柴达木盆地冷湖地区古近——新近系可地浸砂岩型铀矿成矿前景

从地质、水文地质两个方面入手,分析了柴达木盆地冷湖地区古近—新近系有利于可地浸砂岩型铀矿成矿的铀源,泥—砂—泥结构,补—径—排条件,及不利于可地浸砂岩型铀矿成矿与开发的构造因素。     

个旧锡矿——红海型热水沉积登陆的实例

“层间氧化矿”是个旧锡矿的主要矿石类型,大部分具有特征的层控性,传统的观点认为“层间氧化矿”是原生硫化矿石在后期被雨水氧化而形成,已有部分地质研究者注意到了“层间氧化矿”的特殊性并提出它们是沉积成因或热水沉积成因。根据个旧锡矿的矿床特征与红海型热水沉积的对比,结合稀土元素地球化学研究,本文认为个旧锡矿存在的“层间氧化矿”的原生矿化类型是特殊的红海型热水沉积,以大量铁锰氧化物为主要成矿标志。个旧锡矿可能是目前红海型热水沉积作用登陆的唯一实例,其成矿模式可概括为三叠纪拉张形成多层原生红海型热水沉积矿化,燕山期花岗岩侵入改造;进而提出通过系统岩相古地理研究以确定古扩张中心和古卤水盆地中心的找矿模式。     

再论蛇绿岩中豆荚状铬铁矿的成因——质疑岩石/熔体反应成矿说

着重论述了蛇绿岩地幔橄榄岩中豆荚状铬铁矿的成因,并对现今盛行的岩石/熔体反应成矿说提出了质疑。世界含铬铁矿的地幔橄榄岩均显示上部偏基性、下部偏酸性的垂直熔融分带,与蛇绿岩堆晶岩中上部偏酸性、下部偏基性的岩浆分异垂直层序恰恰相反。豆荚状铬铁矿与熔融剖面上部的纯橄岩或纯橄岩-方辉辉橄岩杂岩带紧密伴生。豆荚状铬铁矿是原始地幔岩高度熔融再造的产物,高铬型铬铁矿与PPG型蛇绿岩伴生,形成于岛弧或弧前盆地环境;高铝型铬铁矿与PTG型蛇绿岩伴生,形成于扩张脊（MOR）或弧后盆地环境。玻安岩（boninite）与高铬型豆荚状铬铁矿无成因关系,铬铁矿（或富铬矿浆）的形成反而为boninite提供了其形成所需的残余地幔;高铝型铬铁矿不是地幔橄榄岩/拉斑玄武质熔体反应形成的,而是富铬矿浆与基性熔体发生再平衡的产物。豆荚状铬铁矿中超高压矿物包体的出现为其地幔深部成因提供了佐证,而boninite形成于浅部较低压的条件;豆荚状铬铁矿中富集强相容元素IPGE（Os、Ir、Ru）合金,boninite富集不相容元素PPGE (Pt、Pd)硫（砷）化物, 而亏损IPGE,显示其形成较晚。因此,boninite与铬铁矿无生因关系,两者均受岛弧（或弧前盆地）环境的制约而在空间上相伴产出。     

氧化性富金斑岩-矽卡岩矿床中碲、硒、铊富集机制的研究进展

富金斑岩-矽卡岩矿床目前提供了全球几乎所有的硒、碲及部分铊产量,其中氧化性富金斑岩-矽卡岩矿床可共伴生碲、硒、铊等稀散金属。文章从元素地球化学行为、矿床类型、岩浆作用、赋存状态、稀散金属与铜金关系等方面,总结了氧化性富金斑岩-矽卡岩矿床中有关碲、硒、铊富集机制的研究进展。碲、硒具有亲铁和亲硫的特征,而铊具有亲硫和亲石的双重特征,三者具有不同程度的挥发性。岩浆热液型矿床伴生有碲、硒、铊矿化。基性岩浆的注入和岩浆硫化物熔离可能是氧化性富金斑岩-矽卡岩矿床碲、硒、铊富集的主要岩浆作用。氧化性富金斑岩-矽卡岩矿床中铜和金含量通常呈正相关性,发育有丰富的含碲/硒/铊矿物,但碲、硒、铊与铜、金的关系还不清楚。长江中下游成矿带发育多个氧化性矽卡岩金矿、矽卡岩铜金矿,伴生大规模的碲、硒、铊矿化,且已被综合回收利用,该带是探讨氧化性富金矽卡岩矿床中碲、硒、铊富集机制的理想对象。     

Petrogenesis of highly fractionated I-type granites in the Zayu area of eastern Gangdese,Tibet: Constraints from zircon U-Pb geochronology,geochemistry and Sr-Nd-Hf isotopes

The Cretaceous granitoids in the middle and northern Gangdese, Tibet are generally interpreted as the products of anatexis of thickened deep crust genetically associated with the Lhasa-Qiangtang collision. This paper reports bulk-rock major element, trace element and Sr-Nd isotopic data, zircon U-Pb age data, and zircon Hf isotopic data on the Zayu pluton in eastern Gangdese, Tibet. These data shed new light on the petrogenesis of the pluton. Our SHRIMP zircon U-Pb age dates, along with LA-ICPMS zircon U-Pb...     

Differential Fractionation of Rare Earth Elements in Oxidized and Reduced Granitic Rocks: Implication for Heavy Rare Earth Enriched Ion Adsorption Mineralization

Ion adsorption rare earth element (REE) deposits in southern China are the exclusive source of heavy REEs (HREEs) in the world, and this HREE‐enriched character of the deposits is inherited from the REE compositions of the underlying granitic rocks. Such HREE‐enriched rocks form from heavy fractionation of reduced granitic magmas. We explore why reduced granitic magmas are enriched in HREEs during the fractionation, based on the REE geochemistry of granitic rocks and abundance of REEs in their constituent minerals in the southwestern Japan arc of Cretaceous to Paleogene age. The compilation of the whole rock geochemistry and REE compositions of the granitic rocks of the Sanin (oxidized), Sanyo (reduced) and Ryoke (reduced) belts in the southwestern Japan arc indicates that: (i) light REEs (LREEs) decease with fractionation of the granitoids in the Sanin belt but this trend is not clear in the granitoids in the Sanyo belt and LREEs rather increase in the Ryoke granitoids; (ii) Eu decreases with fractionation in all the belts; and (iii) HREEs slightly, but steadily decrease in the Sanin belt but enrich significantly in the Sanyo and Ryoke belts with fractionation. Analytical results of REE concentrations by scanning electron microscope with energy dispersive X‐ray spectroscope and laser ablation‐inductively coupled plasma mass spectrometer in the constituent minerals in a granodiorite sample from the Sanin belt show a moderate concentration of REEs in hornblende (577 ppm) in addition to high concentrations in allanite (~20 %), britholite (~30 %), primary titanite (8922 ppm), apatite (4062 ppm), and zircon (1693 ppm). Because primary titanite and allanite are commonly present in the oxidized granitoids but not in the reduced ones, the REE depletion in the fractionated, oxidized granites is attributed to the crystallization of these minerals. In contrast, scarcity of these minerals in the reduced granitoids enriches REEs, in particular HREEs in the fractionated magmas, which finally precipitate REEs in the granites and pegmatites. Both positive, but different correlation ratios between the Nb and Dy concentrations in the granitoids of the Sanin and Sanyo‐Ryoke belts suggest that columbite–pyrochlore‐group and fergusonite‐group minerals are the major HREE host in the oxidized and reduced granites, respectively.     

大陆中、下地壳电学特征实验研究①

高温高压下地壳物质电导率的实验室测定是研究大陆中、下地壳高导层成因的重要方法之一。研究表明,水、石墨、部分熔融以及矿物脱水都可能形成地壳高导层,在不同构造环境和深度下这些机制起着不同的作用。为解释中地壳高导层,水的存在是必不可少的条件,在下地壳,水、石墨、部分熔融以及矿物脱水、甚至特定的干的下地壳岩石都可解释大地电磁测量结果。     

新疆伊犁盆地蒙其古尔地区层间氧化带成因分析

层间氧化带是层间氧化带型砂岩铀矿床的重要找矿标志之一,弄清楚层间氧化带的成因对砂岩型铀矿找矿具有重要的意义。根据伊犁盆地蒙其古尔地区的构造特征和氧化带特征,对该地区的层间氧化带的成因做了分析。认为该地区的构造特征是层间氧化带形成的主要因素。     

高粘土质氧化矿石制粒实验研究

通过对黔西南贞丰某一典型的高粘土质低晶位金氧化矿石浸出、粘结剂配比实验和催熟剂Ｎｏ．１浸金实验研究,表明少量复合粘结剂的加入,极大改善矿石的性质,提高浸取液的溶液渗稼性。４％复合粘结剂的掺入量,不仅使成球粒在２４ｈ内的抗坟强度达到４．０ｋｇｆ／ｃｍ＾２,而且在２４ｈ内氰化反应近乎完全,金溶出率高达９６％。     

“一带一路”战略对中国国土开发空间格局的影响

"一带一路"是今后相当长一段时间中国全面对外开放的总体方略。建设"一带一路"已成为中国长期的国家战略,必将对中国国土开发空间格局产生重要影响。在分析中国国土开发空间格局现状特点的基础上,从全方位对外开放、互联互通基础设施条件改善、能源供应系统的变化、贸易畅通和人文交流与合作等几个方面探讨了"一带一路"战略对国土开发空间格局的影响途径和方式。重点论述了陆上国际经济合作走廊建设、海上国际大通道建设等"一带一路"具体行动对区域国土开发的影响。研究结果表明:1"一带一路"战略对国土空间格局将产生重要影响,不同国际经济走廊影响的重点区域不同,有助于促进均衡国土空间的形成;2"一带一路"战略将促进内陆地区形成若干个大都市经济区和内陆开放型经济高地,同时,强化与"一带一路"国际大通道相对接的国内开发轴线的地位和作用,形成全方位对外开放的国土空间格局;3"一带一路"战略将进一步增强沿海地区的国际竞争力,形成"高效"的国土空间;4"一带一路"战略将加快内陆沿边地区主要口岸和沿边城市的发展,使沿边地区成为重要的国土开发新空间。