大别山的变质碰撞混杂岩——以东部为例

大别山是中国东部中朝大陆板块与扬子大陆板块之间的碰撞造山带。具有薄皮构造的性质。组成两个碰撞大陆之间的滑脱（冲断剪切）带的岩石就是碰撞混杂岩组合。大别山由于剥露较深,仰冲壳楔完全被剥蚀,超高压变质带大面积出露,识别出碰撞混杂岩组合是对大别山进行几何分析的必要步骤。大别山碰撞混杂岩组合可分为南北两部分。北部为条带状片麻岩-超镁铁岩组合,南部为云母斜长片麻岩-榴辉岩组合,这两个组合的大部分都经历过超高压变质作用。它们的共同特点是具有宏观的＂碎斑结构＂和混杂作用。罗田穹隆是造山过程中早期形成的双冲式背斜,最后在造山晚期因东西向缩短的叠加而形成穹隆。     

新疆东昆仑木孜塔格蛇绿混杂岩中发现富Nb玄武岩

富Nb 玄武岩以相对高的TiO2 含量、低的LILE/HFSE和LREE/HFSE比值以及(La/Nb)MN＜2为特征,是岛弧环境的典型产物。首次报道发现于新疆东昆仑木孜塔格蛇绿混杂岩中的富Nb玄武岩,并分析了它们的典型地球化学特征和构造环境,表明了它们形成在岛弧环境。     

西昆仑库地混杂岩带中深海浊积岩的浊积相划分及其特征

西昆仑库地混杂岩带中发育一套深海浊积岩。本文在系统的沉积相分析基础上,识别并划分出本区浊积岩的7类浊积相及14种亚相,结合其成因分别对各浊积相(亚相)的沉积特征、垂向分布规律进行了总结与描述。此外,垂向上还识别出3种浊积相组合,文中对其沉积序列特征及其所代表的环境意义进行了阐述。结合其它资料,探讨了这套浊流沉积的沉积环境,认为它形成于位于消减带和海沟之间的弧前盆地环境。     

略阳─石泉边界地质体特征

略阳─石泉构造带是一板块缝合带，经历了长期复杂的演化历史。现由不同时期、不同构造体制下的断裂构造系统，裹挟不同构造演化阶段的各类建造─蛇绿混杂岩、陆缘楔状体，岛孤岩浆岩及外来岩块等，共同组成了分隔秦岭、扬子地块的一个特殊边界地质体。     

南天山蛇绿混杂岩和中天山南缘糜棱岩的40Ar/39Ar年龄及其大地构造意义

 ⁴⁰Ar/³⁹Ar同位素年龄测定,获得南天山蛇绿混杂岩基质黑云母石英片岩单矿物黑云母的两个坪年龄分别为(370.0±4.8)Ma和(259.0±3.3)Ma;中天山南缘长英质糜棱岩单矿物黑云母的坪年龄为(250.5±7.9)Ma,二云母花岗岩单矿物白云母的坪年龄为(348.9±0.3)Ma。结合南天山古生代沉积特征和塔里木及伊犁-哈萨克斯坦板块古地磁数据的综合分析,提出南天山晚泥盆世至石炭纪早期完成向伊犁-哈萨克斯坦板块的B型俯冲,中-晚二叠世进行陆内A型俯冲造山的板块碰撞演化模式。     

滇西北金沙江带蛇绿岩,蛇绿混杂岩形成环境及时代

本文对滇西北金沙江带蛇绿岩及其混杂岩的产状、规模，岩石学及岩石化学特征等进行系统的综合研究，并根据大量的化石资料，将该区蛇绿岩的形成时代厘定为晚石炭世至二叠纪，蛇绿要岩的形成时代厘定为早、中三叠世，论证了本区蛇绿岩产于规模较小的洋盆环境之中，由于金沙江洋盆发育阶段较短暂，不具有隔离冈瓦纳及扬子两大古生物地理区系的作用，因此，金沙江缝合带不能构成古特提斯域的主缝合带。     

内蒙古满都拉泥盆纪基性火山岩特征及其形成环境

满都拉西部出露的蛇绿混杂岩中橄榄辉长岩的单颗粒锆石U-Pb年龄(385.6±1.7)Ma,显示该蛇绿岩形成于早泥盆世晚期。其中的基性火山岩岩块为一套浅变质的枕状玄武岩、橄榄玄武岩,多与超基性岩岩块伴生。玄武岩的SiO2为47.16%～51.93%,TiO2为1.44%～2.13%,Al2O314.08%～17.51%,Na2O3.42%～5.39%,K2O0.22%～0.83%;具低钾特点,显示拉斑玄武岩特征。其富集大离子亲石元素Rb,Ba,Th和U,贫高场强元素Zr,Ti,Y等,似岛弧玄武岩或岛弧-洋中脊过渡型玄武岩或弧后盆地玄武岩。ΣREE为(113.130～189.560)×10—6,LREE/HREE为0.684～1.369,配分曲线呈右缓倾、平坦型,显示岛弧、洋中脊或E-洋中脊玄武岩特征。根据岩石学、岩石地球化学特征,结合区域构造背景,认为该套火山岩或该蛇绿岩的形成环境为弧后盆地。     

Geochemistry of ophiolite cherts from the Qinling orogenic belt and implications for their tectonic settings

Since the 1980s, one of the important progresses in the study of the Qinling orogenic belt is marked by findings of numerous ophiolite zones[1—4]. On the basis of the former orogenic models of the Paleozoic colli-sional orogeny[1,5,6] and the Mesozoic collision[7—9], another orogenic evolution model from the Paleozoic subduction-collision along the Shangdan suture to the Mesozoic final collision orogeny along the Mianle suture[3,10], including the relicts of the Jining orogeny, has been pr…     

甘肃昌马地区寒武纪构造演化探讨

位于北祁连山造山带西段的昌马地区，1：5万东湾、三道湾幅区调在中寒武世地层中发现Leiosphaeridia，Lophosphaeridium，Cymatiosphaera，Retisphaeridium，Synsphaeridium，Multiplicisphaeridium，Retinarites等晚震旦世的藻类化石。据此，笔者将本区中寒武世地层解体为3部分：晚震旦世地层、早寒武世地层和中寒武世黑茨沟组。并对锅底坑蛇绿混杂岩带进行了确认，在此基础上对本区寒武纪构造演化模式作以探讨。     

Permo-Carboniferous Radiolarians from the Wupata＇erkan Group, Western South Tianshan, Xinjiang, China

The Wupata‘erkan Group, also called Wupata‘erkan Formation, distributed in the South Tianshan, Xinjiang,China, mainly consists of gray and dark gray fine-grained clastic rocks, interlayered with volcanic rocks, carbonates and cherts. Some ultra-basic rocks (blocks) punctuate the formation. The formation was variously assigned to Silurian-Middle Devonian, Silurian-Lower Devonian, and pre-Devonian, mainly based on Atrypa bodini Mansuy, Hypothyridina parallelepipedia (Brour.) and Prismatophyllum hexagonum Yoh collected from the limestone interlayers, respectively.However, radiolarian fossils obtained from 24 chert specimens of the Wupata‘erkan Group, mainly include Albaillella sp.cf. A. undulata Deflandre, Albaillella sp. cf. A. paradoxa Deflandre, Albaillella cf. A. deflandrei Gourmelon, Albaillella sp. cf. A. indensis Won, Albaillella sp. cf. A. excelsa Ishiga, Kito and Imoto, Albaillella sp. and Latentifistulidae gen. et. sp.indet., are earliest Carboniferous and Late Permian. The earliest Carboniferous assemblage is characterized by Albaillella sp. cf. A. undulata Deflandre, Albaillella sp. cf. A. paradoxa Deflandre, Albaillella cf. A. deflandrei Gourmelon and Albaillella sp. cf. A. indensis Won, and the Late Permian assemblage by Albaillella sp. cf. A. excelsa Ishiga, Kito and Imoto. This new stratigraphic evidence indicates that the Wupata‘erkan Group is possibly composed of rocks with different ages from Silurian to Permian, and therefore, it is probably an ophiolite mrlange. The discovery of Late Permian Albaillella sp. cf. A. excelsa provides more reliable evidence supporting the existence of a Permian relic ancient oceanic basin in the western part of Xinjiang South Tianshan.