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1.
临夏盆地位于青藏高原东北边缘,记录了青藏高原隆生过程中的大量构造事件和气候事件。碎屑颗粒磷灰石裂变径迹热年代学方法揭示出临夏盆地记录的2次青藏高原隆升的时间,分别为约14MaBP和约5.4~8.0MaBP。其中,约14MaBP的快速剥露事件可能反映青藏高原北部由于岩石圈对流减薄而发生的地壳增厚、高原隆升事件;约8.0~5.4MaBP的构造活动可能与高原隆升到相当高度后,由于维持其巨大高度和继续调节南北会聚的需要,青藏高原的东北边界向东向北扩展有关,而控制中国大陆强震活动的活动地块构造格架可能于约8.0~5.4MaBP开始形成。 相似文献
2.
根据祁连山北麓季风西北边缘区的河流阶地系列和风成黄土的研究, 重建了该区中更新世以来的构造隆升和气候演化历史. 研究发现, 中更新世以来青藏高原的数次隆升事件与本研究区及其他地区的气候记录有一定的耦合性, 发生于0.83和0.14 Ma的构造事件, 可以分别与0.64 Ma时沙漠的显著扩张及沙漠周期性进退的开始、末次冰期以来中国西北的极端干旱相对应. 这些构造-气候耦合事件可能暗示了构造隆升对气候的驱动, 从而反映青藏高原对东亚季风气候系统的重要影响. 相似文献
3.
青藏高原不同部位低温热年代学记录、沉积记录和构造变形记录揭示出存在60~35,25~17,12~8Ma(藏南17~12Ma)和大约5Ma以来4个主要强构造隆升剥露阶段.除了藏南地区在17~12Ma发生藏南拆离系的活动及其所控制的高喜马拉雅结晶基底岩系的快速抬升剥露这一特殊情况外,青藏高原不同地区主要强构造隆升剥露阶段具有准同时性.几个强隆升剥露阶段对应于几个强构造变形活动时期,反映隆升剥露主要受构造动力控制.新生代以砾岩为代表的粗碎屑物的分布、前陆盆地或走滑拉分盆地的分布及其沉积充填、角度不整合的发育和地层间断缺失,以及受断裂控制的盆山地貌变迁和高原扩展与青藏高原几个强构造抬升剥露阶段也具有良好的匹配关系.本文还讨论了青藏高原作为地表隆升的高原形成过程,揭示高原的形成是随时间演变不断扩展的过程. 相似文献
4.
黄河上游地貌和新生代地层研究表明,30~3.4Ma是一个构造长期稳定、气候炎热和红色盆地广泛发育的时期,形成分布很广的夷平面,即青藏高原的主夷平面,上有风化壳及古岩溶残留。3.4Ma开始,青藏高原整体抬升,主夷平面被分割、解体,盆地中红色碎屑建造强烈变形,开始以扇砾岩为主的内陆磨拉石沉积。其后,在2.5Ma和1.7~1.66Ma相继发生强烈隆升,青藏高原地貌总轮廓形成,黄河现代水系格局出现,总称之为青藏运动(A,B,C三幕)。随后,黄河及其支流发育一系列阶地,记录了青藏高原阶段性隆升及黄河溯源侵蚀的全过程。 相似文献
5.
河西走廊新生代沉积敏感地记录了青藏高原北部的构造隆升过程. 酒泉盆地玉门老君庙剖面高分辨率磁性地层研究表明, 疏勒河组胳塘沟段和牛胳套段的年龄分别为>13~8.3 Ma和8.3~<4.9 Ma, 玉门砾岩、酒泉砾石层和戈壁砾石层的年龄分别为3.66~0.93, 0.84~0.14和0.14~0 Ma. 岩性和岩相变化表明祁连山自约8 Ma起, 6.6 Ma略有加速, 由较低的高度开始逐步隆起, 盆地沉积从细粒的湖相砂岩-泥岩逐步转变成粗粒的洪积扇沉积, 至约3.66 Ma后, 祁连山开始急剧地整体快速隆升, 并经约<2.94~2.58, <1.8~1.23, 0.93~0.84和0.14 Ma多次阶段性快速隆升, 祁连山最终被抬升到今天的高度. 相似文献
6.
始新世是全球气候从"温室"转化为"冰室"的一个重要时期,亚洲内陆在该时期发生了青藏高原隆升、副特提斯海海退等重大地质事件.位于青藏高原东北缘的西宁盆地具有连续完整的始新世河湖相沉积地层,以红色泥岩夹石膏层为主,记录了该时期的气候变化.本研究采用X射线衍射仪(XRD)对西宁盆地西箕沟剖面始新世河湖相沉积样品进行全岩及黏土矿物定性、半定量分析,以获取青藏高原东北缘及亚洲内陆地区始新世时期的古气候变化特征.为了有效解决目前通用的黏土矿物提取方法难以从石膏层中提取足量黏土的问题,引入一种新的黏土矿物提取方法.结果表明,西宁盆地始新世样品中主要矿物为石英、长石、方解石、白云石以及石膏;黏土矿物为伊利石、绿泥石及蒙脱石(含伊蒙混层矿物(I/S)).黏土矿物相对含量变化表明,始新世时期西宁盆地古气候在较为干旱的背景下经历了三次相对湿润的时段:52~50、41.5~39、35~34Ma.通过与同时期的深海氧同位素记录、副特提斯海海侵-海退事件以及青藏高原隆升等进行对比分析发现,西宁盆地始新世古气候主要受控于全球气候变化. 相似文献
7.
通过对黄土高原灵台剖面风尘序列的容重和碳酸盐含量测定, 建立了以灵台剖面为代表的最近7 Ma黄土高原风尘沉积通量变化时间序列. 结果与北太平洋ODP885/886孔风尘通量记录对比表明, 最近7 Ma以来亚洲内陆粉尘源区存有阶段性增强的干旱化趋势和有意义的干湿气候波动. 尤其是3.6~2.6 MaBP时段海陆风尘通量显著增大, 反映了亚洲内陆干燥度的急剧增加, 可能与青藏高原在这一时段的加速隆升阻隔了水汽向亚洲内陆的输送相关. 2.6 MaBP后黄土高原风尘通量的平均值及其变率较其前晚第三纪的平均值和变率显著增加, 与北半球大冰期来临后的全球冰量变化关系密切. 最近0.6 Ma灵台和西北太平洋V21-146孔的风尘记录对比表明, 海陆风尘通量变化在104~105 a时间尺度上基本同步, 与全球冰量变化所诱导的冰期-间冰期气候的大幅度波动相一致. 相似文献
8.
位于青藏高原东北缘的祁连山由一系列平行的山系及其山间盆地相间组成,其新生代山体隆升与盆地演化是关系到青藏高原隆升扩展乃至中国一二级阶梯地势形成的关键问题.本文以祁连山腹地及外围新生代沉积盆地为研究对象,综合考虑区域位置、盆地形成与演化等要素,基于不同盆地区域地层对比,进行动态地层区划,进而恢复祁连山地区构造-沉积演化过程.结果表明,古近纪早期(古-始新世)祁连山地区为一隆起带,南北两侧的柴达木盆地与酒泉盆地以及腹地兰州-西宁盆地独立演化;渐新世青藏高原隆升并向东北方向扩张逆冲,西秦岭北缘贵德-西宁-兰州-临夏压陷盆地形成,祁连山东部地区压陷盆地全面接受沉积,祁连山西部地区的南祁连古隆起与北祁连古隆起之间苏里盆地开始形成并接受沉积.中新世祁连山地区陆内挤压造山与盆地裂解,拉脊山、青海南山、积石山、六盘山等山体相继隆起,将古近纪统一大型压陷盆地分割为贵德、共和、青海湖、西宁、兰州、临夏及天水等盆地,分别归属新近纪贵德-西宁-兰州地层区中各地层分区,疏勒南山隆起将苏里盆地裂解为多个小盆地,同归新近纪苏里地层区.与此同时,南、北祁连开始向外逆冲扩展,柴达木盆地与酒泉盆地范围较古近纪缩小,且在盆地边缘形成次一级沉降中心,分属新近纪柴达木地层区和肃北-酒泉地层区. 相似文献
9.
13 MaBP以来从祁连山剥蚀的物质广泛沉积于酒西盆地南缘, 可划分出5个沉积相组合, 其沉积演化分为4个阶段. 酒西盆地的沉积与高原隆升响应关系揭示出高原自13 MaBP以来先后经历了: 稳定期(>8.26 Ma)、持续逐步较快速隆升期(8.26~<4.96 Ma)和急剧强烈阶段性隆升期(>3.66~0 Ma). 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.
关键词 相似文献
10.
在系统查阅1996~2008年中国地质调查局在青藏高原完成的177幅1:25万地质填图和前人已发表的新生代地层资料的基础上,划分出青藏高原及邻区古近纪-新近纪残留盆地共98个,归属为南疆-西昆仑、柴达木-祁连-西秦岭、羌塘-川西、扬子西缘、冈底斯-喜马拉雅-恒河共5个地层区,进一步细分为13个地层分区.通过对各个地层分区的残留盆地类型、形成构造背景、各分区内的岩石地层序列及其沉积特征、地层接触关系、时代确定依据与沉积演化过程的描述,将青藏高原新生代的隆升及其沉积响应划分为3大阶段、8个亚阶段:一是俯冲碰撞隆升阶段(65~34Ma),含3个亚阶段:(1)65~56Ma:印度与欧亚板块初始碰撞,恒河前陆盆地和成都、塔里木压陷盆地形成.(2)56~45Ma:印度与欧亚板块碰撞高峰期,高原北部柴达木-可可西里-羌塘压陷盆地和东北缘的兰州-西宁压陷盆地形成.(3)45~34Ma:约40Ma左右藏南新特提斯残留海消亡,印度与欧亚板块全面完成碰撞;高原东缘走滑拉分盆地初始发育.约40Ma以来喜马拉雅沉积缺失,标志喜马拉雅初始隆升;约36Ma以来冈底斯带区域不整合面发育,标志冈底斯初始隆升.二是陆内汇聚挤压隆升阶段(34~13Ma),含3个亚阶段:(1)34~25Ma:沿冈底斯分布日贡拉砾岩,是冈底斯持续隆升的产物.高原东北缘出现临夏-循化新的压陷盆地.(2)25~20Ma:沿冈底斯带南缘广布大竹卡组砾岩.可可西里-沱沱河地区角度不整合面发育和盆地内的古近纪地层抬升变形,指示可可西里-沱沱河发生较大幅度隆升.约23Ma时塔里木海相沉积结束,高原及周边不整合面广布,标志高原整体隆升.(3)20~13Ma:高原内及周边大型盆地全面发展,盆内发育持续湖侵充填序列,高原及周边出现最大湖泊扩张期;高原东缘走滑拉分盆地发育进入鼎盛期.三是陆内均衡调整隆升阶段(13Ma以来),含2个亚阶段:(1)13~5Ma:喜马拉雅-冈底斯隆升到相当高度,使该带因东西向伸展而导致南-北向断陷盆地形成;约8Ma左右出现强的构造抬升剥露,8Ma之后高原及邻区大型湖泊进入湖退期.(2)5Ma以来:高原整体隆升;高原内和周缘盆地沉积萎缩.约3.5Ma高原周缘堆积巨砾岩. 相似文献
11.
Two Red Clay profiles near Xi’an and Xifeng were investigated in an attempt to determine magnetostratigraphic and palaeoclimatic
records. The results show that aeolian dust accumulation and the related East Asia palaeomonsoon system had begun by 6.5 Ma,
and it is deduced that the Tibetan Plateau had reached a significant elevation at that time. The late Tertiary palaeoclimatic
history of the Red Clay as reflected by magnetic susceptibility is reconstructed during the period of 6.5–2.5 Ma. Stepwise
increase in susceptibility of aeolian dust accumulation appears to have a close correlation to the uplift processes of the
Tibetan Plateau. The remarkable increase of aeolian dust accumulation at 3.2 Ma appears to be due to the influence of global
ice volume on the East Asia monsoon. Palaeomonsoon variation during the late Tertiary as recorded in the Red Clay sequences
from the Chinese Loess Plateau can be regarded as the product of a number of interacting factors, such as uplift of the Tibetan
Plateau, solar radiation, global ice volume, etc.
Project supported by the National Natural Science Foundation of China and the Foundation of Xi’an Laboratory of Loess and
Quaternary Geology, Chinese Academy of Sciences. 相似文献
12.
This study provides a detailed magnetostratigraphic record of subsidence in the Linxia Basin, documenting a 27 Myr long sedimentary record from the northeastern edge of the Tibetan Plateau. Deposition in the Linxia Basin began at 29 Ma and continued nearly uninterruptedly until 1.7 Ma. Increasing rates of subsidence between 29 and 6 Ma in the Linxia Basin suggest deposition in the foredeep portion of a flexural basin and constrain the timing of shortening in the northeastern margin of the plateau to Late Oligocene–Late Miocene time. By Late Miocene–Early Pliocene time, a decrease in subsidence rates in the Linxia Basin associated with thrust faulting and a 10° clockwise rotation in the basin indicates that the deformation front of the Tibetan plateau had propagated into the currently deforming region northeast of the plateau. 相似文献
13.
Late Cenozoic sediments in the Hexi Corridor, foreland depression of the Qilian Mountain preserved reliable records on the evolution of the Northern Tibetan Plateau. Detailed magnetic polarity dating on a 1150 m section at Wenshushan anticline in the Jiudong Basin, west of Hexi Corridor finds that the ages of the Getanggou Formation, Niugetao Formation and Yumen Conglomerate are >11-8.6 Ma, 8.6-4.5 Ma and 4.5-0.9 Ma respectively. Accompanying sedimentary analysis on the same section suggests that the northern Tibetan Plateau might begin gradual uplift since 8.6-7.6 Ma, earlier than the northeastern Tibetan Plateau but does not suppose that the plateau has reached its maximum elevation at that time. The commencement of the Yumen Conglomerate indicates the intensive tectonic uplift since about 4.5 Ma. 相似文献
14.
兰州地区位于黄土高原和青藏高原的过渡带,其第三纪地层对研究风尘沉积发育和青藏高原隆升都有着特殊的意义.本研究以0.5 m间距对兰州盆地皋兰山剖面240 m的晚第三纪地层进行古地磁样品采集,古地磁样品共计422个;以50 ℃为间隔从室温至500 ℃用热退磁仪和超导磁力仪完成了皋兰山剖面样品的系统热退磁和剩磁测量.结果表明皋兰山剖面上部地层的实测极性柱出现2个负极性大段中间夹着4个正极性小段,其特点与Gilbert时的典型特征完全一致,并且两端未完全出露的正极性分别与Chron2A.3n和Chron3An.1n相对应,最终确定皋兰山剖面的年代为6~3.5 Ma.由此推断,皋兰山剖面顶部的五泉砾岩形成大约开始于3.5 Ma,五泉砾岩底界年代的确定,为青藏高原的A幕运动提供了地质证据.皋兰山剖面深度602 m处出现由河湖相砂岩向以风成红粘土为主常夹有薄层砂岩的地层转变,通过岩性地层及年代的推断,兰州地区的风尘序列堆积发育的年代至少为7 Ma,与黄土高原风尘序列堆积底界8~7 Ma基本一致,说明了兰州地区与黄土高原在风尘序列堆积过程中具有统一性. 相似文献
15.
塔里木盆地的高分辨率沉积记录对于理解青藏高原隆升、亚洲内陆干旱化乃至全球气候变化至关重要.建立可靠的地层年代标尺对于研究塔里木盆地晚新生代沉积环境演化、构造运动及古气候变化具有重要意义.本文对塔里木盆地东北缘库尔勒地区的两个全取心钻孔ZK3(深500 m)、ZK5(深300 m)进行详细的磁性地层学研究,结果表明,ZK3孔中更新统底界为54.8 m,下更新统底界为167.0 m,上新统底界为432.0 m,钻孔底部年龄约为6.2 Ma,属上中新统上部;ZK5孔中更新统底界为64.7 m,下更新统底界为241.5 m,钻孔底部年龄约为3.2 Ma,属上上新统.基于上述磁性地层年代标尺,通过沉积速率分析发现ZK3孔在3.0—3.6 Ma之间沉积速率明显增大,反映了塔里木盆地北部天山在此期间的快速隆升.通过东西部多个盆地地质剖面沉积速率的对比分析发现,这期构造活动在区域上具有准同期活动特征,在时代上与晚中新世以来青藏高原快速隆升的时代一致,可能与青藏高原的隆升扩展效应有关. 相似文献
16.
Ganzi loess represents the oldest Tibetan loess, its formation is the key to determining the readjustment of Tibetan atmospheric circulation and the relationship between Tibetan uplift and global climatic change. Detailed magnetostratigraphic study shows that the Ganzi loess was formed at about 1.13 MaBP. It also reveals that there are two notable climatic events occurring in 0.95–0.92 Ma and 0.65–0.5 Ma respectively. The both demonstrate that the Tibetan atmospheric circulation was readjusted and the Tibetan Plateau entered the cryosphere at 21.13 Ma, and the Tibetan glaciation might reach its maximum at ∼0.65–0.5 Ma. 相似文献
17.
Sediments shed from the northern margin of the Tibetan Plateau, the Qilian Mountains, are widely deposited in the foreland basin, the Jiuxi Basin, archiving plenty of information about the mountain surface uplift and erosion history. The Laojunmiao section, 1960 m thick, representing the upper sequence of the Cenozoic basin sediments, is paleomagnetically dated to about 13-0 Ma BP. Detailed sedimentary study of this sequence has revealed five sedimentary facies associations which determine four stages of sedimentary environment evolution. They are: (I) the half-deep lake system before 12.18 Ma BP, (II) the shallow lake system between 12.18 and 8.26 Ma BP, (III) the fan delta dominated sedimentary system in dry climate between 8.26 and 6.57 Ma BP, and (IV) alluvial fan system since 6.57 Ma BP. The associated mountain erosion and uplift are suggested to have experienced three phases, that is, tectonic stable (13-8.26 Ma BP), gradual uplift (8.26-<4.96 Ma BP), and rapid intermittent uplift (>3.66-0 Ma BP). The uplift at ∼3.66 Ma BP is of great importance in tectonics and geomorphology. Since then, tectonic uplift and mountain building have been accelerated and become strong intermittent. At least three significant tectonic events took place with ages at <1.80-1.23, 0.93-0.84 and 0.14 Ma BP, respectively. Thus, the uplift of the northern Tibetan Plateau is a complex process of multiple phases, unequal speed and irregular movements. 相似文献
18.
伸展正断层下盘的冷却历史记录了主要伸展变形的时间及幅度.太白山位于秦岭北缘,作为伸展正断层的下盘,其新生代伸展隆升冷却历史有助于我们更好地理解渭河盆地的伸展变形时间及其幅度.本文利用磷灰石裂变径迹分析方法对太白山的冷却历史进行了研究.来自太白山总计17个样品的磷灰石裂变径迹数据及热历史模拟揭示出山体经历了始于约48 Ma的小幅度快速抬升冷却阶段,和始于约9.6 Ma的大幅度快速抬升冷却阶段;分别对应平行于秦岭北缘山脉的两阶段伸展变形.始于约48 Ma的伸展变形可能是印度板块与欧亚板块碰撞作用在大陆内部的远场响应,而始于约9.6 Ma的快速伸展变形可能与青藏高原在该时期快速隆升和对外扩展有关. 相似文献
19.
临夏盆地在东亚新生代地层、古气候、古生物研究方面占有举足轻重的地位.本文对盆地东部的郭泥沟剖面进行了详细的岩石磁学和磁组构研究,以揭示从早中新世到早上新世临夏盆地的沉积演化过程.郭泥沟剖面沉积物中的磁性矿物有磁铁矿、磁赤铁矿、赤铁矿和针铁矿,但剩磁载体以磁铁矿和赤铁矿为主.从上庄组和东乡组的褐红色粉砂质粘土到柳树组和何王家组的褐黄色粘土,赤铁矿含量呈现降低的趋势,与沉积物颜色变化一致.郭泥沟剖面沉积物磁组构类型为正常沉积磁组构.结合岩石磁学结果和磁组构参数特征可揭示临夏盆地早中新世-早上新世沉积的演化过程:早中新世上庄组为稳定湖相沉积,古水流方向为NNW,与南北向的大夏河方向一致;中中新世气候发生较明显的干湿波动,形成了东乡组的褐红色湖相粉砂质粘土夹粉砂、砂和青灰色泥灰质粘土条带,古水流方向主要为NNW,沉积过程主要受大夏河控制;中中新世晚期,受青藏高原构造运动影响,沉积相由湖相细粒沉积物转变为虎家梁组河流相砂砾层;同时,盆地的水动力条件也发生改变,晚中新世柳树组湖相沉积过程同时受南北向大夏河和东西向洮河控制,两个方向近垂直的河流共同作用导致柳树组内沉积各向异性度较低,面理和线理均不发育,磁化率最大轴偏角分布比较分散,磁组构确定的古流向为东西向和南北向;早上新世期间,由于受青藏高原隆升影响,沉积了何王家组下部的河流相砂砾层;受构造抬升影响,大夏河重新主导何王家组上部洪泛平原相沉积过程,水动力条件较为单一稳定,古流向主要为N向,与大夏河流向一致. 相似文献
20.
Two events of Tibet uplifting are revealed by detrital apatite fission track (AFT) age data from Linxia Basin. They occurred at about 14 and 5.4-8.0 MaBP respectively. We interpret the first one to be related to the uplifting of the northern Tibet, which might have resulted from convectively removing the thickened lower lithosphere. The second one is a result of Laji Mountain uplifting. Numerous studies of the Tibetan Plateau suggest that the onset time of the deformation in the northeastern margin of Tibetan Plateau and the time of Tibet attaining to its present elevation is about 8 MaBP. They are approximately coincident with the uplift of Lajishan Mountain. It suggests that the northeastern margin of Tibet propagated northeastwardly to its present site in about 8 MaBP for accommodating the sustained convergence between India-Eurasia plate and for keeping its high elevation. The active block pattern dominating the strong earthquake distribution of Chinese continent probably formed at about 8.0-5.4 MaBP. 相似文献
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