赞比亚卢弗里安弧构造带再活化的证据:锆石和磷灰石裂变径迹年代学

锆石和磷灰石裂变径迹年代学对揭示构造热事件的形成及演化过程具有重要的研究意义.利用锆石和磷灰石裂变径迹测试及热史模拟探讨了卢弗里安弧构造带自泛非构造运动以来的构造热演化过程.谦比希铜矿床和恩昌加铜（钴）矿床位于卢弗里安弧铜-钴成矿带中的赞比亚境内.对采自该两个矿床中的5件新鲜岩石样品进行挑选,获得了5件锆石和4件磷灰石样品.首次获得了卢弗里安弧构造带中的裂变径迹年龄,5件锆石样品的年龄分别为265±22 Ma、230±10 Ma、228±9 Ma、225±9 Ma和221±10 Ma.4件磷灰石样品的年龄分别为145±10 Ma、133±10 Ma、130±10 Ma和92±9 Ma,径迹长度介于（11.4±2.4）~（11.8±2.4）μm.从热历史模拟结果可看出,从300~260 Ma,古地温持续降低至90 ℃左右;随后,缓慢降低至现今的地表温度.对比卢弗里安弧构造带、赞比西构造带和达马拉构造带中的年龄数据,研究表明非洲中南部地区二叠纪-白垩纪的构造活动是一个区域性的构造活动事件.      

云南中甸地区晚白垩世斑岩型Mo-Cu矿床磷灰石、锆石裂变径迹年代学研究

云南中甸地区位于西南三江铜钼铅锌金多金属矿集区的南端,是一个独具特色的Cu-Mo多金属复合叠加成矿带.本文采用裂变径迹低温热年代学技术对区内晚白垩世铜厂沟、休瓦促、热林成矿斑岩体,进行了锆石、磷灰石裂变径迹分析测试,开展了晚白垩世以来的构造热史演化模拟,揭示了区内构造-岩浆成矿事件及热史演化过程.研究表明,锆石裂变径迹年龄值变化于52±2～96±5 Ma;磷灰石裂变径迹的年龄值变化于15±1～48±3 Ma,总体变化幅度不大,中心年龄与池年龄在误差范围也基本一致.通过锆石、磷灰石的裂变径迹分析,揭示出云南中甸地区自晚白垩世以来主要经历了三个阶段的构造热事件.第一阶段(96～60 Ma),主要为岩浆侵位后快速降温的热史演化阶段;第二阶段(52～39 Ma),为缓慢的降温作用过程;第三阶段(16～15 Ma),揭示了受中新世以来青藏高原隆升造山作用的影响,该区经历了快速降温的地质演化过程.综合锆石裂变径迹、磷灰石裂变径迹的热史反演结果,表明区内晚白垩世典型成矿斑岩体具有相似的隆升过程和剥蚀历史,并获得了剥蚀量与剥蚀速率的定量计算结果,为区内矿床的资源潜力评价及勘查工作提供了科学参考.     

班韦乌卢地块中部变质表壳岩碎屑锆石U-Pb年代学、Hf同位素研究及其构造意义

通过LA-MC-ICP-MS碎屑锆石微区U-Pb定年和Hf同位素分析,对班韦乌卢地块中部地区基底变质表壳岩进行了同位素定年及物源示踪研究.结果显示,两件样品的碎屑锆石峰值年龄分布表现出较好的一致性,总体呈现出2490～2059 Ma、2044～1954 Ma、1942～1887 Ma、1865～1817 Ma以及1641～1522 Ma五个年龄组,分别与班韦乌卢地块内的构造岩浆事件相吻合.综合区域地质特征与碎屑锆石年龄谱特征分析认为:原岩蚀源区比较复杂,近源区古元古代花岗岩、花岗片麻岩及火山岩是主要的蚀源区.根据碎屑锆石最小年龄1522±23 Ma,推测表壳岩原岩形成时代上限可能为中元古代,而不是之前认为的形成于古元古代.碎屑锆石的εHf(t)值介于-6.26～7.37之间(平均1.37),由负到正变化范围较大,表明它们除来自古老地壳的再循环物质外,还存在新生地壳的物质来源.tDM2峰值年龄出现在2.40～2.50 Ga,说明班韦乌卢地块地壳增生事件主要发生于古元古代,可能与凯诺兰超大陆的聚合过程有关,其晚于全球大陆地壳主增长期,说明了地壳增生的长期性和在地质历史时期增长速度的不稳定性.     

青藏高原东部中新生代差异隆升的热年代学证据

为定量分析青藏高原东北部中新生代以来构造隆升时序及特征,笔者开展了磷灰石和锆石裂变径迹年龄测试。结果表明：研究区磷灰石裂变径迹年龄为(66±9)～(4.3±1) Ma,锆石裂变径迹年龄为(187±11)～(69±4) Ma,东北部及东部裂变径迹年龄值较大;研究区西北缘构造隆升较早(200～160 Ma),东南部隆升相对较晚(140～30 Ma),西(南)部构造隆升最晚(90～10 Ma),新近纪之后则整体进入构造隆升;岩石冷却速率和剥蚀速率广元—江油一带西侧较高,红原—文县一带南侧更高,理县附近最大,分别为23.26℃/Ma和0.78 mm/a,这种分区差异性主要受多条区域性大型断裂带制约。     

阿尔金断裂带东端40Ar/39Ar和裂变径迹定年及其地质意义

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.     

宁武盆地及周缘岩体裂变径迹对山西地块中—新生代构造演化的约束

宁武盆地及周缘岩体的抬升剥蚀对于山西地块中—新生代构造演化具有重要的指示意义。本文对宁武盆地及周缘岩体进行裂变径迹分析,磷灰石裂变径迹年龄97～47 Ma,锆石裂变径迹年龄161～141 Ma。裂变径迹记录了早白垩世早期(145～125 Ma)、晚白垩世(85～70 Ma)、古新世晚期—始新世早期(59～53 Ma)和渐新世晚期(28 Ma)的4次抬升剥蚀事件。综合分析山西地块的裂变径迹数据,表明隆起区晚古生代以来发生了多期抬升剥蚀事件。山西地块中—新生代构造演化具有时空差异。周缘岩体样品的裂变径迹年龄大于盆地内沉积地层样品的年龄,指示了周缘山体先于盆地抬升剥蚀。晋东北抬升剥蚀时限早于晋西南。山西裂谷系西南端裂开较早。裂谷系发育具有由南向北扩展的特征,这与地层保留记录相一致。山西地块现今地貌格局是在中生代发育一系列雁行状排列的复背斜和复向斜构造基础上发展而成的。     

胶东三山岛金矿床构造-热历史:~(40)Ar/~(39)Ar和裂变径迹年代学制约

胶东金成矿省目前已探明黄金资源储量超过4000t,是世界上最大的花岗岩容矿的单金成矿省之一。三山岛金矿床位于该金成矿省西北部,是产于早白垩世郭家岭型花岗中的世界级金矿床。锆石U-Pb数据表明该矿床内赋矿围岩郭家岭花岗岩侵位于~128Ma,其后郭家岭花岗岩快速冷却并普遍经历了亚固态韧性变形。已有绢云母Rb-Sr数据表明,该矿床大规模金成矿作用和脆性变形发生于约117Ma。本次获取的1件~99Ma白云母~(40)Ar/~(39)Ar年龄揭示了主期成矿后一期微弱的构造-流体活动。4件锆石裂变径迹年龄中相对较老的单颗粒锆石年龄组分90±10Ma说明,该矿床大致于该时间段冷却至锆石裂变径迹封闭温度240±50℃。13件磷灰石裂变径迹年龄分布于69.8±7.2Ma~46.1±4.8Ma之间;8件磷灰石裂变径迹长度集中于13.1±0.2~12.3±0.2μm,并且呈单峰型略带负偏态的分布,说明该矿床大致于70~50Ma单调缓慢冷却通过磷灰石裂变径迹部分退火带125~60℃。最终,该矿床缓慢冷却剥露至现今近地表温度。相对缓慢的成矿后冷却和剥蚀以及新近深部钻探成果说明,三山岛及其周缘金矿床主断裂下盘脆性变形和热液蚀变作用叠加部位成矿潜力巨大,为有利的找矿靶区。     

南秦岭勉略构造带横现河地区变质沉积岩形成时代及物源——来自LA-ICP-MS碎屑锆石U-Pb年龄的证据

朱家山岩组、乔子沟岩片位于南秦岭勉略构造带横现河以北,是勉略构造带中强烈韧性变形的沉积岩系,是勉略构造混杂岩带的基质岩系,研究其形成时代、沉积物源,对于深入了解勉略构造带的形成时代与构造演化具有重要意义。笔者以横现河以北地区朱家山岩组、乔子沟岩片中的变质沉积岩(绢英千枚岩)为研究对象,进行碎屑锆石LA-ICP-MS锆石U-Pb年代学研究,探讨其形成时代及沉积物源。所获得的碎屑锆石年龄可以分为3组:古生代年龄组(375～542 Ma),可以划分为晚古生代早期—早古生代晚期年龄组(375～424Ma),主要峰值为390Ma、394Ma,早古生代早期年龄组(530～542Ma);新元古代年龄组(552～977 Ma),可以划分为新元古代晚期年龄组(552～797Ma),主要峰值为758Ma、787Ma,新元古代早中期年龄组(800～977Ma),主要峰值为855Ma、951Ma;中元古代晚期年龄组(1 008～1 124Ma)。朱家山岩组、乔子沟岩片碎屑锆石最小年龄组分别为375～385Ma(平均年龄为380.3Ma)、377～389 Ma(平均年龄为383 Ma),说明朱家山岩组、乔子沟岩片浅变质沉积岩系的沉积时代不早于中—晚泥盆世。综合研究认为2件样品物源主要都来自勉略构造带、碧口微地块和扬子板块北缘地区的岩浆岩,沉积环境为裂陷盆地且由伸展裂陷过渡为稳定的台盆-台地沉积。     

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

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。     

扬子西北缘碧口微地块南华系碎屑锆石物源示踪及其地质意义

扬子板块西北缘碧口微地块华严寺地区碧口群之上发育一套含砾沉积地层,其确切沉积时限对研究该区域的沉积—构造演化具有重要意义。本文对该套地层中的2件砂岩样品进行了碎屑锆石LA-ICP-MS U-Pb测年分析,结果显示,锆石晶型较好,无色透明,磨圆度较差,具典型岩浆生长振荡环带和韵律结构,Th/U比值为0.28～3.6,锆石U-Pb年龄介于706～2 489Ma之间。存在3个主要的年龄组：新元古代年龄组（706～951 Ma）,占92.9%,显著峰值为850 Ma和843 Ma;中元古代年龄组（1 017～1 080 Ma）,占2.6%;古元古代年龄组（1 628～2 489 Ma）,占4.5%。最小年龄组为706～715 Ma（峰值为711 Ma）,结合区域地质和研究资料,华严寺地区沉积地层时代应属于南华纪,沉积时限约为720～635 Ma,物源区主要包括扬子板块西北缘碧口微地块以及南东侧的后龙门山构造带和汉南—米仓山微地块。新元古代晚期碧口微地块及扬子板块西北缘后碰撞—裂解阶段,华严寺地区南华纪沉积为碧口微地块及邻区新元古代岩浆岩在边缘裂谷环境中快速堆积形成。     

Tracing metamorphism,exhumation and topographic evolution in orogenic belts by multiple thermochronology: a case study from the Nízke Tatry Mts., Western Carpathians

A combination of four thermochronometers [zircon fission track (ZFT), zircon (U–Th)/He (ZHe), apatite fission track (AFT) and apatite (U–Th–[Sm])/He (AHe) dating methods] applied to a valley to ridge transect is used to resolve the issues of metamorphic, exhumation and topographic evolution of the Nízke Tatry Mts. in the Western Carpathians. The ZFT ages of 132.1 ± 8.3, 155.1 ± 12.9, 146.8 ± 8.6 and 144.9 ± 11.0 Ma show that Variscan crystalline basement of the Nízke Tatry Mts. was heated to temperatures >210°C during the Mesozoic and experienced a low-grade Alpine metamorphic overprint. ZHe and AFT ages, clustering at ~55–40 and ~45–40 Ma, respectively, revealed a rapid Eocene cooling event, documenting erosional and/or tectonic exhumation related to the collapse of the Carpathian orogenic wedge. This is the first evidence that exhumation of crystalline cores in the Western Carpathians took place in the Eocene and not in the Cretaceous as traditionally believed. Bimodal AFT length distributions, Early Miocene AHe ages and thermal modelling results suggest that the samples were heated to temperatures of ~55–90°C during Oligocene–Miocene times. This thermal event may be related either to the Oligocene/Miocene sedimentary burial, or Miocene magmatic activity and increased heat flow. This finding supports the concept of thermal instability of the Carpathian crystalline bodies during the post-Eocene period.     

Phanerozoic tectonothermal history of the Arabian–Nubian shield in the Eastern Desert of Egypt: evidence from fission track and paleostress data

To constrain the post-Pan-African evolution of the Arabian–Nubian Shield, macro-scale tectonic studies, paleostress and fission track data were performed in the Eastern Desert of Egypt. The results provide insights into the processes driving late stage vertical motion and the timing of exhumation of a large shield area. Results of apatite, zircon and sphene fission track analyses from the Neoproterozoic basement indicate two major episodes of exhumation. Sphene and zircon fission track data range from 339 to 410 Ma and from 315 to 366 Ma, respectively. The data are interpreted to represent an intraplate thermotectonic episode during the Late Devonian–Early Carboniferous. At that time, the intraplate stresses responsible for deformation, uplift and erosion, were induced by the collision of Gondwana with Laurussia which started in Late Devonian times. Apatite fission track data indicate that the second cooling phase started in Oligocene and was related to extension, flank uplift and erosion along the actual margin of the Red Sea. Structural data collected from Neoproterozoic basement, Late Cretaceous and Tertiary sedimentary cover suggest two stages of rift formation. (1) Cretaceous strike-slip tectonics with sub-horizontal σ1 (ENE/WSW) and σ3 (NNW/SSE), and sub-vertical σ2 resulted in formation of small pull-apart basins. Basin axes are parallel to the trend of Pan-African structural elements which acted as stress guides. (2) During Oligocene to Miocene the stress field changed towards horizontal NE–SW extension (σ3), and sub-vertical σ1. Relations between structures, depositional ages of sediments and apatite fission track data indicate that the initiation of rift flank uplift, erosion and plate deformation occurred nearly simultaneously.     

赞比亚班韦乌卢变质克拉通东北部姆巴拉组碎屑锆石U-Pb年龄和Hf同位素特征

班韦乌卢变质克拉通活动时间和地壳增长问题一直是地质学家关注的焦点。本文通过对班韦乌卢地块中卡帕图地区姆波罗科索群姆巴拉组石英砂岩进行了碎屑锆石U-Pb年代学和Hf同位素研究,结合变质克拉通已有成果获得认识如下：(1)姆巴拉组的形成时间可能介于(1833±22 Ma)～(1712±22 Ma)之间,属于古元古代。(2)姆巴拉组具有丰富的物质来源,其中2728～2602 Ma(峰值为2650 Ma)的物质可能来源于坦桑尼亚克拉通中的花岗岩类、粗面安山岩及流纹岩等岩石。2246～1833 Ma(峰值为1880 Ma)的物质主要来源于班韦乌卢地块中花岗岩类、石英闪长岩及火山岩类等岩石。(3)班韦乌卢变质克拉通的活动时间包括中太古代、新太古代、古元古代和中元古代四个时期,其中古元古代(1870 Ma)为活动的高峰期,涉及范围广泛,可能与哥伦比亚超大陆的演化密切相关。(4)班韦乌卢变质克拉通沉积岩的源区地壳增生除来自古老地壳的再循环物质外,还存在新生地壳的物质。同时,地壳在古太古代-古元古代均实现了增长,其中凯诺兰超大陆聚合时期(2550 Ma)增长最快。在古元古代之前的地壳主增长期与坦桑尼亚克拉通及全球大陆地壳主增长期基本一致。     

Fission Track Thermochronology Evidence for the Cretaceous and Paleogene Tectonic Event of Nyainrong Microcontinent, Tibet

Fission track dating was applied to analyze the 20 samples from Nyainrong microcontinent, and we obtained 20 apatite and 15 zircon fission track ages. The results show single population grain ages with a single mean age and associated central ages mainly ranging from 108±7Ma to 35±4Ma.Their mean track lengths are 12.2–13.9 μm with a single peak. Zircon fission track age range from 78±3 Ma to 117±4 Ma. The results represented the two tectonic uplift events in the study area, namely the Cretaceous and Paleogene periods. According to thermal history modeling results, uplifting rates of two tectonic events is 0.31–0.1 mm/a and 0.07–0.04 mm/a respectively. Combined with field condition and study results, it is suggested that the Cretaceous tectonic uplift event was related to the closure ocean basin caused by Qaingtang–Lhasa collision, and the Paleogene tectonic uplift event was related to the south to thrust system caused by Indo–Asian collision.     

Late Mesozoic‐Cenozoic exhumation history of the Lesser Hinggan Mountains,NE China,revealed by fission track thermochronology

This study uses zircon and apatite fission‐track (FT) analyses to reveal the exhumation history of the granitoid samples collected from the Lesser Hinggan Mountains, northeast China. A southeast to northwest transect across the Lesser Hinggan Mountains yielded zircon FT ages between 89.8 ± 5.7 and 100.4 ± 8.6 Ma, and apatite FT ages between 50.6 ± 13.8 and 74.3 ± 4.5 Ma with mean track lengths between 11.7 ± 2.0 and 12.8 ± 1.7 µm. FT results and modelling identify three stages in sample cooling history spanning the late Mesozoic and Cenozoic eras. Stage one records rapid cooling from the closure temperature of zircon FT to the high temperature part of the apatite FT partial annealing zone (∼210–110 °C) during ca. 95 to 65 Ma. Stage two records a period of relative slow cooling (∼110–60 °C) taking place between ca. 65 and 20 Ma, suggesting that the granitoids had been exhumed to the depth of ∼1−2 km. Final stage cooling (60–20 °C) occurred since the Miocene at an accelerated rate bringing the sampled rocks to the Earth's surface. The maximum exhumation is more than 5 km under a steady‐state geothermal gradient of 35 °C/km. Integrated with the tectonic setting, this exhumation is possibly led by the Pacific Plate subduction combined with intracontinental orogeny associated with asthenospheric upwelling. Copyright © 2010 John Wiley & Sons, Ltd.     

鄂尔多斯盆地东南南召地区中生代以来的构造演化研究——来自低温热年代学的证据

有关鄂尔多斯三叠纪原型盆地的东南向展布情况不是非常明确,之前有研究表明其东南缘可能位于南召地区,对该区构造演化过程开展研究,可为鄂尔多斯三叠纪原型盆地研究提供重要信息。因此,为了研究南召地区中生代以来的构造演化史及其与鄂尔多斯盆地之间的关系,本文对研究区3条野外剖面上3件三叠系样品开展锆石、磷灰石裂变径迹研究。其锆石裂变径迹年龄为270±15~181±8Ma,与地层年龄相近或大于地层年龄,不能很好地反映地层经历的构造改造时限,可能更多地代表了物源区的信息。磷灰石裂变径迹年龄为57±3~47±5Ma,结合裂变径迹年龄和热史模拟,本文认为南召地区自三叠纪以来经历了4期较大规模的构造改造,早期是三叠纪末遭受了秦岭造山带强烈逆冲推覆对本区的影响;中期是中晚侏罗世到晚白垩世初;晚期是晚白垩世;末期是喜马拉雅期,4期构造改造均与秦岭造山带的构造演化息息相关。此外,通过与鄂尔多斯盆地周缘地区展开对比,发现二者构造演化过程具有相似的时限性,从构造演化的角度支持南召地区属于鄂尔多斯原型盆地的观点。     

鄂尔多斯盆地中新生代构造事件的峰值年龄及其沉积响应

通过锆石-磷灰石裂变径迹的峰值年龄与地层不整合事件的综合分析,提供了鄂尔多斯盆地中新生代构造事件的年代学约束及其沉积响应特点。印支期构造事件主要发生在230~190Ma,包含215Ma±和195Ma±两个峰值年龄,在盆地西南缘发育晚3叠世粗碎屑类磨拉石建造。燕山期构造事件主要发生在燕山中晚期的150~85Ma,包含145Ma±、120Ma±和95Ma±3个峰值年龄,在盆地西南缘发育燕山中期的芬芳河组和志丹群的粗碎屑类磨拉石建造。喜山期构造事件主要发生在65~5Ma,包含55Ma±、25Ma±和5Ma±3个峰值年龄。其中,锆石和磷灰石叠合分布的峰值年龄(145Ma±),指示了鄂尔多斯盆地中新生代的一次关键性构造变革事件。     

Testing inferences from palaeocurrents: application of zircon double‐dating to Miocene sediments from the Hengchun Peninsula,Taiwan

Detrital zircon provenance studies that combine low‐temperature fission‐track and high‐temperature U–Pb single‐grain age dating are powerful in constraining sediment provenance by documenting the tectonothermal evolution of the sediment source(s). We apply these techniques to Miocene (12–6 Ma) sandstones of the Hengchun Peninsula, southern Taiwan, which, based on diametrically opposite palaeocurrents, have a controversial provenance. U–Pb grain ages range from the Miocene (8 Ma) to Archaean (2.5 Ga). Cretaceous thermal cooling is recorded by detrital zircon fission tracks at Loshui and Lilongshan. Permian fission‐track grain ages account for <33% of zircon ages from Loshui, while at Lilongshan, Jurassic/Triassic grain ages account for 33–66% of all zircon fission‐track ages. Minor (<12%) Miocene age components are detected in both formations. These new data suggest that the primary sources of these Miocene sediments were similar. A simple model is proposed invoking sediment reworking in this complex tectonic setting. Terra Nova, 00, 000–000, 2010     

伊犁果子沟地区新元古代冰成沉积的碎屑锆石 LA-ICP-MS U-Pb年龄及其地质意义

为了对新疆果子沟地区塔里萨依组冰成沉积进行时代限定及前寒武纪地质演化讨论,开展了碎屑锆石LA-ICP-MS U-Pb定年工作。碎屑锆石最年轻年龄介于620~610 Ma和580~572 Ma之间,表明塔里萨依组冰成杂砾岩代表了埃迪卡拉纪时期的产物,而且在一次大冰期中发生了2次的小冰期旋回,同库鲁克塔格地区的汉格尔乔克组冰碛砾岩对应。碎屑锆石年龄谱没有反映出1000~700 Ma的年龄分布,但这个年龄段相关的岩浆活动在伊犁以北至温泉地区被广泛发现。而在年龄谱中大量存在的650~600 Ma年龄,本区附近却没有相关岩浆活动记录的报道,结合本区同库鲁克塔格地区新元古代冰期沉积存在的相似性,说明塔里萨依组冰期沉积物可能接收了更远的"伊犁块体"以南地区的物源。同时探讨了650~600 Ma岩浆活动可能与"伊犁块体"同塔里木板块分离,向哈萨克斯坦板块聚合有关。