中国太古宙

根据最近10多年来中国太古宙岩石同位素地质年代学新数据和中国太古宙岩石三个主要分布地区冀东、辽东和吉林南部、太行山-五台山的时间-地层图及其对比情况,认为尚无足够的证据支持中国太古宙四分,三分方案更适合于中国太古宙的情况：约2．9Ga可以作为晚、中太古代的界线,而3.5Ga作为中、早太古代界线尚不很明晰。     

康古尔金矿区次火山岩同位素年龄学及其意义

康古尔金矿区分布着一系列的次火山岩 ,这些次火山岩与金矿体相伴产出。从次火山岩的Rb- Sr等时线年龄及单颗粒锆石表面蒸发法 2 0 7Pb/2 0 6Pb年龄资料看 ,次火山岩形成于 30 0～ 2 82 Ma。而石英正长斑岩单颗粒锆石 2 0 7Pb/2 0 6Pb年龄值 ( 593Ma)反映了岩体侵位过程中捕获了基底岩石中古锆石的年龄信息。进一步推测在阿齐山—雅满苏火山岛弧之下可能存在前寒武纪陆壳基底     

Silicon Isotope Geochemistry of Micro—Fine Disseminated Gold Deposits in SW Guizhou and NW Guangxi,China

Quartz was studied with respect to its silicon isotopic composition and cathodoluminescence in micro-fine disseminated gold deposits in SW Guizhou and NW Guangxi.The results showed that quartz in wall rocks.ores and that in association with hydrothermal silicification are distinctive in silicon isotopes and cathodoluminescence characters.Quartz in association with primary silicification is non-luminescent while that in wall rocks and associated with secondary silicification exhibits striking luminescence.Based on the dynamic fractionation of silicon isotopes,it is suggested that the mineralization was accompanied by rapid transport of aprimary siliceous fluid along the major deep fault system into subordinate faults before ore components deposited in favorable strata via penetration and metasomatism.Therefore,a deep origin is implicit for gold deposits of this type.     

川西孔玉——会理金矿带同位素特征与金矿分布

金矿带内不同金矿床氢氧和硫同位素组成,清楚地反映出各金矿产出地质背景的差异,显示出金矿与赋矿围岩有成因联系;δ＾１８Ｏ石英和δ＾１８Ｏ水的变化趋势,反映出金矿空间分布规律及其成矿系列演化。     

吉林夹皮沟金矿稳定同位素地质及找矿方向

吉林夹皮沟金矿床成因,多年来一直存在变质热液和岩浆热液之争。在金矿带北侧海西期花岗岩内和南侧白山镇一带变质岩地区进行外围找矿始终没有突破性进展。在前人研究基础上,通过一些补测工作对夹皮沟金矿稳定同位素地质给予新的认识。Ｓ和Ｃ、Ｈ、Ｏ流体主要来自地幔,部分Ｓ和Ｓｉ、Ｐｂ、Ａｕ主要来自花岗岩和古老变质层状岩系,成矿远景区应重点选定在夹皮沟—大砬子深大断裂两侧中生代脉岩体附近。     

Carbon isotopic fractionation by desorption of shale gases

Geochemical studies of shale gas and conventional reservoirs within the Triassic Yanchang Formation of Xiasiwan and Yongning Field, Ordos Basin show that methane is isotopically depleted in ¹³C as compared to δ¹³C₁ calculated by the Ro based on the relationship between δ¹³C₁ and Ro. Geochemical fractionation during the adsorption/desorption process of shale system may play a significant part in influencing δ¹³C₁ values of shale gas. Two shale core samples from confined coring of the Yanchang Formation were adopted segmented desorption experiments to examine this phenomenon. The results show that the δ¹³C₁ of desorbed gas changes little in the first few phases of the experiments at low desorption levels, but become less negative rapidly when the fraction of desorbed methane exceeds 85%. The desorption process for the last 15% fraction of the methane from the shale samples shows a wide variation in δ¹³C₁ from −49‰ to −33.9‰. Moreover, δ¹³C₁ of all desorbed methane from the shale samples is substantially depleted in ¹³C than that calculated by Ro, according to Stahl and Carey's δ¹³C₁–Ro equation for natural gas generated from sapropelic organic matter. This shows some gases with isotopically enriched in ¹³C cannot be desorbed under the temperature and pressure conditions of the desorption experiments. This observation may be the real reason for the δ¹³C₁ of shale gases and conventional reservoirs becomes more negative in Xiasiwan and Yongning Fields, Ordos Basin. The magnitude of the deviation between the δ¹³C₁ of shale gas and that calculated by Ro may be related to the adsorption capacity of shale or the proportion of absorbed gases. In this way, we may be able to evaluate the relative adsorption capacity of shale in geological conditions by δ¹³C₁ of the shale gas, or by δ¹³C₁ of conventional gas which generated by the shale with certainty. The δ¹³C₁ of conventional gas in Dingbian and Yingwang Fields have no deviation because the TOC value of the hydrocarbon source rock is relatively low.     

巴尔喀什成矿带Cu-Mo-W矿床的辉钼矿Re-Os同位素年龄测定及其地质意义

巴尔喀什成矿带是世界著名的中亚成矿域斑岩型铜钼成矿带,产出许多斑岩型铜钼矿床和一些石英脉-云英岩型钨钼矿床。中亚成矿域可能是一个多核成矿系统,具有以走滑断裂为边界构成的断裂构造体系并受之控制。本文对巴尔喀什成矿带巴尔喀什—阿克沙套地区11件辉钼矿样品进行了Re-Os同位素分析,得到博尔雷大型斑岩型铜(钼)矿床和东科翁腊德、扎涅特、阿克沙套石英脉-云英岩型钨钼矿床的辉钼矿模式年龄(平均值)分别为315.9Ma、298.0Ma、295.0Ma和289.3Ma;其中,东科温腊德、阿克沙套和扎涅特等3个矿床的Re-Os等时线年龄为297.9-+30..949Ma,MSWD值为0.97。辉钼矿Re-Os年龄说明巴尔喀什成矿带Cu-Mo-W成矿作用发生在315.9～289.3Ma期间,Cu-Mo-W矿床的形成可分为两期:一期为斑岩型铜钼矿床,约形成于315.9Ma;另一期为石英脉-云英岩型钨钼矿床,约形成于297.9Ma。根据辉钼矿模式年龄和等时线年龄,推测该地区花岗斑岩和伟晶岩的形成时代与相应的矿床基本同时,均为晚石炭世,属海西期构造岩浆活动的产物。通过与我国境内西、东准噶尔和东天山斑岩铜矿带的对比表明,巴尔喀什成矿带铜钼成矿作用的年龄介于东天山土屋—延东斑岩铜矿与西准噶尔包古图斑岩铜矿之间。分析表明,中亚成矿域大规模斑岩型铜钼成矿作用集中在晚石炭世,属海西晚期构造-岩浆活动的产物。     

勉略缝合带三岔子辉绿岩墙锆石U-Pb年龄及Hf同位素组成——古特提斯洋壳俯冲的年代学证据

为了弄清楚勉略构造带中三岔子岛弧火山岩的形成时代及源区特征,对南秦岭勉略缝合带三岔子岛弧蛇绿混杂岩中的辉绿岩墙样品进行了锆石U—PB年代学、锆石Hf同位素组成及微量元素组成研究。结果表明,三岔子辉绿岩中的锆石主要包括2个年龄区间：有8颗锆石记录古生代年龄信息,其n（205Pb）／n（238u）年龄为264～487Ma,Ⅷ（Th）／w（U）为0．4～0．8,其中有6颗锆石的N（176Hf）／N（177Hf）初始值为0．281934～0．282292,埘应的EHf（f）值为9．4～-16．4,为典型的壳源岩浆锆石,另外2个测点（BQG-014,BQG-021）的N（176Hf）/N（177Hf）为0．282722～0．282798,对应的εHf（f）值为4．5～6．3,为典型的幔源岩浆锆石;有15颗锆石记录厂元古代-太古代的年龄信息,N（207Pb）/N（206Pb）年龄主要为1713～2559Ma,N（176Hf）／N（177Hf）初始值为0．281288～0．282263,对应的εHf（t）值为-1．3～8．7,绝大部分锆石的εHf（t）值大于2,显示出幔源岩浆锆行的特征。根据锆石Hf同位素组成,BQG-014和BQG-021样品为典型的幔源岩浆锆石,因此,其形成年龄（264～295Ma）应代表了勉略洋消减过程中一次重要的大陆弧岩浆作用时间。     

Origin of Paleofluids in Dabashan Foreland Thrust Belt:Geochemical Evidence of 13C,18O and 87Sr/86Sr in Veins and Host Rocks

In the last ten years, with important discoveries from oil and gas exploration in the Dabashan foreland depression belt in the borderland between Shanxi and Sichuan provinces, the relationship between the formation and evolution of, and hydrocarbon accumulation in, this foreland thrust belt from the viewpoint of basin and oil and gas exploration has been studied. At the same time, there has been little research on the origin of fluids within the belt. Based on geochemical system analysis including Z values denoting salinity and research on δ13C, δ18O and 87Sr/86Sr isotopes in the host rocks and veins, the origin of paleofluids in the foreland thrust belt is considered. There are four principal kinds of paleofluid, including deep mantle-derived, sedimentary, mixed and meteoric. For the deep mantle-derived fluid, the δ13C is generally less than ?5.0‰PDB, δ18O less than -10.0‰PDB, Z value less than 110 and 87Sr/86Sr less than 0.70600; the sedimentary fluid is mainly marine carbonate-derived, with the δ13C generally more than ?2.0‰PDB, δ18O less than ?10.0‰PDB, Z value more than 120 and 87Sr/86Sr ranging from 0.70800 to 0.71000; the mixed fluid consists mainly of marine carbonate fluid (including possibly a little mantle-derived fluid or meteoric water), with the δ13C generally ranging from ?2.0‰ to ?8.0‰PDB, δ18O from ?10.0‰ to ?18.0‰ PDB, Z value from 105 to 120 and 87Sr/86Sr from 0.70800 to 0.71000; the atmospheric fluid consists mainly of meteoric water, with the δ13C generally ranging from 0.0‰ to ?10.0‰PDB, δ18O less than ?8.0‰PDB, Z value less than 110 and 87Sr/86Sr more than 0.71000. The Chengkou fault belt encompasses the most complex origins, including all four types of paleofluid; the Zhenba and Pingba fault belts and stable areas contain a simple paleofluid mainly of sedimentary type; the Jimingsi fault belt contains mainly sedimentary and mixed fluids, both consisting of sedimentary fluid and meteoric water. Jurassic rocks of the foreland depression belt contain mainly meteoric fluid.     

山东土堆－沙旺金矿床同位素组成特征及矿床成因讨论

土堆－沙旺金矿床位于胶莱盆地东北缘, 为胶东东部牟平－即墨成矿带的重要组成部分。石英流体包裹体Rb－Sr等时线年龄为119±10 Ma,与胶东大规模成矿时间一致。矿石硫化物硫同位素组成δ34S介于8.50‰～12.72‰之间, 成矿热液δ34S∑S=10.03‰, 铅同位素组成中206Pb/204Pb＝17.12～17.86, 且具有低μ高ω特征, 指示成矿物质来源于下地壳或地幔。氢氧同位素δ18OH2O值为+1.96‰～＋7.71‰, δD为–68.64‰～–86.47‰, 显示成矿流体主体为岩浆水, 并有部分后期大气水的参与。矿石铅同位素与同期脉岩组成接近, 且具有线性特点, 指示二者可能与早白垩世华北克拉通东部构造体制转化所引起的壳幔岩浆混合作用有关。