SHRIMP dating of the Permo-Carboniferous Jinshajiang ophiolite, southwestern China: Geochronological constraints for the evolution of Paleo-Tethys

SHRIMP U–Pb zircon dating of gabbro, anorthosite, trondhjemite and granodiorite from the Jinshajiang ophiolitic mélange of southwestern China provides geochronological constraints on the evolution of Paleo-Tethys. The ophiolitic mélange is exposed for about 130 km along the Jinshajiang River where numerous blocks of serpentinite, ultramafic cumulate, gabbro, sheeted dikes, pillow lavas and radiolarian chert are set in a greenschist matrix. A cumulate gabbro-anorthosite association and an amphibole gabbro have ages of 338 ± 6 Ma, 329 ± 7 Ma and 320 ± 10 Ma, respectively, which constrain the time of formation of oceanic crust. An ophiolitic isotropic gabbro dated at 282–285 Ma has the same age as a trondhjemite vein (285 ± 6 Ma) cutting the gabbro. These ages probably reflect a late phase of sea-floor spreading above an intra-oceanic subduction zone. At the southern end of the Jinshajiang belt, a granitoid batholith (268 ± 6 Ma), a gabbro massif (264 ± 4 Ma), and a granodiorite (adakite) intrusion (263 ± 6 Ma) in the ophiolitic mélange constitute a Permian intra-oceanic plutonic arc complex. A trondhjemite dike intruded serpentinite in the mélange at 238 ± 10 Ma and postdates the arc evolution of the Jinshajiang segment of Paleo-Tethys.     

金沙江下游水电工程区岸坡变形破坏基本特征

通过野外调研和综合分析,发现金沙江下游宜宾—白鹤滩段水电工程库区长约410km的沿江地带发育了349个变形破坏体(滑坡、崩塌和变形体),总体积31.49×108m3,其中体积大于1 000×104m3的崩滑体有51个。岸坡变形破坏密度和线模数分别为0.35个/km和316.95×104m3/km。结合金沙江干流岸坡地质环境条件,统计研究了金沙江下游水电工程区岸坡变形破坏基本特征及其与所赋存的地层岩性、地质构造、地形条件、岩体结构和近期河流地质作用等要素的关系,为水能资源梯级开发工程的规划设计提供了地质依据。     

金沙江造山带的大地构造环境及演化模式

金沙江造山带一直被当作古板块缝合带,但其物质组成和结构并不反映当时典型的洋盆环境,主要证据有：（１）沉积地层表明,金沙江海盆在规模和水体深度两方面都是有限的;（２）所产的火山岩与标准洋中脊不同,其岩石化学特点与弧后盆地相吻合;（３）澜沧江洋盆与金沙江海盆隔着昌都长条形地块相向俯冲,而且金沙江海盆的俯冲始于澜沧江洋的闭合。据此提出金沙江造山带的弧后盆地演化模式,认为自西而东的澜沧江带、昌都地块、金沙江带、扬子板块分别代表洋盆和海沟、岛弧、弧后盆地、大陆板块等构造单元,构成一个完整的大陆边缘。     

金沙江流域水库消落带优势植物生态位及种间关系

近年来水库消落带植被恢复愈发引起关注,消落带植被在固岸护坡、水土保持和截污过滤等方面发挥着重要作用。然而金沙江流域作为我国最大的水电基地,由于地处偏远,现有研究较少,因而对其水库消落带适生植物及其种间关系尚未明确。通过结合生态位理论和种间关系分析方法,包括生态位测定、方差比率法、χ²检验、联结强度系数AC、种间关联指数OI、Pearson相关检验和Spearman秩相关检验等,揭示金沙江水库消落带优势植物的生态适应性、种间内在联系以及群落演替现状,并在此基础上,将优势植物划分了3种生态种组,为本区域消落带适生植物的筛选及其科学配置提供参考。结果表明：1)金沙江流域水库消落带共记录植物19科36属37种,频度≥20%的优势物种为狗牙根(Cynodon dactylon)、酸模叶蓼(Polygonum lapathifolium)、钻叶紫菀(Symphyotrichum subulatum)、牛筋草(Eleusine indica)、莲子草(Alternanthera sessilis)、苘麻(Abutilon theophrasti)、土荆芥(Chenopodium...     

金沙江构造带嘎金雪山岩群玄武岩铀-铅同位素年龄

以U Pb单颗粒锆石同位素稀释法 ,测定了嘎金雪山岩群中两件玄武岩样品的同位素年龄。获得的两个下交点年龄分别为 (36 2± 8)Ma和 (396± 7)Ma ,两个上交点年龄分别为 (2 52 5± 12 )Ma和 (1387± 59)Ma。前者代表嘎金雪山岩群玄武岩的生成年龄 ,说明金沙江洋在早石炭世就已打开 ;后者代表下伏基底年龄 ,表明金沙江构造带深部可能存在具扬子古陆壳性质的中—早元古宙地层 ,从而表明金沙江洋是由扬子古陆边缘裂解而成的。     

金沙江水网及其地震地下水前兆监测能力的讨论

金沙江下游梯级水电站水库地震地下水动态监测网(简称金沙江水网),是中国第2个专门用于水库区地震前兆监测与研究为目的的企业地下水动态监测网.文中简要介绍了该网的布设、观测网的技术构成、观测井与观测含水层的基本特征及试运行的基本结果,从观测井-含水层特征及观测到的水位与水温多月、月、日动态特征,评估了其地震前兆监测能力.     

云南德钦鲁春铜铅锌矿床硫铅氢氧同位素特征及地质意义

鲁春铜铅锌矿床位于中咱-中甸板块和昌都-思茅板块之间的金沙江构造带中部,矿体长约3 km,厚度在1.06～16.35 m之间。其赋矿围岩为火山沉积岩系,容矿构造为印支期逆断层。鲁春铜铅锌矿床矿石中硫化物的δ34S值变化于3.5‰～6.8‰之间,硫化物的206Pb/204Pb比值为18.554～18.656,207Pb/204Pb比值为15.662～15.752,208Pb/204Pb比值为38.801～39.009。石英流体包裹体的HO182δO值变化范围为2.74‰～1.25‰,δDV-SMOW变化范围为107‰～123‰。鲁春铜铅锌矿床的硫铅氢氧同位素分析结果表明,该矿床成矿物质来源于地幔,部分来源于岩浆,在成矿流体上升过程中,有壳源物质的加入。早二叠世晚期金沙江洋盆向西俯冲形成了一系列逆断层,同时导致下地壳部分熔融,引发大规模的火山岩浆作用。在晚三叠世早期,构造背景由挤压环境到伸展环境的转折期,这些逆断层具有张性的特点,为后期的成矿热液提供了有利的容矿构造。上升的岩浆为地幔楔内的成矿流体提供了通道。岩浆内的部分成矿流体进入白茫雪山花岗闪长岩体附近的逆断层富集成矿。     

滇川西部金沙江古特提斯洋的威尔逊旋回

本文对滇川西部金沙江造山带被动大陆边缘、蛇绿岩、洋盆相放射虫硅质岩、岛弧岩浆岩和造山磨拉石建造的形成时代进行了综合研究,结合古生物化石和SHRIMP年龄,论证了金沙江古特提斯洋盆的威尔逊旋回,即大陆裂解(晚泥盆世)、洋盆扩张(石炭纪)、俯冲消减(二叠纪)和碰撞造山(三叠纪)。金沙江洋是滇川西部古特提斯多岛洋中重要的支洋盆。     

Control of magmatic oxidation state in intracontinental porphyry mineralization: A case from Cu (Mo–Au) deposits in the Jinshajiang–Red River metallogenic belt,SW China

The Jinshajiang–Red River porphyry Cu (Mo–Au) metallogenic belt (JRMB) is the most important intracontinental porphyry Cu (Mo–Au) mineralizing zone in the Sanjiang region, southwest China. The belt contains a number of giant deposits, including Yulong (6.50 Mt Cu) and Beiya (315 t Au) in the northern and center parts, and several small deposits in the southern part (e.g., Tongchang, 0.03 Mt Cu + Mo; Chang'anchong, 0.04 Mt Cu + Mo; Habo, 0.57 Mt Cu + Mo; and Chang'an 31 t Au). In order to investigate the mechanisms controlling the variation in size of these deposits, the LA-ICP-MS zircon U–Pb dating, bulk-rock geochemistry, and zircon trace-element analyses have been performed on the mineralization-related porphyries from the Tongchang district. Zircon U–Pb dating yielded concordant ages of 34.2 ± 0.6 Ma (Tongchang), 33.7 ± 0.8 Ma (Chang’anchong), 35.7 ± 0.5 Ma (Habo) and 34.6 ± 1.2 Ma (Chang’an). These porphyries are peraluminous with relatively high potassium contents (K₂O: 4.2–5.7 wt%), and show shoshonitic affinities. Bulk rock Fe₂O₃/FeO ratios vary from 0.51 to 0.97, typical of moderately oxidized to strongly oxidized magmas. Zircon Ce⁴⁺/Ce³⁺ values vary between 25.9 and 371.8 with a mean of 129.3. The log(ƒo₂) values vary from −20.7 to −9.6, and plot within the range of FMQ (fayalite-magnetite-quartz oxygen buffer) to MH (magnetite- hematite oxygen buffer), indicating an oxidizing parental magma. The mineralized porphyries from the Yulong and Beiya deposits, which were previous considered to have formed under the same tectonic conditions as those in the Tongchang district, have higher mean zircon Ce⁴⁺/Ce³⁺ values of 249.4 and 399.5, suggesting that the oxygen fugacities of the porphyries in the Tongchang district is relatively lower. This might imply that oxygen fugacity is an important factor that led to the differentiation of deposit size in the JRMB, and that larger porphyry deposits are associated with more oxidized magmas.     

金沙江弧—盆系时空结构及地史演化

金沙江结合带是一条古特提斯弧后洋盆消亡的俯冲消减杂岩带。弧后洋盆形成于早石碳世－早二叠世。晚泥盆世晚期已具有雏型,早二叠世是洋盆扩张的鼎盛时期,早二叠世 晚期向西俯冲,在金沙江结合带中形成３条消减杂岩带。金沙江弧－盆系于志留纪末在早古生代变质“软基底”的基础上开始生成、发展和演化,经历了泥盆纪弧后裂谷盆地阶段（Ｄ）、早石炭世－早二叠世的弧后洋盆阶段（Ｃ１－Ｐ１）、早二叠世晚期－晚二叠世的洋壳俯冲消