内蒙古苏尼特左旗卓仑音诺尔地区中二叠统哲斯组沉积环境、形成时代及意义

内蒙古苏尼特左旗卓仑音诺尔地区哲斯组可以分为下部的粉砂岩、页岩段和上部的砾岩-砂岩段,分别代表扇中亚相的漫流沉积和扇根亚相的近源快速沉积,反映研究区二叠纪以陆相盆地干旱型冲积扇为特征的岩相古地理面貌。碎屑岩年代学研究揭示,哲斯组的物源为兴安-艾力格庙地块、早古生代的岛弧岩浆岩带及晚石炭世和早二叠世的岩浆岩体,表明盆地具有复杂源区。测年样品中最年轻一组锆石年龄的峰值为281Ma,侵入该组的石英闪长玢岩年龄为248±3Ma,限定陆相盆地的形成时代为中二叠世—三叠纪初。区域地质分析表明,中—晚二叠世兴蒙造山带中西部的不同地区均发育陆源碎屑沉积盆地,但层序特征各不相同,可能属于互不连通的小型盆地,代表二叠纪的盆岭构造,揭示兴蒙造山带在二叠纪整体处于陆内伸展的构造环境。     

鄂尔多斯盆地南部二叠系砂岩碎屑锆石年代学特征及地质意义

陆源碎屑岩物质来源及变化与沉积盆地及构造演化密切相关。通过对鄂尔多斯盆地南部铜川地区晚古生代二叠系山西组、石盒子组及石千峰组砂岩样品岩石薄片鉴定、定量矿物学分析以及碎屑锆石U-Pb年代学分析,结合古流向特征,对物源进行了追溯,并讨论了盆地南部二叠系的构造—沉积过程。研究结果表明,早二叠世山西组碎屑锆石年龄具364 Ma、450 Ma、946Ma和2 446 Ma四个主要峰值;中二叠世下石盒子组碎屑锆石年龄具294 Ma、1 963.4 Ma和2 499 Ma三个主要峰值;晚二叠世石千峰组碎屑锆石年龄主要峰值出现在1 876.5 Ma,缺乏北秦岭造山带的新元古代和早古生代碎屑锆石记录。分析认为山西组主要物源区为北秦岭造山带,次要物源区为华北南缘构造带;石盒子组物源由北秦岭造山带、华北板块南缘构造带和内蒙古隆起西段共同提供;石千峰组物源区为华北南缘构造带。早二叠世山西期,华北南缘隆起幅度较低,不影响北秦岭造山带供源。石盒子期,勉略洋由被动拉张转换为主动挤压,秦岭造山带处于持续隆升状态,并造成了华北南缘构造带的不断抬升。石千峰期华北南缘强烈隆升,在为铜川地区提供物源的同时也阻挡了北秦岭造山带...     

阿拉善地块东北缘狼山地区大红山组沉积时代、物质来源及区域构造意义

阿拉善地块位于中亚造山带南缘,是研究中亚造山带南缘二叠纪构造背景及演化的关键地区。本研究在阿拉善地块东北缘狼山地区野外调查的基础上,对狼山地区大红山组地层进行古流向、碎屑锆石LA-ICP-MS U-Pb定年和砂岩碎屑组分分析。研究表明砾石最大扁平面倾向为SWW—NWW,指示大红山组地层沉积时的古水流的流向总体呈现自西向东,推测大红山组砾石主要来自狼山西部地区。砂岩中碎屑锆石最小年龄峰值为275 Ma和278 Ma,表明大红山组沉积时代不早于中二叠世早期。砂岩的碎屑组分分析和碎屑锆石年龄谱指示大红山组可能来自于晚古生代诺尔公—狼山弧,砾石的古流向分析和碎屑锆石年龄谱推测大红山组砾石极有可能来自于阿拉善地块前寒武纪变质基底。结合诺尔公—狼山构造带晚古生代大陆岩浆弧的存在,认为二叠系大红山组地层沉积于弧背前陆盆地的构造背景。     

阿拉善地块东北缘狼山地区大红山组沉积时代、物质来源及区域构造意义

阿拉善地块位于中亚造山带南缘,是研究中亚造山带南缘二叠纪构造背景及演化的关键地区。本研究在阿拉善地块东北缘狼山地区野外调查的基础上,对狼山地区大红山组地层进行古流向、碎屑锆石LA- ICP- MS U- Pb定年和砂岩碎屑组分分析。研究表明砾石最大扁平面倾向为SWW—NWW,指示大红山组地层沉积时的古水流的流向总体呈现自西向东,推测大红山组砾石主要来自狼山西部地区。砂岩中碎屑锆石最小年龄峰值为275 Ma和278 Ma,表明大红山组沉积时代不早于中二叠世早期。砂岩的碎屑组分分析和碎屑锆石年龄谱指示大红山组可能来自于晚古生代诺尔公—狼山弧,砾石的古流向分析和碎屑锆石年龄谱推测大红山组砾石极有可能来自于阿拉善地块前寒武纪变质基底。结合诺尔公—狼山构造带晚古生代大陆岩浆弧的存在,认为二叠系大红山组地层沉积于弧背前陆盆地的构造背景。     

新疆准噶尔古生代洋盆闭合时限——来自卡拉麦里地区石炭纪碎屑锆石U-Pb年代学的约束

新疆准噶尔古生代洋盆闭合时限对中亚造山带古生代构造格局及演化研究具有重要意义。东准噶尔卡拉麦里断裂带南缘广泛出露石炭纪陆相粗碎屑岩系,沉积相分析表明其形成于扇三角洲沉积环境。依据区域地层对比、岩石组合特征及地层接触关系,将其重新厘定为山梁砾石组。选择西段滴水泉和东段双井子2个地区的山梁砾石组剖面进行地层对比,并在2个剖面底部采集粗砂岩样品进行LA-ICP-MS锆石U-Pb年龄测定,获得最年轻的碎屑锆石年龄分别为349±4Ma和355±3Ma,代表山梁砾石组沉积时代晚于349Ma,应为早石炭世早期。碎屑锆石年龄分布特征及砾石成分表明,其物源主要来自断裂带北侧的泥盆纪火山岩。在分析前人资料的基础上,认为山梁砾石组碎屑岩系是卡拉麦里造山带强烈隆升造山过程的沉积学响应,形成于前陆盆地,限定了准噶尔古生代洋盆闭合时限在早石炭世早期之前。     

秦岭南缘勉略带构造属性及晚古生代地质背景:来自碎屑锆石U-Pb年代学的制约

勉略构造带作为秦岭造山带内重要的构造边界,关于其构造属性及晚古生代以来的地质背景,一直是学术界争论的焦点。碎屑锆石U-Pb年代学在限定地层单元的最大沉积年龄、研究区域构造岩浆事件及约束构造地质背景等方面行之有效。基于此,通过对勉略带内五郎坪北侧两河口变沉积地层和侵入其中的变形花岗岩脉体进行LA-ICP-MS锆石U-Pb年代学研究。获得2件变形花岗岩脉的结晶年龄均为406±1Ma。碎屑锆石主年龄谱分别为422～456Ma和558～826Ma,峰值年龄为441Ma和771Ma、813Ma,次级年龄谱分别为942～1495Ma和1658～2981Ma,峰值年龄不明显。依据最小一组碎屑锆石的峰值年龄(441Ma),和侵入其中的变形花岗岩脉(406±0.6Ma),限定该变沉积地层形成时代为406～441Ma(S_1-D_1)。碎屑锆石年龄谱显示该套变沉积地层物质来源较为复杂,其中秦岭造山带及扬子板块北缘早古生代、新元古代岩浆岩为其提供了74%±的物源,古老变质基底为其提供了26%±的物源。通过与区域上已有资料对比,认为勉略构造带内晚古生代沉积地层形成环境与邻区大致相同,且本次所获得的变沉积岩碎屑锆石年龄谱也与邻区泥盆系相似。综合认为,勉略构造带与邻区在晚古生代应属同一构造环境,晚古生代"勉略海盆"应当包括整个南秦岭。     

大兴安岭中段乐平统-中三叠统沉积物源分析:来自重矿物组合及碎屑锆石年代学证据

黑龙江西部龙江地区位于中亚造山带东段,黑河-贺根山缝合带与西拉木伦缝合带之间,地层记录了两大古板块之间古亚洲洋闭合过程的信息。本文对龙江地区乐平统林西组和下-中三叠统老龙头组的砂岩样品进行碎屑重矿物和碎屑锆石U-Pb同位素年代学研究。碎屑重矿物组合以锆石+磷灰石+金红石+角闪石+绿帘石+重晶石的组合为特征,表明物源主要来自于中酸性岩浆岩,并有少量变质岩及沉积岩组分。林西组样品最年轻的锆石年龄为278±3Ma,老龙头组样品最年轻的锆石年龄为247±3Ma、243±4Ma及237±3Ma,结合前人的研究,限定了林西组沉积于乐平世,老龙头组沉积于早三叠世-中三叠世。碎屑锆石年龄谱明显分为五组:237～258Ma、270～329Ma、357～558Ma、680～1633Ma及1893～1966Ma。其中237～258Ma的碎屑锆石主要来自与古亚洲洋洋壳消亡前的俯冲增生过程相关的火山活动,270～329Ma的碎屑锆石主要来自大石寨组火山岩及其同期侵入岩,357～558Ma的碎屑锆石来自早古生代-晚古生代早期岩浆弧,680～1633Ma的碎屑锆石可能来自兴安及额尔古纳地块的变质基底,而较古老的～1800Ma的锆石年龄暗示了华北克拉通基底的物源信息。通过研究发现林西组及老龙头组样品前30%年轻的碎屑锆石年龄与地层沉积年龄之差都小于100Ma,结合对砂岩碎屑组成、重矿物组合及盆地与火山弧位置关系的研究,认为研究区乐平世-中三叠世沉积盆地具有汇聚背景,为弧前盆地。     

黑龙江东部晚古生代沉积岩中碎屑锆石U-Pb年龄:对盆地沉积时限和区域构造演化的制约

研究区位于华北克拉通和西伯利亚克拉通之间中亚造山带的东段.该区古生代构造演化以多个微陆块的聚合为特征,属于古亚洲洋构造体系,中生代叠加了环太平洋构造体系.古生代期间,研究区内多陆块之间是否存在统一的古老结晶基底?多个微陆块间是何时拼合在一起的?这些都是当前中亚造山带东段研究中尚未得到明确回答的问题.然而,研究区内晚古生代早期沉积岩中碎屑锆石的年代学为此提供了制约.     

兴蒙造山带晚古生代伸展过程:来自二连浩特东北部石炭-二叠系沉积地层的证据

本文选取内蒙古二连浩特东北部本巴图地区,通过对石炭-二叠纪沉积典型地层的剖面测制、锆石U-Pb年代学及Hf同位素分析,查明其充填层序、沉积环境及物质来源,并进一步探讨了兴蒙造山带晚古生代伸展构造的演化过程。来自石炭-二叠纪地层的3个凝灰岩样品中最年轻峰值年龄分别为298Ma、302Ma、303Ma,表明其形成时代为303～298Ma,即晚石炭世-早二叠世,应归属格根敖包组。沉积环境研究揭示石炭-二叠纪沉积地层发育两个从前三角洲相到三角洲前缘相的旋回,其沉积速率估算结果与伸展构造背景下的裂谷盆地沉积速率相似。锆石Hf同位素特征分析表明,从约400Ma到约300Ma,其演化趋势具有新生地壳明显增多的特点,揭示从早中古生代年轻造山带形成到晚古生代伸展作用发生过程中的变化。结合区域地质研究,晚古生代北造山带的沉积演化和伸展作用过程可分为四个阶段:第一阶段为磨拉斯盆地形成,以盆地南缘泥鳅河组为代表;第二阶段为贺根山伸展带发育阶段,形成超基性-基性-酸性的岩浆组合;第三阶段为稳定的陆表海环境,以晚石炭世本巴图和阿木山组的碎屑岩-碳酸盐岩组合为代表;第四阶段是晚石炭世-早二叠世的第二次伸展,发育格根敖包组火山-沉积岩系组成的三角洲沉积,具有陆内裂谷盆地性质。     

阿尔泰哈巴河群的沉积时代及其构造背景

北疆阿尔泰造山带的哈巴河群变质碎屑岩分布广泛,其沉积时代和构造环境对于认识中亚造山带的演化历史有重要意义。早期研究认为哈巴河群沉积于震旦纪—中奥陶世时期,形成于被动大陆边缘构造环境。而最近有学者根据中亚造山带的地质演化背景提出,阿尔泰形成于活动陆缘构造环境。对哈巴河群中碎屑锆石的年代学研究表明,不同岩性或变质程度不同的样品碎屑锆石主要类群具有相似的年龄分布特征,其~(206)Pb/~(238)U 年龄主要介于463～542Ma 之间。在这些样品中, 最年轻的碎屑锆石年龄均集中于470Ma 左右,代表了碎屑沉积的时代下限。而哈巴河群混合岩样品中碎屑锆石增生边形成于中泥盆世晚期(384±6Ma),与侵入该群的早古生代花岗岩的年龄十分接近,大致反映了哈巴河群碎屑岩沉积时代的上限,因此哈巴河群的沉积时代应在早泥盆世—中奥陶世之间。锆石的形态和内部结构特征显示哈巴河群的年轻碎屑锆石类群(463～542Ma)主要为岩浆锆石,其磨圆度较差,而且在比例上远高于前寒武纪碎屑锆石。上述特点与活动大陆边缘碎屑锆石类群分布特征完全一致,反映阿尔泰在中奥陶世至早泥盆世可能处于活动大陆边缘构造环境。     

Geochronology and geochemistry of Permo-Triassic sandstones in eastern Jilin Province (NE China): Implications for final closure of the Paleo-Asian Ocean

In the eastern part of the Central Asian Orogenic Belt (CAOB) in northeastern (NE) China, scattered outcrops of molasse deposits mark the ending of an orogeny and are crucial for understanding the evolution of the Paleo-Asian Ocean (PAO). However, the timing of tectonic events and the relationships among these strata remain controversial. To better constrain these geologic events, a comprehensive study of the detrital zircon U-Pb geochronology and geochemistry of the sandstones of the Kaishantun (KST) Formation and Kedao (KD) Group in eastern Jilin Province, NE China, was conducted. The KST Formation is traditionally considered a molasse deposit. The sandstones display low CIA, PIA and high ICV values and low Th/U and Rb/Sr ratios, which suggest that the rocks were derived from an immature intermediate-felsic igneous source and experienced a simple sedimentary recycling history with relatively weak chemical weathering. LA-ICP-MS U-Pb dating of detrital zircons from two samples of the KST Formation yields ages of 748–252 Ma, suggesting that the KST Formation was deposited between 254.5 Ma and 252 Ma in Late Permian. The zircons were mainly derived from the continental northern part of the North China Craton (NCC). In contrast, the U-Pb dating of detrital zircons from five samples of the KD Group yields ages of 2611–230 Ma, suggesting that the KD samples were deposited in the Early to Middle Triassic (ca. 248–233 Ma). The detrital zircon ages for the KD samples can be divided into groups with peaks at 2.5 Ga, 1.8 Ga, 800–1000 Ma, 500 Ma and 440–360 Ma, which suggest that the samples were derived from bidirectional provenances in the Jiamusi-Khanka Block and the NCC. These new data, combined with previously published results, suggest that at least three orogenic events occurred in central-eastern Jilin Province during the Early Permian (270–262 Ma), Early Triassic (254–248 Ma) and Middle–Late Triassic (242–227 Ma). The final closure of the PAO occurred during 242–227 Ma in the Middle–Late Triassic along the Changchun-Yanji suture zone. The detrital zircon geochronological data clearly record plate convergence and the scissor-like closure of the PAO in the eastern CAOB.     

Provenance of the Permo–Carboniferous sediments in the northern Alxa and its tectonic implications for the southernmost Central Asian Orogenic Belt

As the southernmost segment of the Central Asian Orogenic Belt (CAOB), the northern Alxa orogenic belt (NAOB) connects the southeastern and southwestern segments of the CAOB. The NAOB amalgamated with the closure of the Paleo-Asian Ocean; however, the closure time of the Paleo-Asian Ocean is still on great debate. In this study, we reported new detrital zircon U–Pb geochronology and Hf–O isotopes for the Permo–Carboniferous sediments in the northern Alxa to constrain the provenance and its tectonic implications. The Permo–Carbonifereous Amushan Formation is composed of volcanic-carbonite-clastic rocks and was deposited in a shallow marine environment. Based on the zircon U–Pb geochronology, the Amushan Formation was deposited in the late Carboniferous to early Permian, but some outcrops of volcanic and clastic rocks in the Quaganqulu area were likely formed in the middle to late Permian. The integrated zircon age spectrum for the clastic rocks shows a wide range from late Archean to Paleoproterozoic, Mesoproterozoic (with a peak age at 1458 ​Ma), early Neoproterozoic (with peak ages of 988 ​Ma and 929 ​Ma), early Paleozoic (with a peak age at 447 ​Ma) and late Paleozoic (with a peak age at 294 ​Ma). Combined with the zircon Hf–O isotopes, the provenance was considered to be the Alxa Block, the Shalazhashan terrane and the Zhusileng–Hangwula block (and the southern Beishan orogenic belt). The multiple source regions to the south and north of the Paleo-Asian Ocean indicate the closure of this ocean before the late Carboniferous. The absence or small proportion of depositional age-approximated zircons in most samples makes their age spectra similar to extensional basins. Combined with the intra-plate volcanism, the deposits were considered to be formed in extensional settings. Accordingly, after the closure of the Paleo-Asian Ocean, the NAOB stepped into an extensional stage.     

Detrital Zircon U‐Pb Ages and Geochemistry of the Silurian to Permian Sedimentary Rocks in Central Inner Mongolia,China: Implications for Closure of the Paleo‐Asian Ocean

The Solonker suture zone has long been considered to mark the location of the final disappearance of the PaleoAsian Ocean in the eastern Central Asian Orogenic Belt(CAOB). However, the time of final suturing is still controversial with two main different proposals of late Permian to early Triassic, and late Devonian. This study reports integrated wholerock geochemistry and LA-ICP-MS zircon U-Pb ages of sedimentary rocks from the Silurian Xuniwusu Formation, the Devonian Xilingol Complex and the Permian Zhesi Formation in the Hegenshan-Xilinhot-Linxi area in central Inner Mongolia, China. The depositional environment, provenance and tectonic setting of the Silurian-Devonian and the Permian sediments are compared to constrain the tectonic evolution of the Solonker suture zone and its neighboring zones. The protoliths of the silty slates from the Xuniwusu Formation in the Baolidao zone belong to wacke and were derived from felsic igneous rocks with steady-state weathering, poor sorting and compositional immaturity. The protoliths of metasedimentary rocks from the Xilingol Complex were wackes and litharenites and were sourced from predominantly felsic igneous rocks with variable weathering conditions and moderate sorting. The Xuniwusu Formation and Xilingol Complex samples both have two groups of detrital zircon that peak at ca. 0.9–1.0 Ga and ca. 420–440 Ma, with maximum deposition ages of late Silurian and middle Devonian age, respectively. Considering the ca. 484–383 Ma volcanic arc in the Baolidao zone, the Xuxiniwu Formation represents an oceanic trench sediment and is covered by the sedimentary rocks in the Xilingol Complex that represents a continental slope sediment in front of the arc. The middle Permian Zhesi Formation metasandstones were derived from predominantly felsic igneous rocks and are texturally immature with very low degrees of rounding and sorting, indicating short transport and rapid burial. The Zhesi Formation in the Hegenshan zone has a main zircon age peak of 302 Ma and a subordinate peak of 423 Ma and was deposited in a back-arc basin with an early marine transgression during extension and a late marine regression during contraction. The formation also crops out locally in the Baolidao zone with a main zircon age peak of 467 Ma and a minor peak of 359 Ma, and suggests it formed as a marine transgression sedimentary sequence in a restricted extensional basin and followed by a marine regressive event. Two obvious zircon age peaks of 444 Ma and 280 Ma in the Solonker zone and 435 Ma and 274 Ma in Ondor Sum are retrieved from the Zhesi Formation. This suggests as a result of the gradual closure of the Paleo-Asian Ocean a narrow ocean sedimentary environment with marine regressive sedimentary sequences occupied the Solonker and Ondor Sum zones during the middle Permian. A restricted ocean is suggested by the Permian strata in the Bainaimiao zone. Early Paleozoic subduction until ca. 381 Ma and renewed subduction during ca. 310–254 Ma accompanied by the opening and closure of a back-arc basin during ca. 298–269 Ma occurred in the northern accretionary zone. In contrast, the southern accretionary zone documented early Paleozoic subduction until ca. 400 Ma and a renewed subduction during ca. 298–246 Ma. The final closure of the Paleo-Asian ocean therefore lasted at least until the early Triassic and ended with the formation of the Solonker suture zone.     

额济纳旗地区晚石炭-晚二叠世地层沉积学和年代学研究及其构造背景分析

对额济纳旗地区红石山-黑鹰山坳陷带和马鬃山-切刀隆起带晚石炭世-晚二叠世地层进行了沉积学和年代学研究。红石山-黑鹰山坳陷带的大狐狸山地区干泉组下段碎屑岩可分为滨海相、前三角洲相和三角洲前缘相等三种沉积相类型,具有向上粒度变粗的特征,表明该带属于以三角洲快速供应为主的滨海带沉积环境。碎屑锆石年代学分析表明其形成时代为322～305Ma,主要集中在428～520Ma和336～373Ma两个时期,分别代表红石山-黑鹰山坳陷带边缘古亚洲洋俯冲及其结束后早石炭世伸展过程的两期岩浆活动记录。马鬃山-切刀隆起带的八道桥地区二叠系由巨厚的紫红色砾岩、砂岩重复组成多个旋回,沉积及层序特征表明该套地层形成于干旱条件下的快速沉积,属陆相洪冲积环境产物,沉积时代为280～268Ma。碎屑锆石年龄谱也记录了早古生代岩浆活动峰期(424～515Ma)和古老基底年龄(950Ma和1700～1900Ma)。阿拉善旗埋汗哈达地区埋汗哈达组从下向上分为洪冲积相、滨海泻湖相和滨海相等三种沉积相,构成从陆相到海相变化的沉积序列,形成时代为279～270Ma。该组的碎屑锆石分析主要记录了三个连续的峰期年龄即280Ma、287Ma和294Ma,说明早二叠世发生频繁的岩浆活动。沉积学及年代学研究揭示哈尔苏海组为滨海环境,形成于晚二叠世,其碎屑锆石年龄分布广泛,除273～329Ma的年龄代表晚石炭世-中二叠世岩浆活动外,其余锆石集中在383Ma、468～517Ma、800～913Ma和1485Ma等四个峰期,表明马鬃山-切刀隆起带在晚二叠世接受了来自早古生代造山带和古老基底的复杂物源。八道桥及埋汗哈达地区的研究揭示晚二叠世马鬃山-切刀隆起带的古地理环境为从陆相到滨海相。上述沉积学和年代学分析表明额济纳旗地区红石山-黑鹰山坳陷带和马鬃山-切刀隆起带对沉积环境和古地理格局有关键控制作用。通过中国北方新疆、甘肃和内蒙古晚石炭世-二叠纪的对比研究揭示,在天山-兴蒙造山带基底上广泛发育以隆起和坳陷相间为特征的盆岭构造,导致形成不同的沉积古地理环境并控制沉积相带的展布,识别这种古构造格局对于追溯我国北方晚古生代沉积古地理具有重要意义。     

Detrital zircon U-Pb ages of Middle–Late Permian sedimentary rocks from the southwestern margin of the North China Craton: Implications for provenance and tectonic evolution

The southwestern margin of the North China Craton (NCC) is located between the Alxa Terrane to the northwest, the North Qilian Orogen to the west and the North Qinling Orogen to the south. However, the paleogeographic and tectonic evolution for the southwestern part of the NCC in the Late Paleozoic is still poorly constrained. In order to constrain the Late Paleozoic tectonic evolution of the southwestern NCC, we carried out detailed field work and detrital zircon U-Pb geochronological research on Middle–Late Permian sedimentary rocks at the southwestern margin of the NCC. The U-Pb age spectra of detrital zircons from six samples are similar, showing four populations of 2.6–2.4 Ga, 2.0–1.7 Ga, 500–360 Ma and 350–250 Ma. Moreover, on the basis of the weighted-mean age of the youngest detrital zircons (257 ± 4 Ma), combined with the published results and volcanic interlayers, we propose that the Shangshihezi Formation formed during the Middle–Late Permian. Our results and published data indicate that the detrital zircons with age groups of 2.6–2.4 Ga and 2.0–1.7 Ga were likely derived from the Khondalite Belt and Yinshan Block in the northwestern NCC. The junction part between the North Qinling and North Qilian Orogen may provide the 500–360 Ma detrital zircons for the study area. The 350–250 Ma detrital zircons were probably derived from the northwestern part of the NCC. The majority of materials from Shangshihezi Formation within the study area were derived from the northwestern part of the NCC, indicating that the northwestern part of the NCC was strongly uplifted possibly resulting from the progressive subduction and closure of the Paleo-Asian Ocean. A small amount of materials were sourced from southwestern part of the NCC, indicating that the North Qinling Orogen experienced a minor uplift resulting from the northward subduction of the South Qinling terrane.     

兴蒙造山带中部晚古生代构造格局:来自晚泥盆-早石炭世色日巴彦敖包组碎屑锆石和火山岩岩浆锆石年代学的制约

内蒙古苏尼特左旗地区位于兴蒙造山带中段,是研究古生代俯冲-增生造山作用和地壳生长的关键地区。在苏尼特左旗南部,晚泥盆-早石炭世色日巴彦敖包组角度不整合在早古生代增生楔之上,已有研究对于其沉积环境、盆地属性及区域构造意义一直存在较大分歧。本文对色日巴彦敖包组敖木根呼都格剖面和阿拉塔特剖面碎屑岩和火山岩夹层开展锆石UPb测年及Hf同位素分析,并进行了沉积相分析进一步查明了地层层序、时代及物源特征,并对沉积环境和盆地属性进行了探讨。研究表明,敖木根呼都格剖面色日巴彦敖包组底部含砾粗砂岩最小谐和碎屑锆石年龄为391±5Ma,中下部凝灰质砂岩最小谐和碎屑锆石年龄为338.2±4.3Ma,凝灰岩锆石年龄为336±2Ma、333±3.5Ma,结合古生物化石,表明底部形成于晚泥盆世,中上部地层形成于早石炭世晚期。阿拉塔特剖面中上部安山质火山碎屑岩最小谐和碎屑锆石年龄加权平均值为320.4±6.2Ma,表明其形成于晚石炭世。碎屑锆石年龄谱及Hf同位素组成表明底部及中部砂岩碎屑物主要来自近源的早古生代白音宝力道和二连东乌旗地区弧岩浆岩,少量来自北侧南蒙古弧。结合沉积相分析,推测苏尼特左旗南部色日巴彦敖包组下部为一套形成于弧陆碰撞后被动陆缘滨浅海相沉积建造,中上部为形成于弧前盆地的一套杂砂岩夹火山岩建造。以上资料表明,该区从早石炭世开始转为活动陆缘背景,暗示古亚洲洋中东段在晚古生代仍未封闭。     

大兴安岭南部扎赉特旗团发村晚古生代沉积岩源区和时代限定

大兴安岭南部扎赉特旗地区分布着一套晚古生代地层,由砂岩、粉砂岩和泥岩组成,由于缺乏古生物化石和年代学证据,前人依据地层对比将其定为晚二叠世林西组。本次工作在详细地野外地质调查基础上,运用锆石LA-ICP-MS U-Pb测年技术,对三个砂岩样品(样品号:18TF-01、18YSL-04和18XBL-01)中的碎屑锆石进行了测定,共获得219颗碎屑锆石U-Pb年龄值,其主要分布在243~269Ma,273~298Ma,305~339Ma,350~377 Ma,445~507 Ma和754~1053 Ma六个年龄区间。其中获得最年轻的一组锆石的谐和年龄为245 Ma,并结合区域上侵入该地层花岗岩的年龄,限定其沉积时代可能为中三叠世。根据碎屑锆石的年龄值特征反映出该地层具有多物源供给的特点,其中年龄为243~269Ma的碎屑物质源区主要来自于古亚洲洋闭合及碰撞造山相关的岛弧花岗岩类;年龄为273~298 Ma主要来自于大石寨组火山岩;年龄为305~339 Ma可能主要来自于格根敖包组火山岩;350~377 Ma的碎屑锆石可能源于北部大民山组火山岩;年龄为754~1053 Ma的碎屑锆石与漠河杂岩、兴华渡口群及佳木斯微陆块中元古代的岩浆事件有关;较古老~1800 Ma的碎屑锆石可能来自于古亚洲洋中微陆块或结晶基底。砂岩中锆石的形成年龄与地层沉积年龄较为相近,显示出汇聚背景下的特征。因此,综合砂岩物质组成、锆石年龄特征及弧-盆之间时空关系,显示中三叠世该地区可能形成于汇聚背景下的弧前盆地。     

延边开山屯地区二叠纪地质体的构造属性：侵入岩及碎屑锆石证据

本文对延边开山屯地区二叠纪侵入岩和地层中的(碎屑)锆石进行了LA-ICP-MS和SIMS U-Pb年代学及Hf同位素的研究,同时对侵入岩进行了全岩地球化学特征的研究,以便制约开山屯地区的构造属性以及延边地区晚古生代-早中生代演化历史。延边开山屯地区大蒜沟组复成分砾岩和岩屑杂砂岩中锆石最年轻峰值年龄为298Ma和293Ma,此外还存在330Ma、366Ma、438Ma、454Ma、479Ma峰值年龄。这些古生代碎屑锆石的ε_(Hf)(t)值介于-1.14～+15.17之间;开山屯组长石杂砂岩和长石砂岩中的锆石最年轻年龄峰值分别为259Ma和253Ma,此外还存在279Ma、456Ma、476Ma、500Ma、529Ma以及新元古代-古元古代(891～1765Ma)的峰值年龄。其中古生代碎屑锆石的ε_(Hf)(t)值介于-5.22～+10.15之间。开山屯地区中二叠世闪长岩和晚二叠世辉长闪长岩的形成时代分别为261Ma和256Ma,属于低钾拉斑-中钾钙碱性系列,相对富集轻稀土和大离子亲石元素,亏损重稀土和高场强元素,主要来源于受俯冲流体/熔体交代的亏损地幔楔的部分熔融。综合研究认为,开山屯地区与兴凯地块具有亲缘性;大蒜沟组的沉积时限为早-中二叠世,形成于兴凯地块西部活动大陆边缘的弧前盆地或增生楔环境;开山屯组形成于早-中三叠世,具有双向物源的特点(华北板块和兴凯地块)。早-中二叠世延边地区处于活动大陆边缘的构造背景。延边地区的古亚洲洋于早-中三叠世最终闭合。