晚三叠世卡尼期黑色页岩事件在龙门山地区的沉积学和古生物学响应

龙门山前缘地区卡尼阶-诺利阶马鞍塘组中部发育一套薄-中层状黑灰色、灰黑色、黑色（含介壳）钙质泥（页）岩,在该套岩石中瓣鳃类生物多见,原生二价金属硫化物（黄铁矿）发育,水平层理发育,显示着低能环境贫氧条件的典型特征。与马鞍塘组中部黑灰色、灰黑色钙质泥（页）岩相当层位的卡尼期晚期沉积,在松潘-甘孜地区、昌都地区、可可西里地区均可见到,多显示为黑色、灰黑色色调,岩性为泥（页）岩或粉砂质板岩、钙质板岩,反映了一次黑色页岩地质事件在中国西部古特提斯东部地区产生了大范围的影响。全球对比表明,该套深色泥（页）岩在西特提斯、印度喜玛拉雅等地均有分布,覆盖在卡尼期早期碳酸盐沉积之上。据此,作者认为晚三叠世卡尼期特提斯范围的黑色页岩事件,很有可能与卡尼期全球性的碳酸盐生产危机有关,马鞍塘组中部发育的深色泥（页）岩即是此次事件在扬子地台西缘的反映。根据对川西北地区绵竹汉旺、安县雎水、江油马鞍塘等剖面的实际考察与研究,认为代表缺氧事件沉积的马鞍塘组中部黑灰色泥（页）岩之下为卡尼阶灰岩段（即汉旺组中下部灰岩段,主要为鲕粒灰岩、海绵礁灰岩等）,之上为诺利阶灰色粉、细砂岩夹灰岩、泥岩段（相当于石元组）。黑灰色钙质泥（页）岩不仅是该组岩性变化的转折点,亦是古生物、古生态急剧变化的转折点。在马鞍塘组下部广泛可见的六射海绵、海百合、苔藓虫、珊瑚等海相化石在马鞍塘组中上部地层（上卡尼阶至诺利阶底部）中很少看到,仅见丰富的瓣鳃类、菊石、腕足类等有壳类动物化石。
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THE EVOLUTION OF LANPING RIFT BASIN FROM LADINIAN IN MIDDLE TRIASSIC EPOCH TO EARLY JURASSIC EPOCH

THE EVOLUTION OF LANPING RIFT BASIN FROM LADINIAN IN MIDDLE TRIASSIC EPOCH TO EARLY JURASSIC EPOCH     

非海相双壳类江西蛤（Jiangxiella）首次发现于日本

首次报道日本西南部发现的晚三叠世非海相双壳类江西蛤（Jiangxiella)，并讨论这一发现的意义。认为原产于湘、赣、粤地区的江西蛤是地理分布极有限的土著属，它在日本西南部的发现表明当时该区与华南东部的古地理关系极为密切，可能原属同一地块。     

Depositional environment and provenance of the upper Permian–Lower Triassic Tianquanshan Formation,northern Tibet: implications for the Palaeozoic evolution of the Southern Qiangtang,Lhasa, and Himalayan terranes in the Tibetan Plateau

Abstract

This article reports the depositional environment and provenance for the Tianquanshan Formation in the Longmuco–Shuanghu–Lancangjiang suture zone, and uses these to better understand the tectonic evolution of this region. Zircons in the andesite of the Tianquanshan Formation yielded concordia ages of 246, 247, and 254 Ma, indicating that the Tianquanshan Formation formed during the late Permian–Early Triassic. The Tianquanshan Formation consists of flysch and ocean island rock assemblages, indicating that the Longmuco–Shuanghu–Lancangjiang Palaeo-Tethys Ocean continued to exist as a mature ocean in the late Permian–Early Triassic. The detrital zircons in the greywackes of the Tianquanshan Formation yielded peak ages of 470–620, 710–830, 910–1080, 1450–1660, and 2400–2650 Ma, indicating the provenance of the Tianquanshan Formation was either Indian Gondwana or terranes that have an affinity with Indian Gondwana in the Tibetan Plateau (i.e. the Southern Qiangtang, Lhasa, and Himalayan terranes). The Ordovician quartzites, Carboniferous sandstones, Carboniferous–Permian diamictites, and the Upper Permian–Lower Triassic greywackes in the Southern Qiangtang, Lhasa, and Himalayan terranes all contain detrital zircons with youngest ages of ca. 470 Ma, indicating their source areas have been in a stable tectonic environment since the Ordovician, and this inference is supported by the continuous deposition in a littoral–neritic passive margin in these regions from the Ordovician to the lower Permian. Combining the present results with regional geological data, we infer that the Southern Qiangtang, Lhasa, and Himalayan terranes were all in a stable passive continental margin along the northern part of Indian Gondwana during the long period from the Ordovician to the early Permian. At early Permian, because of the opening of the Neo-Tethys Ocean, the tectonic framework of this region underwent a marked change to a rifting and active environment.     

Late Triassic rifting and Jurassic–Cretaceous passive margin development of the Southern Neotethys: evidence from the Adıyaman area,SE Turkey

Evidence of rifting and continental break-up to form the S Neotethys is found within the volcanic-sedimentary Koçali Complex. This is a folded, thrust-imbricated succession that includes lavas, volcaniclastic sediments, pelagic carbonates, radiolarites and manganiferous deposits. Interbedded ribbon cherts contain radiolarians of Late Triassic to Late Jurassic age. The lower part of the succession of Mid?-Late Triassic age (Tarasa Formation) is dominated by enriched mid-ocean ridge basalt (E-MORB). The overlying Late Triassic to Mid-Jurassic interval (Konak Formation) is characterised by intercalations of ocean island basalt and E-MORB. Taking account of structural position, the basalts erupted within the outer part of a continent–ocean transition zone. Continental break-up probably occurred during the Late Triassic (Carnian–Norian). Early to Mid-Jurassic lavas and volcaniclastic sediments record volcanism probably after continental break-up. In addition, the Karadut Complex is a broken formation that is located at a relatively low structural position just above the Arabian foreland. Pelagic carbonates, redeposited carbonates and radiolarites predominate. Radiolarians are dated as Early to Mid-Jurassic and Late Cretaceous in age. The pelagic carbonates include planktic foraminifera of Late Cretaceous age. The Karadut Complex resulted from the accumulation of calcareous gravity flows, pelagic carbonate and radiolarites in a relatively proximal, base-of-slope setting. After continental break-up, MORB and ophiolitic rocks formed within the S Neotethys further north. Tectonic emplacement onto the Arabian platform took place by earliest Maastrichtian time. Regional interpretation is facilitated by comparisons with examples of Triassic rifting and continental break-up in the eastern Mediterranean region and elsewhere.     

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。     

关于创口海百合(Traumatocrinus)的分类、分布及古生态

在中国贵州关岭地区晚三叠世(卡尼期)小凹组(=瓦窑组)海生爬行动物和海百合化石库中产有大量完好保存的创口海百合(Traumatocrinus)(棘皮动物门,海百合纲)化石。根据对此类海百合分类、分布和形态构造及古生态的研究,特别是大量完好保存、且附着在漂浮木头上的群体化石标本的发现,进一步证明这种外形似海百合花的创口海百合营假浮游的生活方式。这类特化的海百合分枝起源于另一类底栖中三叠世石莲海百合科,很快占领了卡尼期初期的生态境,至卡尼期末创口海百合衰退以后,它的生态境在诺利期时为形态发生的趋同变异的链海百合(Seirocrinus)和五角海百合(Pentacrinites)所占领。     

Nature and evolution of the Neo-Tethys in central Tibet: synthesis of ophiolitic petrology,geochemistry, and geochronology

In this paper, we summarize results of studies on ophiolitic mélanges of the Bangong–Nujiang suture zone (BNSZ) and the Shiquanhe–Yongzhu–Jiali ophiolitic mélange belt (SYJMB) in central Tibet, and use these insights to constrain the nature and evolution of the Neo-Tethys oceanic basin in this region. The BNSZ is characterized by late Permian–Early Cretaceous ophiolitic fragments associated with thick sequences of Middle Triassic–Middle Jurassic flysch sediments. The BNSZ peridotites are similar to residual mantle related to mid-ocean-ridge basalts (MORBs) where the mantle was subsequently modified by interactions with the melt. The mafic rocks exhibit the mixing of various components, and the end-members range from MORB-types to island-arc tholeiites and ocean island basalts. The BNSZ ophiolites probably represent the main oceanic basin of the Neo-Tethys in central Tibet. The SYJMB ophiolitic sequences date from the Late Triassic to the Early Cretaceous, and they are dismembered and in fault contact with pre-Ordovician, Permian, and Jurassic–Early Cretaceous blocks. Geochemical and stratigraphic data are consistent with an origin in a short-lived intra-oceanic back-arc basin. The Neo-Tethys Ocean in central Tibet opened in the late Permian and widened during the Triassic. Southwards subduction started in the Late Triassic in the east and propagated westwards during the Jurassic. A short-lived back-arc basin developed in the middle and western parts of the oceanic basin from the Middle Jurassic to the Early Cretaceous. After the late Early Jurassic, the middle and western parts of the oceanic basin were subducted beneath the Southern Qiangtang terrane, separating the Nierong microcontinent from the Southern Qiangtang terrane. The closing of the Neo-Tethys Basin began in the east during the Early Jurassic and ended in the west during the early Late Cretaceous.     

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。     

西藏措勤断块中—上三叠统嘎热扎地组的建立

在西藏措勤断块新建了中三叠统—上三叠统卡尼阶岩石地层单位——嘎热扎地组.在建组剖面上,嘎热扎地组厚约485 m,下部岩性以碎屑岩为主,上部岩性为碎屑岩夹灰岩.嘎热扎地组与下伏上二叠统—下三叠统木纠错组、上覆上三叠统诺利阶麦龙岗组均为整合接触关系.该组尚未发现指示地层时代的化石,但前人在其下伏的木纠错组中发现了早三叠世牙...     

藏高珠穆朗玛峰地区三叠系层序地层及沉积演化：—从陆表海盆地到裂谷盆地

珠峰地区的三叠系形成于大陆拉伸背景。自下而上可划分为12个三级沉积层序和5个层序组，分属于2个中层序。发生在Induan阶初期（约250Ma)，Anisian阶早期（约239Ma),Carnian阶初期（约231Ma）和Norian早期（约223Ma)的4个海侵事件最为重要。可作跨越板块的地层对比标志。藏南地区在三叠纪经历了从泛大陆到大陆裂谷的构造演化，早一中三叠世以陆表海盆地浅水环境为主，晚三叠世以深水断陷盆地为特征。晚三叠世晚期，与长期全球海平面下降相伴随，过量的陆源碎屑输入造成该地区由深水盆地转为河流作用明显的三角洲平原环境。     

Triassic stratigraphy,facies and evolution of the Arabian shelf in the northern United Arab Emirates

This study provides a reconstruction of the Late Permian and Triassic depositional history of the Arabian shelf in the northern United Arab Emirates based on facies analysis and foraminiferal biostratigraphy. The presented data show that sedimentation occurred in three major sequences. From the Late Permian to Olenekian carbonates and evaporites were deposited in restricted lagoons and tidal flats. After a hiatus, sedimentation resumed and continued until the Late Ladinian/Carnian, leading to the deposition of a carbonate platform dominated by peritidal dolostones. A period of shelf exposure and erosion, spanning from the Carnian to Norian, was followed by the third major sequence with sedimentation into the Early Jurassic. During this third depositional sequence sedimentation changed from pure carbonate into mixed carbonate–siliciclastic deposits. This transition reflects the global regression of the sea in the Late Triassic (Triasina hantkeni Zone) and the increased erosion of large parts of the Arabian hinterland. A comparison of the evolution of the Arabian shelf in the study area with chronostratigraphic reference schemes for the Arabian Plate reveals remarkable differences in the distribution of Middle and Upper Triassic sequences. These are most likely the result of poor biostratigraphic control on previously studied formations in the region.     

川北广元须家河组一段沉积相与沉积环境演化分析

四川盆地北部三叠系—侏罗纪发育,出露良好,是三叠纪—侏罗纪转换时期古气候与古环境变化的良好物质记录.其中,晚三叠世诺利期是四川盆地海陆转换的重要过渡期,尤其是对陆地生态系统的影响更加显著.以川北广元剖面为研究对象,对晚三叠世诺利期末须家河组须一段进行沉积相及沉积环境演化的分析,结果表明:研究剖面发育潟湖沼泽—三角洲平原...     

The Cimmerian Orogeny in northern Iran: tectono-stratigraphic evidence from the foreland

From the Permian onwards, the Gondwana-derived Iran Plate drifted northward to collide with Eurasia in the Late Triassic, thereby closing the Palaeotethys. This Eo-Cimmerian Orogeny formed the Cimmeride fold-and-thrust belt. The Upper Triassic–Middle Jurassic Shemshak Group of northern Iran is commonly regarded as the Cimmerian foreland molasse. However, our tectono-stratigraphic analysis of the Shemshak Group resulted in a revised and precisely dated model for the Triassic–Jurassic geodynamic evolution of the Iran Plate: initial Cimmerian collision started in the Carnian with subsequent Late Triassic synorogenic peripheral foreland deposition (flysch, lower Shemshak Group). Subduction shifted south in the Norian (onset of Neotethys subduction below Iran) and slab break-off around the Triassic–Jurassic boundary caused rapid uplift of the Cimmerides followed by Liassic post-orogenic molasse (middle Shemshak Group). During the Toarcian–Aalenian (upper Shemshak Group), Neotethys back-arc rifting formed a deep-marine basin, which developed into the oceanic South Caspian Basin during the Late Bajocian–Late Jurassic.     

龙门山晚三叠世软沉积物变形与印支期构造运动

龙门山地区上三叠统包括卡尼阶马鞍塘组、诺利阶小塘子组与瑞替阶须家河组。通过野外研究在小塘子组与须家河组的多个层位中首次识别出丰富的地震触发成因的软沉积物变形,包括液化变形(液化角砾岩液化滴状体、液化底劈、液化均一层等);塑性变形(卷曲变形,软布丁)以及与重力作用相关的负载、球-枕、枕状层上述软沉积物变形是龙门山地区晚三叠世构造运动的响应,它们是印支期松潘-甘孜地体与扬子板块裂开、碰撞逆冲走滑伴生的地震事件的记录。通过古地震事件与沉积事件结合分析,提出龙门山地区印支期的构造运动过程为:晚三叠世中期(印支构造期中期)松潘-甘孜地体与扬子板块开始裂开,古断裂走向近NS,断裂活动产生的地震于小塘子组浅海沉积中触发一系列软沉积物变形;晚三叠世晚期(印支构造期晚期)松潘-甘孜地体与上扬子板块发生陆内俯冲,地震诱发须家河组湖相沉积物变形;晚三叠世末期(印支构造期末期)松潘-甘孜地体左旋走滑逆冲于上扬子板块之上,形成松潘-甘孜山与川西前陆盆地,二者边界即现今的汶川-茂县断裂,印支期的造陆与造山伴随古地震发生。依据已识别的软沉积物液化变形位置与汶茂断裂的距离,估算出诺利阶小塘子组古地震震级约为Ms7.2;目前小塘子组液化变形记录远非距汶茂断裂最远的液化点,因而实际的古地震震级远远大于Ms7.2,应存在更强的地震事件。龙门山发生的毁灭性大地震(如2008,5,12汶川大地震Ms8)实际上于晚三叠世期间早已频繁发生,现今龙门山的活动地震带是中生代古地震带的延续。     

Permian Peri‐glacial Deposits from Central Mongolia in Central Asian Orogenic Belt: A Possible Indicator of the Capitanian Cooling Event

A dropstone‐bearing, Middle Permian to Early Triassic peri‐glacial sedimentary unit was first discovered from the Khangai–Khentei Belt in Mongolia, Central Asian Orogenic Belt. The unit, Urmegtei Formation, is assumed to cover the early Carboniferous Khangai–Khentei accretionary complex, and is an upward‐fining sequence, consisting of conglomerates, sandstones, and varved sandstone and mudstone beds with granite dropstones in ascending order. The formation was cut by a felsic dike, and was deformed and metamorphosed together with the felsic dike. An undeformed porphyritic granite batholith finally cut all the deformed and metamorphosed rocks. LA‐ICP‐MS, U–Pb zircon dating has revealed the following ²⁰⁶Pb/²³⁸U weighted mean igneous ages: (i) a granite dropstone in the Urmegtei Formation is 273 ± 5 Ma (Kungurian of Early Permian); (ii) the deformed felsic dike is 247 ± 4 Ma (Olenekian of Early Triassic); and (iii) the undeformed granite batholith is 218 ± 9 Ma (Carnian of Late Triassic). From these data, the age of sedimentation of the Urmegtei Formation is constrained between the Kungurian and the Olenekian (273–247 Ma), and the age of deformation and metamorphism is constrained between the Olenekian and the Carnian (247–218 Ma). In Permian and Triassic times, the global climate was in a warming trend from the Serpukhovian (early Late Carboniferous) to the Kungurian long and severe cool mode (328–271 Ma) to the Roadian to Bajocian (Middle Jurassic) warm mode (271–168 Ma), with an interruption with the Capitanian Kamura cooling event (266–260 Ma). The dropstone‐bearing strata of the Urmegtei Formation, together with the glacier‐related deposits in the Verkhoyansk, Kolyma, and Omolon areas of northeastern Siberia (said to be of Middle to Late Permian age), must be products of the Capitanian cooling event. Although further study is needed, the dropstone‐bearing strata we found can be explained in two ways: (i) the Urmegtei Formation is an autochthonous formation indicating a short‐term expansion of land glacier to the central part of Siberia in Capitanian age; or (ii) the Urmegtei Formation was deposited in or around a limited ice‐covered continent in northeast Siberia in the Capitanian and was displaced to the present position by the Carnian.     

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.     

Nitrogen isotope chemostratigraphy across the Permian–Triassic boundary at Chaotian,Sichuan, South China

Nitrogen isotopic compositions of upper Permian to lowermost Triassic rocks were analyzed at Chaotian in northern Sichuan, South China, in order to clarify changes in the oceanic nitrogen cycle around the Permian–Triassic boundary (P–TB) including the entire Changhsingian (Late Late Permian) prior to the extinction. The analyzed ca. 40 m thick interval across the P–TB at Chaotian consists of three stratigraphic units: the upper Wujiaping Formation, the Dalong Formation, and the lowermost Feixianguan Formation, in ascending order. The upper Wujiaping Formation, ca. 10 m thick, is mainly composed of dark gray limestone with diverse shallow-marine fossils such as calcareous algae and brachiopods, deposited on the shallow shelf. In contrast, the overlying Dalong Formation, ca. 25 m thick, is mainly composed of thinly bedded black mudstone and siliceous mudstone containing abundant radiolarians, deposited on the relatively deep slope/basin. Absence of bioturbation, substantially high total organic carbon contents (up to 15%), and abundant occurrence of pyrite framboids in the main part of the Dalong Formation indicate deposition under anoxic condition. The lowermost Feixianguan Formation, ca. 5 m thick, is composed of thinly bedded gray marl and micritic limestone with minor fossils such as ammonoids and conodonts, deposited on the relatively shallow slope. δ¹⁵N_TN values are in positive values around +1 to +2‰ in the upper Wujiaping Formation implying denitrification and/or anammox in the ocean. δ¹⁵N_TN values gradually decrease to −1‰ in the lower Dalong Formation and are consistently low (around 0‰) in the middle Dalong to lowermost Feixianguan Formation. No clear δ¹⁵N_TN shift is recognized across the extinction horizon. The consistently low δ¹⁵N_TN values suggest the enhanced nitrogen fixation in the ocean during the Changhsingian at Chaotian. Composite profiles based on previous and the present studies demonstrate the substantial δ¹⁵N variation on a global scale in the late Permian to earliest Triassic; a systematic δ¹⁵N difference by low and high latitudes is particularly clarified. Although the enhanced nitrogen fixation throughout the Changhsingian at Chaotian was likely a regional event in northwestern South China, the composite δ¹⁵N profiles imply that the sea area in which fixed nitrogen is depleted has gradually developed worldwide in the Changhsingian, possibly acting as a prolonged stress to shallow-marine biota.     

鄂尔多斯盆地油页岩的主要地质特征及资源潜力

前人及笔者最近研究结果表明:鄂尔多斯盆地除赋存有大量的石油、天然气、煤、煤层气、地下水及铀矿而外,还赋存着巨量的油页岩资源.油页岩分别赋存于早二叠世山西组、中-晚三叠世延长组、晚三叠世瓦窑堡组及中侏罗世早期延安组、中侏罗世晚期安定组地层中;在空间上,油页岩多呈层状展布于盆地内部而隐伏于地下.中、晚三叠世延长组和中侏罗世早期延安组是主要含油页岩层位.早二叠世油页岩形成于海陆交互的滨海环境,中-晚三叠世延长组中的油页岩形成于陆相深湖或半深湖环境,晚三叠世瓦窑堡组油页岩、中侏罗世早期延安组油页岩形成于陆相湖泊三角洲湖沼环境,与煤层共生,而中侏罗世晚期安定组油页岩仅局限于陆相半深湖环境.通过对陕西铜川北部和宁夏固原炭山典型油页岩矿的剖析,查明鄂尔多斯油页岩矿层厚度一般为4～36 m,含油率一般为1.5%～13.7%(下限略低于3.5%这一油页岩矿的最低工业品位,本次低于部分暂不参加资源量的计算);发热量一般为1.66～20.98 MJ/kg,视比重1.55～2.46.埋藏2000 m以上的页岩油资源量(334)达2000×108 t以上,其中探明储量(121)1×108t,显示了巨大的资源前景.盆地东南部及西部的油页岩埋藏浅,部分地段探明程度高,交通条件好,如果及时开发利用,不仅可以获得初步经济效益,同时也可为鄂尔多斯油页岩的开发利用获取开拓性的宝贵经验.     

Triassic Sequence Stratigraphy and Sea-Level Changes in Qomolongma Area, Southern Tibet,China: From Epicontinental Sea to Rift Basin

INTRODUCTIONThe Qomolongm a area was paleogeographically situatedon the northern margin of the Indian plate and was part of theGondwana continent in the Mesozoic.In the latest MiddlePermian(late Capitanian) due to the formation of the Pangeasupercontinent,the area was uplifted significantly,resultingin an overall regression and an eminentdisconformity atca2 5 8Ma.During mosttim e of the L ate Perm ian,the Qomolongm aarea was subject to erosion and free of deposit (Shi et al.,1996 ;L …