甘肃东南地区构造活动与2013年岷县—漳县MS6.6级地震孕震机制

位于南北地震带中北段的甘东南地区,其构造变形和构造活动特征与青藏高原向北东方向的扩展密切相关,该地区复杂的构造几何形态主要受控于东昆仑断裂和西秦岭北缘断裂,区域新构造运动主要动力来源于青藏高原向北东的扩展.近年来,甘东南地区中强地震频发,本文主要通过对该地区构造活动特征、历史地震等资料的综合分析讨论,结合地球物理、地震学和野外调查等资料,认为青藏高原东北部东昆仑断裂的向北挤压和向东的运动是该地区构造应力集中的主要原因,也是该地区中强地震的主要孕震环境和机制,而西秦岭北缘断裂的走滑及向南北两侧逆冲“花状构造”是临潭—宕昌断裂带上中强地震频繁发生的一个重要动力因素.2013年7月22日发生在甘肃岷县—漳县的M_S6.6级地震正好位于临潭—宕昌断裂带中东段上,是该断裂分段不均匀活动的结果.     

华北中部重力场的动态变化及其强震危险含义

基于绝对和相对重力观测获得的区域重力场时、空动态变化,结合区域GPS测量资料与活动构造分析,本文研究了华北中部地区2009-2011年的重力场变化特征,讨论了该区域重力场动态变化的强震危险含义.结果主要表明:(1)华北中部的活动地块边界及部分重要活动断裂带两侧存在较大差异的重力场空间变化;其中,以山西断陷带北东段所在的晋冀蒙交界地区为中心,形成较大面积的重力负值变化区,且沿该区西北缘的NE向岱海-黄旗海断裂带以及东南缘的NNE向太行山山前断裂带附近分别形成重力变化的高梯度带,可能反映这些部位近年的构造或断裂活动显著.(2)不同时段的重力场差分动态演化图像可能反映了近年山西断陷带北东段(京西北盆-岭构造区)及其附近的重力场整体经历了"准均匀→非均匀→断陷带北段侧向显著变化→局部"硬化"的演化过程.(3)研究区重力场的时间累积变化图像可用"区域应力场增强→区域断裂与断块差异运动及变形增强→局部运动受阻"的过程进行解释.(4)研究区的一些重力异常部位存在中-长期强震危险背景.     

河南嵩山地区元古宙五佛山群沉积岩的地球化学特征及其对物源区和构造环境的制约

河南嵩山地区位于华北克拉通南缘,保存有较为完整的太古宙-古元古代变质结晶基底和之后的沉积盖层。五佛山群直接角度不整合覆盖于新太古界登封群和古元古界嵩山群之上,为嵩山地区结晶基底之上分布广泛的第一沉积盖层。其主要由(长石)石英砂岩组成,夹少量的粉砂质页岩、泥岩和薄层灰岩。从下而上岩性相变明显,代表两次较大的沉积旋回。地球化学特征上,五佛山群砂岩的SiO₂含量(70.18%~95.21%)明显比泥质岩(20.79%~52.27%)高,但Fe₂O₃、MgO、CaO和K₂O含量比泥质岩低,表明泥质岩中含有较多的基性组分和富钾矿物。泥质岩的稀土总量(∑REE=131×10^-6~169×10^-6)比砂岩(∑REE=7.30×10^-6~158×10^-6)高,反映泥质岩中较高含量的粘土矿物对稀土元素具有较强的吸附作用。砂岩样品的成分变异指数(ICV=0.89~3.59)较低,说明其成熟度较高,为稳定构造环境下沉积的产物。泥质岩的ICV值为4.04~17.50,SiO₂/Al₂O₃比值(3.90~5.58)和La/V比值较低(0.45~0.65),说明其成熟度较低,形成环境相对比较活动。较低的化学蚀变指数(CIA=7.52~66.1)反映碎屑沉积岩 的源区遭受相对较弱的化学风化作用,其中砂岩(CIA=27.6~66.1)的化学风化强度比泥质岩(CIA=7.52~24.9)高。五佛山群碎屑沉积物主要来源于古元古代中酸性组分,有少量基性组分的加入。其下部和中部的砂岩与华北南缘同时代的沉积地层均形成于被动大陆边缘的沉积环境,说明华北克拉通南缘在熊耳群之后进入了一个稳定的沉积阶段。而五佛山群上部泥质岩形成于与大陆岛弧相关的沉积盆地,显示地壳活动性增强,沉积环境上暗示由被动大陆边缘向活动大陆边缘过渡的过程,可能与秦岭造山带形成初期的板 块活动有关。     

赣南6722铀矿床方解石Sm-Nd等时线年龄及其地质意义

6722热液型铀矿床位于东西向南岭构造和北东向武夷隆起交汇部位的禾草坑铀矿田内。本文利用采集于该矿床花岗岩型矿石中的8件方解石进行Sm-Nd年龄测定,确定了成矿年龄为113.4±6.9 Ma。这期发生在花岗岩中的铀矿化早于隐爆角砾岩中的矿化。我们推测前期花岗岩中的矿化为后期隐爆角砾岩中富矿体的形成提供了预富集。白垩纪时6722矿床所在会昌地区处于岩石圈伸展的地段,伸展作用为铀成矿创造有力条件,岩石圈伸展与铀成矿之间具有良好的对应关系。     

南天山南缘下二叠统玄武质岩浆的地球化学特征及其构造意义

南天山造山带南缘发育大量的下二叠统火山岩。地球化学指标显示南天山南缘西段拜城县宿相厄肯沟出露的下二叠统小提坎立克组玄武岩为拉斑玄武岩(里特曼指数δ=2.93)。 该套岩石低FeO^T、MgO和全碱(Na₂O+K₂O),高CaO和Al₂O₃,相对高钠,低钾; Rb、K、U和Ba 等大离子亲石元素富集; 稀土配分曲线整体协调一致,为向右缓倾的曲线,轻稀土元素(LREE)相对富集; 微量元素配分型式呈"驼峰状"; 玄武岩的母岩浆经历了以单斜辉石为主的分离结晶作用和强烈的陆壳混染作用。同位素组成 ¹⁴³ Nd/¹⁴⁴ Nd =0.512 849±0.000 005, ⁸⁷ Sr/⁸⁶ Sr =0.706 845±0.000 014; -10<ε_Nd(t)<0,且ε_Sr(t)>0,模式年龄T_DM 为1.463 279 765 Ga。 结合区域地质资料表明,小提坎立克组玄武岩形成于板内伸展环境,具有主动裂谷作用性质,说明南天山造山带南缘当时处于碰撞后伸展背景。     

川东褶皱带构造发育深度层次与变形样式

地壳上层的结构特征和变形样式在垂直方向上的变化远远大于其在水平维度上的分异。川东褶皱带自晚古生代以来地史演化统一、地层展布稳定,之后新生代盆、山演化分异幅度较大,使得不同深度的地层和基底得以出露,不同地壳深度层次的构造样式得以展示,这为研究应力的垂向分异,提供了很好的条件。本文基于地壳垂直方向上变形几何的不守恒、构造脱耦以及构造层次的概念,通过野外构造现象的详细解析、野外脆性破裂产状统计、断裂之间交切关系以及活动性质观察等综合分析,结合遥感图像研究,对川东褶皱区隔挡式褶皱和隔槽式褶皱形成提出了新的解释模型。以华蓥山与齐岳山为界,川东褶皱带被分为3个呈叠置关系的区域。研究表明华蓥山以西(Ⅰ区)没有发生强烈的构造变形,变形深度最小(<2 km); 华蓥山与齐岳山之间(Ⅱ区)构造样式为在北北东向剪切作用下形成的陡立构造面理,变形深度为2～5 km; 而齐岳山以东(Ⅲ区)的构造样式是发育轴向北东的宽缓褶曲,变形深度为4～6.6 km。研究分析后得出,川东褶皱带在晚古生代以来,没有经历过大幅度的地壳垂向运动和明显的旋转运动,而白垩纪以后,发育了早期北北东向和晚期北东向的两期构造变形。Ⅱ、Ⅲ两区的构造样式发育于同一应力场(北西-南东主应力场),而晚期北东向断裂活动是形成上述3个区域呈现出断块并置的原因。另外,由于后期不同断块抬升和剥露的差异,使3个区域迥异的构造样式呈现在地表。这一认识对研究油气相关的构造圈闭、固体多金属矿产相关的矿床深度问题以及大地构造学等问题都有创新意义。     

Petrogenesis of Late Silurian volcanism in SW Yunnan (China) and implications for the tectonic reconstruction of northern Gondwana

ABSTRACT

Early Palaeozoic magmatic records and tectonic reconstructions along the northern margin of Gondwana are still pending problems. In this paper, Late Silurian Dawazi and Dazhonghe volcanics in SW Yunnan Province (China) were studied. The Dazhonghe volcanics (419 Ma) have variable chemical compositions with SiO₂ ranging between 49.8 and 79.5 wt.%, whereas, the Dawazi volcanics (417–429 Ma) form a bimodal volcanic suite consisting mainly of silicic rocks and subordinate basaltic rocks with a SiO₂ content gap of ca. 15 wt.%. The Dazhonghe volcanics display calc-alkaline elemental compositions with enrichment in light rare earth elements (LREEs), and depletion in high field strength elements (HFSEs) (e.g. Nb, Ta and Ti) and positive ε_Nd(t) values (+ 4.0 to + 5.5). The Dawazi basaltic rocks are calc-alkaline, depleted in HFSEs, enriched in large ion lithophile elements (LILEs) (e.g. Cs, Rb, U and K), and have high ε_Nd(t) values of ?1.7 to + 5.4. The Dawazi silicic rocks have high Na₂O/K₂O ratios and positive ε_Nd(t) values of + 2.4 to + 5.0, which are equivalents of calc-alkaline I-type granites. The Dazhonghe volcanics are dominated by fractional crystallization (FC) from a calc-alkaline primary magma which originated from an enriched mantle source metasomatized by subduction-related, sediment-derived fluid. The Dawazi basaltic rocks were derived from partial melting of an enriched mantle source metasomatized by subducted oceanic sediment/slab-derived fluids; the Dawazi silicic rocks originated from partial melting of the juvenile mafic lower crust with extensive FC. Both the Dazhonghe and Dawazi volcanics were generated in a continental back-arc extension setting. Combined with previous geological observations, a Late Silurian Prototethyan arc and back-arc extension system is proposed along the northern margin of Gondwana in SW China.     

Chemical geodynamics of Western Anatolia

We report major and trace element concentrations and Nd–Sr–Pb isotopic data of 10 post-collisional volcanic domains in Western Anatolia, a seismically active part of the Alpine–Himalayan belt in the Aegean extensional province. Our objective is to provide geochemical constraints for tectono-magmatic processes shaping the late Cenozoic geodynamic evolution of Western Anatolia.

Calc-alkaline volcanic rocks occurring to the north of the Izmir–Ankara–Erzincan suture zone show arc-like trace elements and isotopes and were formed by the melting of the metasomatized Neotethyan mantle-wedge; this process was facilitated by asthenospheric upwelling resulting from slab delamination. Calc-alkaline and alkaline volcanic rocks from within the Izmir–Ankara–Erzincan suture zone also show the imprint of subduction fluids in their major and trace elements, but their isotopic compositions indicate derivation from a metasomatized lithospheric mantle followed by assimilation of ancient crust. Volcanics along the N–S-oriented Kirka–Afyon–Isparta trend were derived from the lithospheric mantle that was metasomatized by fluids from the older subduction of the African plate. Golcuk–Isparta volcanic rocks show an asthenospheric imprint; the latter was a consequence of upwelling following a tear in the subducting African lithosphere. Shoshonitic Kula volcanic rocks show very high trace element concentrations, OIB mantle-like trace elements, and Nd–Sr–Pb isotopic signatures, and were formed by partial melting of the upwelling asthenospheric mantle; this event was synchronous with the Aegean extension and possibly also with slab window formation due to ruptures in the African plate.

Inherent in the above chemical geodynamic models are the high ?_Nd(0) values (+6.4) of the end-member volcanic rocks, implying the presence of an asthenospheric source beneath Western Anatolia that is responsible for the currently observed high heat flow, low Pn wave velocities, high seismicity, and tectonic activity.     

A model for the state of brittle failure of the western Trans-Mexican Volcanic Belt

The Trans-Mexican Volcanic Belt (TMVB) is an igneous arc built above the Middle America subduction zone. Its western section is being extended orthogonally to its axis by several arrays of active normal faults with a combined length of 450 km and including up to 1.5 km of throw. Until now, intra-arc extension in the TMVB has been considered the result of either rifting or retreat of the Rivera and Cocos plates. Observations worldwide and numerical models, however, appear to contradict these ideas. Continental extension in convergent margins takes place where the upper plate moves away from the trench, and the subduction zone is only weakly coupled with the overlying plate. In western Mexico, neither of these relationships applies. A new numerical model presented here is able to explain satisfactorily the state of brittle failure of the TMVB. The model embodies the first-order physics of the northern Middle America subduction zone, and its boundary conditions are consistent with the convergence history of the Rivera and North America plates. Modelling results show that periods of accelerated subduction between the Rivera and North America plates give rise to an increase in suction force under the fore arc. The over-riding plate then bends downwards, building up tensional stress inside the volcanic arc. Failure of the arc follows within 1 million years of pulse initiation. Analysis of the results shows that the steep subduction angle of the Rivera slab, the relief of the volcanic plateau, and the thermal weakening of the lower crust facilitated the failure of the arc. The model demonstrates that a highly coupled subduction zone can cause extension, albeit limited, in the over-riding plate.     

新疆伊吾阿勒吞昆多蛇绿混杂岩特征

前人将唐巴勒-卡拉麦里缝合线置于伊吾县以南哈尔里克山塔水河一线。1993年巴瑞士等在伊吾西北大黑山发现超镁铁岩-镁铁岩洋壳残片,认为卡拉麦里蛇绿岩从伊吾西北大黑山一带向东延伸。2009年笔者参与伊吾县阿尔通盖一带1∶5万区域地质矿产调查工作,于伊吾县以北阿勒吞昆多一带发现阿勒吞昆多蛇绿混杂岩,该蛇绿岩中斜长花岗岩形成于早石炭世((351±6)Ma),大地构造为哈萨克斯坦-准噶尔板块及准噶尔微板块、唐巴勒-卡拉麦里古生代沟弧体系。在研究前人资料基础上,提出阿勒吞昆多蛇绿混杂岩为卡拉麦里蛇绿岩(属唐巴勒-卡拉麦里缝合线)向东延伸部分,唐巴勒-卡拉麦里缝合线(沟弧体系)西起唐巴勒,向东经达拉布特-卡拉麦里-塔克扎勒-大黑山至伊吾县阿勒吞昆多一带,可能延伸至蒙古境内。