对内蒙古腮林忽洞群、白云鄂博群及白云鄂博铁矿赋矿白云岩的新认识

1991年,笔者等应内蒙古地矿局邀请,对腮林忽洞组及白云鄂博群进行了初步踏勘性研究;在国家攀登附加项目和国家自然科学基金主任基金资助下,于1994年和1996年进行了进一步研究,获得了一些重要的发现与新的认识。 (1)腮林忽洞组剖面露头良好,被若干个大陆风化壳所分隔,可识别出7个三级层序(or-thosequence)。依岩石地层单位定义,应称其为腮林忽洞群。 (2)白云鄂博群以宽沟背斜为轴部可分为南、北两翼。腮林忽洞群以角度不整合覆于变质     

内蒙古腮林忽洞群综合地层和白云鄂博矿床赋矿微晶丘

据层序地层，事件地层，生物地层和岩石地层研究，腮林忽洞群是白云鄂博群的一部分。于腮 林忽洞群下部层位的岩石切片中首次发现三叶虫屑，并首次分离出奥陶系疑源类及几丁虫化石；于上部层位首次识别出碳酸盐震积岩组及顶部巨型微晶丘。     

从疑源类化石看内蒙古中部阿牙登组和腮林忽洞组

阿牙登组和腮林忽洞组是上世纪 70年代 1/ 2 0万区调建立的地层单位 ,当时将阿牙登组置于白云鄂博群 ,腮林忽洞组归于震旦系。通过对以上两个组中疑源类化石进行研究 ,认为阿牙登组应从白云鄂博群中分出 ,与腮林忽洞组一同划归早寒武世至早奥陶世的地层中 ,阿牙登组与腮林忽洞组为同一时期不同局限海盆的沉积 ,是早古生代华北地台最北部边缘的沉积产物。这一认识为研究华北地台早古生代地壳演化提供了新思路     

内蒙古腮林忽洞群含铁燧石团块和微晶丘的成因及构造环境指示意义

内蒙古腮林忽洞群地层中发育含铁燧石团块和微晶丘。本文报道了它们的地质特征及铁同位素、稀土元素地球化学特征,并探讨了它们的成因及构造环境指示意义。燧石一般呈团块状、脉状发育于腮林忽洞群碳酸盐地层中。燧石中发育铁质丝状体,由非晶质的铁(氢)氧化物(赤铁矿和针铁矿)组成,具有丝状、网状形态特征,类似于现代海底热液Fe-Si产物。燧石的铁同位素组成δ56 Fe为-0.71‰~-0.25‰,与海底热液铁同位素组成(δ56Fe为-0.7‰~-0.1‰)一致。燧石的页岩(PAAS)标准化的稀土配分模式具有Eu正异常,La、Y正异常,显示海水和热液混合的稀土配分特点。这些特征表明含铁燧石为海底热液活动产物。腮林忽洞微晶丘成分主要为白云岩,铁同位素组成比该区域正常沉积碳酸盐岩要轻,与含铁燧石及海底热液的铁同位素组成相似;稀土配分模式与燧石一致,显示海水和热液混合的稀土配分特点。表明该微晶丘的形成可能与海底热液活动有关。腮林忽洞群含铁燧石团块、微晶丘的发育以及前人报道的震积岩、滑塌岩的发育表明腮林忽洞群沉积过程中可能处于拉张的构造背景,海底热液活动活跃。由于腮林忽洞群的沉积时代很可能为中元古代,腮林忽洞群的海底热液活动有可能是整个华北地区中元古代(1.3~14Ga)拉张构造背景的一个响应。     

中元古代叠层石—非叠层石碳酸盐岩层序地层序列及其沉积特征——以北京延庆千沟剖面高于庄组为例

北京延庆千沟剖面中元古代高于庄组为一套发育在海侵砂岩上的叠层石—非叠层石碳酸盐岩沉积序列,厚度千余米,包括4段:第一段(或称为官地亚组)主要为海侵砂岩地层;第二段(或称为桑树鞍亚组)为发育少量叠层石的含锰白云岩和灰质白云岩地层;第三段又称为张家峪垭组,为一套以均一石灰岩为主的地层序列,发育席底构造且贫乏叠层石;第四段(环秀寺亚组)以叠层石礁白云岩为特征。与蓟县剖面相比较,该剖面的高于庄组具有以下特点:(1)第一段厚度百余米的海侵砂岩地层不但表明了与下伏大红峪组之间存在较为明显的区域不整合面,而且与蓟县剖面厚数百米的叠层石白云岩地层形成明显的区别;(2)在第三段的非叠层石碳酸盐岩沉积序列中,未发现臼齿状构造,但发育丰富而典型的席底构造,而且以均一石灰岩为特征;(3)第四段的厚度为500余m,由罕见的叠层石礁序列所组成。这些特征表明,千沟剖面的高于庄组组成了一个复杂而有序的叠层石—非叠层石碳酸盐岩沉积序列,成为依据沉积相序列进行前寒武纪三级层序划分和二级层序合理归并的典型实例。更为重要的是,第四段中的叠层石生物礁和第三段的均一石灰岩序列的存在,反映了一些值得进一步研究的问题:如前寒武纪叠层石生物礁的沉积模式,非叠层石灰岩序列是否代表了一次叠层石衰减事件等等。     

内蒙古白云鄂博南东黑脑包腮林忽洞群下部发现地震滑塌岩块

笔者等在内蒙古白云鄂博铁铌稀土矿床东南约25km处的达尔罕茂明安联合旗黑脑包腮林忽洞群下部发现一个厚30余米、呈北西向延伸的滑塌岩块。滑塌岩块的岩性主要为薄层黄灰色微晶灰岩与青灰色泥质微晶灰岩互层，单层厚多为1～2cm。风化面上可见青灰色泥质灰岩层抗风化能力较强，呈突出状。青灰色薄层泥灰岩在宏观上即见大量层间破碎，几乎层层都被小的同生断裂错开，有的薄层被分割成叠瓦状的碎块，有的被邻层的泥质贯入而分割成一个个竹节状块体（即布丁构造）。同生小断裂和布丁构造为同沉积期的地震造成，因此，发育同沉积布丁构造的薄层微晶灰岩可以看作是典型的震积岩。整个岩块发生了强烈的褶皱变形，且变形强度自下而上逐渐变弱。岩层在下部强烈褶皱，向上规模和强度都逐渐变小，直到变为未变形的平直岩层，具有明显的不协调性。这种褶皱是岩块受地震影响而整体滑塌过程中的变形记录。震积岩和滑塌褶皱都揭示了盆地边界的拉张背景，同时指示盆地自南东向北西水体变深的地貌格局。这一发现表明，腮林忽洞群沉积的早期就已有地震事件发生，与已知的腮四组震积岩和腮五组微晶丘一起，表明腮林忽洞群沉积时期，本地先后至少有两个阶段处于不稳定的地震活跃阶段。腮林忽洞群可能相当于白云鄂博群的下部，后者中产著名的白云鄂博铁铌稀土矿床，成矿的同位素年龄值有2．1～0．4Ga多种不同的结果，但多位微体古生物学者均认为是震旦纪至奥陶纪，且在腮林忽洞群中还发现了三叶虫碎片，故作者等在本文取信腮林忽洞群为寒武纪～奥陶纪。在腮林忽洞群顶部产有厚近百米的微晶丘，与白云鄂博矿区的赋矿白云岩相当，可能均是热水沉积形成。所以，本文对于认识白云鄂博地区腮林忽洞群沉积时（寒武纪-奥陶纪？）的大地构造性质及白云鄂博矿床的成因具有重要意义。     

黑龙江汤原断陷第三纪地层层序及时代

依据黑龙江汤原断陷30口井的岩性及古生物资料,建立了汤原断陷古近纪、新近纪地层层序。依据孢粉、藻类、植物和介形类化石建立19个生物化石组合,讨论了各组的时代及其与邻区的对比。依据汤参3井(25.0-100.0m)和互6井(138.5-237.5m)岩性及孢粉组合将道台桥组引入汤原断陷。汤原断陷地层层序为古新统乌云组,始新统新安村组、达连河组,渐新统宝泉岭组,中新统富锦组,上新统道台桥组。     

松辽盆地中部含油组层序地层格架及介形类特征的响应

综合利用地震、测井、录井、岩心及分析资料,采用层序地层学、古生物学分析方法建立了松辽盆地中部含油组合层序地层格架,查明了介形类演化对层序地层格架的响应。松辽盆地中部含油组合相当于青山口组二三段、姚家组和嫩江组一段地层,由6个三级层序构成,青山口组二三段相当于3个三级层序,姚家组一段、二三段和嫩江组一段分别相当于1个三级层序。不同层序及不同体系域介形类的特征具有明显的响应特征。     

华北克拉通北缘白云鄂博群和腮林忽洞群底部碎屑锆石U-Pb定年、Hf同位素分析及其地质意义

白云鄂博群位于华北克拉通北缘,由于赋存超大型REE-Nb-Fe矿而受到广泛关注。白云鄂博群形成时代有中元古代、古生代等不同认识。腮林忽洞群位于白云鄂博群的南部,与白云鄂博群的关系也有不同认识。本文报道了白云鄂博群和腮林忽洞群底部中-粗粒砂岩的碎屑锆石SHRIMP U-Pb年龄和LA-ICPMS Hf同位素组成。两个岩群碎屑沉积岩的碎屑锆石在形态和内部结构上类似,按结构特征可分为继承或捕获锆石、岩浆锆石、变质锆石和重结晶锆石等不同类型。年龄都主要分布在1.8~2.1Ga之间和2.4~2.7Ga之间,尽管年龄峰值存在一定区别。它们的Hf同位素组成也类似,εHf(t)和tDM2(Hf)变化范围分别主要在约-6.0~6.0之间和2550~2950Ma之间。结合前人研究,可得出如下结论:白云鄂博群和腮林忽洞群的物源区类似,主要由新太古代晚期和古元古代晚期岩浆岩组成,为新太古代早期陆壳物质再循环产物;部分岩石遭受新太古代晚期和古元古代晚期高级变质作用改造;碎屑物质都来自华北克拉通北缘早前寒武纪变质基底,与其形成时代相同的认识不矛盾。     

直接测定内蒙古腮林忽洞组碳酸盐岩Pb－Pb同位素年龄

碳酸盐岩Ｐｂ－Ｐｂ同位素测年是地质年代学一个新的分支，本文利用这一技术，直接测定了内蒙古地区腮林忽洞组年龄，是本区首次直接获得地质年龄，不仅为碳酸盐地区确定地质年代提供了新的方法，同时对本区地层研究提供了新的数据。本文期待引起同行讨论，使这一新方法在地质研究应用中臻于完善。     

吉林省中部晚三叠世—早侏罗世火山事件地层划分刍议

根据不同比例尺的区域地质调查成果以及综合研究资料,吉林省中部早中生代火山事件地层可初步作如下划分:晚三叠大酱缸组沉积期自早而晚有:星星哨火山事件(229.5～227.5 Ma),官马火山事件(222±10)Ma,西土山火山事件(210±19)Ma;早侏罗世板石顶子组沉积期有:双丫子东山火山事件(195.04±5.01)Ma,官马金矿火山事件(193.6 Ma);早侏罗世太阳岭组沉积期有:未命名火山事件1(188.0±19.0)Ma,未命名火山事件2(184.0±1.1)Ma,北大湖火山事件(179.4±1.1)Ma,二道沟火山事件(174.0±34)Ma。     

北京延庆千沟中元古代高于庄组第三段:一个典型的前寒武纪非叠层石碳酸盐岩沉积序列

在前寒武纪碳酸盐岩中,最为普遍的是叠层石碳酸盐岩沉积序列,而以潮下相沉积为主的非叠层石碳酸盐岩沉积序列与前者形成了较大的差异;因此,与叠层石碳酸盐岩沉积序列一样,非叠层石序列成为了解前寒武纪复杂多变的碳酸盐世界的重要线索。燕山地区中元古代高于庄组为一套厚度千余米的碳酸盐沉积序列,包括四大部分:第一段（或称为官地亚组）为发育在海侵砂岩上的叠层石白云岩地层;第二段（或称为桑树鞍亚组）为发育少量叠层石的含锰白云岩地层;第三段又称为张家峪亚组,为一套以发育灰岩为主的非叠层石碳酸盐岩沉积序列;第四段以叠层石岩礁和叠层石礁白云岩为特征。延庆千沟剖面的高于庄组第三段的非叠层石碳酸盐岩沉积序列,贫乏叠层石是其基本特点,包含3个三级层序,在三级层序的海侵体系域和早期高水位体系域中,层面上发育席底构造的中层均一石灰岩（隐藻泥晶灰岩）和灰黑色薄层泥灰岩组成若干潮下型米级旋回,晚期高水位体系域则以厚层块状纹理石灰质白云岩和白云质灰岩为特征;三级层序的凝缩段单元则以薄层泥灰岩和泥页岩构成的L-M型米级旋回为特征。因此,每一个三级层序均以一个有序的沉积相序列为特征。高于庄组的分布时限大致为200 Ma（1 600～1 400 Ma）,考虑到下伏的大红峪组和高于庄组之间的地层间断时限大致为50 Ma至100 Ma,所以推断高于庄组的堆积作用时限为100 Ma（1 500～1 400 Ma）左右,其中高于庄组第一段与第二段的分界线正好处于该组的中部而可以推断该界线的大致为1 450 Ma左右;因此,高于庄组第三段非叠层石碳酸盐岩沉积序列的发育表明,在1 450 Ma左右可能发生过一次可以与前寒武纪其他已经被识别出的三次叠层石衰减事件（2 000 Ma、1 000 Ma和675 Ma）相比拟的又一次叠层石衰减事件。延庆千沟剖面高于庄组第三段的非叠层石碳酸盐岩沉积序列,可以大致与北美地区的起始时限为1 450 Ma左右、Belt超群中的Helena组非叠层石碳酸盐岩沉积序列相对比,表明了1 450 Ma左右的叠层石衰减事件具有全球性,从而赋予高于庄组第三段非叠层石碳酸盐岩沉积序列重要的沉积学意义。延庆千沟剖面高于庄组第三段非叠层石碳酸盐岩沉积序列,特别的岩石类型和沉积构造,成为前寒武纪碳酸盐岩沉积中非叠层石碳酸盐岩沉积序列的典型代表,由其所代表的沉积学特点将有助于深入理解漫长的前寒武纪碳酸盐沉积作用的变化规律而具有重要意义。     

Implications of the Precambrian Non-stromatolitic Carbonate Succession Making up the Third Member of Mesoproterozoic Gaoyuzhuang Formation in Yanshan Area of North China

A particular non-stromatolitic carbonate succession making up the third member of the Mesoproterozoic Gaoyuzhuang (高于庄) Formation might demonstrate that a stromatolite decline of the Mesoproterozoic occurring at ca. 1 450 Ma besides other three events of the Proterozoic,respectively,occurred at ca. 2 000 Ma,ca. 1 000 Ma,and ca. 675 Ma. The forming duration of this non-stromatolitic carbonate succession can be generally correlative to that of a similar depositional succession in North America,i.e. a non-stromatolitic carbonate succession made up by the Helena Formation of the Belt Supergroup,which suggests that the stromatolite decline occurring at ca. 1 450 Ma may be a global event. This information endows the non-stromatolitic carbonate succession making up the third member of the Gaoyuzhuang Formation in the Yanshan (燕山) area with important significance for the further understanding of Precambrian sedimentology. The Mesoproterozoic Gaoyuzhuang Formation in Yanshan area is a set of more than 1 000 m thick carbonate strata that can be divided into four members (or subformations). The first member (or the Guandi (官地) subformation) is marked by a set of stromatolitic dolomites overlying a set of transgressive sandstones; the second member (or the Sangshu'an (桑树鞍) subformation) is a set of manganese dolomites with a few stromatolites; the third member (or the Zhangjiayu (张家峪) subformation) is chiefly made up of leiolite and laminite limestones and is characterized by the development of molar-tooth structures in leiolite limestone; the fourth member (or the Huanxiusi (环秀寺) subformation) is composed of a set of dolomites of stromatolitic reefs or lithoherms. Sequence-stratigraphic divisions at two sections,i.e. the Jixian (蓟县) Section in Tianjin (天津) and the Qiangou (千沟) Section of Yanqing (延庆) County in Beijing (北京),demonstrate that a particularly non-stromatolitic succession making up the third member of the Mesoproterozoic Gaoyuzhuang Formation is developed in the Yanshan area of North China,in which lots of grotesque matground structures (wrinkle structures and palimpsest ripples) are developed in beds of leiolite limestone at the Qiangou Section and lots of molar-tooth structures are developed in beds of leiolite limestone at the Jixian Section. The time scale of the Gaoyuzhuang Formation is deduced as 200 Ma (from 1 600 Ma to 1 400 Ma). The duration of an obvious hiatus between the Gaoyuzhuang Formation and the underlying Dahongyu (大红峪) Formation is deduced as 50 Ma to 100 Ma,thus the forming duration of the GaoyuzhuangFormation is thought as 100 Ma (1 500 Ma to 1 400 Ma). Furthermore,the age of the subface of the third member of the Gaoyuzhuang Formation that is just in the mid position of the Gaoyuzhuang Formation can be deduced as about 1 450 Ma,which is the basis to infer a stromatolite decline of the Mesoproterozoic occurring at ca. 1 450 Ma. Importantly,several features of both the molar-tooth structure and the stromatolite,such as the particular forming environment,the important facies-indicative meaning,and the episodic distribution in the earth history,might express the evolutionary periodicity of the surface environment of the earth and can provide meaningful clues for the understanding of the Precambrian world,although their origin and forming mechanism is highly contentious. Therefore,like other three stromatolitic declines,respectively,occurring at ca. 675 Ma,ca. 1 000 Ma,and ca. 2 000 Ma,the identification of the stromatolite decline occurring at ca. 1 450 Ma during the Golden Age of stromatolites (2 800 Ma to 1 000 Ma) has important meaning for the further understanding of the evolving carbonate world of the Precambrian.     

Composite Stratigraphy of the Sailinhudong Group and Ore-bearing Micrite Mounds in the Bayan Obo Deposits,Inner Mongolia,China

Based on studies of sequence stratigraphy, event stratigraphy, biostratigraphy and lithostratigraphy, it is concluded that the Sailinhudong Group is a part of the Bayan Obo Group. Some trilobite fragments are first found in thin sections of the rock from the lower part of the Sailinhudong Group and some Ordovician acritarchs and chitinozoans are also found in this group. A formationa unit of carbonate seismites is first recognized in the upper part and a huge micrite mound is first identified at the top. Dolomite, the host rock of the super giant Bayan Obo Fe-Nb-REE deposits, is neither an igneous carbonatite nor a common bedded sedimentary carbonate, but a huge micrite mound. It has the same macroscopic characters as the micrite mounds at the top of the Sailinhudong Group, which suggests that they should be of the same horizon. According to the fossils, the Sailinhudong and Bayan Obo Groups should be of the Early Palaeozoic rather than the Middle Proterozoic. The new discovery and new idea will throw l     

Sedimentary Features and Implications for the Precambrian Non-stromatolitic Carbonate Succession: A Case Study of the Mesoproterozoic Gaoyuzhuang Formation at the Qiangou Section in Yanqing County of Beijing

In the long Precambrian period, stromatolitic carbonate successions were very common. However, the non-stromatolitic carbonate succession that is marked by subtidal deposits shows a sharp contrast to the stromatolitic carbonate succession. Both the non-stromatolitic and the stromatolitic carbonate successions are important clues for the further understanding of the evolving carbonate world of the Precambrian. The Mesoproterozoic Gaoyuzhuang Formation at the Qiangou section in northwestern suburb of Beijing is a set of more than 1000 m-thick carbonate strata that can be divided into four members （or subformations）, in which a non-stromatolitic carbonate succession marked by the scarcity of stromatolites makes up the third member of the formation. This non-stromatolitic carbonate succession can further be subdivided into three third-order sequences that are marked by the regular succession of sedimentary facies. In third-order sequences, a lot of subtidal carbonate meter-scale cycles made up of medium-bedded leiolite limestones and thin-bedded marls constitute their transgressive system tracts （TSTs） and the early high-stand system tracts （EHSTs）, a lot of meter- scale cycles made up by thin-bedded limestones and marls constitute their condensed sections （CSs）, and thick-bedded to massive dolomitic limestones or lime dolomites make up the late high-stand system tracts （LHSTs）. The particularly non-stromatolitic carbonate succession making up the third member of the Mesoproterozoic Gaoyuzhuang Formation at the Qiangou section might be the representative of the non-stromatolitic carbonate succession of the Precambrian because of its special lithological features and particular sedimentary structures, and its general sedimentary features are helpful and meaningful for the further understanding of the evolution rules of the sophisticate and evolving carbonate world of the Precambrian. The time scale of the Gaoyuzhuang Formation is deduced as that from 1600 Ma to 1400 Ma; thus, the non-stromatolitic     

Sedimentary Features and Their Implications of Microdigital Stromatolites from the Mesoproterozoic Wumishan Formation at the Jixian Section in North China

<正>The Mesoproterozoic Wumishan Formation at the Jixian section in Tianjin is a set of more than 3000-m-thick stromatolitic carbonate succession.In this succession,several lithofacies units,that is,the subtidal stromatolitic biostrome,the thrombolitic bioherm,tidal-flat micritic dolomite and lagoon dolomitic shale,make up many meter-scale cycles of the peritidal carbonate type that have been nominated as the Wumishan cycles.Importantly,many microdigital stromatolites make up the stromatolitic biostrome unit of the Wumishan cycles in the lower part of the Wumishan Formation. These microdigital stromatolites have been grouped as a stromatolitic assemblage by paleontologists, that is,"Pseudogymnosolen mopanyuensis-Scuphus-Yangzhuang columnaris"assemblage.These microdigital stromatolites had also been interpreted as the aragonite(tufa) sea-floor precipitates by sedimentologists,and has further been thought as the special products of the transitional period from the sea-floor aragonite precipitates of the Archean to the clastic and muddy carbonates of the Neoproterozoic.Although there are some restrictions for the stratigraphic meaning of the concept of the stromatolitic assemblage,detailed studies on classification by paleontologists provide an important clue to understand the sedimentological meaning of the microdigital stromatolites.Furthermore,an important and obvious horizon for the end of the microdigital stromatolites was recorded in the Mesoproterozoic Wumishan Formation at the Jixian section,which provides useful information to understand the stromatolite decline occurred at c.1250 Ma and the evolving carbonate world of the Precambrian.     

Detrital zircon U-Pb geochronology of stromatolitic carbonates from the greenstone belts of Dharwar Craton and Cuddapah basin of Peninsular India

Oldest rocks are sparsely distributed within the Dharwar Craton and little is known about their involvement in the sedimentary sequences which are present in the Archean greenstone successions and the Proterozoic Cuddapah basin.Stromatolitic carbonates are well preserved in the Neoarchean greenstone belts of Dharwar Craton and Cuddapah Basin of Peninsular India displaying varied morphological and geochemical characteristics.In this study,we report results from U-Pb geochronology and trace element composition of the detrital zircons from stromatolitic carbonates present within the Dharwar Craton and Cuddapah basin to understand the provenance and time of accretion and deposition.The UPb ages of the detrital zircons from the Bhimasamudra and Marikanve stromatolites of the Chitradurga greenstone belt of Dharwar Craton display ages of 3426±26 Ma to 2650±38 Ma whereas the Sandur stromatolites gave an age of 3508±29 Ma to 2926±36 Ma suggesting Paleo-to Neoarchean provenance.The U-Pb detrital zircons of the Tadpatri stromatolites gave an age of 2761±31 Ma to1672±38 Ma suggesting Neoarchean to Mesoproterozoic provenance.The Rare Earth Element(REE)patterns of the studied detrital zircons from Archean Dharwar Craton and Proterozoic Cuddapah basin display depletion in light rare earth elements(LREE)and enrichment in heavy rare earth elements(HREE)with pronounced positive Ce and negative Eu anomalies,typical of magmatic zircons.The trace element composition and their relationship collectively indicate a mixed granitoid and mafic source for both the Dharwar and Cuddapah stromatolites.The 3508±29 Ma age of the detrital zircons support the existence of 3.5 Ga crust in the Western Dharwar Craton.The overall detrital zircon ages(3.5-2.7 Ga)obtained from the stromatolitic carbonates of Archean greenstone belts and Proterozoic Cuddapah basin(2.7-1.6 Ga)collectively reflect on^800-900 Ma duration for the Precambrian stromatolite deposition in the Dharwar Craton.     

大兴安岭南段陆相二叠系-三叠系界线地层序列及其意义:来自锆石U-Pb年代学和生物地层学的证据

陆相二叠纪-三叠纪地层划分与对比研究对认识该时期全球性重大生物和环境事件具有重要意义.以大兴安岭南段阿鲁科尔沁旗坤都地区新发现的下三叠统老龙头组为研究对象, 重点对二叠系-三叠系接触关系开展详细调查研究, 系统采集了界线上下的古生物化石, 对老龙头组火山岩进行了锆石U-Pb同位素测试分析, 并确定了老龙头组与下伏林西组呈平行不整合接触关系, 两者之间存在短暂沉积间断.生物地层显示林西组时代为晚二叠世晚期, 老龙头组古生物匮乏, 可能与二叠系-三叠系之交的生物灭绝事件有关.而老龙头组中3个同位素年龄值分别为251.5±2.2 Ma、249.7±2.5 Ma和249.5±1.8 Ma, 时代指示为早三叠世, 然而二叠系-三叠系界线的准确位置还需进一步研究.大兴安岭南段普遍存在可能与古亚洲洋闭合有关的早三叠世岩浆事件, 古亚洲洋沿着西拉木伦河缝合带发生碰撞闭合, 其闭合时限至少持续至早三叠世, 老龙头组是两大板块拼贴碰撞作用的产物.      

云南东川地区昆阳群黑山组凝灰岩锆石SHRIMP U—Pb年龄及其地层学意义

云南东川地区昆阳群的形成时代及地层层序一直令人关注,已获得的一些数据虽然具有参考意义,但高质量的SHRIMP定年还很缺乏。在东川地区昆阳群黑山组中上段发育的近180m厚的具有地层意义的晶屑、岩屑凝灰岩中采集样品D0202一件,选出锆石百余粒,获得SHRIMPU-Pb加权平均年龄为（1503±17）Ma。样品D0202的锆石Th／U大于0．48,并具清晰的振荡环带结构,均为岩浆成因的锆石,表明黑山组形成于中元古代早期。这一年龄表明昆阳群的形成时代至少大于1500Ma,为准确地标定昆阳群的时代和层序提供了新的参考依据。     

白云鄂博地区相关地质单元的铁同位素特征及其对白云鄂博矿床成因的制约

白云鄂博Fe-REE-Nb矿床是世界著名的巨型多金属矿床,它的成因一直是个激烈争论的问题,观点主要集中在沉积成因和岩浆成因上,而铁的物质来源问题是争论的焦点之一。近年来Fe同位素的快速发展为解决白云鄂博铁矿的成因提供了新思路。对白云鄂博地区发育的白云鄂博群尖山组铁质板岩、宽沟北沉积型铁矿、腮林忽洞微晶丘、灰绿岩墙这些相关地质单元的Fe同位素组成特征进行了研究,为白云鄂博矿床成因研究提供了最直接的参考。结果表明,尖山组铁质板岩的δ56Fe值为-0.49‰～0.48‰,平均值为-0.03‰±0.84‰,2SD,n=5;宽沟北沉积型铁矿的δ56Fe值为-0.68‰～0.23‰,平均值为-0.10‰±0.78‰,2SD,n=5;腮林忽洞微晶丘δ56Fe值为-0.64‰～0.12‰,平均值为-0.28‰±0.57‰,2SD,n=6;辉绿岩的Fe同位素组成δ56Fe值集中在0.11‰～0.16‰。腮林忽洞微晶丘总体上比白云鄂博赋矿白云岩富集Fe的轻同位素,Fe同位素组成变化也相对更大,表明两者可能有不同的成因。白云鄂博地区尖山组铁质板岩、宽沟北沉积型铁矿与世界其他地区含铁沉积建造的Fe同位素组成类似,其共同特征是,Fe同位素变化较大,总体上δ56Fe大于0‰。这一特征与白云鄂博铁矿的Fe同位素组成差别较大。白云鄂博矿床的δ56Fe集中在0‰附近,与白云鄂博地区灰绿岩、世界不同地区火成岩和岩浆型铁矿的Fe同位素组成特征一致。表明白云鄂博铁矿可能不是沉积成因的,更有可能与岩浆作用有关。