滇西北兰坪盆地金满脉状铜矿床绢云母^40Ar-^39Ar年龄对成矿时代的约束

处于印度大陆与亚洲大陆主碰撞带北东侧的兰坪盆地西缘的金满铜矿床，产于中生代陆相沉积砂岩、泥岩中，以其属新类型陆相喷流铜矿床而引起人们的关注。关于其成矿时代至今仍然存在争论。采用常规^40Ar/^39Ar阶段升温测年法对金满铜矿床主矿体旁侧的含铜热液蚀变矿物绢云母进行了测试，获得3组视平均年龄分别为88Ma、67Ma、37Ma。结合兰坪盆地区域地质成矿背景，认为金满铜矿成矿经历了早期67Ma的成矿作用和晚期37Ma的成矿叠加作用，后者代表了金满铜矿的主要形成年龄。金满铜矿床的2期成矿年龄可能是印～藏碰撞(古新世)和走滑～拉分(始新世)等重大地质构造事件在矿床中留下的同位素年龄信息．暗示着古新世时期的构造作用和始新世时期的构造-岩浆-成矿活动对兰坪盆地的作用。     

云南金满、水泄铜多金属矿床的Ar-Ar同位素年代学及其地质意义

滇西北兰坪中新生代盆地西缘铜多金属成矿带受澜沧江断裂带控制,赋矿围岩为二叠系至第三系,主要由下二叠统经上三叠统到上侏罗统砂岩、粉砂岩和页岩组成的碎屑岩建造、火山岩建造及含盐红色碎屑岩建造,矿体主要以脉状或透镜状产出。对该成矿带上的金满铜矿床和水泄铜(钴)矿床主成矿阶段的石英进行了^40Ar-^39Ar快中子活化法同位素地质年龄测定,获得坪年龄分别为56．7±1．0Ma和59．2±0．8Ma,且各自与对应的等时年龄在误差范围内完全一致,都可以代表矿石的形成年龄。综合已发表的有关兰坪盆地西缘及盆地内部铜、多金属矿床成岩成矿同位素年代学研究结果,表明两矿床与区域矿床具有一致的成矿时代,反映区域铜、多金属矿床均形成于喜马拉雅造山运动早期统一的地球动力学背景之下。     

云南东川播卡-拖布卡地区含金石英脉的^40Ar／^39Ar年龄及其地质意义

东川播卡-拖布卡地区金矿是云南中部"康滇地轴"中、新元古界昆阳群岩石中发现的第一个金矿,位于接近三江褶皱带的扬子地块西缘.原生金矿化为含金黄铁矿石英脉、细脉、网脉和浸染状石英黄铁矿.四个不同产状的典型含金石英脉的石英的阶段加热40Ar/39Ar年龄谱为马鞍形,坪年龄值范围为59.93±0.21～42.38±0.32 Ma,最小视年龄范围59.30±4.30～41.90±1.8 Ma,与计算坪年龄加热阶段相应数据的40Ar-39Ar等时线年龄范围59.34±0.17～41.25±0.10 Ma,三者基本一致.等时线年龄计算的相关系数大于0.998,40Ar/3 6Ar初始值范围为293.17±1.40～295.2±0.43,与尼尔值一致.石英形成后没有受到后期地质作用.石英样品的坪年龄没有受到过剩氩和氩丢失的影响,可以作为石英和金矿的年龄.金矿形成于新生代第三纪古新世和始新世初的陆内拉张地质构造环境中.     

东川汤丹铜矿床石英真空击碎及其粉末阶段加热^40Ar—^39Ar年龄谱的含义

采用真空击碎技术提取东川汤丹铜矿床石英流体包裹体进行40Ar-39Ar法年龄测定,获得了逐渐下降的阶梯形年龄谱,表明流体包裹体含有过剩氩;数据点在40Ar／36Ar-39Ar／36Ar图解上构成等时线,等时线年龄为（712±33）Ma,代表了矿床的形成年龄。随后对其粉末进行40Ar-39Ar阶段加热（100—800℃）分析,形成相对比较平坦的年龄谱,坪年龄为（317±6）Ma（39Ar占45％,含真空击碎分析在内）,粉末加热分析全部数据点构成的等时线年龄为（321±13）Ma。电子探针分析和显微镜观察证实了该石英样品中含有粒径大于100μm,K2O含量为8％-10％,形成时间明显晚于石英的白云母类富钾矿物,粉末阶段加热分析结果表明～320Ma应为后期白云母类矿物的年龄。     

滇西金满脉状铜矿床的40Ar-39Ar快中子活化年龄

金满铜矿床是滇西兰坪——思茅盆地中-新生代砂页岩中相当典型的脉状矿床。关于该矿床的成矿时代,多年来一直沿用铅同位素模式年龄,缺乏更为可靠的同位素年龄数据,因而对该矿床乃至盆地内同类矿床成矿作用的认识带来了很大困难。为探讨该矿床的形成时代,作者选取含铜石英脉状矿石中的石英进行⁴⁰Ar-³⁹Ar快中子活化年龄分析。     

大兴安岭北部砂宝斯金矿床含金石英脉 40Ar/39Ar年龄及其构造意义

砂宝斯金矿床是大兴安岭北部唯一一个大型岩金矿床。本文应用石英真空击碎和阶段加热40Ar/39Ar定年技术,首次获得了砂宝斯金矿床的成矿年龄。石英真空击碎40Ar/39Ar定年方法获得了石英脉中原生包裹体等时线年龄为130.1±1.3 Ma;石英粉末阶段加热40Ar/39Ar定年方法获得石英脉中钾长石微晶的等时线年龄为133.1±3.5 Ma。石英脉中原生包裹体和钾长石微晶的年龄较吻合,~130 Ma代表了含金石英脉的形成年龄。砂宝斯金矿床的成矿时代为早白垩世,形成于蒙古-鄂霍茨克造山带后碰撞阶段的挤压向伸展转换期。     

兰坪盆地连城脉状铜矿床辉钼矿Re-Os定年及其地质意义

兰坪盆地贱金属矿床是一套独特的受逆冲推覆构造系统控制的矿床类型,连城脉状铜矿床是其重要组成之一.以往研究采用多种测年手段限定脉状铜矿成矿年龄,但结果分歧较大.本文采用辉钼矿Re-Os同位素定年方法,获得连城矿床辉钼矿的Re-Os同位素模式年龄为(48.14±0.87)Ma,等时线年龄为(49.0±1.3)Ma,初步厘定兰坪盆地热液脉型铜矿床形成于48～49 Ma.结合区域地质与控矿构造分析,该矿床应为盆地西部逆冲带逆冲变形过程中的产物,由此限定兰坪盆地西部逆冲推覆的起始时间至少早于49 Ma,同时佐证了兰坪盆地西部逆冲带内以Cu(-Ag)为主的成矿系统的形成发育可能早于东部逆冲推覆带内以Pb-Zn为主的成矿系统.     

石英击碎与粉末加热40Ar-39Ar定年及其含义讨论

采用真空击碎技术提取东川汤丹铜矿床石英流体包裹体，进行40Ar-39Ar法年龄测定，获得了逐渐下降的阶梯形年龄谱，表明流体包裹体含有过剩氩；数据点在40Ar/36Ar-39Ar/36Ar图解上构成等时线，年龄为712±33Ma，这一年龄值代表了矿床的形成年龄[1]。随后对其粉末进行40Ar/39Ar阶段加热（100-800℃）分析，形成相对比较平坦的年龄谱，坪年龄为317±6Ma(39Ar占45%，含真空击碎分析在内)，全部加热分析数据点构成的等时线年龄为321±13Ma，这一年龄初步解释为流体包裹体内子     

“东川式“层状铜矿40Ar-39Ar成矿年龄测定

本文采用40Ar-39真空击碎技术和阶段加热技术,测定了采自落雪矿的"东川式"层状铜矿之两个石英样品的年龄,获得了810～770 Ma的40Ar-39Ar等时线年龄,这些年龄与我们从前获得的脉状铜矿石英的年龄范围一致,再次表明晋宁-澄江期是东川铜矿的主要成矿期.     

大渡河金矿田喜马拉雅期成矿的^40Ar／^39Ar年龄依据及其意义

大渡河金矿田是扬子地台西南缘一个重要的金成矿集中区.对其中自金台子和三雕两个金矿床含金石英脉的石英进行了40Ar/39Ar快中子活化法同位素年龄测试,获得坪年龄分别为25.4土0.2 Ma和24.7±0.3Ma,相应的等时线年龄分别为24.1±0.1 Ma和22.9士0.1 Ma,反等时线年龄分别为23.8士0.1 Ma和23.0±0.1Ma.这些年龄数据不仅有力地证明了大渡河金矿形成于喜马拉雅构造期,也为更好地认识扬子地台西南缘金矿形成的地质构造背景、矿床成因及成矿规律,进而指导区域找矿提供了依据.     

40Ar/39Ar Fast Neutron Activation Ages of Quartz from the J inman Vein Copper Deposit in Western Yunnan and Their Significance

Quartz samples collected from the Jinman vein copper deposit in the Lanping Basin of western Yunnan were determined by 40Ar/39Ar fast neutron activation techniques, and the spectra are characterized as being saddle-shaped. The samples yielded a plateau age of 58.05 ±0.54 Ma, a minimum appearance age of 56.76 ± 0.81 Ma and an isochron age of 54.30 ±0.15 Ma, the three ages being close to each other, indicating that the ages of the quartz samples so far determined are true and reliable. The plateau age represents the time of formation of Cu-bearing quartz veins, which is corresponding to Early Himalayan. This age is also consistent with the time at which a tectonically thermal event (60 Ma) took place within the Lanping Basin, Yunnan Province. In consideration of the fact that copper ore and other ore types in the vast area of western Yunnan are concentrated mainly in the Early Himalayan strata, the authors believe that there must have existed some indispensable key factors leading to metallogenesis on a large scale during the Early Himalayan period in western Yunnan and also constraining in union the formation of ore deposits there.     

^40Ar／^39Ar Fast Neutron Activation Ages of Quartz from the Jinman Vein Copper Dposit in Western Yunnan and Their Significance

Quartz samples collected from the Jinman vein copper deposit in the Lanping Basin of western Yunnan were determined by⁴⁰Ar/³⁹Ar fast neutron activation techniques, and the spectra are characterized as being saddle-shaped. The samples yielded a plateau age of 58.05 ± 0.54 Ma, a minimum appearance age of 56.76 ±0.81 Ma and an isochron age of 54.30 ± 0.15 Ma, the three ages being close to each other, indicating that the ages of the quartz samples so far determined are true and reliable. The plateau age represents the time of formation of Cu-bearing quartz veins, which is corresponding to Early Himalayan. This age is also consistent with the time at which a tectonically thermal event (60 Ma) took place within the Lanping Basin, Yunnan Province. In consideration of the fact that copper ore and other ore types in the vast area of western Yunnan are concentrated mainly in the Early Himalayan strata, the authors believe that there must have existed some indispensable key factors leading to metallogenesis on a large scale during the Early Himalayan period in western Yunnan and also constraining in union the formation of ore deposits there.     

云南兰坪白秧坪铜钴多金属矿集区矿石中石英的40Ar-39Ar年龄

云南兰坪白秧坪铜钴多金属矿集区矿石中石英的⁴⁰Ar-³⁹Ar快中子活化年龄谱呈马鞍形,坪年龄为56.53±0.43Ma,最小视年龄为55.52±1.78Ma,等时线年龄为55.90±0.29Ma,三者在误差范围内一致(1σ)。⁴⁰Ar/³⁶Ar初始值为294.7±1.14,与尼尔值(295.5±5)十分接近,坪年龄和等时线年龄均可作为石英的形成时代。因此,55.90~56.53Ma(喜马拉雅早期)代表了矿床的成矿年龄。     

^40Ar-^39 Ar Dating of Quartz from Ore in the Baiyangping Cu-Co Polymetallic Ore-Concentrated Area, Lanping Basin, Yunnan

⁴⁰Ar−³⁹Ar fast neutron activation age spectrum of quartz in ore collected from the Baiyangping Cu−Co polymetallic ore-concentrated area, Lanping Basin, is saddle-shaped. The plateau age, minimum appearance age and isochron age shown on the spectra are 56.53±0.43 Ma, 55.52±1.78 Ma and 55.90±0.29 Ma respectively. The age data are consistent with each other within 1σ uncertainties. Because the given initial⁴⁰Ar/³⁶Ar value of 294.7±1.14 is very close to Nier's value (295.5±5), both plateau and isochron ages may be considered as the forming time of quartz. So the age of 55.90–56.53 Ma represents the forming age of ore deposits. It is obvious that the ore deposits were formed during the Early Himalayan period. This research project was granted by the State Basic Research, Development and Planning Program (G1999043208) and the Foundation Projects of Yunnan Provincial Education Department (No. 0142104).     

Kar and RbSr whole-rock ages reset during pan african event in the sinai peninsula (Ataqa Area)

A low pressure metamorphic Pan African terrain, composed mainly of schists and hornfels, ranging from high greenschist to low amphibolite facies, is exposed west of Dahab, southeastern Sinai, located between the metamorphic Kid Complex and the Feirani Volcanics.The studied metamorphic unit was dated using RbSr and KAr methods. A RbSr whole-rock isochron (based on seven samples) yields an age of 602 ± 11 Ma with an initial (⁸⁷Sr/⁸⁶Sr) ratio of 0.7041 ± 4. The RbSr age is assumed to be the age of a metamorphic phase (600 ± 10 Ma) well known in the area. On the other hand, KAr whole-rock ages (based on nine samples) show different values ranging from 590 to 526 Ma. These low KAr ages are due to the resetting of the KAr system by a thermal event, before 530 Ma affecting the Ar behaviour without disturbing the RbSr system. The Ar escape took place mainly from K-bearing feldspars, which were not affected by later textural, crystallographic or mineralogic variations.     

赣南—粤北余田群的再认识

赣南—粤北中生代晚期存在上、中、下３个不同时代的火山岩系,其中下火山岩系称为余田群,可进一步划分为水头迳组和菖蒲组。水头迳组以沉积岩为主、夹火山碎屑岩,代表火山活动初始期的产物;菖蒲组为玄武岩、流纹岩和流纹质凝灰岩,有时夹砂岩,代表火山活动喷发期的产物。同位素年龄数据显示,余田群菖蒲组的地质时代为中侏罗世—晚侏罗世早期,水头迳组是否包含早侏罗世沉积有待进一步研究证实     

Early Paleozoic Magmatism and Gold Mineralization in the Northern Aitun, NW China

Abstract This paper discusses the relationships between granitic magmatism and gold mineralization and the exhumation history of the Dapinggou gold deposit in northern Altun, NW China based on the geochronological data, including zircon U‐Pb ages, Rb‐Sr isochron age and ⁴⁰Ar‐³⁹Ar dating and MDD modeling data. The main granitic magmatism age in this area is attained from the ID TIMS U‐Pb geochronology of zircons from the Kuoshibulak granite, the biggest granite in the northern Altun area, which gives a concordant age of 443±5 Ma in the Late Ordovician. Zircon ID TIMS U‐Pb geochronology of the West Dapinggou biotite granite west of the Dapinggou gold deposit gives concordant ages around 485±10 Ma, representing the early stage of Ordovician magmatism. The Rb‐Sr isochron age (487±21 Ma) of 6 quartz inclusion samples from quartz veins in this gold deposit is very close to that of the West Dapinggou granite. MDD modeling of step heating ⁴⁰Ar‐³⁹Ar data of K‐feldspar from the same West Dapinggou biotite granite gives a rapid cooling history from 300°C to 150°C during 200–185 Ma. According to the age data and the geological setting of this area, we conclude that the Dapinggou gold deposit was formed at the early stage of the Early Paleozoic granitic magmatism in northern Altun, and exhumed in the Early Jurassic due to the normal faulting of the Lapeiquan detachment. The Early Paleozoic magmatism may provide heat source and produce geological fluids, which are very important for gold mineralization. Exhumation in the Mesozoic caused the uplift of the deposit towards the ground surface.     

Relationship Between Himalayan Tectono-Magnetic Movement and Mineralization in Lanping Basin, Yunnan Province

RELATIONSHIP BETWEEN HIMALAYAN TECTONO-MAGNETIC MOVEMENT AND MINERALIZATION IN LANPING BASIN, YUNNAN PROVINCE     

K-Ar法年龄标准物质ZGC粗面岩K和~(40)Ar含量及年龄的定值结果

为了满足K-Ar和Ar-Ar法定年的需要,年代学工作者研制了一个用于中新生代定年的K-Ar法年龄标准物质——ZGC粗面岩。该粗面岩采自广东省南海市走马营第三纪火山岩。~(40)Ar/~(39)Ar定年结果表明,~(40)Ar~*在矿物晶格中保存均匀稳定,年龄谱平坦,~(39)Ar析出量高达97.9%。证明该粗面岩结晶以后未受过热扰动,完好地保持了~(40)K-~(40)Ar~*同位素计时的化学封闭体系。坪年龄为52.8±0.3 Ma,总气体年龄为52.9±0.8 Ma。~(36)Ar/~(40)Ar-~(39)Ar/~(40)Ar反等时线年龄为52.5±0.4 Ma,~(40)Ar/~(36)Ar初始值为296.6±4.2,此值与(~(40)Ar/~(36)Ar)。大气氩丰度比(295.5±0.5)一致,表明样品不含过剩氩。国内12个实验室参加了ZGC粗面岩K含量和~(40)Ar~*含量的定值分析。经统计学方法检验,结果显示全部定值数据服从正态分布并具等精度。当置信概率为0.95时,~(40)Ar~*和K含量的相对标准偏差都小于1%。~(40)Ar~*和K含量分析的认定值和不确定度分别为:~(40)Ar~*=4.199±0.022×10~(-10)mol/g,K=4.576±0.028%,由此计算得K-Ar年龄为52.2±0.5 Ma。根据国家一级标准物质技术规范的相关要求,经统计学方法检验在0.05显著性水平下,K和~(40)Ar~*的F分布小于F临界值,说明该标准物质是均匀的。t检验法表明,该标准物质具有良好的稳定性,~(40)Ar~*和K含量在有效期内不会发生显著性变化。ZGC粗面岩粒度为0.3～0.7mm,重量为850 g,缩分成最小样品单元100瓶,每瓶8.5 g。可供K-Ar和Ar-Ar法实验室使用43年。