西藏措勤盆地的上古生界-下中生界：潜在的油气沉积建造

新的地层和古生物学研究结果表明,措勤盆地在晚古生代一早中生代不存在长达75Ma以上的沉积间断．其中,晚二叠世-晚三叠世诺利期都是海相碳酸盐岩地层,晚三叠世瑞替期-早中侏罗世为陆缘碎屑岩地层．两者之间为角度不整合接触．措勤盆地在晚二叠世-晚三叠世诺利期一直处于海相碳酸盐岩盆地中．晚三叠世瑞替期-早中侏罗世仍然是接受巨厚沉积的低洼地区。从宏观的油气勘探的战略评价角度看．措勤盆地在中二叠世栖霞期-晚三叠世诺利期的海相碳酸盐岩地层具有生油层的性质,上三叠统瑞替阶-中下侏罗统具有盖层的性质,两者之间的角度不整合具有储集层的性质。措勤盆地中二叠统-下侏罗统构成一个油气的有利勘探层系．称为古格层系。     

西藏措勤盆地的上古生界—下中生界：潜在的油气沉积建造

新的地层和古生物学研究结果表明,措勤盆地在晚古生代一早中生代不存在长达75Ma以上的沉积间断．其中,晚二叠世-晚三叠世诺利期都是海相碳酸盐岩地层,晚三叠世瑞替期-早中侏罗世为陆缘碎屑岩地层．两者之间为角度不整合接触．措勤盆地在晚二叠世-晚三叠世诺利期一直处于海相碳酸盐岩盆地中．晚三叠世瑞替期-早中侏罗世仍然是接受巨厚沉积的低洼地区。从宏观的油气勘探的战略评价角度看．措勤盆地在中二叠世栖霞期-晚三叠世诺利期的海相碳酸盐岩地层具有生油层的性质,上三叠统瑞替阶-中下侏罗统具有盖层的性质,两者之间的角度不整合具有储集层的性质。措勤盆地中二叠统-下侏罗统构成一个油气的有利勘探层系．称为古格层系。     

闽西南晚三叠世文宾山组碎屑锆石U-Pb年龄及地质意义

日益增多的资料表明中国东南沿海并不是后加里东地台,而是由不同地块拼贴而成。闽西南晚三叠世文宾山组具有类磨拉石沉积特征,其盆地沉积物碎屑锆石U-Pb年龄信息,可以为了解盆地源区组成及其变化及区域构造演变过程研究提供约束。闽西南晚三叠世文宾山组碎屑锆石形态学及U-Pb测年分析表明：(1)晚三叠世文宾山组物源复杂,其主要源区是闽西北隆起带;(2)闽西南晚三叠世具有大于2 500 Ma的太古宙的源区,华夏古陆可能存在太古宙陆核或东南沿海还存在另一古老基底;(3)980~1 190 Ma的碎屑锆石说明晚三叠世闽西南具有Grenville期物质来源,它们可能来自另外一个陆块,由于印支期古特提斯洋关闭与华夏地块拼接,并为晚三叠世盆地提供物源;(4)区内印支期岩浆岩带也是晚三叠世沉积的重要物源区。      

阿尔及利亚B区块上三叠统高分辨率层序及储层特征

阿尔及利亚B区块位于Oued Mya盆地东部,自奥陶纪以后该盆地多次发生隆升剥蚀,加里东运动造成志留纪和盆纪地层不同程度的缺失。海西期基底隆升,造成石炭纪和二叠纪地层的完全缺失,并在晚三叠世早期开始发育辫状河沉积。B区块晚三叠世沉积具有从早期的辫状河向中期的曲流河和晚期的盐湖演化特点,其过程较为复杂。在晚三叠世早中期发生强烈的火山喷发作用,在研究区内堆积了厚度巨大的火山岩,使研究砂体的时空展布和演化规律变得更为复杂。通过高分辨率层序分析,建立了B区块晚三叠世的等时地层格架,为恢复研究区等时条件下的古地理特征奠定了基础,并明确了层序对储层的控制规律,为该区进一步的油气勘探和开发提供了依据。     

藏南康马地区三叠系研究新进展

根据康马地区三叠系吕村组和涅如组新发现的化石及区域地质背景 ,把该区的地层时代分别厘定为中三叠世中晚期至晚三叠世早期和晚三叠世中晚期 ,并认为缺失早三叠世至中三叠世早期的沉积。研究表明康马地区三叠系与二叠系之间为微角度不整合接触 ,是“藏南运动”和“印支伸展运动”共同影响形成的。晚二叠世末至中三叠世早期 ,康马地区露出海面 ,接受剥蚀并形成喀斯特化风化壳。中三叠世末至晚三叠世 ,这一地区发生强烈伸展—裂陷 ,地壳迅速沉降 ,形成被动大陆边缘裂谷盆地 ,发育巨厚的半深海—深海复理石沉积 ,并伴随大量基性岩浆贯入。涅如组下部有两期基性岩侵入 ,早期基性岩床形成于印支晚期 ,晚期穿层侵入形成于燕山早期。     

若尔盖盆地中、晚三叠世沉积岩微量元素地球化学特征及其构造背景

位于松潘-甘孜带东北部的若尔盖盆地是中、晚三叠世时期松潘-甘孜构造带北部重要的沉积区。对若尔盖地区的红参一井内中三叠世中期和晚三叠世中期的37个杂砂岩样品进行了ICP-MS微量元素分析,其结果显示这些砂岩样品具有Cs、Rb、Th等元素富集,Sr、Nb和Ta亏损,稀土元素总量较高,且负Eu异常和轻重稀土分异明显等壳源物质的特征;而微量不活动元素的含量及比值特征以及构造环境判别图解的判别结果表明:若尔盖盆地中三叠世中期到晚三叠世中期的沉积构造环境为大陆岛弧,沉积物源受到大陆岛弧的强烈影响。通过对比杂砂岩稀土元素组成在上层和下层样品之间的变化,若尔盖盆地内中三叠世中期到晚三叠世中期及晚期沉积物源区的构造背景和性质发生了明显的改变,而这一变化很可能是盆地东侧成熟陆壳在晚三叠世后期被抬升和剥蚀,其大量碎屑物质被带到盆地的结果。     

三江北段晚三叠世构造-岩浆作用和几个相关的科学问题

中国西南三江北段的松潘-甘孜褶皱带和义敦地体以强烈的晚三叠世构造-岩浆活动为特征.松潘-甘孜褶皱带的岩浆活动主要发生在228～190 Ma(峰期时代为约210 Ma),略晚于义敦地体的岩浆活动(236～200 Ma,峰期时代为约216 Ma).金沙江洋可能经历了西向和东向的双向俯冲,于晚二叠世末—早三叠世初闭合,甘孜-...     

西藏昂仁县孔隆地区木纠错组诺利期牙形石的发现及其地质意义

拉萨地块晚二叠世-三叠纪地层的研究对认识青藏高原前新生代特提斯演化具有重要意义,但目前对该时期的沉积充填序列及古地理环境尚未形成统一认识.通过对西藏昂仁县孔隆地区开展的详细地层和牙形石相关研究,在木纠错组上部发现了晚三叠世诺利期Epigondolella sp.牙形石分子,在下拉组顶部发现了时代跨越晚二叠统长兴阶和早三叠统印度阶的牙形石Hindeodus typicalis;从而将研究区木纠错组时代重新厘定为晚二叠世长兴期至晚三叠世诺利期,指示拉萨地块西部三叠纪应仍为连续的浅海相沉积.      

青海祁漫塔格中晚三叠世花岗岩:年代学、地球化学及成矿意义

地处柴达木盆地西南缘的青海祁漫塔格地区不仅是一个特征显著的构造-岩浆岩带,而且也是重要的多金属成矿带。本文对该区中晚三叠世花岗岩开展了详细的年代学、岩石地球化学及Sr-Nd-Pb同位素组成研究,并探讨了成矿意义。结果表明,本区中晚三叠世花岗岩均系准铝质到弱过铝质高钾钙碱性花岗岩类,晚三叠世花岗岩具有更高的K2O/Na2O比值,富集大离子亲石元素(LILE)和轻稀土元素(LREE),明显亏损高场强元素(HFSE),中等初始锶比值和偏负的εNd(t)值表明它们主要源于古老地壳物质的深熔或重熔,并可能有幔源物质的加入;发育闪长质暗色微粒包体的中三叠世花岗岩锆石U-Pb年龄为230～237Ma,大多具斑状或似斑状结构的晚三叠世高分异富钾花岗岩形成于204～228Ma,表明大约240Ma祁漫塔格主造山已由挤压转入伸展并伴有幔源岩浆活动,晚三叠世后演化到后碰撞阶段;中晚三叠世花岗岩与本区密集产出的矽卡岩型和斑岩型多金属矿床的时空与成因关系密切,具有重要找矿指示意义。     

试论贺兰山地区延长群与鄂尔多斯盆地的关系

分布于贺兰山的上三叠统陆相碎屑岩与鄂尔多斯盆地的同期沉积物之间的关系,历来多有争议。本文对比了其沉积环境的演化趋势,认为,贺兰山的环境是由冲积扇演化为湖泊,水体由浅变深;鄂尔多斯盆地的沉积环境是由小湖泊演化为深大湖泊,然后复变为小湖泊,最后成为冲积平原。二者演化途径相差甚大,应属两个分立的盆地。     

陕西铜川晚三叠世孢粉植物群及其环境意义

本文基于陕西铜川地区上三叠统永坪组和瓦窑堡组发现的孢子花粉化石28属46种的研究,建立了研究区晚三叠世早期至晚期孢粉植物群。根据孢粉植物群的特征探讨了该区晚三叠世古生态、古气候、古地理和沉积环境。研究结果认为研究区晚三叠世早期古气候和沉积环境有利于石油的形成,晚期古气候和沉积环境有利于煤炭和天然气的形成。     

东昆仑祁漫塔格走廊域晚古生代—早中生代侵入岩岩石组合及时空格架

基于东昆仑造山带祁漫塔格构造走廊域晚古生代—早中生代侵入岩类的野外地质学、岩石学、时空分布和同位素定年资料,可以识别出5个构造岩浆阶段和5个构造岩浆带。研究区的岩浆活动主要集中于早中二叠世阶段、晚二叠世晚期—中三叠世早期、中三叠世、晚三叠世和晚三叠世—早侏罗世。早中二叠世阶段的岩浆活动产物为花岗闪长岩+(斑状)二长花岗组合、石英闪长岩+斑状石英闪长岩组合及闪长岩+石英闪长岩组合,晚二叠世晚期—中三叠世早期(254.1～240.6Ma)为(斑状)二长花岗岩+正长花岗岩组合;中三叠世(安尼期晚期—拉丁初期)为闪长岩+石英闪长岩+花岗闪长岩+英云闪长岩组合;晚三叠世(212～225Ma)为石英二长闪长岩+花岗闪长岩+(斑状)二长花岗岩+正长花岗岩组合;晚三叠世—早侏罗世(瑞替—郝塘期)代表性的岩石组合为石英二长岩+(斑状)正长花岗岩+碱长花岗岩。这些火成岩组合有规律地分布在构造走廊域内,是揭示东昆仑造山带构造演化的关键所在。     

巴颜喀拉残留洋盆的沉积特征

巴颜喀拉盆地垂向沉积序列表明：盆地于早古生代被动陆缘的浅海基础上裂陷、拉开，泥盆纪贯通，早石炭世洋盆扩展为成熟大洋，晚石炭世洋盆北部开始消减、南部继续扩张，晚二叠世-中三叠世进入残留洋阶段，晚三叠世转化为周缘前陆盆地．三叠纪末完全闭合，盆地自形成到消亡为一个连续的沉积和地质构造演化过程。其主体由早中三叠世深海沉积、典型浊积岩复理石和晚三叠世浅海复理石、风暴岩沉积、海相磨拉石构成，北部零星出露了中二叠世海山型沉积，昆南结合带以北有早中三叠世岛弧沉积。以盆地为中心具有向南北两侧陆块双向相背俯冲的极性特点，东西两端的碰撞造山不迟于晚二叠世。总体反映了古特提斯晚二叠世-中三叠世的残留洋盆性质和主洋域之所在。     

The age of predictable primary diamond sources in the northeastern Siberian Platform

The U–Pb (SHRIMP) age was determined for zircons collected from 26 observation and sampling sites of diamonds and index minerals in the northeastern Siberian Platform. This part of the region hosts 15 low-diamondiferous Paleozoic and Mesozoic kimberlite fields, excluding the near economic Triassic Malokuonapskaya pipe in the Kuranakh field. Four epochs of kimberlite formation (Silurian, Late Devonian to Early Carboniferous, Middle to Late Triassic, and Middle to Late Jurassic) of the Siberian Platform, including its northeastern part, are confirmed as a result of our studies. Most observation points, including economic Quaternary diamond placers, contain Middle to Late Triassic zircons, which confirms the abundant Late Triassic volcanism in this region. The positive correlation of diamonds and major index minerals of kimberlites (mostly, garnets) at some observation sites indicates the possible Triassic age of the predictable diamondiferous kimberlites.     

西藏东部昌都地区三叠纪岩相古地理

昌都地区三叠纪岩相古地理演化可划分为5个阶段,各阶段的古构造与古地理格架既有继承性,又有差异性。早三叠世承袭了晚二叠世末期的古地理,古陆面积扩大,海域沉积只占据狭窄部分,并且从这个时期起,已展现出弧－盆体系中的岛、海格架雏形;中三叠世沿袭了早三叠世弧－盆体系,弧内盆地发生强烈拗陷,堆积了巨厚的多物源浊积岩与幕式弧火山岩;晚三叠世卡尼早期因东侧金沙江洋的消亡,发育磨拉石沉积,仅在局部地区表现为陆棚→斜坡→盆地沉积;晚三叠世诺利早期,全区范围内发生一次规模空前的海侵,碳酸盐沉积向东西两侧古陆超覆,弧－盆区岛海格局从此消失;晚三叠世诺利晚期以后,海水自东向西退出,海陆过渡相与滨岸陆屑沉积广泛覆盖全区。研究表明,三叠纪时昌都地区曾经存在着一个类似于现今印度尼西亚岛、海的古地理格局。     

Detrital zircon U–Pb ages of Late Triassic–Late Jurassic deposits in the western and northern Sichuan Basin margin: constraints on the foreland basin provenance and tectonic implications

Upper Triassic to Upper Jurassic strata in the western and northern Sichuan Basin were deposited in a synorogenic foreland basin. Ion–microprobe U–Pb analysis of 364 detrital zircon grains from five Late Triassic to Late Jurassic sandstone samples in the northern Sichuan Basin and several published Middle Triassic to Middle Jurassic samples in the eastern Songpan–Ganzi Complex and western and inner Sichuan Basin provide an initial framework for understanding the Late Triassic to Late Jurassic provenance of western and northern Sichuan Basin. For further understanding, the paleogeographic setting of these areas and neighboring hinterlands was constructed. Combined with analysis of depocenter migration, thermochronology and detrital zircon provenance, the western and northern Sichuan Basin is displayed as a transferred foreland basin from Late Triassic to Late Jurassic. The Upper Triassic Xujiahe depocenter was located at the front of the Longmen Shan belt, and sediments in the western Sichuan Basin shared the same provenances with the Middle–Upper Triassic in the Songpan–Ganzi Complex, whereas the South Qinling fed the northern Sichuan Basin. The synorogenic depocenter transferred to the front of Micang Shan during the early Middle Jurassic and at the front of the Daba Shan during the middle–late Middle Jurassic. Zircons of the Middle Jurassic were sourced from the North Qinling, South Qinling and northern Yangtze Craton. The depocenter returned to the front of the Micang Shan again during the Late Jurassic, and the South Qinling and northern Yangtze Craton was the main provenance. The detrital zircon U–Pb ages imply that the South and North China collision was probably not finished at the Late Jurassic.     

The Triassic of the Thakkhola (Nepal). II: Paleolatitudes and comparison with other Eastern Tethyan Margins of Gondwana

During the Triassic, the Thakkhola region of the Nepal Himalaya was part of the broad continental shelf of Gondwana facing a wide Eastern Tethys ocean. This margin was continuous from Arabia to Northwest Australia and spanned tropical and temperate latitudes.A compilation of Permian, Triassic and early Jurassic paleomagnetic data from the reconstructed Gondwana blocks indicates that the margin was progressively shifting northward into more tropical latitudes. The Thakkhola region was approximately 55° S during Late Permian, 40° S during Early Triassic, 30° S during Middle Triassic and 25° S during Late Triassic. This paleolatitude change produced a general increase in the relative importance of carbonate deposition through the Triassic on the Himalaya and Australian margins. Regional tectonics were important in governing local subsidence rates and influx of terrigenous clastics to these Gondwana margins; but eustatic sea-level changes provide a regional and global correlation of major marine transgressions, prograding margin deposits and shallowing-upward successions. A general mega-cycle characterizes the Triassic beginning with a major transgression at the base of the Triassic, followed by a general shallowing-upward of facies during Middle and Late Triassic, and climaxing with a regression in the latest Triassic.     

Late Triassic initial closure of the Mongol-Okhotsk Ocean in the western segment: Constraints from sedimentological,detrital zircon ages and paleomagnetic evidence

The Mesozoic evolution of the Mongol-Okhotsk Ocean (MOO) has significantly affected the configuration of the modern Asian continent. Although a scissor-like closure of the MOO has long been proposed, when and how the MOO closed are still hotly debated, especially the timing of initial closure of the MOO in its western segment, hindering our understanding of both the evolution of the MOO and tectonics of the northern Asian continent. In order to uncover the timing of initial closure of the MOO, we performed a multidisciplinary study in sedimentology, detrital zircon U-Pb dating and paleomagnetic on the Late Triassic clastic strata from the Tarvagatay Block and the Amuria Block (AMB) on the both sides of the Mongol-Okhotsk Suture. The upper Triassic strata on both sides of the suture were dominated by plant fossil-bearing alluvial-fluvial facies sediments, which unconformably overlain pre-Triassic geological units, indicating a terrestrial setting after the closure of the MOO. Detrital zircon U-Pb dating results revealed consistent age distribution patterns for samples from both sides of the suture with a predominant peak at ∼253–251 Ma and a secondary peak at ∼359–357 Ma, representing two main arc magmatic events during the bidirectional subduction of the MOO in the Late Devonian-Early Carboniferous and Late Permian-Early Triassic. Coeval Late Triassic paleomagnetic poles were obtained from the northern AMB and Tarvagatay Block, revealing a comparable paleolatitude of the AMB (∼31–33°) and Tarvagatay Block (∼32–34°) in the Late Triassic, arguing for that the western segment of the MOO should have closed at the Late Triassic. The compilation of sedimentology, detrital zircon U-Pb dating, magmatic and paleomagnetic evidence provides integrated constraints on the Late Triassic initial closure of the MOO in its western segment.     

Late Permian–early Middle Triassic back-arc basin development in West Qinling,China

The Late Permian–early Middle Triassic strata of the northern West Qinling area, northeastern Tibetan Plateau, are composed of sediment gravity flow deposits. Detailed sedimentary facies analysis indicates these strata were deposited in three successive deep-marine environments. The Late Permian–early Early Triassic strata of the Maomaolong Formation and the lowest part of the Longwuhe Formation define a NW–SE trending proximal slope environment. Facies of the Early Triassic strata composing the middle and upper Longwuhe Formation are consistent with deposition in a base-of-slope apron environment, whereas facies of the Middle Triassic Anisian age Gulangdi Formation are more closely associated with a base-of-slope fan depositional environment. The lithofacies and the spatial–temporal changes in paleocurrent data from these strata suggest the opening of a continental margin back-arc basin system during Late Permian to early Middle Triassic time in the northern West Qinling. U–Pb zircon ages for geochemically varied igneous rocks with diabasic through granitic compositions intruded into these deep-marine strata range from 250 to 234 Ma. These observations are consistent with extensional back-arc basin development and rifting between the Permian–Triassic Eastern Kunlun arc and North China block during the continent–continent collision and underthrusting of the South China block northward beneath the Qinling terrane of the North China block. Deep-marine sedimentation ended in the northern West Qinling by the Middle Triassic Ladinian age, but started in the southern West Qinling and Songpan-Ganzi to the south. We attribute these observations to southward directed rollback of Paleo-Tethys oceanic lithosphere, continued attenuation of the West Qinling on the upper plate, local post-rift isostatic compensation in the northern West Qinling area, and continued opening of a back-arc basin in the southern West Qinling and Songpan-Ganzi. Rollback and back-arc basin development during Late Permian to early Middle Triassic time in the West Qinling area explains: the truncated map pattern of the Eastern Kunlun arc, the age difference of deep-marine sediment gravity flow deposits between the Late Permian–early Middle Triassic northern West Qinling and the late Middle Triassic–Late Triassic southern West Qinling and Songpan-Ganzi, and the discontinuous trace of ophiolitic rocks associated with the Anyemaqen-Kunlun suture.     

滇黔桂地区晚古生代至三叠纪层序地层序列及沉积盆地演化

志留纪末期的加里东运动使扬子板块与华夏板块基本上连接成一个统一的华南板块,在这个较为稳定的构造背景下,从晚古生代至三叠纪滇黔桂地区经历了一个较为复杂的盆地演变过程,形成了一个复杂而有序的层序地层序列。晚古生界可以划分为25个三级沉积层序,三叠系大致可以划分为10个三级沉积层序;35个三级沉积层序又大致可以归并为8个二级构造层序。从三级沉积层序到二级构造层序的归并,代表了滇黔桂地区从晚古生代的“滇黔桂盆地”演化为早、中三叠世的“南盘江盆地”、最后在晚三叠世早期结束海相沉积历史的沉积学和地层学响应过程,为在层序地层学框架内理解复杂的地质演化历史提供了一个较为典型的实例。