滇西临沧花岗岩基冷却的热年代学分析

为利用热年代学方法重建临沧花岗岩基的冷却历史,测定了6块花岗岩样品的锆石U-Pb年龄、黑云母Rb-Sr等时线年龄、黑云母和钾长石的~(40)Ar/~(39)Ar年龄以及锆石和磷灰石的裂变径迹数据。分析表明,自结晶以来,岩基主体经历了较复杂的热演化,在两个基本阶段即早期快速冷却阶段和晚期缓慢冷却阶段上叠加了短周期的热扰动,从中—晚三叠世到早侏罗世末,冷却速率可以达到6℃～13℃/Ma,中侏罗世冷却缓慢,晚侏罗世到早白垩世早期,岩基快速冷却,平均速率达到5℃/Ma,早白垩世晚期到喜山运动前,为缓慢冷却阶段,平均速率仅为0．5℃/Ma,喜山运动后,受印藏碰撞的影响,岩基经历了两期冷却事件,早期冷却速率为5℃～10℃/Ma,晚期即5Ma以来冷却速率明显增大,特别是近3Ma以来的冷却速率达到16℃～20℃/Ma；早白垩世侵入的岩体(如样品S57),在侵入后快速冷却,晚白垩世以后与岩基主体同步冷却；宕基东倒糜棱岩带不是形成于150Ma,而可能是早期陆陆碰撞造山时推覆冲断的产物；自晚白垩世以来,岩基地区的总剥蚀厚度可达5000m左右,其中印藏碰撞引起的剥蚀可达3500m左右。     

青川鹰咀山花岗岩体侵位与山脉隆升

运用磷灰石裂变径迹法对鹰咀山花岗岩进行了分析,所取样品的裂变径迹年龄位于50.6~69.6Ma之间,小于其地层时代或侵入年龄,表明摩天岭推覆构造带的隆升开始于晚白垩世,用磷灰石裂变径迹年龄来计算可知:研究区内花岗岩50.6Ma以来的冷却速率和剥蚀速率分别为2.08℃/Ma和0.063mm/a,50.6~69.6Ma之间的相对抬升与剥蚀速率为0.013mm/a,因此说明摩天岭推覆构造带从晚白垩世以来一直处于持续隆升冷却的过程。     

青川鹰咀山花岗岩体侵位与山脉隆升

运用磷灰石裂变径迹法对鹰咀山花岗岩进行了分析,所取样品的裂变径迹年龄位于50.6⁶9.6Ma之间,小于其地层时代或侵入年龄,表明摩天岭推覆构造带的隆升开始于晚白垩世,用磷灰石裂变径迹年龄来计算可知:研究区内花岗岩50.6Ma以来的冷却速率和剥蚀速率分别为2.08℃/Ma和0.063mm/a,50.669.6Ma之间,小于其地层时代或侵入年龄,表明摩天岭推覆构造带的隆升开始于晚白垩世,用磷灰石裂变径迹年龄来计算可知:研究区内花岗岩50.6Ma以来的冷却速率和剥蚀速率分别为2.08℃/Ma和0.063mm/a,50.6⁶9.6Ma之间的相对抬升与剥蚀速率为0.013mm/a,因此说明摩天岭推覆构造带从晚白垩世以来一直处于持续隆升冷却的过程。     

四川盆地东部构造-热演化:来自镜质体反射率和磷灰石裂变径迹的约束

利用镜质体反射率(Ro)和磷灰石裂变径迹(AFT)数据,对四川盆地东部不同地区的古地温梯度、古热流、剥蚀量进行了研究。AFT模拟结果表明,四川盆地东部在晚白垩世早期(100~80 Ma)开始抬升,抬升剥蚀过程具有一定的阶段性且不同地区存在差异:以约30 Ma为界,重庆北碚地区表现为两期冷却,先期冷却缓慢,后期冷却迅速;川东北持续的冷却过程虽有波动但冷却速率差别较小。依据重建的最高古地温剖面恢复了侏罗系顶部不整合面的剥蚀量,川东北普光地区剥蚀量在2.45~2.85km,鄂西渝东地区齐岳山复背斜北部剥蚀量较大,达3.65km,齐岳山复背斜南部剥蚀量2.67km,川东南地区剥蚀量2.05km。研究区的构造热演化表现为既存在抬升剥蚀又存在盆地冷却效应的双重作用:由三叠纪至今,研究区地温梯度和热流持续降低,地温梯度由30~38℃/km降低至20~23℃/km;热流由70~85mW/m2降低至50~55mW/m2。     

黔中隆起金沙地区中新生代隆升剥蚀的裂变径迹分析

对贵州金沙地区取样进行了裂变径迹热史模拟,结合地质分析再现了黔中隆起的沉降和隆升剥蚀作用过程。该地区经历了180～70Ma时期的沉降埋藏增温和70Ma之后的剥蚀冷却降温两大阶段。沉降阶段的增温速率为0.909℃/Ma,对应的T3—K的沉积厚度约为4550m。冷却降温曲线分为三段:70～15Ma,样品温度从120℃降低到60℃,冷却速率为1.09℃/Ma;15～5Ma为一个"平台"期,样品温度维持在60℃左右;5Ma至今,样品温度从60℃快速冷却至20℃,冷却速率达8℃/Ma,这与喜马拉雅期云贵高原的整体隆升和晚期快速崛起相对应。计算表明,晚白垩世以来的隆升剥蚀量达2800m左右。     

藏北改则康托盆地逆冲推覆构造磷灰石裂变径迹年代学制约

对采自羌塘地块南部改则地区康托盆地的碎屑岩及火山岩进行磷灰石裂变径迹年代学测试及AFT热历史模拟,获得77±6Ma、62±5Ma、44±3Ma、35±2Ma四组磷灰石裂变径迹年龄,平均径迹长度介于11.6±2.0~13.3±1.9μm之间。AFT热历史模拟结果指示,研究区自晚白垩世至现今主要历经了3次构造抬升冷却过程:晚白垩世(100~65Ma)快速隆升剥蚀阶段,其降温速率和隆升速率分别为1.46~4.26℃/Ma、0.05~0.14mm/a,该事件为新特提斯洋洋壳沿雅鲁藏布江俯冲作用的响应;始新世中期(50~35Ma)快速隆升剥蚀阶段,该阶段降温幅度相对以第一次较小,该构造事件与印度大陆的向北俯冲具有成因联系;20Ma至现今的快速抬升冷却阶段为青藏高原整体拉张走滑构造环境所影响,其隆升速率和降温速率分别为3.25~6.0℃/Ma、0.03~0.2mm/a。     

松辽盆地新生代构造演化对砂岩型铀矿成矿的控制作用——来自磷灰石裂变径迹的证据

本文针对松辽盆地北部隆起区的4个钻孔13件样品系统展开了磷灰石裂变径迹测试,揭示了松辽盆地新生代构造演化对砂岩型铀矿床的限制作用。13件磷灰石裂变径迹测试结果表明,松辽盆地北部晚白垩世以来的构造演化过程主要经历了3期快速隆升事件：①晚白垩世—始新世(71~48 Ma),期间以8~56 m/Ma的平均速率隆升,盆地北部整体呈抬升状态;②早渐新世—中新世(36~18 Ma),期间以24~49 m/Ma的平均速率隆升,盆地北部呈差异性抬升过程,第二期抬升事件隆升强度和持续时间较第一期抬升事件略低;③中新世 至今(18~0 Ma),期间以2~19 m/Ma的平均速率隆升,盆地北部缓慢抬升,构造活动较弱,三期构造抬升事件与太平洋板块俯冲速率和方向转向密切相关。结合前人低温热年代学数据,针对南部地区钱家店铀矿床成矿年代学成果研究发现,新生代以来的构造抬升事件伴生其后均成藏有砂岩型铀矿,砂岩型铀成矿与新生代构造密切相关,尤其与中新世末次隆升事件紧密相关,成矿过程延续至今。     

鄂尔多斯盆地渭北隆起西南缘奥陶系热演化史恢复与生烃史——以麟游-旬邑地区为例

本文应用古地温恢复法及盆地模拟法,恢复鄂尔多斯盆地渭北隆起西南缘奥陶系最大古地温梯度、热演化史和生烃史。根据钻孔测温曲线求得渭北隆起现今地温梯度为3.12℃/100m。该区在二叠纪和三叠纪进入快速沉降阶段,早侏罗世早白垩世进入缓慢沉降阶段,晚白垩世以来进入抬升剥蚀阶段,剥蚀厚度在1100~1300 m。旬邑地区奥陶系烃源岩在早二叠世约270 Ma进入生油窗,晚三叠世约210 Ma进入成熟生油阶段。晚侏罗世约150 Ma开始大量生气,在早白垩世末期96 Ma左右,地层达到最大埋深及最高古地温,达到生气高峰。热史恢复及模拟结果表明旬邑地区早白垩世地温梯度最高可达到5.0℃/100 m,是主要生气期。     

新疆库鲁克塔格地区盆山构造热演化史

利用磷灰石构造热年代学年龄、有机质成熟度指标、磷灰石裂变径迹热史模拟和单井EASY%Ro反演等方法,对新疆库鲁克塔格地区盆山系统开展盆山构造热演化史研究。结果表明,磷灰石年龄记录了早白垩世（99~1244 Ma）、晚白垩世（66~87 Ma）和古近纪（284~63 Ma）3次抬升过程;有机质成熟度指标和磷灰石裂变径迹热史模拟反映出海西期构造抬升过程。单井热史模拟表明,孔雀河斜坡下古生界烃源岩在志留纪末-早泥盆世到达最大热演化程度,模拟最大古地温梯度为356 ℃/100 m,侏罗纪末古地温梯度为31 ℃/100 m,焉耆盆地南部凹陷侏罗纪晚期模拟最大古地温梯度达415 ℃/100 m。海西期剧烈的造山运动使孔雀河斜坡由沉积转入剥蚀演化阶段,对油气成藏具有重要意义,晚白垩世隆升使孔雀河斜坡及焉耆盆地侏罗纪烃源岩热演化停止。     

喜马拉雅造山带晚新生代构造隆升的裂变径迹证据

喜马拉雅造山带的隆升,在地质学研究中是一个非常让人感兴趣的问题,为了对其进行定量研究,揭示隆升历史及幅度等相关问题,运用磷灰石、锆石裂变径迹法对研究区淡色花岗岩进行了分析,所取样品的裂变径迹年龄位于17.0~5.7 Ma之间,小于其地层时代或侵入年龄(40~17 Ma),表明研究区喜马拉雅造山带的强烈隆升开始于晚新生代.用磷灰石裂变径迹年龄来计算可知,研究区内花岗岩5.7 Ma以来的冷却速率和剥蚀速率分别为18.421 ℃/Ma和0.526 mm/a.5.7~9.2 Ma间的相对抬升与剥蚀速率为0.229 mm/a,9.2~17.0 Ma间的相对抬升与剥蚀速率为0.032 mm/a.用锆石裂变径迹年龄来计算知,研究区内花岗岩16.2 Ma以来的冷却速率和剥蚀速率分别为12.963 ℃/Ma和0.370 mm/a,冷却速率和剥蚀速率均小于用磷灰石计算的结果.因此说喜马拉雅造山带从9.2 Ma到现在隆升和剥蚀的速率是处于加快的状态.      

低温热年代对黄陵隆起中新生代古地形的约束

低温热年代技术已经广泛应用于造山带的剥露作用和古地形演化的研究。本文对黄陵隆起进行了裂变径迹和(U-Th)/He热年代学研究,分析计算其隆升剥露速率和厚度,恢复黄陵隆起中新生代古地形。依据岩石样品冷却历史计算出的剥露速率以及剥露厚度结果,综合黄陵隆起现今地形起伏,均衡回弹作用以及古海平面变化情况,获得了黄陵隆起早侏罗世、早白垩世、晚白垩世、晚始新世以及现今5个时期的古地形变化情况。结果表明黄陵隆起地形表现为持续降低的趋势,并存在两期剧烈的隆升剥露阶段。分析认为,白垩纪(140~80 Ma±),黄陵隆起的快速隆升剥露作用与秦岭大别造山带大规模的挤压作用密切相关,晚始新世以来(40~0 Ma)黄陵隆起的快速抬升剥露作用则是对喜山期构造运动的响应。     

川东北地区构造-热演化探讨——来自（U-Th）／He年龄和Ro的约束

利用镜质组反射率和磷灰石与锆石的(U-Th)/He年龄一起模拟了川东北地区三叠纪以来的构造-热演化特征。结果表明早三叠世的热流值在51～66mW/m2,自晚三叠世至白垩纪随盆地性质由前陆盆地演化为陆内坳陷盆地,热流缓慢降低直至现今的44.5mW/m2。但在晚白垩世—古新世时期受燕山晚期构造运动的影响,热流有一个微弱增高的现象。同时,磷灰石和锆石的He年龄揭示了川东北地区大致在晚白垩世期间开始隆升且抬升剥蚀量较大。因此,磷灰石和锆石的(U-Th)/He年龄可以揭示后期详细的冷却历史。     

Thermo-tectonic history of the Junggar Alatau within the Central Asian Orogenic Belt(SE Kazakhstan,NW China):Insights from integrated apatite U/Pb,fission track and(U-Th)/He thermochronology

The Junggar Alatau forms the northern extent of the Tian Shan within the Central Asian Orogenic Belt(CAOB) at the border of SE Kazakhstan and NW China.This study presents the Palaeozoic-Mesozoic post-collisional thermo-tectonic history of this frontier locality using an integrated approach based on three apatite geo-/thermochronometers:apatite U-Pb,fission track and(U-Th)/He.The apatite U-Pb dates record Carboniferous-Permian post-magmatic cooling ages for the sampled granitoids,reflecting the progressive closure of the Palaeo-Asian Ocean.The apatite fission track(AFT) data record(partial)preservation of the late Palaeozoic cooling ages,supplemented by limited evidence for Late Triassic(~230-210 Ma) cooling and a more prominent record of(late) Early Cretaceous(~150-110 Ma) cooling.The apatite(U-Th)/He age results are consistent with the(late) Early Cretaceous AFT data,revealing a period of fast cooling at that time in resulting thermal history models.This Cretaceous rapid cooling signal is only observed for samples taken along the major NW-SE orientated shear zone that dissects the study area(the Central Kazakhstan Fault Zone),while Permian and Triassic cooling signals are preserved in low-relief areas,distal to this structure.This distinct geographical trend with respect to the shear zone,suggests that fault reactivation triggered the Cretaceous rapid cooling,which can be linked to a phase of slab-rollback and associated extension in the distant Tethys Ocean.Similar conclusions were drawn for thermochronology studies along other major NW-SE orientated shear zones in the Central Asian Orogenic Belt,suggesting a regional phase of Cretaceous exhumation in response to fault reactivation at that time.     

新疆东天山红云滩地区构造-热演化探讨:来自Ar-Ar和(U-Th)/He热年代学的约束

红云滩岩体位于东天山觉罗塔格西部,对其进行热演化历史研究对于揭示觉罗塔格地区乃至整个东天山地区的构造-热演化历史具有重要意义。本文对红云滩岩体进行黑云母Ar-Ar、锆石(U-Th)/He和磷灰石(U-Th)/He测年,并结合前人的锆石U-Pb测年结果,精细刻画出该岩体自形成以后经历的热演化过程,并据此识别出东天山红云滩地区发生过多期快速抬升冷却事件。黑云母阶段升温Ar-Ar法同位素定年得到的坪年龄为316.9±1.8Ma,单颗粒锆石和磷灰石(U-Th)/He同位素定年得到的平均年龄分别为213.7±9.6Ma和65.5±1.3Ma。热年代学数据及模拟结果表明东天山红云滩地区自晚古生代以来经历了3个快速冷却阶段,分别为:晚石炭世至早二叠世(ca.330~296Ma)、晚三叠世(222~220Ma)、晚白垩世(91~77Ma)。其中,晚石炭世至早二叠世的快速冷却作用是岩体侵位后与围岩热传导冷却及伴随天山造山隆升冷却综合作用的结果,晚三叠世和晚白垩世的两期快速冷却事件分别与羌塘-欧亚板块、Kohistan-Dras岛弧-拉萨地块碰撞的远程效应造成的东天山地区隆升作用有关。新生代以来,红云滩岩体所在的阿奇山-雅满苏地区构造活动相对较弱,未发生较为明显的隆升作用,与天山西段新生代的构造活动有着明显的差异。     

Meso‐Cenozoic Tectonothermal History of Permian Strata,Southwestern Weibei Uplift: Insights from Thermochronology and Geothermometry

This study provides an integrated interpretation for the Mesozoic-Cenozoic tectonothermal evolutionary history of the Permian strata in the Qishan area of the southwestern Weibei Uplift, Ordos Basin. Apatite fission-track and apatite/zircon(U-Th)/He thermochronometry, bitumen reflectance, thermal conductivity of rocks, paleotemperature recovery, and basin modeling were used to restore the Meso-Cenozoic tectonothermal history of the Permian Strata. The Triassic AFT data have a pooled age of ～180±7 Ma with one age peak and P(χ2)=86%. The average value of corrected apatite(U-Th)/He age of two Permian sandstones is ～168±4 Ma and a zircon(U-Th)/He age from the Cambrian strata is ～231±14 Ma. Bitumen reflectance and maximum paleotemperature of two Ordovician mudstones are 1.81%, 1.57% and ～210°C, ～196°C respectively. After undergoing a rapid subsidence and increasing temperature in Triassic influenced by intrusive rocks in some areas, the Permian strata experienced four cooling-uplift stages after the time when the maximum paleotemperature reached in late Jurassic:(1) A cooling stage(～163 Ma to ～140 Ma) with temperatures ranging from ～132°C to ～53°C and a cooling rate of ～3°C/Ma, an erosion thickness of ～1900 m and an uplift rate of ～82 m/Ma;(2) A cooling stage(～140 Ma to ～52 Ma) with temperatures ranging from ～53°C to ～47°C and a cooling rate less than ～0.1°C/Ma, an erosion thickness of ～300 m and an uplift rate of ～3 m/Ma;(3)(～52 Ma to ～8 Ma) with ～47°C to ～43°C and ～0.1°C/Ma, an erosion thickness of ～500 m and an uplift rate of ～11 m/Ma;(3)(～8 Ma to present) with ～43°C to ～20°C and ～3°C/Ma, an erosion thickness of ～650 m and an uplift rate of ～81 m/Ma. The tectonothermal evolutionary history of the Qishan area in Triassic was influenced by the interaction of the Qinling Orogeny and the Weibei Uplift, and the south Qishan area had the earliest uplift-cooling time compared to other parts within the Weibei Uplift. The early Eocene at ～52 Ma and the late Miocene at ～8 Ma, as two significant turning points after which both the rate of uplift and the rate of temperature changed rapidly, were two key time for the uplift-cooling history of the Permian strata in the Qishan area of the southwestern Weibei Uplift, Ordos Basin.     

新疆西准噶尔苏云河斑岩型钼矿的剥露和保存条件:来自裂变径迹和(U-Th)/He热年代学的约束

斑岩型矿床多形成于汇聚型板块边界。由于其较浅的就位深度,大部分古老的斑岩型矿床很容易受到后期的剥蚀而消失殆尽。研究斑岩型矿床成矿后的埋藏和去顶过程对于深入理解矿床的保存条件和区域找矿前景至关重要。新疆西准噶尔西部的苏云河斑岩型钼矿床形成于晚石炭世,是一处保存良好的斑岩型矿床,为我们研究前中生代斑岩成矿系统的保存条件提供了天然的实验室。本文首次针对该矿床开展了锆石和磷灰石裂变径迹与锆石(U-Th)/He低温热年代学分析,结合热历史反演模拟以及前人的年代学数据显示,苏云河斑岩钼矿的蚀变过程至少持续了55Myr。在早二叠世到中三叠世,矿区接受5.2～8.1km厚的沉积物覆盖。中三叠世至早白垩世(240～120Ma),矿床经历了快速剥露作用,剥露速率为49.0～56.7m/Myr,去顶量为7.4～9.2km。早白垩世(120Ma)至今为缓慢剥露阶段,剥露速率为6.7～21.7m/Myr,去顶量为0.8～2.6km。中三叠世至早白垩世的快速冷却事件可能并不是特定构造事件(比如:南部羌塘和昆仑-柴达木碰撞或者羌塘和拉萨碰撞)远程效应的产物,而与区域内走滑断层的活化密切相关。而矿床早期沉积的巨厚盖层以及早白垩世以来干旱气候和缓慢剥露,为石炭-二叠纪斑岩型钼矿得以保存提供了条件。     

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

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。     

Geological and thermochronological studies of the Dashui gold deposit, West Qinling Orogen, Central China

The Dashui gold deposit is a structurally controlled, Carlin-type gold deposit hosted by recrystallised limestone in the West Qinling Orogen of Central China. The major, structurally late east-trending Dashui Fault forms the hanging wall to the gold mineralisation at the Dashui mine and defines the contact between Middle Triassic limestone and a steeply dipping overlying succession of Middle Triassic argillaceous limestone, dolomite, and sandstone. Multiple carbonate veins and large-scale supergene enrichment, represented by hematite, goethite, limonite and jarosite, characterise the deposit. Detailed geochronological investigation using zircon SHRIMP U-Pb dating reveals that volcanic rocks closely associated with the Dashui gold deposit were synchronous with the Ge’erkuohe Granite and pre-date mineralisation. The igneous dyke sample from the hanging wall has the same U-Pb zircon age as the footwall, ca. 213 Ma. (U-Th)/He thermochronology on dykes in the hanging wall and footwall of the Dashui Fault yields identical (U-Th)/He zircon ages of ca. 210 Ma but distinct (U-Th)/He apatite ages of ca. 136 and 211 Ma, respectively. Therefore, the hanging wall and footwall are interpreted as having distinct post-mineralisation exhumation histories. Reverse fault movement exhumed the hanging wall ~2 to 4 km since the Late Triassic with the main component of faulting taking place between the Late Triassic and Early Cretaceous. These relationships suggest a Late Triassic to Early Cretaceous age for the primary gold mineralisation at the Dashui gold deposit, with the corollary that any ‘missing portion’ of the deposit, previously hypothesised to exist in the hanging wall of the Dashui Fault, has been eroded away. The mineralisation in the footwall may have been supergene enriched soon after the primary mineralisation was emplaced, because it has been located at shallow depth since the Late Triassic. Semi-quantitative results obtained in this study also constrain the maximum depth of formation of the Dashui gold at no more than 2 km.     

Late Mesozoic Thermotectonic Evolution of the Jueluotage Range,Eastern Xinjiang, Northwest China: Evidence from Apatite Fission Track Data

Although many authors have emphasized the Cenozoic history of deformation, exhumation and cooling in the Tiaushan area related to the India-Asia collision, very little is known about the Mesozoic history of compression and uplift within the Tianshan. In order to obtain information about the Mesozoic exhumation history and processes of cooling in eastern Tianshan, fission track methods on apatite were used. Sampling was made in the Jueluotage Range. Three samples （Z001-Z003） were taken from granite in borehole ZK6301 of Yandong pluton; the ages range from 97.0 to 87.6 Ma that are much younger than the pluton age which was dated by U-Pb zircon at 334±2 Ma. Two samples in northern piedmont of the Jueluotage Range were collected from Jurassic strata in Dikaner （DK001） and Dananhu （D001） whose ages are 91.5 and 93.4 Ma respectively. The average apparent exhumation rate is 0.039 nun/a calculated by extrapolation on the basis of Yandong samples, indicating an extremely slow exhumation in the Jueluotage Range since the Late Cretaceous. Two Jurassic samples reached the maximum depths after deposition and experienced the maximum temperatures of ca. 105 and 108℃ until the late Early Cretaceous before a period of cooling and exhumation occurred at 114 and 106 Ma.     

阿齐山—雅满苏地区中-新生代构造隆升裂变径迹 证据:兼论构造活动对核废选址场的意义

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。