湖南益阳早、中奥陶世的叶笔石属(Phyllograptus)

报道湖南益阳早、中奥陶世的叶笔石1属5种,包括Phyllograptus anna Hall,1865,Phyllograptus anna longus Ruedemann,1947,Phyllograptus anna ultimus Ruedemann,1904,Phyllograptus claviger Monsen,1937,Phyllograptus claviger acuminatus(Chen and Xia),1979。研究表明,该属主要产出于弗洛晚期至大坪中期,在早、中奥陶世笔石多样性演变事件第一阶段的后期(Corymbograptus deflexus带),叶笔石所代表的上攀伸展类型就已萌芽,且在第二阶段(Pseudophyllograptus angustifolius elongatus带-Isograptus victoriae divergens带)于均分笔石动物群中占据优势地位,对该动物群内部类群的演替起着承前启后的作用,同时也验证了笔石动物群自身的演替对于其多样性演变具有重要影响。

四川长宁下、中奥陶统的三叶虫序列

四川长宁位于奥陶纪华南陆块西部,临近奥陶纪康滇古陆,早及中奥陶世充足的陆源供应和局部快速沉降,在该区沉积了一套浅海相的陆源碎屑岩。长宁双河剖面早奥陶世晚期及中奥陶世地层共发现有三叶虫6科8属18种,根据共生笔石,初步建立区内大官山组(弗洛期—达瑞威尔最早期)和大沙坝组(达瑞威尔期)的三叶虫序列。除Asaphidae科的Liomegalaspides的分布几乎贯通两组的始终(filiformis-murchisoni带)外,Nileidae科的Psilocephalina和Psilocephalops分布局限于approximatus-eobifidus带;Taihungshaniidae科的Taihungshania高度分异,共有4种之多,分布于approximatus-hirundo带;Calymenidae科的Neseuretus也有4种之多,分布于hirundo-clavus带和intersitus带;Trinucleidae科的Hanchungolithus sp.分布于clavus-austrodentatus带;Leiostegiidae科的Pseudocalymene包括2种,分布于intersitus-murchisoni带,Annamitella sp.分布于murchisoni带。基于Zhou等(2011)对大官山组的三叶虫相所做研究,根据各层段三叶虫的组成、优势分子和分异度,认为approximatus-filiformis带的三叶虫属于Psilocephalina相(白云质泥岩),eobifidus-suecicus带三叶虫属于Taihungshania相(页岩、粉砂质页岩),hirundo带三叶虫属于Neseuretus相(粉砂质页岩),clavus-austrodentatus带三叶虫属于Liomegalaspides相(钙质页岩),大沙坝组(intersitus-murchisoni带)主体层段的三叶虫仍以Liomegalaspides占优,三叶虫相类型应与下伏地层(clavus-austrodentatus带)相同。长宁地区弗洛期—达瑞威尔期的岩相和生物相指示了向上逐渐加深的浅水内陆棚环境,但是即使在大坪期和达瑞威尔期的较大海侵期,水深仍应在70m以内。长宁双河的三叶虫多样性在hirundo带达到一个峰值,以Neseuretus(Calymenidae)和Hanchungolithus(Trinucleidae)为代表的Whiterock动物群在剖面中首次出现。

贵州桐梓红花园奥陶系湄潭组疑源类生物地层

桐梓红花园剖面奥陶纪地层出露完整,化石丰富,层序清楚。该剖面湄潭组5个笔石带中有疑源类化石31属49种,根据其组成和相对丰度不同划分为5个疑源类组合带:组合带的属、种较为单调,且丰度不高;组合带中Polygonium占优势,伴有Arbusculidium;组合带以大量Stelliferidium的出现为特征;组合带与组合带相似;组合带中Leiosphaeridia的含量比Polygonium高,产特征分子Coryphidiumelegans。桐梓红花园湄潭组疑源类组合与中欧、北非、中东、南亚、北美纽芬兰东部、南美等环冈瓦纳地区同期疑源类组合相似,证实华南地区属于环冈瓦纳疑源类古地理分区。部分奥陶纪疑源类分子,如Ampullulaerchunensis、Arkonia、Dicrodiacrodium和Leprotolypaevexa等在桐梓红花园剖面的首现(FAD)较全球其他地区早。

Early Ordovician strongly peraluminous granite in the middle section of the Yarlung Zangbo junction zone and its geological significance

LA-ICP-MS zircon U-Pb isotopic dating and rock geochemical analysis were done of the Xarru granite in the middle section of the Yarlung Zangbo junction zone. Zircon 2-6pb/Z38u weighted mean ages of 474.9±2.3 and 478.3±1.7 Ma have been obtained for two gneiss granite samples respectively, which represent the formation age of the granite. This is the first discovery of the Early Ordovician magmatism in the Yarlung Zangbo junction zone. The rocks are high-K calcic-alkalic granite, contain tour- maline but not hornblende, with aluminum saturation index （ASI） of A/CNK〉I.1 （1.10-1.20）, and are enriched in Rb, Th and U and relatively depleted in Ba, Nb, Sr, Zr, Ti and Eu. They are strongly peraluminous S-type granite, resulting from partial melting of argillaceous components in the crust in a syn-collisional setting. According to previous studies as well as the analy- sis in this paper, the formation of the Xarru granite is probably related to the Andean-type orogeny in the process of subduction of the Proto-Tethys Ocean towards the Gondwanaland, and it is a product of partial melting of the thickened upper crust as a result of collision between blocks or micro-blocks in the northern margin of the Gondwana supercontinent in the process of oceanic subduction. The Xarru granite is identified as the Early Ordovician granite, indicating that the wall rocks had probably formed in the Cambrian or Precambrian.