衡山花岗岩体西缘韧性剪切带的特征,成因及岩体定位机制

衡山花岗岩体由南岳岩体(早期)和白石峰岩体(晚期)组成,衡山岩体西缘形成有分带明显的韧性剪切带,向西倾斜,在XZ面上呈倾向滑动剪切运动,矿物显微变形构造显示为倾向简单剪切特征。经测定,韧性剪切带形成时温度下限为343.6℃,古差应力下限为52～62MPa,应变速率下限为2.05×10~(-14)/s-3.13×10~(-14)/s,推算总位移量在13.5km左右。在花岗岩体以外没有韧性剪切变形现象,说明该韧性剪切带是衡山岩体定位过程中由白石峰岩体沿南岳岩体边缘侵位的简单剪切作用所形成。     

湖南千里山花岗岩体的Nd-Sr同位素及岩石成因研究

本文利用Rb-Sr等时线方法测得第一阶段似斑状黑云母花岗岩、第二阶段等粒黑云母花岗岩和第三阶段花岗斑岩的成岩年龄分别为（152士9）×l0⁶ a、（137士7）×l0⁶ a ~（136士6）×10⁶ a和（131士1）×l0⁶ a。Sr-Nd同位素资料表明各阶段花岗质岩石均基本上源于地壳物质的重熔。与钨多金属矿化有关的似斑状黑云母花岗岩和等粒黑云母花岗岩属同一岩浆体系分异演化的产物，其钕模式年龄(t_DM= 2307×l0⁶ a)反映出成岩物质来自早元古宙地层的重熔。与铅，锌一银矿化有关的花岗斑岩的钕模式年龄(t_DM= 1284×l0⁶ ~ 1578×l0⁶ a)示意出其成岩物质来自中元古宙地层的重熔。     

超大型铀矿床成矿地质条件及我国北西部找矿方向分析

本文从研究国外超大型铀矿床特征和分类入手，总结其铀成矿地质条件，结合我国北西部地质特征、矿化分布特点，认为我国北西部今后寻找超大型铀矿床主要是中新生代可地浸的层间氧化带砂岩型铀矿，其次是伟晶花岗岩型、火山岩型及奥林匹克坝型（即隐爆角砾岩型）的铀矿床。     

白玉县炯隆寺-阿吉森多岩体成因分析

本文以同源岩浆演化序列的观点,探讨了炯隆寺-阿吉森多岩体的成因。研究结果表明,该岩体为印支晚期形成的同熔型花岗闪长岩-二长花岗岩,属于岛弧深成侵入的岩浆岩。     

冀东牛心山金矿区岩浆岩特征及其成因探讨

本区岩浆岩以花岗岩为主体,只在岩浆演化晚期有少量中性岩岩墙。岩浆演化及岩石化学、稀土元素、同位素等特征表明,岩浆是燕山运动早期构成下地壳的基性物质经部分重熔形成,熔融早期最低熔融组分形成花岗岩浆,进一步重熔,晚期形成少量中性岩浆。     

我国浅成热液金矿的分类探讨

陆相浅成热液金矿是个大概念,是数类金矿的统称。目前对其的分类,不适应理论和应用研究的需要。本文主张以成矿地球动力学环境和矿床本质特征为准则,实施浅成热液金矿的分类。对类型的划分努力体现成因类型和工业类型相结合的原则,并充分反映我国的特点。在矿床类型具体命名时,突出成矿时的浅成深度。文中将我国浅成热液金矿分为浅成脉型、浅成斑岩型和浅成矽卡岩型等三大类八个亚类。陆相浅成热液金矿在我国有广阔的找矿前景,而且在地质产状和成矿作用等方面与国外的殊为不同,值得对其作深入的理论与应用研究。     

Differences of granitic weathering at the northern and southern feet of Dabie Mountains,Central China: Implication for tectonic and climatic environments

Previous studies of weathering generally started with geochemistry[1—8] and mineralogy[9—12], and have been focused on chemical weathering rates[1—3], removability-enrichment of elements[3—6] during chemical weathering, and the age of weathering profi…     

Adakite-like signature of Late Miocene intrusions at the Los Pelambres giant porphyry copper deposit in the Andes of central Chile: metallogenic implications

Adakite-like features are recognized in the Late Miocene (~10 Ma) porphyritic intrusions of the Los Pelambres giant porphyry copper deposit, central Chile (32°S). Located within the southern portion of the flat-slab segment (28–33°S) of the Chilean Andes, the Al- and Na-rich porphyries of Los Pelambres display distinctly higher Sr/Y (~100–300) and La_N/Yb_N (~25–60) ratios than contemporaneous and barren magmatic units (e.g., La Gloria pluton, Cerro Aconcagua volcanic rocks) of the same Andean magmatic belt. Strong fractionation of heavy rare earth elements (HREE), absence of Eu anomalies, high Sr/Y and Zr/Sm and low Nb/Ta ratios suggest melt extraction from a garnet-amphibolite source. The Late-Miocene adakite-like porphyritic intrusions at Los Pelambres formed closely related in time and space to the subduction of the Juan Fernández Ridge (JFR) hotspot chain along the Chilean margin. Current tectonic reconstructions reveal that, at the time of formation of the Los Pelambres rocks, a W-E segment of the JFR started to subduct beneath them, producing a slow-down of a previously rapid southward migration of a NE-ridge—trench collision. These particular tectonic conditions are favorable for the origin of the Los Pelambres porphyry suite by melting of subducting young hotspot rocks under flat-slab conditions. The incorporation of crustal components into the oceanic lithopheric magma source by subduction erosion is evidenced by the Sr-Nd isotope composition of the Los Pelambres rocks different from the MORB signatures of true adakites. A close relationship apparently exists between the origin of this adakite-like magmatism and the source of the mineralization in the Los Pelambres porphyry copper deposit.Editorial handling: R.J. Goldfarb