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1.
东昆仑东段哈拉郭勒-哈图一带中生代的岩石隆升剥露--锆石和磷灰石裂变径迹年代学证据 总被引:4,自引:2,他引:4
根据对东昆仑地区东段哈拉郭勒—哈图一带不同高度基岩的系列锆石裂变径迹年龄分析,结合磷灰石裂变径迹年龄分析和中酸性侵入岩角闪石压力计分析揭示了东昆仑东段中生代的岩石隆升剥露冷却历史.巴隆哈图一带中酸性侵入岩角闪石压力计分析结果反映晚海西—印支期以来的总体剥露幅度约8~9km,早二叠世至晚三叠世初剥蚀作用极为缓慢,大约为20~40m/Ma.不同高程样品的锆石裂变径迹年龄分析结果揭示了东昆仑地区东段在中晚侏罗世处于缓慢的岩石隆升剥露阶段,其中中侏罗世相对较快,抬升速率77~88m/Ma,晚侏罗世相对较慢,抬升速率小于37m/Ma,且呈减慢趋势,这种减慢趋势反映了早中侏罗世之交强构造抬升期后的逐渐衰退.锆石裂变径迹—磷灰石裂变径迹年龄分析结果反映了中侏罗世以来的剥蚀速率一般不超过55m/Ma,岩石的剥蚀速率与岩石的抬升速率基本为同一量级,中侏罗世—白垩纪剥蚀作用与岩石抬升作用基本处于平衡状态。 相似文献
2.
裂变径迹法与青藏高原隆升 总被引:1,自引:0,他引:1
裂变径迹法是20世纪60年代发展起来的一种放射性同位素年代学方法,以测年范围广, 样品用量少,方法简便等优点,在地质学和考古研究中获得了广泛应用.近些年,随着径迹退火特性和径迹长度研究的深入,裂变径迹方法在造山带热历史分析和构造隆升过程研究中发挥了重要的作用,它不仅能为构造隆升研究提供年代控制,而且还能获得隆升幅度、隆升速率及隆升方式以及低温热历史等比较全面的山体隆升史资料, 成为研究构造隆升十分简捷、有效的方法.本文首先简述了裂变径迹方法研究构造隆升的基本原理,然后介绍了研究构造隆升的3种方法:年龄-高程法、矿物对法和径迹长度分析法,并对青藏高原构造隆升研究进展作了简要回顾,综合分析已有的青藏高原裂变径迹年代数据,发现在中新世晚期(约10~8 Ma)之前隆升速率较慢,之后隆升速率加快,尤其是上新世晚期(4~3 Ma)以来隆升速率迅速加快.这与地层学、沉积学等其他传统方法得出来的结论基本一致.并探讨了将来青藏高原裂变径迹研究的方向. 相似文献
3.
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
4.
青藏高原新生代以来的隆升过程及特征长期以来广存争议.岩体中不同单矿物所记录的中低温热年代学信息适用于揭示较新年代地质体的隆升过程,可以为之提供有效制约.在青藏高原部分岩浆岩与变质岩露头区原位采集15块样品,利用锆石与磷灰石裂变径迹等热年代学结果为青藏高原中生代末期以来的隆升过程提供约束.其中,所获10块样品的锆石裂变径迹数据年龄范围为182~33 Ma,分别记录了渐新世之前青藏高原内不同块体间相互碰撞及高原内不同地区的构造热事件.特别是沿雅鲁藏布江缝合带分布的3个样品,锆石裂变径迹年龄结果一致显示始新世末期-渐新世早期该带存在一期显著的构造热事件.该构造热事件暗示在约36~33 Ma沿雅江缝合带发生过强烈的陆-陆硬碰撞.所获14块样品的磷灰石裂变径迹年龄范围为70.4~5.0 Ma,综合热史反演结果显示青藏高原南部中新世中晚期以来存在整体性隆升,特别是从上新世开始隆升速率显著加快.磷灰石裂变径迹年龄在空间分布上具有向高原东南部变年轻的趋势,表明青藏高原东南部在上新世以来的构造隆升较其他地区要强烈,暗示印度-亚洲板块碰撞驱动机制对该时期的高原隆升具有控制作用.此外,青藏高原中部在白垩纪末期-始新世可能即已隆升至相当高度,此后至今保持了相当低的剥蚀速率. 相似文献
5.
本文利用裂变径迹方法研究藏南定结地区喜马拉雅造山带新生代的隆升和剥露过程,并探讨内动力和外动力地质作用共同塑造地貌形态的耦合性。由于构造活动的阶段性,可能导致大喜马拉雅结晶岩系(GHC)的冷却剥蚀在构造强烈时期主要由构造活动控制,在构造活动平静期主要与外动力地质作用密切相关。在定结地区的GHC选取两个剖面进行磷灰石裂变径迹(AFT)研究,剖面高程跨度为3 800~4 500 m,其年代学结果范围为11~2 Ma,揭示了中新世以来经历了3 个阶段的冷却剥蚀历史。不同的冷却剥蚀阶段具有不同的驱动力,中新世晚期11 Ma左右的隆升剥蚀阶段,主要是由构造活动驱动;7~3 Ma的缓慢冷却剥蚀阶段,构造活动趋于平静,主要与区域内的河流侵蚀作用密切相关;上新世晚期3 Ma以来较快速的冷却剥蚀阶段,以河流侵蚀为主的外动力作用加强。定结GHC在3 Ma以来冷却剥蚀速率迅速增强,并且驱动力主要为外动力地质作用,暗示了GHC经历了中新世强烈的构造隆升之后已经确定了现有地貌格局,在3 Ma已达到显著高度。 相似文献
6.
喜马拉雅山脉新生代差异隆升的裂变径迹热年代学证据 总被引:2,自引:1,他引:2
裂变径迹年龄资料记录的雅鲁藏布江以南的喜马拉雅山脉的冷却年龄具有明显的时空差异性。在南北方向上,特提斯喜马拉雅的冷却年龄主要在8 Ma以前,局部为5.0~2.6 Ma,而高喜马拉雅的冷却年龄集中在5 Ma以后,大多数在3 Ma以来;在东西方向上体现在喜马拉雅东西构造结之间的高喜马拉雅带上,东喜马拉雅的不丹东部区域的裂变径迹热年代学数据揭示了8.0~3.0 Ma的冷却剥露的历史;东喜马拉雅的不丹西部区域为7.0~1.4 Ma;中喜马拉雅的尼泊尔地区为5.0~0.2 Ma;西喜马拉雅的印度西北部地区为3.0~1.0 Ma。最年轻的裂变径迹年龄显示出由中间向两侧增大,反映了地质晚近时期东西构造结间的高喜马拉雅山脉的剥露幅度由中间向两边减弱的趋势,揭示了以中喜马拉雅为隆升中心向两边拓展的趋势。综合有关裂变径迹年代学资料表明,喜马拉雅山脉的隆升主要发生在中新世以来,其表现为18~11 Ma、9 Ma以来的两个快速隆升期。喜马拉雅山脉隆升的动力体制可能由早期的挤压隆升—中新世的伸展隆升—上新世以来构造隆升为主,局部气候作用和构造作用耦合的山脉隆升机制。 相似文献
7.
嘉黎断裂带两侧晚新生代差异隆升的磷灰石裂变径迹纪录 总被引:5,自引:0,他引:5
对嘉黎断裂带两侧的磷灰石裂变径迹年代学测试表明,断裂带北侧的磷灰石裂变径迹年龄在5.6~11.7Ma之间,属中新世晚期;断裂带南侧的磷灰石裂变径迹年龄明显较小,6个样品中有5个样品的磷灰石裂变径迹年龄在4.0~5.9Ma之间,属上新世早期.嘉黎断裂带北侧5.6~11.7Ma期间的隆升速率为0.07~0.09mm/a.5.8Ma以来平均剥露速率为0.50mm/a,平均隆升速率1.33mm/a.断裂带南侧4.7Ma以来平均剥露速率为0.62mm/a,平均隆升速率1.68mm/a.两侧样品都反映上新世以来有较强烈的隆升作用,并且南侧比北侧隆升作用更强烈. 相似文献
8.
探讨构造、气候与砾岩的关系对于研究青藏高原隆升的时间和方式具有重要意义。裂变径迹热年代学表明积石山地区于8MaB.P.开始构造变形,与碎屑颗粒裂变径迹结果和生长地层结果一致,而明显早于积石砾岩出现的时间(3.6MaB.P.)。通过区分岩体隆升与地面隆升之间的差别,文章提出一种新的模型,以解释隆升、气候和砾岩之间的关系。积石山岩体于8MaB.P.开始隆升,隆升初期,尽管岩体隆升1500~2000m,但是由于积石山上覆的新生代地层易于剥蚀,在花岗岩基底被剥露到地表之前,地表只有少量隆升或没有隆升。随着沉积地层被剥蚀殆尽,基岩暴露于地表,地面隆升速率加快。约3.6MaB.P.,积石山隆升约200~900m,造成了地形雨和发源于积石山的横向河流的出现,这些横向河流把积石山的花岗岩搬运到盆地中沉积下来,形成积石砾岩。 相似文献
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10.
本文以青藏高原东缘的三级地貌(川西高原、龙门山和四川盆地)单元为基础,利用裂变径迹定年数据分区块研究了该地区的晚新生代以来的剥蚀速率。研究结果表明,晚白垩世以来青藏高原东缘经历了一个由平缓到突然加速的剥蚀过程,其转折点为中新世。在整个时间段内的平均剥蚀速率,川西高原为0.26mm/yr,龙门山为0.72mm/yr,四川盆地为0.20mm/yr。龙门山的剥蚀速率大约是川西高原的2.8倍,间接反映边缘山脉的隆升并不等同于高原内部的隆升,边缘山脉的隆升可能是构造隆升和剥蚀隆升相叠加的结果。 相似文献
11.
Fission Track Geochronology of Xiaonanchuan Pluton and the Morphotectonic Evolution of Eastern Kunlun since Late Miocene 总被引:1,自引:0,他引:1
Apatite fission track (AFT) thermochronology of seven samples from the Xiaonanchuan (小南川) pluton in the Kunlun (昆仑) pass area was carried out, for the purpose of determining the timing of cooling and the relation between the exhumation and the morphotectonic processes. The AFT ages yield low denudation rates of 0. 020--0. 035 mm/a during the late Miocene, which correspond to a stable geomorphic and weak tectonic uplifting environment. The low denudation rates can be considered as the approximate tectonic uplifting rates. The AFT geochronology shows puroxysmully rapid cooling since the Pliocene and an apparent material unroofing of more than 3 km in the Xiaonanchuan area. This was not the result of simple denudation. The rapid cooling was coupled with the intensive orogeny since the Pliocene, which was driven by tectonic uplifting. The accelerated relief building was accompanied by a series of faulting, which caused the basin and the valley formation and sinking. The space pattern of the AFT ages also shows differential uplifting, which decreases northwardly. This trend is supported by the regional AFT data, which indicate that the exhumation decreases northwardly in eastern Kunlun. This trend also exists in cast-west orientation from the western Kunlun range to the eastern. The uplif- ting trend is also supported by gcomorphic characteristics including the elevation and the relief differences well as the distribution of the Late Cenozoic volcanism. 相似文献
12.
R. W. Grobe J. Alvarez-Marrón U. A. Glasmacher F. M. Stuart 《International Journal of Earth Sciences》2014,103(2):539-561
Apatite fission-track (AFT) and (U+Th)/He (AHe) data, combined with time–temperature inverse modelling, reveal the cooling and exhumation history of the Iberian Massif in eastern Galicia since the Mesozoic. The continuous cooling at various rates correlates with variation of tectonic boundary conditions in the adjacent continental margins. The data provide constraints on the 107 timescale longevity of a relict paleolandscape. AFT ages range from 68 to 174 Ma with mean track lengths of 10.7 ± 2.6 to 12.6 ± 1.8 μm, and AHe ages range from 73 to 147 Ma. Fastest exhumation (≈0.25 km/Ma) occurred during the Late Jurassic to Early Cretaceous main episode of rifting in the adjacent western and northern margins. Exhumation rates have decreased since then and have been approximately one order of magnitude lower. Across inland Galicia, the AFT data are consistent with Early Cretaceous movement on post-Variscan NE trending faults. This is coeval with an extensional episode offshore. The AHe data in this region indicate less than 1.7 km of denudation in the last 100 Ma. This low exhumation suggests the attainment of a mature landscape during Late Cretaceous post-rift tectonic stability, whose remains are still preserved. The low and steady rate of denudation prevailed across inland Galicia despite minor N–S shortening in the northern margin since ≈45 Ma ago. In north Galicia, rock uplift in response to NW strike-slip faulting since Early Oligocene to Early Miocene has caused insufficient exhumation (<3 km) to remove the Mesozoic cooling signal recorded by the AFT data. 相似文献
13.
龙门山冲断隆升及其走向差异的裂变径迹证据 总被引:4,自引:1,他引:3
大量的低温年代学研究用来讨论龙门山晚新生代的隆升,但很少涉及其走向差异和中生代隆升。本文分别沿龙门山北、中、南段3条剖面进行了锆石和磷灰石裂变径迹测试,结合已有的热年代学数据,以期揭示整个中-新生代期间龙门山隆升历史及其时空变化。中生代以来,龙门山主要有印支期(约200 Ma)、早白垩世末(约100 Ma)、早新生代(65~30 Ma)以及晚中新世(15~9 Ma)等或快或慢的冷却事件,总体上经历了中生代至早新生代的缓慢冷却和晚新生代快速冷却2个阶段,快速剥露开始于15~9 Ma,剥蚀速率由早期的0.1 mm/a增加到0.15~0.3 mm/a左右,局部可达0.9 mm/a左右。走向上,龙门山北段相对偏小的锆石裂变径迹年龄和相对偏大的磷灰石裂变径迹年龄反映其在中生代较中、南段隆升更快,而裂变径迹年龄总体上从北段向中、南段减小,表明中、南段在新生代发生了更快的隆升。倾向上,多种热年代学数据显示新生代期间在北川断裂和彭灌断裂两侧存在明显的差异剥露,这种差异在中、南段表现比北段更为突出。龙门山晚新生代快速隆升和剥露是青藏高原区域隆升背景上叠加的冲断活动所致,而非下地壳流动驱动。 相似文献
14.
Apatite fission track evidence for Neogene uplift in the eastern Kunlun Mountains, northern Qinghai–Tibet Plateau, China 总被引:1,自引:0,他引:1
Wanming Yuan Jinquan Dong Wang Shicheng Andrew Carter 《Journal of Asian Earth Sciences》2006,27(6):847-856
Forty-one apatite fission track ages (AFT) were determined on samples collected along a N–S section of the eastern Kunlun Mountains across the Middle and South Kunlun Faults between Buqingshan and Dulan. Measured AFT ages lie between 25±2 and 130±10 Ma, and all are significantly younger than their host rock formation or sediment deposition ages. Modelling the AFT data identifies a two stage regional cooling history that spans the last 100 Myrs. The earliest cooling phase occurred between the late Jurassic and early Tertiary and involved a moderate level of cooling between 20 and 40 °C, equivalent to average exhumation rates of =15 m/Myr. The second phase of cooling took place from 20 Ma with cooling rates increasing tenfold. Average exhumation rates for this period are estimated to be in the range of 100–150 m/Myr. The first stage of protracted cooling is consistent with regional evidence from the Qiantang and Lhasa terrans where previous studies have noted low rates of denudation in relation to a back-arc extensional setting. The more recent acceleration in cooling seen in the Kunlun data coincides with an increase in sedimentation rates in the adjacent Qaidam Basin. This points to a phase of Neogene uplift and increased erosion of the Kunlun Range, although contemporaneous monsoon strengthening may also have had a role. 相似文献
15.
南黄海中部隆起自印支期以来经历显著的构造隆升及剥蚀过程.基于大陆架科学钻探CSDP-2井的钻井岩心,应用磷灰石裂变径迹技术研究了南黄海中部隆起晚白垩世以来的剥蚀过程及响应特征.所获得的8个磷灰石样品的裂变径迹年龄显示出两个年龄组,除单个样品为38±3 Ma外,其余样品都集中在(52±4)~(65±5)Ma范围内,基本反映了同一期构造热事件年龄,并且均远小于样品所处的二叠纪年龄,表明样品完全退火并记录了晚白垩世以来的热历史.样品热史模拟结果表明,基于泥岩镜质体反射率计算的最高古地温处于样品退火带温区范围内,各样品从晚白垩世早期(约100 Ma)以来经历持续的降温过程,在约80~75 Ma开始进入部分退火带.南黄海中部隆起第一期快速冷却降温过程出现在晚白垩世末期,并持续至古新世早期,随后进入古近纪表现为持续相对缓慢的降温过程,降温幅度约30 ℃,渐新世末期到中新世早期存在另一期快速冷却过程.热史模拟结果较好地指示了南黄海中部隆起晚白垩世以来的地层剥蚀响应特征. 相似文献
16.
From source terrains of the Eastern Alps to the Molasse Basin: Detrital record of non-steady-state exhumation 总被引:2,自引:1,他引:2
Fission-track cooling ages of detrital apatite (AFT) in the East Alpine Molasse Basin display age groups corresponding to geodynamic events in the orogen since Jurassic times. These age groups are typical of certain thermotectonic units, which formed a patchwork in the Swiss and Eastern Alps. By a combination of petrographic and thermochronologic data, progressive erosion of source terrains is monitored in different catchments since the Oligocene. The AFT cooling ages show a decrease in lag time until when rapidly cooled debris derived from tectonically exhumed core complexes became exposed. After termination of tectonic exhumation, lag times of debris derived from the core complexes increased. Neither on the scale of the entire Eastern Alps, or on the scale of individual catchments, steady-state exhumation is observed, due to the highly dynamic changes of exhumation rates since Late Eocene collision. 相似文献
17.
郯庐断裂带对鲁西隆升过程的影响:磷灰石裂变径迹证据 总被引:3,自引:1,他引:2
郯庐断裂带(TLFZ)是一条贯穿华北的NNE向巨型断裂带。新生代以来,在郯庐断裂带的两侧及其内部发生了显著的伸展构造变形,形成了泰安-莱芜-蒙阴NW向断陷盆地群,并使鲁西块体发生了急剧的陆内伸展隆升。本文在前人研究的基础上,分别在鲁西沂山、徂徕山和蒙山三处进行了大量的样品采集,总计完成了25个样品的测试,获得了一系列新的磷灰石裂变径迹(AFT)年代学结果。结合前人已发表的裂变径迹结果,对鲁西地区新生代与伸展变形有关的剥露-隆升作用的时空分布特征、隆升剥露模式及隆升幅度进行分析,并揭示郯庐断裂带在鲁西新生代热隆升过程中的影响。主要认识有:1)新生代以来,鲁西主要经历了始新世-早渐新世和新近纪以来两期快速剥露-隆升阶段。2)始新世-早渐新世主要表现为幕式差异性快速剥露-隆升,鲁西南受NW向断层控制形成向北、向东的掀斜抬升作用,鲁西北受NE向断裂控制,形成向北、向西的掀斜抬升作用。新近纪以来,进入相对低速区域性剥露-隆升阶段。3)AFT模拟显示,与始新世-早渐新世的幕式快速剥露-隆升相比,中新世以来,鲁西剥露-隆升速率相对减小,但剥蚀量剥露-抬升量较大。故鲁西整体抬升于中新世以来。4)结合前人研究成果,新生代以来,鲁西宏观上受郯庐断裂带伸展活动影响,越靠近郯庐断裂带剥蚀量越大,局部受NW或NE向断裂控制。 相似文献
18.
F. Martín-González L. Barbero R. Capote N. Heredia G. Gallastegui 《International Journal of Earth Sciences》2012,101(5):1331-1342
The lateral termination of the Alpine-Pyrenean Orogen relief onshore is located in the NW Iberian Peninsula. It overlies a Variscan basement (Iberian Massif), where the sedimentary record of the Alpine tectonic is very scarce. Thus, the characterisation of the tectonic evolution of the lateral termination is difficult and timing and geometries of the main tectonic structures remain unclear. Combining the tectonothermal histories obtained by modelling of the apatite fission-track data (AFT) with structural mapping allows for a comparative study of the different tectonic scenarios and deformation transfer in the lateral termination of an orogen. AFT ages for the studied area vary from 53.5?±?12.9 and 222?±?12?Ma (from Late Triassic to Early Eocene). The beginning of the Cenozoic cooling episodes is in agreement with the infilling of the Tertiary basins (Late Eocene or Oligocene). Calculated uplift for the Alpine Orogeny is around 2,400?m. The Cantabrian Mountains were uplifted and emplaced southwards and the main period of exhumation began in the Palaeogene at rates of ~0.02?mm/a and continued during the Neogene at rates of ~0.06?mm/a. However, the Galaico-Leoneses Mountains, located to the south of the studied area, were uplifted and emplaced northwards during the Neogene, showing more rapid uplift rates of ~0.08?mm/a, suggesting that the western termination of the Alpine-Pyrenean Orogen relief is the result of the successive interaction of two Alpine deformation fronts. 相似文献
19.
研究区位处华北克拉通中部造山带,在中-新生代经历了多次构造体制与区域构造属性的重大转变。对吕梁山脉中北段古元古代花岗岩体隆升剥露的定量化研究,可以更加整体、直观的认识中部构造带内基底岩石隆升剥露作用,有助于了解华北克拉通演化过程。同时能为周围能源型盆地的形成演化提供佐证,深化对盆地资源赋存条件的认识,从而为资源的开发提供基础证据。通过对研究区古元古代花岗岩体系统的裂变径迹热年代学采样分析,揭示了基底岩石初始隆升剥露作用发生在晚白垩世至新生代早期,主要有两个阶段:白垩世晚期约88~77Ma和新生代早期约65~53Ma。之后,样品处在磷灰石退火带之上,虽有短暂的再次埋藏,但总体一直处在抬升剥露作用下。磷灰石裂变径迹数据和热史模拟表明,不同岩体抬升剥蚀在时空上具有非均衡性,晚白垩世早期,中部关帝山岩体呈穹隆状隆升剥蚀。北部芦芽山岩体和云中山岩体晚白垩世遭受挤压,发生隆褶变形。新生代以来,岩体加速隆升,早期(65~53Ma)是岩体抬升-剥露速率出现转折的关键时期,与东西两侧相邻断陷的发育具成因上的耦合联系,在华北地块中部地区具有区域响应,并可能奠定了现今吕梁山脉中北段的地势发展格局。 相似文献