mm/yr。 因此, 莲花山晚白垩世以来经历了加速抬升剥露过程。 综合研究认为, 鲁西隆起山脉晚白垩世以来具有自南而北、由东向西的差异抬升规律, 且最早可能始于早白垩世。 这种迁移规律受控于早白垩世以来太平洋板块俯冲方向和速度, 以及郯庐断裂带的走滑性质和强度的变化。 相似文献
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《International Geology Review》2012,54(9):941-954
The Kuruktag uplift is located directly northeast of the Tarim craton in northwestern China. Neoarchaean-to-Neoproterozoic metamorphic rocks and intrusive rocks crop out widely in the uplift; thus, it is especially suited for a more complete understanding of the thermal evolution of the Tarim craton. Apatite fission-track (AFT) methods were used to study the exhumation history and cooling of these Precambrian crystalline rocks. Nine apatite-bearing samples were collected from both sides of the Xingdi fault transecting the Kuruktag uplift. Pooled ages range from 146.0 ± 13.4 to 67.6 ± 6.7 Ma, with mean track lengths between 11.79 ± 0.14 and 12.48 ± 0.10 μm. These samples can be divided into three groups based on age and structural position. Group A consists of five samples with AFT apparent ages of about 100–110 Ma and is generally associated with undeformed areas. Group B comprises three specimens with AFT apparent ages lower than 80 Ma and is mostly associated with hanging wall environments close to faults. Group C is a single apatite sample with the oldest relative apparent age, 146.0 ± 13.4 Ma. The modelled thermal history indicates four periods of exhumation in the Kuruktag uplift: late-Early Jurassic (180 Ma); Late Jurassic–Early Cretaceous (144–118 Ma); early-Late Cretaceous (94–82 Ma); and late Cenozoic (about 10 Ma). These cooling events, identified by AFT data, are assumed to reflect far-field effects from multi-stage collisions and accretions of terranes along the south Asian continental margin. 相似文献
13.
中、新生代天山隆升过程及其与准噶尔、阿尔泰山比较研究 总被引:49,自引:4,他引:45
根据穿越天山地质剖面观察、系统裂变径迹(FT)测年年龄与热演化模拟结果分析,并综合前人研究结果,天山陆内造山带中、新生代主要经历2次明显的隆升事件,分别为晚侏罗世—早白垩世和中新世以来(25~0Ma)。从天山地区磷灰石FT年龄结果来看,主要记录了早期隆升年龄,但热演化模拟结果显示普遍经历了中新世以来的快速隆升。在天山北缘从盆山边缘的近25Ma开始隆升到前缘带的现今活动,表明天山陆内造山带在隆升的同时还逐渐“增生”扩展。系统研究和分析表明,东西准噶尔和阿尔泰地区则主要记录了晚中生代以来的持续隆升过程,新生代构造活动不明显或强度相对天山要弱。上述事实表明,天山及其中亚地区新生代的陆内活动是受喜马拉雅碰撞与青藏高原隆升的影响,具有向北渐弱的特征。 相似文献
14.
We investigate the Mesozoic–Cenozoic thermal history of the Daxi region (central SE South China Block) to evaluate the influence of the subduction of the Paleo-Pacific oceanic plate beneath the SE South China Block along the block's southeast margin on the tectonothermal evolution of the upper plate. We apply a multi-chronological approach that includes U-Pb geochronology on zircon, 40Ar/39Ar dating on muscovite and biotite from granitic rocks as well as fission-track and (U-Th-Sm)/He analyses on zircon and apatite from granitic and sedimentary rocks. The Heping granite, located in the Daxi region, has a magmatic age of ca. 441 Ma. The biotite 40Ar/39Ar ages of ca. 193 Ma for the Early Jurassic Shibei granite and ca. 160 Ma for the Late Jurassic Fogang granite, respectively, reflect magmatic cooling. The Triassic Longyuanba granite yielded a muscovite 40Ar/39Ar age of ca. 167 Ma, recording heating to ≥ 350 °C induced by nearby intrusion of Middle Jurassic granites. Zircon fission-track and (U-Th-Sm)/He ages from Lower Carboniferous–Lower Jurassic sandstones (140–70 Ma) record continuous cooling during the Cretaceous that followed extensive Middle–Late Jurassic magmatism in the Daxi region. Cretaceous cooling is related to exhumation in an extensional tectonic setting, consistent with lithospheric rebound due to foundering and rollback of the subducted Paleo-Pacific oceanic plate. Apatite fission-track (53–42 Ma) and (U-Th-Sm)/He ages (43–36 Ma), and thermal modelling document rapid cooling in the Paleocene–Eocene, which temporally coincides with continental rifting in the SE South China Block in the leadup to the opening of the South China Sea. 相似文献
15.
The tectonic evolution of the ancient Mudanjiang Ocean within the Central Asian Orogenic Belt (CAOB), is strongly debated. The ocean played an important role in the amalgamation of the Songnen and Jiamusi massifs; however, the timings of its opening and closure have remained ambiguous until now. In this study, we analyzed early Mesozoic intrusive rocks from the eastern Songnen and western Jiamusi massifs in the eastern CAOB. The new zircon UPb ages, Hf isotope data, and whole-rock major and trace element data are used to reconstruct the tectonic evolution of the Mudanjiang Ocean. Zircon UPb dating indicates that early Mesozoic magmatism in the eastern Songnen Massif occurred in three stages: Early to Middle Triassic (ca. 250 Ma), Late Triassic (ca. 211 Ma), and Early Jurassic (ca. 190 Ma). The Triassic intrusive rocks typically consist of bimodal rock suites, which include gabbros, hornblende gabbros, and granitoids. The compositional information indicates an extensional environment that was probably related to the final closure of the Paleo-Asian Ocean. We integrated the results with observations from Triassic A-type granitoids and coeval sedimentary formations in the eastern Songnen Massif, as well as depositional ages of metasedimentary rocks from Heilongjiang Complex. We conclude that the opening of the Mudanjiang Ocean took place in the Early to Middle Triassic. The Early Jurassic intrusive rocks are bimodal and include olivine gabbros, hornblendites, hornblende gabbros, gabbro diorites, and granitoids. The bimodal rock suite indicates a back-arc style extensional environment. This setting formed in relation to westward subduction of the Paleo-Pacific plate beneath the Eurasia during the Early Jurassic. Following subduction, the closure of the Mudanjiang Ocean and subsequent amalgamation of the Songnen and Jiamusi massifs happened during the late Early Jurassic to Middle Jurassic. This sequence of events is further supported by ages of metamorphism and deformation acquired from the Heilongjiang Complex. Based on these observations, we conclude that the Mudanjiang Ocean existed between the Middle Triassic and Early Jurassic, making it rather short-lived. 相似文献
16.
Johan De Grave Stijn Glorie Mikhail M. Buslov Andrei Izmer Alena Fournier-Carrie Vladislav Yu. Batalev Frank Vanhaecke Marlina Elburg Peter Van den haute 《Gondwana Research》2011,20(4):745-763
The Song-Kul Basin sits on a plateau at the Northern and Middle Kyrgyz Tien Shan junction. It is a lacustrine basin, occupied by Lake Song-Kul and predominantly developed on igneous basement. This basement was targeted for a multi-method chronological study to identify the different magmatic episodes responsible for basement formation and to constrain the timing of the development of its present-day morphology. Zircon U/Pb dating by LA-ICP-MS revealed four different magmatic episodes: a Late Cambrian (~ 500 Ma) island arc system, a Late Ordovician (~ 450 Ma) subduction related intrusion, an Early Permian (~ 290 Ma) collisional stage, and a Middle to Late Permian (~ 260 Ma) post-collisional magmatic pulse. Middle to Late Triassic (~ 200–230 Ma) titanite fission-track ages and Late Triassic – Early Jurassic (~ 180–210 Ma) apatite fission-track ages and thermal history modeling indicate the Song-Kul basement was already emplaced in the shallow crust at that time. An exhumed fossil apatite fission-track partial annealing zone is recognized in the bordering Song-Kul mountain ranges. The area experienced only minor post-Early Mesozoic denudation. The igneous basement was slowly brought to apatite (U–Th)/He retention temperatures in the Late Cretaceous–Palaeogene. Miocene to present reactivation of the Tien Shan does not manifestly affect this part of the orogen. 相似文献
17.
Cratons are conventionally assumed to be areas of long-term stability. However, whereas Precambrian basement crops out across most of the Baltic Shield, Palaeozoic and Mesozoic sediments rest on basement in southern Sweden, and thus testify to a complex history of exhumation and burial. Our synthesis of published stratigraphic landscape analysis and new apatite fission-track analysis data reveals a history involving five steps after formation of the extremely flat, Sub-Cambrian Peneplain. (1) Cambrian to Lower Triassic rocks accumulated on the peneplain, interrupted by late Carboniferous uplift and exhumation. (2) Middle Triassic uplift removed the Palaeozoic cover along the south-western margin of the shield, leading to formation of a Triassic peneplain with a predominantly flat relief followed by deposition of Upper Triassic to Lower Jurassic rocks. (3) Uplift that began during the Middle Jurassic to earliest Cretaceous caused denudation leading to deep weathering that shaped an undulating, hilly relief that was buried below Upper Cretaceous to Oligocene sediments. (4) Early Miocene uplift and erosion produced the South Småland Peneplain with scattered hills. (5) Early Pliocene uplift raised the Miocene peneplain to its present elevation leading to reexposure of the sub-Cretaceous hilly relief near the coast. Our results thus provide constraints on the magnitude and timing of episodes of deposition and removal of significant volumes of Phanerozoic rocks across the southern portion of the Baltic Shield. Late Carboniferous, Middle Triassic and mid-Jurassic events of uplift and exhumation affected wide areas beyond the Baltic Shield, and we interpret them as epeirogenic uplifts accompanying fragmentation of Pangaea, caused by accumulation of mantle heat beneath the supercontinent. Early Miocene uplift affected north-west Europe but not East Greenland, and thus likely resulted from compressive stresses from an orogeny on the Eurasian plate. Early Pliocene uplift related to changes in mantle convection and plate motion affected wide areas beyond North-East Atlantic margins. 相似文献
18.
深层油气成藏机理研究的首要前提是要明确烃源岩的热演化历史,这对区域油气勘探潜力的评价有着重要的指导意义。鄂尔多斯盆地西南缘蓟县系烃源岩在中生代以来的热演化史有何特征,是否受早白垩世岩浆热作用的影响,影响程度如何等问题的不明确,制约着人们对该地区中元古界烃源岩的生烃潜力的认识及进一步勘探开发的思路。通过对安口—铜城地区出露的三叠系、侏罗系及铜城岩体进行磷灰石裂变径迹、磷灰石/锆石(U-Th)/He测试,结合镜质组反射率数据,分别恢复了该地区沉积岩在中三叠世以来和侵入岩在早白垩世以来的冷却历史,结合岩浆岩体的空间分布特征和泥页岩镜质组反射率,估算蓟县系烃源岩古地温。热年代学模拟表明,蓟县系烃源岩自中生代以来先后经历了三叠纪—侏罗纪的正常埋深增温,达到了生烃温度门限,自早白垩世约130~110 Ma开始冷却,其中个别样品表现为自始新世中期至45 Ma微弱加速冷却,中新世晚期至8 Ma以来快速冷却。研究表明,中晚侏罗世是鄂尔多斯盆地西南缘蓟县系生烃的关键时期,烃源岩处于主生油温度范围,之后的早白垩世晚期岩浆侵入事件的热作用范围有限,对蓟县系烃源岩古地温的影响仅发生在局部地区。鄂尔多斯盆地西南缘... 相似文献
19.
The fission-track dating of detrital zircon from Mesozoic terrigenous complexes of the Crimean mountains has been carried out for the first time. A young zircon population from the Tavria Group of sandstones of the Yaman ravine was dated at 220.1 ± 12.6 Ma, and the zircon population from the same deposits of the Crimea’s southern coast, at 193.6 ± 13.1, 167.1 ± 12.1, and 154.0 ± 10.2 Ma. Sandstones from the lowermost parts of the Demerdzhi Formation on Mount Yuzhnaya Demerdzhi comprise the Middle Jurassic young zircon population (169.9 ± 8.6 Ma). The age of the young zircon population from the Chenka Formation in the region of the Settlement of Observatoriya corresponds to the initial Middle Jurassic (178.9 ± 9.1 Ma). The timing of the cooling of the Mount Kastel massif was established at 149.0 ± 10.9 Ma. In all the considered cases, the age of terrigenous complexes is close to the age of enclosed zircons. Volcanic and/or magmatic rocks that formed synchronously with accumulation of terrigenous complexes in the sedimentary basin are likely to have been sources of zircons. Hence, the data obtained allow the timing of the Triassic-Jurassic magmatism in the Crimean mountains to be refined and three stages of magmatism to be distinguished: Late Triassic (Carnian?), poorly expressed Early Jurassic, and Middle Jurassic (Aalenian-Bathonian). 相似文献
20.
Tianyi Shen Yue Chen Guocan Wang Junliang Ji Yong Wang Pan Zhang Paul Sotiriou Rong Guo Zezhuang Xu 《地学学报》2020,32(2):166-178
Analysing the provenance changes of synorogenic sediments in the Turpan‐Hami basin by detrital zircon geochronology is an efficient tool to examine the uplift and erosion history of the easternmost Tian Shan. We present detrital zircon U‐Pb analysis from nine samples that were collected within marginal lacustrine Middle‐Late Jurassic and aeolian‐fluvial Early Cretaceous strata in the basin. Middle‐Early Jurassic (159–172 Ma) zircons deriving from the southern Junggar dominated the Middle Jurassic sample from the western Turpan‐Hami basin, whereas Permian‐Carboniferous (270–330 Ma) zircons from the Bogda mountains were dominant in the Late Jurassic to Early Cretaceous samples. Devonian‐Silurian (400–420 Ma) and Triassic (235–259 Ma) zircons from the Jueluotage and Harlik mountains constituted the subordinate age groups in the Late Jurassic and Early Cretaceous samples from the eastern basin respectively. These provenance transitions provide evidence for uplift of the Bogda mountains in the Late Jurassic and the Harlik mountains since the Early Cretaceous. 相似文献