南沙北部伸展构造的基本特征及其动力学意义

南沙地块辫啊以中南－美洲断裂为分界,其东、西两侧伸展构造的几何学与运动学表明,晚白垩世至早渐新世,其伸展作用以纯剪切为主;中渐新世至早中新世,伸展带东段转换为简单剪切,西段剪切渐停。伸展作用的主要动力来源于陆缘俯冲板片的拆沉、软流圈地幔热物质乘隙上拱和部分熔融作用及周边板块的相互作用。     

Mesozoic Granitoid Types and Metallogeny of the East China Circum-Pacific Continental Margin

Abstract: This paper synthesizes the geotectonic background, genetic types and metallogenetic relations of the Mesozoic granitoids in the East China continental margin. By the Mesozoic, the Siberia Plate, North China Plate and South China Plate amalgamated together, resulting in formation of a unified Eurasia super–continent. Since the late Triassic to early Jurassic period, the territory of East China gradually became a Cordilleran style active continental margin. During the Jurassic to early Cretaceous (early to middle episodes of Yanshanian orogeny), the Paleo-Pacific plate strongly collided with and subducted under the Eurasia continent, reactivated the consolidated East China continental margin. The granitoids of both transformation series and syntexis series were generated. Many granitoid-related large and giant metal deposits were formed. Furthermore, the W, Sn, Be, Nb, Ta and U mineralizations are mostly associated with the transformation series; while the Fe, Cu, Mo and Au mineralizations are mostly associated with the syntexis series. The late Yanshanian orogeny (late Cretaceous) began a transition to the western Pacific style continental margin. A tensional environment resulted in development of alkaline granitoids and formation of continental red basins. The Cenozoic orogeny was characterized by a backarc spreading and rifting regime in this region.     

茅山山脉东麓的砾岩层位和时代

通过对茅山东麓砾岩层的实地研究,以５条剖面的岩性、产状和生物等特征为依据,将砾岩分为三类,并分别论述其层位时代。提出了与前人不同的观点。     

浙江青田石平川钼矿控矿条件分析

石平川钼矿由燕山晚期第四次侵入碱性长石花岗岩体提供物源和热动力,火山机构、断裂和西山头组第二岩性段为成矿提供了导矿通道和容矿场所。     

The late Mesozoic–Cenozoic tectonic evolution of the South China Sea: A petrologic perspective

This paper presents a review of available petrological, geochonological and geochemical data for late Mesozoic to Recent igneous rocks in the South China Sea (SCS) and adjacent regions and a discussion of their petrogeneses and tectonic implications. The integration of these data with available geophysical and other geologic information led to the following tectono-magmatic model for the evolution of the SCS region. The geochemical characteristics of late Mesozoic granitic rocks in the Pearl River Mouth Basin (PRMB), micro-blocks in the SCS, the offshore continental shelf and Dalat zone in southern Vietnam, and the Schwaner Mountains in West Kalimantan, Borneo indicate that these are mainly I-type granites plus a small amount of S-type granites in the PRMB. These granitoids were formed in a continental arc tectonic setting, consistent with the ideas proposed by Holloway (1982) and Taylor and Hayes, 1980, Taylor and Hayes, 1983, that there existed an Andean-type volcanic arc during later Mesozoic era in the SCS region. The geochonological and geochemical characteristics of the volcanics indicate an early period of bimodal volcanism (60–43 Ma or 32 Ma) at the northern margin of the SCS, followed by a period of relatively passive style volcanism during Cenozoic seafloor spreading (37 or 30–16 Ma) within the SCS, and post-spreading volcanism (tholeiitic series at 17–8 Ma, followed by alkali series from 8 Ma to present) in the entire SCS region. The geodynamic setting of the earlier volcanics was an extensional regime, which resulted from the collision between India and Eurasian plates since the earliest Cenozoic, and that of the post-spreading volcanics may be related to mantle plume magmatism in Hainan Island. In addition, the nascent Hainan plume may have played a significant role in the extension along the northern margin and seafloor spreading in the SCS.     

辽宁省建平县高杖子金矿地质特征及成因探讨

高杖子金矿成因类型为中温热液蚀变岩型,新太古代叶柏寿片麻杂岩为其矿源层,燕山期发育的北东、北北东及北西向断裂是控制金矿的主要构造.在区域岩浆热动力作用下,金元素活化转移,金在富含挥发份及碱质的流体中迁移,在适当的压力、温度和介质条件下,在有利的构造部位富集成矿.     

青藏高原东北缘柳坪新生代苦橄玄武岩地球化学及其大陆动力学意义

柳坪苦橄玄武岩出露在青藏高原东北缘特殊的构造部位,位于青藏、华北和扬子三大构造域的交接转换区域。岩石形成年龄在23~7.1Ma之间,属于新近纪火山岩。岩石SiO2介于41.72%~42.82%之间,Na2OK2O,K2O/Na2O平均0.51,为一套典型的幔源钠质碱性玄武岩类。岩石微量及稀土元素具板内火山岩特征,Th、Rb等元素呈较明显的富集状态,而岩石显著的低K2O特征(0.48%~0.90%)明显不同于青藏高原北缘新生代钾质-超钾质火山岩系列。岩石87Sr/86Sr(0.704158~0.704668)、143Nd/144Nd(0.512831~0.513352)、206Pb/204Pb(18.729871~18.779184)、207Pb/204Pb(15.591395~15.602454)和208Pb/204Pb(39.097372~39.181458)等同位素变化特征具有显著的混源属性,投影点位于EMI、EMII、BSE及PREMA等典型地幔储库的过渡部位,并可能存在HIUM地幔源的部分参与,明显不同于单一地幔源局部熔融形成的玄武岩的同位素组成特征。表明新生代期间青藏东缘西秦岭-松潘地区受青藏、扬子及华北三大构造体系域的控制,西秦岭-松潘构造结处于从下部地幔到上部陆壳物质的总体汇聚拼贴阶段,地幔具有显著的混合特征。柳坪苦橄玄武岩正是在这种特定的构造背景下,由于新生代青藏高原软流圈地幔物质向东的流动,诱发西秦岭-松潘构造结多源混合的地幔橄榄岩局部熔融而形成。     

秦岭山阳-柞水地区燕山期中酸性侵入岩地球化学特征、锆石U-Pb年龄及Lu-Hf同位素组成

秦岭山阳-柞水地区广泛出露燕山期中酸性花岗(斑)岩体,并有大量与其相关的斑岩-矽卡岩型Cu-Mo-Fe、Cu-AuFe矿化。LA-ICP-MS锆石U-Pb测年结果表明,与矿化密切相关的斑岩体形成于144.6~141.5Ma。岩石地球化学分析结果表明,这些花岗(斑)岩体SiO2含量为55.73%~67.80%,K2O含量为2.52%~6.40%,Na2O含量为1.94%~5.19%,Al2O3含量为14.61%~16.10%,FeOT含量为2.1%~9.0%,MgO含量为1.32%~5.52%,主体显高钾钙碱性准铝质特征。A/CNK1.1,P2O5与SiO2负相关,Mg#平均为49,含有角闪石、黑云母、榍石、磁铁矿等矿物,属I型花岗岩类;稀土元素分异明显,无明显Eu异常;富集K、Rb、Sr、Ba等大离子亲石元素,Nb、Ta、Ti、P和Hf等高场强元素亏损,属后碰撞型花岗岩。岩体的锆石εHf(t)为-4.5~+1.78,平均为-0.87,表明其岩浆源区为地壳物质的熔融岩浆与幔源岩浆的混合,且以地壳熔融成份为主;Hf同位素二阶段模式年龄(t DM2)为1479~1084Ma,表明其壳源源区物质可能形成于中晚元古代(1.4~1.0Ga)。     

河北省遵化—迁西地区超基性岩生成时代的探讨

冀东地区已蛇纹石化及未蚀变的超基性岩绝大多数在新太古代变质深成岩中呈包体存在,不少专家把这些超基性岩归属太古宙。笔者认为该区未变质及已蛇纹石化超基性岩应是显生宙的产物,而不是太古宙变质深成岩的"捕掳体"。同时对遵化—迁西地区蛇纹岩生成时代进行探讨。     

青海省都兰县阿拉克湖地区水系沉积物地球化学特征及找矿方向

分析了区内的水系沉积物地球化学参数特征及其元素的相关性,认为元素(地球化学)异常(高值区)严格受东昆中断裂带、东昆南断裂带、布青山南坡乌断裂带,以及阿尼玛卿蛇绿岩带和东昆中蛇绿岩带,古-中元古代地层、岩体接触带、热液活动、脉岩等因素联合控制。根据异常特征与成矿地质条件,圈定了找矿远景区5个,且为该区下一步的找矿工作指明了方向。