青藏高原循化、临夏和贵德盆地新近纪沉积充填 速率演化及其对构造隆升的响应   总被引：4，自引：1，他引：3  

徐增连  骆满生  张克信  季军良  张键钰  徐亚东  林晓 《地质通报》2013,32(1):93-104

通过对青藏高原东北部循化盆地、临夏盆地和贵德盆地沉积相和沉积充填速率演化的对比分析,提出研究区新生代4个构造隆升阶段。①渐新世晚期—中新世早期(25～20Ma),3个盆地沉积相和沉积速率的变化表明青藏高原新生代向北东的增生作用在渐新世已抵达西秦岭北缘地区,同时,22Ma拉脊山强烈隆升,区域上整体地势差异不显著。②中新世中期(17～13Ma),随着高原东北缘盆山耦合的相互作用,湖盆进一步扩张,14Ma左右积石山的隆起及西秦岭、拉脊山的持续隆升,使得研究区转变为盆地周缘型。③中新世晚期(11～6Ma),8Ma左右沉积相的转变、沉积速率的增大及不整合面的存在,都说明高原在该段时间内存在强烈的构造隆升活动,裂变径迹热年代学证据反映的构造隆升与沉积响应也是一致的。④上新世(5Ma以来),沉积速率继续增大,区域上地势差异增强,湖盆逐步萎缩消亡。  相似文献   

青藏高原东北部阶段性变形隆升：西宁、贵德盆地高精度磁性地层和盆地演化记录   总被引：25，自引：1，他引：25  

方小敏  宋春晖  戴霜  朱迎堂  高军平  张伟林 《地学前缘》2007,14(1):230-242

青藏高原东北部的形成演化是检验高原隆升模型及其驱动季风-干旱环境形成假说的关键。青海贵德和西宁盆地新生代高精度磁性地层和盆地演化揭示出贵德和西宁盆地在早新生代两个盆地曾经为一个统一的、发育于东昆仑山前的弱挤压型陆内挠曲盆地或前陆盆地,可能包括兰州盆地、循化-化隆盆地和祁连山东部一些盆地在内的周边地区都向这个统一的盆地内注入水流和沉积物质,在西宁一带形成汇水中心,并在当时为行星风系的亚热带副高压带作用下形成巨厚的膏盐层。从约21Ma的中新世早期开始,前陆盆地挠曲下沉明显加剧,盆地早期地层被挤压变形,形成盆地中最显著的角度不整合,推测分隔贵德盆地东部的海宴—泽库右旋断裂强烈活动,分隔贵德和西宁盆地的拉脊山东部开始隆升,贵德盆地河流水系由北转向西流,至中中新世,隆升可能席卷整个拉脊山,贵德盆地水系明显南流,盆地挤压中心由早先的昆仑山前转移至拉脊山两侧。从约8Ma开始,拉脊山开始强烈阶段性幕式(3.6、2.6及1.8Ma)变形隆升,导致两侧断层以花状向盆地中心逐步扩展,断裂、掀斜和褶皱地层,盆地转变成山间盆地,并在约1.8Ma的强烈变形隆升后,黄河出现,紧接着形成上千米深切河谷和7级阶地,高原东北部现今构造地貌沉积格局最终形成。上述盆地形成演化过程总体揭示出印度板块碰撞早期最远端的高原东北部就已经开始变形隆升响应,这个过程阶段性由弱至强,至8Ma以来达到最大,反映了高原南北的同步变形隆升但幅度不同的动力学过程与形成模式,可能指示了脆性上地壳块体间柔性变形、块体内刚性挤压破裂变形和塑性下地壳连续变形增厚与流动的共同作用机制。  相似文献   

循化-化隆盆地晚白垩世以来盆山耦合过程: 来自物源与磷灰石裂变径迹年代学分析的证据     

张远泽  王国灿  王岸  张克信 《地球科学》2013,38(4):725-744

循化-化隆盆地新生代沉积及盆地基底和周缘山系磷灰石裂变径迹年代学分析揭示了青藏高原东北缘晚白垩世以来经历过3期隆升剥露事件: (1)盆地基底及拉脊山和西秦岭北缘构造带磷灰石裂变径迹年龄分析普遍记录了晚白垩世-始新世中期相对快速的区域性的隆升剥露事件, 西秦岭北缘快速抬升的起始时间为84Ma, 受控于向北的逆冲抬升; 向北到循化-化隆盆地中部的拉目峡抬升的起始时间为69Ma; 更北的拉脊山一带快速抬升期主要为40~50Ma, 从而反映晚白垩世-始新世中期的快速抬升由南向北逐渐扩展.这一期构造隆升事件导致循化-化隆盆地和临夏盆地缺失了北部西宁-民和盆地古近纪所具有的西宁群沉积.隆升剥露结束于31Ma左右, 此时化隆-循化盆地向东与同时期的临夏盆地相连为一个统一的大型西秦岭山前盆地, 两者具有相同的构造、沉积演化史, 因此循化-化隆盆地他拉组底部地层年龄最老不会超过临夏盆地最老地层的古地磁年龄, 即29Ma.(2)渐新世晚期约26Ma拉脊山开始双向逆冲隆升, 并可能延续到中新世早期约21Ma, 隆升作用使循化-化隆盆地成为挟持于拉脊山逆冲带和西秦岭构造带之间的山前挤压型前陆盆地, 循化-化隆盆地开始大规模沉积巨厚的他拉组冲积扇相粗碎屑岩.(3)通过循化-化隆盆地咸水河组和临夏组的沉积相分析、古流方向和砾石成分分析, 揭示出拉脊山构造带在中新世8Ma左右发生的最大规模的双向逆冲隆升事件, 这次事件直接导致循化-化隆盆地由前陆挤压盆地转变为山间盆地, 形成现今青藏高原东北缘的盆山地貌基本格局.   相似文献   

青藏高原东北部新近纪古流向与物源分布对隆升的响应     

杨永锋  张克信  徐亚东  宋博文  张楗钰  骆满生  季军良  陈奋宁  陈锐明 《地质学报》2013,87(6):797-813

通过对青藏高原东北部11个新近纪沉积盆地的沉积相演化、古流向和物源演变的详细对比研究,揭示了研究区新近纪4次沉积演变与构造隆升的响应.①中新世早期(23～19.5Ma):阿牙克库木湖、柴达木、德令哈和酒泉盆地的古流向和物源分析表明东昆仑和阿尔金已经抬升成剥蚀区.循化、贵德和临夏等盆地物源和古流向指示西秦岭和拉脊山也已成为隆起区.区域上整体地势差异不显著.②中新世早中期(17.5～15Ma):区域湖盆面积扩大,阿牙克库木湖、索尔库里、柴达木和酒泉盆地的资料反映东昆仑、阿尔金和祁连山已经全面隆升,贵德循化、临夏盆地的古流向反映为盆地周缘型,指示西秦岭和拉脊山明显抬升,区域差异隆升造成盆地凹陷扩张进入湖泛期.③中新世中晚期(10～7Ma):阿牙克库木湖、索尔库里、柴达木和酒泉盆地沉积物的粒径和沉积速率增大,与热年代学证据一致,揭示出阿尔金山和祁连山进一步快速隆升.贵德、循化和临夏盆地古流向和物源反映为显著的多源性,除西秦岭和拉脊山外,位于循化和临夏两盆地间的积石山也开始隆起.④上新世(5.3Ma以来):索尔库里、柴达木和酒泉盆地古流向没有明显变化,沉积速率和粒径继续增大,阿尔金和祁连山加速隆升为高海拔地貌.贵德盆地主物源区是拉脊山.区域上,地势差异加强,湖盆被肢解后逐步萎缩消亡.  相似文献   

青藏高原东北缘何时卷入现今青藏高原构造系统?——来自西秦岭北缘漳县盆地新生代沉积记录的约束     

郭进京  赵海涛  刘重庆  吴彦旺 《地学前缘》2021,28(5):337-361

新生代以来印度-欧亚板块持续碰撞汇聚形成号称世界第三极的青藏高原。青藏高原的扩展生长和构造变形系统形成的动力学过程是地球科学研究的重大科学问题。青藏高原东北缘新生代以来构造演化过程及其与印度-欧亚板块碰撞汇聚的动力学耦合关系研究对于揭示青藏高原扩展生长过程具有重要地质意义。尽管前人已经开展了大量研究探索,提出各种构造-隆升模型,但青藏高原东北缘何时卷入印度-欧亚碰撞汇聚的青藏高原构造系统尚未达成共识。作为青藏高原东北缘组成部分的西秦岭北缘构造带漳县地区不仅新生代地层记录齐全,而且断裂构造发育,构造变形现象丰富,是研究青藏高原东北缘新生代构造演化及印度-欧亚碰撞汇聚远程构造响应的良好区域。通过对西秦岭北缘构造带漳县地区新生代沉积盆地地层构造格架、沉积地层序列和沉积旋回等详细野外观测研究,结合区域断裂带几何学-运动学及变形历史分析,取得如下认识:(1)西秦岭北缘漳县地区新生代沉积地层主要由为不整合分隔的两套构造性质完全不同的构造地层单元组成,即渐新世—中新世伸展断陷盆地沉积和上新世再生前陆磨拉石盆地沉积;(2)渐新世—中新世时期的地壳伸展拉张构造环境与印度-欧亚碰撞汇聚的挤压环境相悖,指示了西秦岭北缘在渐新世—中新世尚未卷入现今的印度-欧亚碰撞汇聚构造系统;(3)上新世磨拉石盆地的发育标志着西秦岭北缘构造带从伸展到挤压的构造体制转换,可能指示了印度-欧亚碰撞汇聚的挤压构造作用这时才波及西秦岭北缘;(4)上新世粗砾岩、西秦岭造山带地层和中生代沉积地层共同经历了抬升剥蚀作用,形成了西秦岭北缘广泛发育的夷平面。第四纪以来夷平面的抬升和解体、现代河流侵蚀系统和多级河流阶地的出现,指示了青藏高原东北缘整体的不均匀大规模抬升而进入现今青藏高原构造系统。  相似文献   

剑川-兰坪盆地古近纪沉积-构造变革及其区域构造意义     

沈青强  曹凯  王国灿  徐亚东  张克信 《大地构造与成矿学》2017,41(1)

滇西新生代兰坪盆地和剑川盆地分别位于哀牢山–红河断裂带两侧,青藏高原东构造结内,其沉积过程和构造变形对青藏高原东南缘的构造演化有重要的启示意义。通过对这两个盆地古近纪沉积和构造过程的研究,我们发现兰坪盆地和剑川盆地及邻区的构造变形分为三期:始新世早期的强烈挤压变形、始新世中晚期的伸展变形、渐新世的走滑变形。始新世早期的挤压变形主要表现为兰坪地区的褶皱–冲断系统、哀牢山-红河断裂的逆冲活动和剑川盆地的宽缓褶皱。沉积方面,古新统勐野井组(E_1m)较为稳定的细粒滨湖相沉积转变为始新统宝相寺组(E_2b)较粗的具有前陆盆地性质的河流相沉积,特别是宝相寺组底部发育的一套快速堆积的磨拉石建造,可能是对始新世强烈挤压环境下的沉积响应。始新世中晚期伸展变形体现在盆地的构造环境由早期的挤压环境变为伸展环境和该时期大量富钾岩体和岩脉的侵入,沉积学上,下始新统宝相寺组的河流相转变为中始新统金丝厂组(E_2j)具有快速堆积磨拉石特征的曲流河沉积,极可能是对构造体制变革的沉积响应。渐新世的走滑变形则体现在渐新统的缺失和哀牢山–红河断裂的早期左行走滑。因此,我们认为剑川–兰坪地区在始新世中期和渐新世均发生了显著的运动学转换,这一认识也得到了始新世中期兰坪和剑川盆地物源明显变化的支持。结合青藏高原东南部始新世中晚期岩浆的活动,渐新世大型剪切带(崇山剪切带、高黎贡剪切带)的强烈走滑和保山块体的旋转,我们推测青藏高原东南缘古近纪的构造演化为古新世-始新世早期的挤压、始新世中晚期的伸展、渐新世的转换压缩。  相似文献   

西秦岭北缘一个新生代伸展型角度不整合及其地质意义     

郭进京  张琛  吉夏  赵海涛  刘重庆  陆宏宇  王凯旋 《地质通报》2018,37(10):1831-1841

通过对西秦岭北缘漳县地区渐新统—中新统含盐红层地层与下伏造山带地层之间的角度不整合及其之上的砾岩、地层序列、沉积旋回等特征研究,提出了该角度不整合为伸展型角度不整合的认识。该伸展型角度不整合的存在指示了西秦岭北缘漳县渐新统—中新统含盐红层盆地具有伸展断陷盆地的属性,意味着在渐新世—中新世漳县含盐盆地形成和沉积充填时期,青藏高原东北缘(至少西秦岭北缘)一直处于伸展构造环境。这与印度板块与欧亚板块碰撞汇聚动力学作用向东北缘扩展形成的以挤压缩短和隆升为主的构造环境不协调,也就是说,青藏高原东北缘在渐新世—中新世可能尚未卷入现今青藏高原构造系统。  相似文献   

青藏高原东北部贵德盆地新生代沉积演化与构造隆升   总被引：25，自引：0，他引：25  

宋春晖  方小敏  高军平  孙东  范马洁 《沉积学报》2001,19(4):493-500

通过对高原东北部贵德盆地新生代地层研究,为恢复高原隆升历史提供依据。贵德盆地形成于渐新世末,其新生代地层可划分出深水砾砂质网状河流、泥石流质网状河流、砾质网状河流、山麓洪积、三角洲、半深湖与浅湖、水下扇三角洲七个沉积相组合体系。根据其沉积相组合和沉积演化揭示出高原隆升过程先后经历了:早期隆升期 (渐新世末 )、较稳定剥蚀夷平期 (早中新世 )、小幅隆升期 (早中新世末 )、稳定剥蚀夷平期 (中中新世至晚中新世 )、持续逐步较快速隆升期 (8.2～ 3.6Ma)、急剧强烈阶段性隆升期 (3.6～ 0Ma) ;其中 3.6Ma±的隆升是新生代构造运动的一个重要分水岭,此前盆地海拔应不超过 10 0 0m,此后构造活动速度明显加速,地形高差显著增大。可见青藏高原的隆升是一个多阶段、不等速和非均变的复杂过程  相似文献   

西秦岭北缘漳县新生代伸展断陷盆地确定及其地质意义     

《地学前缘》2017,(5):230-244

西秦岭北缘断裂带新生代以来挤压逆冲变形起始于何时?挤压逆冲变形之前是否经历过伸展拉张过程?北缘断裂带北侧的新生代红层盆地到底是类前陆压陷挠曲盆地还是拉张断陷盆地?上述问题对西秦岭新生代盆-山构造格局重建和印度-欧亚板块碰撞汇聚的远程构造响应的时间与方式等科学问题的认识具有重要的地质约束。本文通过对西秦岭北缘构造带内漳县渐新世—中新世含盐红层盆地沉积序列和沉积旋回特征以及盆地边界断裂之间的几何学-运动学关系分析,认为西秦岭北缘构造带内漳县含盐红层盆地具有拉张伸展动力学背景下形成的断陷盆地的地质特征。西秦岭北缘构造带内渐新世—中新世断陷盆地的确定,指示了印度板块与欧亚板块碰撞汇聚而导致的青藏高原构造挤压缩短作用至少在盆地沉积充填阶段尚未扩展到西秦岭北缘及以北地区。而漳县含盐红层盆地沉积地层褶皱缩短变形以及之后角度不整合在漳县含盐红层盆地之的上新统韩家沟粗砾岩,可能记录了西秦岭北缘由伸展边界向挤压缩短逆冲边界的转换过程。因此,青藏高原东北缘真正成为青藏高原体系组成部分是在上新世的漳县含盐红层盆地封闭-构造反转之后。这一认识对地学界长期以来认为印度板块与欧亚板块碰撞汇聚而导致的高原隆升和构造挤压早在渐新世就已经波及西秦岭北缘的观点提出了挑战。  相似文献   

青藏高原北部新生代构造演化在柴达木盆地中的沉积记录     

关平  简星 《沉积学报》2013,31(5):824-833

青藏高原形成和演化过程中经历的构造活动,在高原的盆地中均有相应的沉积记录。柴达木盆地位于青藏高原北部,盆地新生界地层详细地记录了这些构造-沉积响应。对野外剖面和钻井岩心的新生界沉积物进行了多方面研究,其结果显示,柴达木盆地保存了青藏高原北部三个阶段的构造活动信息:①E₁₊₂的红色粗碎屑沉积物指示了始新世早期的强烈活动构造背景,沉积记录具有低ZTR指数和低重矿物稳定指数的特征,记录了全盆地范围内的造山活动和构造隆升事件,是印度-欧亚板块碰撞所致的远程响应。在这次广泛的大面积的造山活动后,区内迅速遭受剥蚀、夷平,自中-晚始新世时期起,接受沉积。因而此时柴达木盆地与可可西里盆地、乃至塔里木盆地为连通的湖盆体系。②阿尔金山前N₁和N₂1的粗碎屑沉积物记录了渐新世-早中新世阿尔金山的构造隆升事件,而柴北缘和柴西南的大范围三角洲-湖泊细粒沉积物,具有较高的重矿物稳定指数,反映了平静的构造背景,与阿尔金断裂快速走滑以及盆地总体稳定向北推移的时间相对应。大量的侧向走滑活动消减了来自印度板块的挤压应力,使得柴北缘和柴西南的沉积源区（即祁连山和东昆仑造山带）处于构造平静期。③中中新世以来全盆地向上变粗的粗碎屑沉积物,具有较低的重矿物稳定指数,记录了青藏高原北部整体强烈的地壳缩短、加厚和快速构造隆升事件。此外,综合物源分析显示,柴达木盆地新生代沉积源区性质随时间并没有发生明显的改变。  相似文献   

Facies analysis and depositional systems of Cenozoic sediments in the Hoh Xil basin, northern Tibet   总被引：12，自引：0，他引：12  

Zhifei Liu  Chengshan Wang 《Sedimentary Geology》2001,140(3-4):251-270

A sedimentary succession more than 5800 m thick, including the Lower Eocene to Lower Oligocene Fenghuoshan Group, the Lower Oligocene Yaxicuo Group, and the Lower Miocene Wudaoliang Group, is widely distributed in the Hoh Xil piggyback basin, the largest Cenozoic sedimentary basin in the hinterland of the Tibetan plateau. The strata of the Fenghuoshan and Yaxicuo groups have undergone strong deformation, whereas only minor tilting has occurred in the Wudaoliang Group. We analyze their sedimentary facies and depositional systems to help characterize continental collision and early uplift of the Tibetan plateau. The results indicate fluvial, lacustrine, and fan-delta facies for the Fenghuoshan Group, fluvial and lacustrine facies for the Yaxicuo Group, and lacustrine facies for the Wudaoliang Group. Development of the Hoh Xil basin underwent three stages: (1) the Fenghuoshan Group was deposited mainly in the Fenghuoshan-Hantaishan sub-basin between 56.0 and 31.8 Ma ago; (2) the Yaxicuo Group was deposited mainly in the Wudaoliang and Zhuolai Lake sub-basins between 31.8 and 30.0 Ma ago; and (3) the Wudaoliang Group was deposited throughout the entire Hoh Xil basin during the Early Miocene. The Fenghuoshan and Yaxicuo groups were deposited in piggyback basins during the Early Eocene to Early Oligocene, whereas the Wudaoliang Group was deposited in a relatively stable large lake. The Hoh Xil basin underwent two periods of strong north–south shortening, which could have been produced by the collision between India and Asia and the early uplift of the Tibetan plateau. The study suggests the Hoh Xil region could reach a high elevation during the Late Oligocene and the diachronous uplift history for the Tibetan plateau from east to west.  相似文献   

Sedimentary characteristics of Cenozoic strata in central-southern Ningxia,NW China: Implications for the evolution of the NE Qinghai–Tibetan Plateau     

《Journal of Asian Earth Sciences》2011,40(6):740-759

Cenozoic sedimentary deposits in central-southern Ningxia province, NW China are an important record of Tertiary tectonic events along the evolving Qinghai–Tibetan Plateau’s northeast margin. Shortly after the onset of the Indo-Eurasia collision to the south, a thrust belt and adjoining foreland basin began to form during 40–30 Ma. The Eocene Sikouzi Formation developed in a distal setting to this basin, in normal fault-bound basins that may have formed in a forebulge setting. Subsequent deposition of the Oligocene Qingshuiying Formation occurred during a phase of apparently less intense tectonism and the previous underfilled foreland basin became overfilled. During the Early Miocene, contractional deformation was mainly distributed to the west of the Liupan Shan. This resulted in deformation of the Qingshuiying Formation as indicated by an unconformity with the overlying Miocene Hongliugou Formation. The unconformity occurs proximal to the Haiyuan Fault suggesting that the Haiyuan Fault may have begun movement in the Early Miocene. In the Late Miocene, thrusting occurred west of the southern Helan Shan and an unconformity developed between the Hongliugou and Qingshuiying Formations proximal to the the Cha-Gu Fault. Relationships between the Miocene stratigraphy and major faults in the region imply that during the Late Miocene the deformation front of the Qinghai–Tibetan Plateau had migrated to the Cha-Gu Fault along the western Ordos Margin, and the Xiang Shan was uplifted. Central-southern Ningxia was then incorporated into the northeast propagating thrust wedge. The driving force for NE propagation of the thrust wedge was most likely pronounced uplift of the northeastern plateau at the same time. Analysis of the sedimentary record coupled with consideration of the topographic evolution of the region suggests that the evolving fold-and-thrust belt experienced both forward-breaking fold-and-thrust belt development, and out-of-sequence fault displacements as the thrust wedge evolved and the foreland basin became compartmentalised. The documented sedimentary facies and structural relationship also place constraints on the Miocene-Recent evolution of the Yellow River and its tributaries.  相似文献   

CENOZOIC SEDIMENTARY SEQUENCE IN THE KUMUKULI BASIN, XINJIANG AND NEW EVIDENCE ON LATE QUATERNARY UPLIFT OF THE QINGHAI—TIBETAN PLATEAU     

Zhang Yunxiang  Che Zicheng  Liu Liang 《地学前缘》2000,(Z1)

CENOZOIC SEDIMENTARY SEQUENCE IN THE KUMUKULI BASIN, XINJIANG AND NEW EVIDENCE ON LATE QUATERNARY UPLIFT OF THE QINGHAI—TIBETAN PLATEAU  相似文献   

青藏东北缘早第三纪盆地充填的沉积型式及构造背景--以囊谦和下拉秀盆地为例   总被引：15，自引：0，他引：15  

周江羽  王江海  尹安  Spurlin M S  Horton B K 《沉积学报》2002,20(1):85-91

一系列中小型早第三纪红色盆地出露于青藏高原的东北缘,它们是在印度-欧亚板块碰撞过程中因陆壳变形和高原隆升产生的。典型早第三纪盆地的地质填图和详细的沉积学研究,及构造、沉积和岩浆热事件的综合分析表明,这些盆地具有两阶段构造-沉积特征,即早期受控于逆冲挤压背景,盆地接受底部冲积扇体系的粗碎屑岩段沉积,局部伴有岩浆活动;晚期受控于走滑-拉分背景,盆地充填湖泊-三角洲体系的含膏砂泥岩段夹薄层灰岩,并伴有广泛的岩浆作用。青藏东北缘早第三纪盆地在盆地构造格架、沉积层序结构、沉积物组成和岩浆活动等方面均存在明显的阶段性演化。盆地古水流统计和岩浆岩4 0 Ar/ 3 9Ar定年结果表明,青藏东北缘早第三纪盆地沉积物主要形成于始新世晚期-渐新世早期 (38～ 2 9Ma)。盆地沉积型式和岩浆活动受印度-欧亚板块碰撞早期逆冲挤压和走滑-拉分构造格局的控制。  相似文献   

Regional provenance from southwestern Colombia fore‐arc and intra‐arc basins: implications for Middle to Late Miocene orogeny in the Northern Andes          下载免费PDF全文

Sebastián Echeverri  Agustín Cardona  Andrés Pardo  Gaspar Monsalve  Victor A. Valencia  Carlos Borrero  Sebastián Rosero  Sergio López 《地学学报》2015,27(5):356-363

Andean orogenic processes controlled the spatial and temporal distribution of the magmatic and sedimentary record. This contribution integrates new U/Pb zircon ages, heavy mineral analyses and biostratigraphic constraints from the Neogene sedimentary record of the fore‐arc and intra‐arc basins and volcano‐plutonic rocks of southwestern Colombia, to reconstruct these orogenic processes. The results reveal continuous arc magmatism since the Late Oligocene, with a major post‐Middle Miocene magmatic peak and exhumation. When integrated with other geological constraints, the tectonic evolution of the margin includes Eocene‐Oligocene oblique convergence with limited magmatic activity, followed by the initiation of a Late Oligocene‐Early Miocene arc that migrated to the east in the Middle Miocene, when it experienced a major increase in magmatic activity, crustal deformation, exhumation and thickening. This orogenic evolution is related to the shallowing of the slab dip due to the subduction of the Neogene Nazca Plate.  相似文献   

Stages in the Magura Basin: a case study of the Polish sector (Western Carpathians)     

《Geodinamica Acta》2013,26(1-3):83-100

The Magura Basin domain developed in its initial stage as a Jurassic-Early Cretaceous rifted passive margin that faced the eastern parts of the oceanic Alpine Tethys. In the pre- and syn-orogenic evolution of the Magura Basin the following prominent periods can be distinguished: Middle Jurassic-Early Cretaceous syn-rift opening of basins (1) followed by Early Cretaceous post-rift thermal subsidence (2), latest Cretaceous–Paleocene syn-collisional inversion (3), Late Paleocene to Middle Eocene flexural subsidence (4) and Late Eocene - Early Miocene synorogenic closing of the basin (5). The driving forces of tectonic subsidence of the basin were syn-rift and thermal post-rift processes, as well as tectonic loads related to the emplacement of accretionary wedge. This process was initiated at the end of the Paleocene at the Pieniny Klippen Belt (PKB)/Magura Basin boundary and was completed during Late Oligocene in the northern part of the Magura Basin. During Early Miocene the Magura Basin was finally folded, thrusted and uplifted as the Magura Nappe.  相似文献   

The Sedimentary Record in Northern Qaidam Basin and its Response to the Uplift of the South Qilian Mountain at around 30 Ma     

SONG Bowen  ZHANG Kexin  CHEN Ruiming  WANG Chaowen  LUO Mansheng ZHANG Jianyu  JIANG Shangsong 《《地质学报》英文版》2013,87(2):528-539

The thick, Eocene to Pliocene, sedimentary sequence in Qaidam Basin at the northern margin of the Tibetan Plateau records the surface uplift history of the northeastern Tibetan plateau. In this study, we present detailed geochemistry, heavy mineral, and clay mineralogy data of the well preserved sedimentary record in the Dahongou section in the northeast of the Qaidam Basin. The results suggest that the sedimentary sequence recorded a 30 Ma young uplift/unroofing event in the northern edge of the Qaidam Basin, which is characterized by high ZTR index value and chlorite content, and low CIW`. The results are consistent with previous sedimentological studies of the Qaidam Basin, which indicated rapid increase of the accumulation rates around 30 Ma. Based on past thermochronological data from the mountains around the Qaidam Basin and the accumulation rates of the Cenozoic basins in the northeastern Tibetan Plateau, we infer a regional uplift and denudation event along the northeastern Tibetan Plateau during early Oligocene (～30 Ma), indicating that the Tibetan Plateau had expanded north-eastward of the study area at that time.  相似文献