吉南新太古代高镁安山岩及其地质意义

吉南张三沟岩组和金银别岩组发育一套高镁安山岩类,SHRIMP锆石U-Pb定年为（2 493±12）Ma,形成于新太古代。高镁安山岩类属于钙碱性系列,w(SiO₂)为 53.93%～57.90%,富MgO(w(MgO)为6.54%～8.82%）,高Mg^#值(0.68～0.71, 平均0.69),高铬(w(Cr)为(270.66～1 117.30)×10^－6,平均443.62×10^－6）,高镍(w(Ni) 为(141.74～542.98)×10^－6,平均250.50×10^－6）,这种高MgO、Cr、Ni的特征表明其成因与地幔部分熔融有关。另一方面,该岩石富集大离子亲石元素（如Sr、Cs、K、Pb、Rb和Ba）,亏损高场强元素（如Nb、Ta、Ti、P）,富集LREE（w(Ce)为(38.34～59.34)×10^－6）,亏损HREE（w(Yb)为(1.38～1.57)×10^－6）,显示弧火山岩的特点。上述地球化学特征表明,岩石可能是消减板片脱水流体或者消减板片部分熔融的熔体与地幔橄榄岩相互作用的结果,揭示它们形成于消减带的构造环境,表明新太古代已经存在现代类型的板块构造。     

The Whole‐Rock Geochemical Composition of the Wudaogou Group in Eastern Yanbian,NE China–New Clues to Its Relationship with the Gold and Tungsten Mineralization and the Evolution of the Paleo‐Asian Ocean

The late Paleozoic Wudaogou Group, one of the oldest metamorphic units in the eastern Yanbian area, has important tectonic and metallogenic significance. Here, we provide new insights into their protoliths, tectonic setting of the metamorphic rocks and their relationships with the gold and tungsten mineralization, using new petrographic and whole‐rock geochemical data for various lithologies within the Wudaogou Group. The protolith of the metamorphic rocks of the Wudaogou Group was intermediate–basic volcanic rocks (e.g. basaltic andesite, trachyandesite, and basalt) and sedimentary rocks including argillaceous rocks, quartz sandstone, arkose and clayish greywacke, as well as pyroclastic sedimentary rock, covering tuffaceous sandstone. Before undergoing late Paleozoic epidote–amphibolite facies regional metamorphism, these protoliths were formed during the middle–late Permian in an island arc setting within a continental margin collage zone. Combined with the regional tectonic evolution, it can be speculated that the formation and the subsequent metamorphism of the protoliths of the metamorphic rocks from the Wudaogou Group were influenced by the change from subduction to collision of the Paleo‐Asian Ocean. Similarities of the rare earth element (REE) patterns and parameters among the metamorphic rocks within the Wudaogou Group, auriferous ores from the Xiaoxi'nancha gold (copper) deposit, and scheelites from the Yangjingou tungsten deposit, together with the favorable metallogenic element contents within the metamorphic rock series, imply that the Wudaogou Group could provide parts of metallic material for the gold and tungsten mineralization in the eastern Yanbian area, as exemplified by the Yangjingou deposit and Xiaoxi'nancha deposit, respectively. Further, the metamorphic sedimentary rocks, especially the metamorphic sandstones, quartz schists and quartz mica schists within the Wudaogou Group, have closer genetic relationships with the Yangjingou tungsten mineralization. However, the specific lithologies within this group which control the gold mineralization are still uncertain, and need further research.     

陈蔡早古生代俯冲增生杂岩对华夏与扬子地块拼合过程的指示意义

华夏地块与扬子地块的拼合时限与方式长期存在争议。本文对出露于浙江诸暨一带的原"陈蔡岩群"进行了详细的露头尺度解剖。野外地质调查表明,原"陈蔡岩群"主要由不同性质的外来岩块与基质组成。其中：代表外来岩块的大理岩及斜长角闪岩的变质年龄分别为（424.7±2.9）和（420.6±1.8）Ma,成岩年龄分别为（479.2±9.5）~（424.7±2.9）Ma和（507.7±7.8）~（420.6±1.8）Ma,斜长角闪岩原岩为具OIB（洋岛玄武岩）特征的碱性玄武岩,大理岩的原岩为海相碳酸盐岩,二者共同构成了洋岛海山组合。代表原地岩块的变长石石英砂岩主要物源区为3 620~1 530 Ma形成于活动大陆边缘和大陆岛弧环境下的古老地壳物质;与之构造混杂接触的斜长角闪岩变质年龄为（438.0±2.5）Ma,其原岩分别为形成于消减带岛弧环境的岛弧拉斑玄武岩、形成于俯冲环境下的富Nb玄武岩和洋岛海山环境下的具OIB特征的碱性玄武岩类。代表基质的含榴黑云斜长片麻岩LA-MC-ICP-MS锆石U-Pb年龄测试结果表明,其变质年龄为（441.0±3.0）Ma,碎屑²⁰⁶Pb/²³⁸U年龄多数为840~780 Ma,反映其物源主要来自于新元古代,且最年轻的沉积年龄限定在598 Ma,说明片麻岩原岩可能为早古生代沉积地层。陈蔡地区该套岩石组合的发现表明,原"陈蔡岩群"的构造属性应为早古生代俯冲增生杂岩。结合测区及龙游地区新发现的加里东期麻粒岩和退变榴闪岩,提出扬子与华夏两大地块碰撞于445~420 Ma。     

Magma Chamber Process of Post-collisional Magmatism: Insight from Textural and Elemental Characteristics of Plagioclase from the Tatun Volcanic Group, Northern Taiwan Volcanic Zone

The Taiwan mountain belt, one of the youngest orogenies in the world, is caused by the collision of the Luzon arc with the Eurasian margin, which leads to post-collisional extension and magmatism in the Northern Taiwan Volcanic Zone (NTVZ). The magma chamber process in this region has not previously been elucidated in detail. In this paper, the textural and compositional features of plagioclase phenocrysts in basalt from the Tatun Volcanic Group (TTVG) were studied to restrict the dynamics of magma system. Results show that the magma melts in TTVG are mainly sourced from the underlying MORB-like mantle wedge but influenced by incorporation of subduction components, causing the elevated Sr/Y and Ba/Y ratios in magma melts. The subduction components are mainly transported in the form of sediment melt. The plagioclase phenocrysts in the TTVG volcanic rocks are generally coarsely core-sieved with a clear rim. The An contents in the rims of plagioclase are much lower than those of cores, and elevated FeO concentrations are detected in the plagioclase rims. We propose there exists a double-layer magma chamber in this region. The core of the plagioclase was crystalized in the deeper quiescent magma chamber (~21 km), which was subsequently partially dissolved during the ascent of magma melt under H2O-undersaturated condition, forming the typical coarsely sieved texture and synneusis. When this crystal-rich melt migrates into the shallower chamber, water saturation is reached and more sodic plagioclase formed as the rim of phenocryst. Due to the considerably higher fO2 in the shallow chamber than in the deeper one, and the distribution of Fe between plagioclase and melt positively correlates with fO2, the FeO content in the plagioclase rim elevates in conjunction with increasing fO2.     

南秦岭白水江群变基性火山岩块体的形成时代及其地球化学特征

在南秦岭白水江群大堡组中出露的变基性火山岩块体,高精度锆石SHRIMPⅡ U-Pb定年测得年龄值为778Ma、771Ma和667Ma。岩石地球化学分析结果表明具有较高含量的TiO₂和P₂O₅,属于亚碱性玄武岩和碱性玄武岩。轻稀土富集、无δEu 异常,富集大离子亲石元素,无明显的Nb-Ta-Zr-Hf等高场强元素异常,以及具有较低的正ε_Nd(t)(1.13~4.61)值,其特征与来自于富集地幔源区的洋岛玄武岩(OIB)相似,结合在白水江群中发现的早古生代洋岛型玄武岩,揭示了在新元古代和早古生代期间南秦岭地区存在着古洋盆。因此,综合在白水江群基质和不同岩块中获得的最新研究成果,以及勉-略混杂带中的资料,表明南秦岭增生杂岩最终形成于晚古生代。     

辽北开原岩群蛇绿混杂岩的特征

岩石化学、地球化学资料表明,中晚元古代开原岩群蛇绿混杂岩由蛇绿岩和岛弧拉斑玄武岩、钙碱玄武岩（斜长角闪岩、角闪石岩）、钙碱性基性—中性火山岩（变粒岩）、陆缘碎屑岩（浅粒岩）组成。蛇绿岩由绿泥滑石片岩（橄榄岩）、角闪岩类岩石（大洋拉斑玄武岩）、石英岩（远洋深海硅质岩）组成。与内蒙古温都尔庙群蛇绿岩,吉林色洛河群同时位于古华北陆块北缘,为陆缘活动带向古华北陆块俯冲形成。这表明古华北陆块北缘造山带在中晚元古代即已出现。     

青海南部治多-杂多-带下石炭统杂多群

在青海南部治多-杂多-带1／25万地质填图中，对杂多群进行了重新划分，自下而上分为下碳酸盐岩组、碎屑岩组和上碳酸盐岩组。下碳酸盐岩组为深灰色中层状生物屑灰岩、鲡粒灰岩夹泥岩、细粒石英砂岩，属于台地边缘浅滩相；碎屑岩组为灰色中层状细粒石英砂岩、泥岩夹灰岩、玄武岩，属于三角洲相、陆棚相和台地边缘浅滩相；上碳酸盐岩组为灰色中厚层状生物屑灰岩，见燧石结核和条带，为陆棚相和台地相沉积。丰富的筵类、非筵有孔虫、珊瑚化石，表明杂多群地质时代为早石炭世大塘期-德坞期。根据岩性组合、生物群面貌杂多群与青海南部杂多-囊谦地区杂多群、西藏东部昌都地区马查拉群可很好地对比。     

胶北蓬莱群的变形与变质及其区域大地构造意义

本文通过构造与变质研究及伊利石结晶度和同位素年龄测定。分析胶北蓬莱群的变形,变质及其区域大地构造意义。作为胶北唯一盖层的蓬莱群,在晚石炭世(299±4Ma)北北东—南南西区域挤压下首次遭受了强烈的蓬莱事件变形及低绿片岩相变质。其后的后蓬莱事件在胶北地区仅造成了局部的北北东—南南西向变形构造。作为华北板块南缘的胶北带,其上的蓬莱事件是华北与扬子板块沿胶南带碰撞的结果。这表明郯庐断裂带以东这两扳块碰撞发生在晚石炭世。在秦岭—大别山碰撞带以北的华北扳块南缘,由于碰撞也出现了类似胶北带的挤压变形。     

小秦岭金矿田成因的锶同位素约束

本文报道了前人对小秦岭金矿田部分金矿床流体包裹体、赋矿围岩(太华群)、文峪花岗岩的锶同位素结果以及作者新获得的中-新元古界地层(官道口群-栾川群)的缌同位素测试结果。鉴于小秦岭金矿田的金矿床和文峪花岗岩均形成于130Ma 左右,作者将所有~(87)Sr/~(86)比值返算为130Ma 时的初始值,即 I_(Sr-130)比值。文峪花岗岩的8件 I_(Sr-130)=0.7077～0.7084, 平均0.7082;太华群的12件 l_(Sr-130)=0.7073～0.8090,平均0.7557;中-新元古界地层的15件 I_(Sr-130)=0.7119～0.8373,平均0.7623;赋存于太华群中的金矿床流体包裹体的22件 I_(Sr-130)值变化于0.7334～0.7519,平均0.7440:赋存于文峪花岗岩中的矿脉流体包裹体7件 I_(Sr-130)=0.7135～0.71 85,平均0.7162。由此可见,赋存于太华群的金矿床 I_(Sr-130)值远高于文峪岩体,而落入太华群和中-新元古界地层的 I_(Sr-130)值范围,表明成矿流体不可能源于文峪花岗岩岩浆分异,而源于太华群和/或中-新元古界地层的变质脱水;赋存于文峪岩体中的含矿石英脉 I_(Sr-130)值低于太华群和/或中-新元古界地层,也低于太华群中的金矿床,但显著高于文峪岩体,应是高 I_(Sr-130)的成矿流体与低 I_(Sr-130)值的文峪花岗岩围岩相互作用的结果如此,碰撞造山成岩成矿与流体作用模式可较好阐释小秦岭金矿田的成因,即,中生代扬子与华北板块碰撞过程中,由中-新元古界地层及下伏太华群组成的陆壳板片沿小河断裂向北 A 型俯冲到小秦岭金矿田之下,俯冲板片经变质脱水作用为小秦岭金矿田形成提供了成矿流体,成矿流体与赋矿围岩的相互作用造成太华群中的矿脉与文峪岩体中的矿脉具有明显不同的 I_(Sr-130)值。     

庐山星子群变质流体的包裹体研究

庐山星子群沉积变质岩中发育平行区域片理的石英脉和长英质脉体,这些脉体的石英晶体内富含原生的流体包裹体,包括低盐度的含液体ＣＯ２包裹体、液体包裹体、纯ＣＯ２包裹体和高盐度含子矿物包裹体。它们与中生代伟晶岩脉体中包裹体在均一温度、盐度和ＣＯ２密度等方面的明显差异和变质脉体中含液体ＣＯ２包裹体的等容线位置,表明变质脉体石英中的流体包裹体是在变质作用期间被捕获的部分变质流体,进一步证实了脉体是与变质作用同