内蒙古查干诺尔铜矿区矿石特征及成因探讨

查干诺尔铜矿床产在西伯利亚板块和华北板块汇聚带附近,华力西晚期构造岩浆带内。成矿与早二叠世洋盆闭合,后碰撞高钾钙碱性花岗岩类岩浆演化晚期的钾质花岗岩有关。铜矿(化)体呈细脉浸染状产在钾质花岗岩的内外接触带内。铜矿石的主要金属矿物为黄铜矿、黄铁矿、闪锌矿、方铅矿等;化学组分以铜、钼、金、银、铅、锌为主。主要的矿化发生在热液期,围岩蚀变明显,有钾长石化、绢英岩化、高岭土化、青盘岩化等。铜矿形成在华力西晚期,属斑岩型铜矿床。     

中生代羌塘前陆盆地充填序列及演化过程

中生代羌塘前陆盆地位于青藏高原巨型造山带内 ,夹于金沙江缝合带与班公湖—怒江缝合带之间 ,是一个与两侧缝合带逆冲作用相关的沉积盆地 ,由羌北盆地 (对应于金沙江缝合带 )、羌南盆地 (对应于班公湖—怒江缝合带 )和中央隆起带构成 ,其中中央隆起是北部前陆盆地和南部前陆盆地共有的前陆隆起 ,显示为对称型复合前陆盆地 ;该盆地形成于晚三叠世 ,并持续发育至早白垩世 ,盆地中充填了巨厚的同构造期的复理石和磨拉石 ,具有总体向上变粗变浅的充填序列 ,以不整合面可将其划分为 5个由顶底不整合面限制的构造层序 ,其中晚三叠世诺利期构造层序对应于金沙江缝合带主碰撞期 ,晚三叠世瑞替期构造层序对应于金沙江缝合带碰撞闭合后冲断抬升 ,早侏罗世构造层序对应于班公湖—怒江缝合带初始逆冲推覆 ,中侏罗世—早白垩世构造层序对应于班公湖—怒江缝合带主碰撞期 ,中白垩世构造层序为班公湖—怒江缝合带碰撞闭合后冲断抬升与金沙江缝合带冲断抬升的产物 ,为中生代羌塘盆地关闭后的磨拉石建造     

中国桐柏大别构造带变质演化的岩石学证迹

桐柏大别构造带是秦岭造山带的东延部分，经历过多期次不同体制的构造运动，现今的桐柏大别山区是由一系列变质地体拼合而成，地体与地体之间为断层或韧性剪切带所围限各地体有自身变质变形史和PTt轨迹，但却有着碰撞造山带所共有的后造山抬升过程。本文揭示了随县群、红安岩群及大别杂岩中柯石英榴辉石、蓝晶铝直闪石片岩及紫苏石榴黑云母片麻岩的退变质再平衡结构特点。报道了大别山麻粒岩相变质年龄为1699Ma。各类岩石减压退变质再平衡结构，标志着后造山的隆升过程及其对桐柏大别构造带变质演化的启示。     

面积平衡法与川东大池干推覆带区域滑脱面预测

本文详细介绍了面积平衡法的原理与方法,并将该方法应用于川东大池干构造的解释。利用面积平衡法,本文预测出在该地区可能有三个较大的区域滑脱面,它们分别位于3.53km处的中三叠统(由石膏、盐岩和泥页岩组成),7.79km处的下寒武统(由页岩、石膏和岩盐层组成),以及8.67km处的下寒武统(由页岩、石膏和岩盐层组成)地层之中。根据以上滑脱面的分析结果,作者认为大池干构造可以解释为滑脱褶皱和断层转折褶皱两种成因模式。在滑脱褶皱模式中,主滑脱面为8.67km处的非能干层;在断层转折褶皱模式中,该地区被认为具有上下两个滑脱面,其上滑脱面为3.53km处的非能干层,而其下滑脱面为7.79km处的非能干层。两种模式所对应的面积深度直线都具有较好的相关性,表明两种构造解释都具有内部岩层一致性,剖面达到平衡,故具有相对的合理性。     

成矿带1∶20万水系沉积物地球化学分区的方法及地质意义:以西藏冈底斯铜多金属成矿带为例

以冈底斯铜多金属成矿带为例,阐述了利用1∶20万和1∶50万水系沉积物地球化学测量开展成矿区带地球化学分区的方法和思路,进一步对其地质意义进行了探讨。结果表明:小比例尺的水系沉积物地球化学数据具有地球化学分区示踪意义。总结出一套操作性强的地球化学分区方法,其方法具有指示找矿方向的实际意义,对区域构造单元划分具参考价值。地球化学分区为该区的找矿方向、成矿远景评价及基础地质调查奠定了基础。     

刚果(金)地质特征与主要矿产资源概况

刚果(金)主要由刚果盆地和环盆地高原组成,盆地主要由中生代到新生代地层及近现代沉积物组成,沿着盆地内边缘分布有泛非时期的火山沉积物,环盆地高原主要为抬升的前寒武纪基底。刚果(金)优势金属矿产资源主要分布环盆地高原的加丹加新元古代铜-钴多金属成矿带、KIB-KAB中元古代锡-铌-钽-钨多金属成矿带、刚果东北太古代绿岩带型金-铁多金属成矿带上,而金刚石则主要分布开赛及东北部地区中新生代金刚石成矿区内。     

武夷山高溪和富城花岗岩体地球化学及其与铀成矿的关系

从成矿地质条件分析，武夷火山铀成矿带中的主要铀矿床的共同点是都具有花岗岩基底岩石。选择富城和高溪两花岗岩体进行地球化学研究。这两个岩体均为复式岩基，其主体岩石都形成于印支晚期（高溪：２１４．６Ｍａ；富城：２０３～２２６Ｍａ）。岩体中的长石为微斜长石；黑云母为铁云母和铁叶云母。岩石化学表现为富硅、偏碱和铝过饱和的特征。微量元素Ｃｏ、Ｎｉ、Ｃｒ、Ｓｒ、Ｂａ含量和Ｓｒ／Ｂａ比值较低，Ｒｂ、Ｎｂ、Ｐｂ、Ｚｎ的含量和Ｒｂ／Ｓｒ比值高。稀土总量较高，轻稀土富集，轻、重稀土的比值高，并有强烈的铕亏损。高溪和富城两岩体的初始锶同位素组成高（分别为０．７１２３９和０．７１９８），钕同位素组成低（－６．６２～－１２．８４），这些表明高溪岩体属改造型花岗岩。两岩体中活性铀的比例高，特别是在蚀变作用中活性铀的比例增加。铅同位素追踪研究表明，在蚀变过程中岩体中的铀发生了大量的丢失。矿石铅同位素和岩体铅同位素都位于造山带的演化线附近，且矿石铅、火山岩铅、花岗岩铅及基底变质岩铅同位素组成呈线性关系，据此认为高溪和富城花岗岩体分别是形成５７０和６７２２矿床主要铀源体之一     

新疆克拉麦里造山带下石炭统地层系统及其沉积构造背景

新疆克拉麦里造山带位于准噶尔与西伯利亚板块之间.下石炭统是该造山带的重要组成部分,前人将其作为一个地层层序,自下而上划分为黑山头组、姜巴斯套组和那林卡拉组.运用造山带地层学研究其下石炭统地层系统,识别出西伯利亚板块南缘岛弧盆地层序(黑山头组)、弧前大陆边缘盆地层序(卡姆斯特组)、洋盆层序(放射虫硅质岩和蛇绿混杂岩),以及准噶尔板块北缘岛弧盆地层序(塔木岗组和松喀尔苏组)和弧前大陆边缘盆地层序(东古鲁巴斯套组和姜巴斯套组).根据克拉麦里造山带两侧均存在岛弧盆地层序,推论克拉麦里洋盆曾在早石炭世向两侧发生俯冲.     

The Lower Changjiang (Yangzi/Yangtze River) metallogenic belt, east central China: intrusion- and wall rock-hosted Cu–Fe–Au, Mo, Zn, Pb, Ag deposits

The lower valley of Changjiang, from Wuhan of the Hubei Province in the west to Zhenjiang of the Jiangsu Province in the east, contains more than 200 polymetallic (Cu–Fe–Au, Mo, Zn, Pb, Ag) deposits and is one of the most important metallogenic belts in China. This metallogenic belt, situated at the northern margin of the Yangzi craton and bordered by the Dabieshan ultrahigh pressure metamorphic belt to the north, consists mainly of Cambrian–Triassic marine clastic sedimentary rocks and carbonate and evaporite rocks, which overlay a Precambrian basement and are intruded by Yanshanian (205 to 64 Ma) granitoid intrusions and subvolcanic complexes. Repeated tectonism from Late Proterozoic to Triassic resulted in extensively developed networks of faults and folds involving the Cambrian–Triassic sedimentary strata and the Precambrian basement. The Yanshanian granitoid intrusions and subvolcanic complexes in the Lower Changjiang metallogenic belt are characterized by whole-rock δ¹⁸O of +8‰ to +10‰, initial ⁸⁷Sr/⁸⁶Sr of 0.704 to 0.708, and εNd^t from −10 to −17 and have been interpreted to have originated from mixing between juvenile mantle and old crustal materials. Also, the Yanshanian granitoids exhibit eastward younging and increase in alkalinity (i.e., from older calc–alkaline in the west to younger subalkaline–alkaline in the east), which are related to oblique collision between the Yangzi and Sino-Korean cratons and tectonic evolution from early compressional to late extensional or rifting regimes. Most polymetallic deposits in the Lower Changjiang metallogenic belt are clustered in seven districts where the Yanshanian magmatism is particularly extensive: from west to east, Edong, Jiurui, Anqing–Guichi, Luzhong, Tongling, Ningwu and Ningzhen. Mineralization is characterized by the occurrence of three distinct types of orebodies in individual deposits: orebodies in Yanshanian granitoid intrusions, skarn orebodies at the contact zones between the Yanshanian intrusions and Late Paleozoic–Early Mesozoic sedimentary rocks, and stratabound massive sulfide orebodies in the Late Paleozoic–Early Mesozoic sedimentary strata. The most important host sedimentary strata are the Middle Carboniferous Huanglong Formation, Lower Permian and Lower–Middle Triassic carbonate and evaporite rocks. The intrusion-hosted and skarn orebodies exhibit well-developed zonation in alteration assemblages, metal contents, and isotopic compositions within individual deposits, and apparently formed from hydrothermal activities related to the Yanshanian magmatism. The stratabound massive sulfide orebodies in the Late Paleozoic–Early Mesozoic sedimentary strata have long been suggested to have formed from sedimentary or volcano-sedimentary exhalative processes in shallow marine environments. However, extensive research over the last 40 years failed to produce unequivocal evidence for syngenetic mineralization. On the basis of geological relationships and isotope geochemical characteristics, we propose a carbonate-hosted replacement deposit model for the genesis of these stratabound massive sulfide orebodies and associated skarn orebodies. This model suggests that epigenetic mineralization resulted from interactions between magmatic fluids evolved from the Yanshanian intrusions with carbonate and evaporite wall rocks. Mineralization was an integral but distal part of the larger hydrothermal systems that formed the proximal skarn orebodies at the contact zones and the intrusion-hosted orebodies. The stratabound massive sulfide deposits of the Lower Changjiang metallogenic belt share many features with the well-studied, high-temperature, carbonate-hosted replacement deposits of northern Mexico and western United States, particularly with respect to association with small, shallow granitoid complexes, structural and stratigraphic controls on mineralization, alteration assemblages, geometry of orebodies, metal association, metal zonation and isotopic systematics.     

文章已录用：阴山晚中生代板内造山特征及其动力机制-以内蒙古大青山为例

内蒙古大青山属我国典型的板内造山带阴山山脉的南部山系,其西段缺少大型低角度推覆构造及大型深成岩对前期演化历史的干扰,是研究阴山板内造山特点及过程的理想区域。通过对大青山西段的构造进行几何学和运动学的分析表明,古老结晶基底以逆冲推覆及基底褶皱的形式广泛的巻入中生代构造变形,以及先存构造样式的广泛复活并对后期地层沉积和断层发育的控制作用是内蒙古大青山地区中生代板内造山的两个基本特征。这些变形特征反映了阴山带板内造山过程中,是以结晶基底为受力层,并控制上覆盖层进行构造变形的,进而表明板内造山主要是由水平挤压应力造成的。结合研究区构造变形特点及邻区中生代构造地质情况的分析认为,晚侏罗世时期之所以在阴山带形成强烈的板内造山运动,是由其北部西伯利亚板块与蒙古褶皱带碰撞产生的板缘应力的远程传递,以及其南侧强硬的鄂尔多斯地块的阻挡共同作用而形成的。