胶南晚中生代大珠花岗岩岩体的脆性变形机制

在长期变化的构造应力作用下,胶南大珠山花岗岩岩体自早白垩世冷凝冷却以来发生强烈的脆性破裂变形,形成了多样的破裂类型如岩脉、节理和断层。在该岩体冷凝冷却早期侵入的细晶花岗岩脉和稍后形成的N-S向节理组反映出与同期区域构造应力场协调的N-S向挤压作用,而后伴随着揭顶剥蚀,出现了交替变化的构造应力场形成了岩体内主导的NW-NNW向和NE向节理组。整体上,恢复出的岩体内构造应力场发生顺时针方向旋转,最大水平挤压由早期的N-S向偏转为晚期的近E-W向。构造应力场的长期变化、平行节理作用和节理断层化作用造成了研究区复杂的破裂型式和破裂序列。     

东营凹陷北部沙河街组四段深部储层多重成岩环境及演化模式

主要通过薄片鉴定、扫描电镜观察、包裹体分析、粘土矿物分析、镜质体反射率测试和岩心物性分析等手段,结合构造发育史和有机质热演化史等研究成果,以揭示东营凹陷北带古近系深部碎屑岩储层成岩环境及演化模式为目的展开研究工作。结果表明:东营凹陷北带古近系深部碎屑岩储层存在酸性、碱性和酸性碱性交替等多重成岩环境。酸性成岩环境以碳酸盐矿物溶解、长石溶解蚀变为高岭石并伴生石英次生加大等为标志,碱性成岩环境以石英质颗粒及其次生加大边溶解、长石次生加大和晚期碳酸盐矿物沉淀为标志。研究区古近系深部碎屑岩储层成岩环境由浅至深大致经历了碱性—酸性—酸性碱性交替(局部碱性较强)—碱性—弱碱性的演化过程,并建立了沙河街组四段的成岩演化和储层改造模式。     

Magnetite Dyke in Precambrian Banded Iron Formation,Singhbhum Craton,India: Mineralogical and Chemical Characteristics

Banded iron formation (BIF) of the Gorumahisani–Sulaipat–Badampahar (GSB) belt in Singhbhum Craton, India, consists predominantly of magnetite. This BIF is intruded by a magnetite dyke. The magnetite dyke is massive and compact with minor sulphide minerals while the host banded magnetite ore, a component of the BIF, shows thin lamination. The magnetite ore of the dyke is fine to medium grained and exhibits interlocking texture with sharp grain boundaries, which is different from the banded magnetite that is medium to coarse grained and show irregular martitised and goethitised grain boundaries. Relics of Fe–Ca–Mn–Mg‐carbonate and iron silicates (grunerite and cummingtonite) are observed in the banded magnetite. The intrusive magnetite is distinctly different in minor, trace and REE geochemistry from the banded magnetite. The banded magnetite contains higher amounts of Si, Al, Mn, Ca, Mg, Sc, Ga, Nb, Zr, Hf, Co, Rb and Cu. In contrast, the massive magnetite is enriched in Cr, Zn, V, Ni, Sr, Pb, Y, Ta, Cs and U with higher abundance of HREE. In the chondrite normalized plot, the massive magnetite shows a slight positive Eu anomaly while the banded ore does not show any Eu anomaly. Field disposition, morphology, mineralogy and chemistry show that the intrusive magnetite dyke is of igneous origin, while magnetite in BIF formed from a carbonate protolith through the process of sedimentation.     

浙江淳安木瓜基性岩墙群U-Pb年龄、地球化学特征及意义

浙江淳安木瓜地区基性岩墙群以NW-SE向产出,岩性丰要为辉绿岩和辉绿玢岩,地球化学分析显示其主要属于拉斑玄武岩系列.稀土元素分布模式均表现为右倾型,(La/Yb)N=5.1～7.6,平均为6.4,反映轻重稀土元素分异较为明显,重稀土元素明显亏损,表明源区有石榴子石的残余.La/Sm-La图解显示本区基性岩墙的岩浆是平衡...     

高分辨率遥感影像在岩墙地质体信息提取中的应用

高分辨率遥感影像可明显表现地物的几何结构和纹理特征,从而使得在较小空间尺度上观察地物细节变化、进行大比例尺遥感制图成为可能。利用高分辨率QuickBird遥感影像,对新疆巴楚县麻扎尔塔格山地区的岩墙进行计算机辅助地质解译,共获得1227条岩墙。结合GIS空间分析方法获得了解译岩墙长度、走向分布等特征。结果表明:该地区76%的解译岩墙走向为NNW(135°~180°);QuickBird能够满足1∶2.5万地质调查的要求;通过地质分析综合解译结果获得了麻扎尔塔格岩体内部存在发育岩墙、岩墙形成应晚于内部的正长岩体的新认识。探讨并验证了高分辨率遥感影像在中小规模地质体解译中的可行性和有效性。     

白云鄂博矿区周围火成碳酸岩岩墙地质特征

首次填出白云鄂博矿区周围火成碳酸岩岩墙的分布图,深入系统地研究了岩墙的地质产状、主矿物类型、岩石结构、人工重砂矿物组成、稀土元素含量等特征。反映了白云鄂博矿区周围火成碳酸岩岩墙的岩浆演化分异过程存在差异。对于研究白云鄂博矿区铁与稀土的矿化提供了物质来源的证据。     

滇西南团梁子岩组绿片岩、基性脉岩及构造分异石英脉岩锆石U-Pb年龄及其地质意义

滇西南团梁子岩组是南澜沧江构造带内重要的构造岩石单元之一,与兰坪-思茅盆地演化有密切联系。由于层序恢复困难和缺乏标志生物化石,该套岩石地层的时代归属缺乏有效约束。江桥团梁子岩组中基性脉岩和构造分异石英脉岩较为发育,在岩石学观察基础上,以绿片岩、辉长(绿)岩及与区域面理(S2)同期的构造分异石英脉岩为研究对象,借助激光剥蚀等离子体质谱(LA-ICP-MS)技术,对其中分选出的锆石开展了精确的U-Pb年龄测定。2件绿片岩样品31个锆石测点中存在4组206Pb/238U年龄,分别为1816~1542 Ma(加权平均为1630±210 Ma,N=6)、850~832 Ma(加权平均为844±95 Ma,N=2)、517~422 Ma(加权平均为438±26 Ma,N=4)和292~188Ma(加权平均为219.7±8.5 Ma,N=19)。2件辉长(绿)岩样品31个锆石测点中也存在4组206Pb/238U年龄,分别为2256~1357 Ma(加权平均为1646±160 Ma,N=16)、861~750 Ma(加权平均为773±92 Ma,N=2)、484~388 Ma(加权平均为433±38 Ma,N=6)和320~233 Ma(加权平均为253±16 Ma,N=7)。1件构造分异石英脉岩样品20个锆石测点中有3组206Pb/238U年龄,分别为1244±19 Ma(N=1)、430±5 Ma(N=1)和312~212 Ma(加权平均为229.6±6.7 Ma,N=18)。不同类型岩石中的各组锆石206Pb/238U加权平均年龄极为接近,代表了不同的地质意义,其中1646~1630 Ma可能代表了团梁子岩组原岩的形成年龄,而253~219 Ma可能代表了团梁子岩组在此时期受到构造热事件影响,该事件可能与古特提斯洋盆由西向东的俯冲消减作用有关。本次获得的绿片岩、基性脉岩及构造分异石英脉岩锆石U-Pb年龄将团梁子岩组时代约束为老于1630 Ma,即中元古代,可能属澜沧岩群的一部分。     

大陆造山带基底岩块中的基性岩墙群研究——以南秦岭武当地块为例

基性岩墙群是大陆和大陆造山带内发育的特殊地质体,包含丰富的地球动力学信息。造山带内基底岩块是造山作用过程卷入造山带的外来或原地地块（陆块）,基底岩块中基性岩墙群的发育及其变形、变质特征,既为造山带内存在古老陆块和古陆块的裂离提供了证据,也为造山过程的构造动力学研究提供了重要信息。加强造山带基底岩块中基性岩墙群的多学科综合研究,对于探讨大陆造山带的形成、演化及其动力学过程具重要意义。     

The crater-facies kimberlite system of Tokapal, Bastar District, Chhattisgarh, India

Discovery of diamondiferous kimberlites in the Mainpur Kimberlite Field, Raipur District, Chhattisgarh in central India, encouraged investigation of similar bodies in other parts of the Bastar craton. The earlier known Tokapal ultramafic intrusive body, located beyond the 19-km milestone in Tokapal village along the Jagdalpur–Geedam road, was reinterpreted as crater-facies kimberlite. Its stratigraphic position in the Meso-Neoproterozoic intracratonic sedimentary Indravati basin makes it one of the oldest preserved crater-facies kimberlite systems. Ground and limited subsurface data (dug-, tube-wells and exploratory boreholes) have outlined an extensive surface area (>550 ha) of the kimberlite. The morphological and surface color features of this body on enhanced satellite images suggest that there is a central feeder surrounded by a collar and wide pyroclastic apron. Exploration drilling indicates that the central zone probably corresponds to a vent overlain by resedimented volcaniclastic (epiclastic) rocks that are surrounded by a 2-km-wide spread of pyroclastic rocks (lapilli tuff, tuff/ash beds and volcaniclastic breccia). Drill-holes also reveal that kimberlitic lapilli tuffs and tuffs are sandwiched between the Kanger and Jagdalpur Formations and also form sills within the sedimentary sequence of the Indravati basin. The lapilli tuffs are commonly well stratified and display slumping. Base surges and lava flows occur in the southern part of the Tokapal system. The geochemistry and petrology of the rock correspond to average Group I kimberlite with a moderate degree of contamination. However, the exposed rock is intensely weathered and altered with strong leaching of mobile elements (Ba, Rb, Sr). Layers of vesicular fine-grained glassy material represent kimberlitic lava flows. Tuffs containing juvenile lapilli with pseudomorphed olivine macrocrysts are set in a talc–serpentine–carbonate matrix with locally abundant spinel and sphene. Garnet has not been observed, and phlogopite is very rare. Very limited microdiamond testing (two 18-kg samples) proved negative; however, the composition of chromite grains indicate crystallization in the diamond stability field.     

武当地块基性岩墙群的Sm-Nd定年及其相关问题讨论

武当地块是卷入南秦岭构造带的前震旦纪基底岩块,该基底岩块中广泛发育变形变质的基性岩墙群,获得岩墙群的ＳｍＮｄ全岩等时年龄为ｔ＝７８２±１６４（２σ）Ｍａ,ＩＮｄ＝０．５１１７１±１６（２σ）,εＮｄ（ｔ）＝＋１．５±１．０。据此并综合区域地质实际,对南秦岭元古代古陆块的存在及其裂解等相关问题进行了讨论。