湘南—桂东北地区寒武—奥陶纪沉积岩碎屑锆石U-Pb年代学特征及其地质意义

本文利用LA-ICP-MS分析技术,对湘南—桂东北地区寒武纪和奥陶纪沉积岩进行了碎屑锆石U-Pb年代学研究。获得有效年龄数据239组,年龄值变化范围较大(3146~474 Ma),主要集中分布于2633~2473 Ma(峰值2500Ma),1880~1521 Ma(峰值1650 Ma),1146~911 Ma(峰值970 Ma),896~720 Ma(峰值800 Ma)和682~474 Ma(峰值520 Ma)5个时间段。4件样品均记录了古太古代—中太古代年龄信息,同时以1146~911 Ma和896~720 Ma两个时间段年龄最集中,反映全球Grenville造山事件和全球Rodinia超大陆裂解事件对研究区影响显著。此外,本次还获得大量泛非期(520 Ma左右)锆石年龄,认为全球泛非事件对华夏地块及其邻区影响显著,反映华夏地块与冈瓦纳大陆可能有一定亲缘性。结合前人资料,认为研究区位于华夏地块和扬子地块西南段碰撞拼合带,研究区地层同时接受两地块物质沉积,物源主要来自华夏地块。     

甘肃礼县中川地区金矿成岩和成矿年龄的SHRIMP厘定

甘肃省礼县中川地区属于礼（县）岷（县）金矿带的东段,成矿作用与中川花岗杂岩体有密切的关系。运用高分辨率和高灵敏度离子探针（SHRIMP）测试技术,获得了中川花岗杂岩体形成的精确年龄,主侵入时代为210～160 Ma（可信度95%,MSWD=1.4）,该花岗岩体属于燕山早期-印支期造山运动的产物;3颗锆石（4个测点）的SHRIMP测试结果表明,中川地区金成矿的年龄为197～162 Ma,证实礼县中川地区金成矿于中川花岗岩体形成及稍后的时间段。年龄测试和地质剖面测量资料都证实,中川花岗岩体南部地层应该划在中石炭统地层中。与中川花岗杂岩体地质情况类似的碌础坝、 柏家庄、 闾井、 教场坝、 温泉等岩体外接触带仍然有很大的找矿前景。     

Nd-Sr-Pb isotopic constraints on metal and fluid sources in W-Sb-Au mineralization at Woxi and Liaojiaping (Western Hunan,China)

This paper presents Nd-Sr-Pb isotope data on scheelite, inclusion fluids and residues of gangue quartz, and sulfides from the W-Sb-Au ore deposits at Woxi and Liaojiaping (LJP) in the Xuefeng Uplift Belt (XUB), Western Hunan, China. Sm and Nd concentrations in scheelite from Woxi are much lower than in scheelite from LJP and can be distinguished by their high ¹⁴⁷Sm/¹⁴⁴Nd ratios of ~1.25 from the much lower ratios around 0.26 in scheelites from the LJP. Nd values (compared to values at 200 Ma, which is the average timing of granitoid emplacement during the Indosinian-Yanshanian periods in the XUB) are around –10 for the LJP and compare well with the range of –5 to –11 defined by the granitoids, whereas they are around –27 for scheelite from Woxi. This might indicate that REEs in the mineralizing fluids at LJP originated from granitoids that are concentrated along the southern border of the XUB, whereas in the case of Woxi, the original fluids might have been masked by REEs released during intense high-temperature wall rock alteration of unexposed Precambrian basement rocks at depth. Sr isotopes of scheelite from these two deposits show similar relations to host / nearby rocks, in that ⁸⁷Sr/⁸⁶Sr (T=200 Ma) ratios of ~0.721 for LJP scheelite agree with values ranging between 0.718 – 0.726 for granitoids, whereas these ratios are much higher (i.e. 0.745) for scheelite from Woxi and correspond to the ⁸⁷Sr/⁸⁶Sr (T=200 Ma) ratio range of 0.743 – 0.749 for Precambrian host slates. Crushing experiments to release inclusion fluids from gangue quartz and sulfides deposited during later stages of ore deposition in both deposits failed to provide accurate and geologically meaningful two-point (fluid-residue) tie lines in Rb-Sr isochron diagrams. However, Sr released from fluid inclusions generally reveals lower initial ⁸⁷Sr/⁸⁶Sr ratios than the respective residues and shows affinities to ⁸⁷Sr/⁸⁶Sr (T=200 Ma) values of Indosinian-Yanshanian granitoids, both at Woxi and LJP. Pb stepwise leaching of scheelite and sulfides did not result in sufficient spreads in Pb isotope diagrams and therefore no information regarding exact mineralization ages in the two deposits could be deduced. Overall, ore Pb isotopes reveal upper crustal signatures and are compatible with Pb isotope signatures of the predominant Precambrian slates in the Woxi area. Steep trajectories through late stage quartz-sulfide mineralization in Pb isotope diagrams may hint at mixing scenarios involving Pb from the host rocks and a component with lower ²⁰⁷Pb/²⁰⁴Pb and ²⁰⁸Pb/²⁰⁴Pb ratios relative to ²⁰⁶Pb/²⁰⁴Pb ratios, which cannot be linked to any known reservoir in the XUB mining district. Sr isotopes of four out of seven residual sulfide samples from Woxi plot along a paleomixing line at an age of 199 ± 8 Ma, supporting a mixing scenario for the fluids indicated by the Pb isotopes and pointing to a possible genetic relationship with the emplacement of Indosinian—Yanshanian granitoids. The budgets of REEs, Rb-Sr and Pb in the original fluids were severely affected by contamination of these elements apparently during intense wall rock alteration but, after sealing of the major pathways, the mineralizing fluids tend to have better preserved their original signatures. These attest a genetic relationship between the metallogeny in the XUB W-Sb-Au province and the emplacement of Indosinian-Yanshanian granitoids during Mesozoic intracontinental tectonic uplift and thrusting.Electronic Supplementary Material Supplementary material is available in the online version of this article at Editorial handling: B. Lehmann     

高级变质作用对锆石U-Pb同位素体系的影响:胶东栖霞地区变质闪长岩锆石定年

文中对高级变质作用(高角闪岩相-麻粒岩相)条件下"干的"岩石体系中锆石U、Th、Ph行为进行了研究.样品为胶东栖霞地区太古宙变质基底的高角闪岩相-麻粒岩相变质闪长岩.矿物组合为单斜辉石+斜长石+钾长石+黑云母+石英.锆石呈近短轴状、等轴状和不规则状,阴极发光下具板状、杉树叶状、扇形结构,部分具封闭环带结构.锆石中存在斜...     

滇西保山地块东缘晚三叠世何珠次英安斑岩的发现 及其地质意义

在野外地质调查和岩相学观察的基础上,对保山地块东缘何珠次英安斑岩进行了LA-ICP-MS锆石原位U-Th-Pb同位素测定,得到16个测定点的206Pb/238U年龄加权平均值为216.8Ma±2.2Ma。该年龄值反映了岩体的侵位时间,表明其属于晚三叠世,而非前人认为的新生代。结合岩相学和前人地球化学研究资料分析认为,岩体具有I型和S型花岗岩的特征,反映了其在矿物和地球化学组成上的不平衡,应为幔源高温基性岩浆与壳源岩浆混合形成的,且前者占主导地位。这是昌宁-孟连结合带西侧首次报道幔源物质对晚三叠世岩浆活动的参与,表明保山地块在碰撞后地壳熔融过程中伴随地幔物质的上涌。研究表明,以何珠岩体为代表的次英安斑岩并非前人认为的新生代,保山地块南端前人划分的新生代岩体群的分布范围和规模可能需要重估。     

U-Th-Pb dating of garnet based on LAICP-MS mapping technology: A case study of the Tonglvshan large-scale Cu -Fe-Au skarn depositSCIEI北大核心CSCD

矽卡岩矿床的年代学信息对研究矽卡岩矿床的矿床成因、演变过程、成矿规律和找矿勘查具有重要的指示意义。石榴子石是矽卡岩矿床中的常见矿物,它具有一定的U含量,但是由于其普通铅高以及铀分布不均一的原因,导致激光剥蚀电感耦合等离子体质谱仪(LA-ICP-MS)点分析获得年龄成功率不高。针对点分析定年遇到的深度分馏和剥蚀点选取、普通铅校正等问题,本文提出一种利用LA-ICP-MS面扫描分析数据的虚拟点构建技术,在Tera-Wasserburg(TW)图中实现普通铅校正来确定含普通铅石榴子石年龄。通过理论推导、数值模拟和实验分析研究发现,利用相关联的^(208)Pb、^(232)Th、^(238)U测量数据校正生成^(208)Pb_(c)/^(238)U指标并据此对TW图中的数据进行数据分组抽样构造虚拟测量点,可以有效地把面扫描测量数据转换为与点分析测量类似但放射母子比例展布更优的数据。利用此方法对长江中下游成矿带鄂东矿区铜绿山大型Cu-Fe-Au矽卡岩矿床石榴子石进行面扫描分析。仅使用15min的样品面扫描数据,在获得了微量元素含量分布的同时,也获得了同位素比值虚拟点,交点年龄为139.2±2.9Ma(MSWD=0.7,n=126),与前人矿床研究结果相一致,验证了此方法的可行性。利用LA-ICP-MS面扫描定年技术不仅可以获得样品元素含量的二维分布图,有利于对样品期次的筛选,剔除包裹体等异常数据;还可以避免点分析中深度分馏和繁复的选点流程及二次分析等步骤,在获得样品元素含量分布的同时获得矿物年龄,为当前矽卡岩型矿床相关的关键金属研究提供了更为便捷的方法。     

LA-ICP-MS独居石U-Th-Pb测年方法研究

相比LA-ICP-MS锆石U-Pb测年,独居石在一些年轻地质体或流体作用下的矿物定年中更具优势,具有很好的应用前景。然而,大多数独居石Th含量较高(可达7%),包裹体较多,另外随着独居石定年标样不断消耗,存量越来越少,也限制了独居石U-Th-Pb同位素测年的发展与应用。前人利用LA-ICP-MS探究合适的独居石U-Th-Pb测年实验条件,主要是改变激光器的参数,而未对ICP-MS的参数进行系统研究。本文通过改变激光器参数(束斑直径和激光频率)和ICP-MS参数(~(232)Th驻留时间),分别在束斑直径为24μm、16μm和10μm,激光频率为3Hz、4Hz和5Hz,~(232)Th驻留时间为10ms、6ms、3ms和1ms的条件下进行U-Th-Pb测年。最后以独居石RW-1为标样,对独居石样品Bananeira进行校正,期望得到独居石U-Th-Pb测年的最佳条件。结果表明:束斑直径为16μm,~(232)Th驻留时间为3ms或1ms,能量密度为4J/cm~2,激光频率为5Hz,载气He流速为0.35L/min,载气Ar流速为0.95L/min的实验条件下适合独居石测年,这两种条件下Bananeira的~(207)Pb/~(235)U加权平均年龄分别为510.7±8.6Ma(MSWD=0.87)、513.8±5.7Ma(MSWD=0.38,推荐值507.7±1.3Ma),误差在0.59%和1.20%左右;~(208)Pb/~(232)Th加权平均年龄分别为496.9±8.6Ma(MSWD=0.596)、499.8±5.6Ma(MSWD=0.37,推荐值497.6±1.6Ma),误差在0.14%和0.44%左右。并利用此条件对黄山花岗岩(HS-1)进行独居石U-Th-Pb测年,其~(207)Pb/~(235)U加权平均值在128.3±2.4Ma(MSWD=0.73),与本次测定该岩体的锆石年龄数据(127.0±2.1Ma, MSWD=0.93)在误差范围内一致,验证了本实验建立的独居石U-Th-Pb定年方法可靠。     

Application of Laser Ablation ICP-MS to U-Th-Pb Dating of Monazite

Recent advances in laser ablation ICP-MS techniques allow accurate U-Th-Pb age dating of monazites that are as young as several tens of million years to a precision better than 2%. Accuracy of the age determinations has been improved by true real-time mass bias correction via nebulisation of a solution containing enriched ²³³U and natural Tl isotopes. The Tl-U tracer solution eliminates possible effects of variable sample matrices on the precision and accuracy of measured isotopic ratios. Mass bias corrections based on measured ²⁰⁵Tl/²³³U ratios in the tracer solution allow direct measurement of ²³⁵U in monazite. Combined with high-sensitivity laser ablation ICP-MS measurements, direct measurement of ²³⁵U particularly improves the precision of U-Pb dating of young monazites. Correction for laser-induced Pb/U and Pb/Th elemental fractionation is based on a mathematical treatment of time resolved count-rate data that is independent of laser ablation characteristics, does not require external standardisation and allows variable laser pit size or raster patterns for each measurement. The new procedures make the LA ICP-MS technique more flexible for in situ U-Th-Pb analysis.     

U-Th-Pb副矿物的原地原位测年微束分析方法比较与微区晶体化学研究

系统地对比分析了各种微束分析技术在原地原位测年中的优势和局限性,并对近年发展的微区原位化学测年技术(EPMA)和质子激发X射线微探针分析技术(μ-PIXE)进行了探讨.阐明了矿物微区晶体化学研究的各种方法及其对实现精确原地原位测年的重要性.介绍了北大别黄土岭麻粒岩锆石测定点的晶体化学特征,应用激光剥蚀微探针-感应耦合等离子体质谱(LAM-ICPMS)技术对其进行了锆石的U-Pb表面年龄的测定,结果表明该岩石的麻粒岩相变质发生在2.050 Ga前,锆石来源为多源区.     

独居石电子探针定年及其在新疆东天山变质作用研究中的应用

以化学法独居石电子探针定年的原理以及前人改良过的年龄计算公式为基础,利用全微分和最大误差原理,确定了年龄误差计算新方法。并用Visual C语言在Windows平台下编制出了计算年龄和年龄误差的计算机程序。运用此程序对前人公开发表的分析资料和计算的年龄以及年龄误差数据进行了重新计算,验证了给出的误差公式的可靠性。同时,利用JXA—8100电子探针仪对新疆东天山变质沉积岩的两个样品(KM2127—5,DK2107—2)中的独居石进行了电子探针微区U—Th—Pb成分分析。结果表明,样品DK2107—2记录了两期变质作用,峰期年龄分别是341．0±3．9Ma和255．2±3．3Ma,其中最主要的变质峰期年龄为341．0±3．9Ma,该期的矿物组合为Ky+St+Bt+Pl+Q+／-Or;而255．2±3．3Ma和样品KM2127-5记录的变质峰期年龄262．3±4．4Ma为次要变质峰期年龄,该期矿物组合是Cord+Bt+Pl+Or+Q。分析结果与前人用^40Ar—^39Ar法得到的结果相吻合,表明独居石电子探针定年技术是一种可靠有效的测年方法。