论藏东玉龙斑岩铜矿带岩浆侵入时代

本文综合了玉龙斑岩铜矿带花岗岩类的K-Ar年龄数据,首次提供了Rb-Sr等时线、~(39)Ar-~(40)Ar全熔融法和U-Pb等时线年龄,确证岩浆侵入时代在早第三纪始新世至渐新世期间,且可划分为早(52.0±2.8Ma)、中(40.1±1.3Ma)、晚(33.2±1.3Ma)三期。     

江西岩背斑岩锡矿的成岩成矿时代及其地质意义

岩背锡矿地处南武夷山西坡江西会昌县境内.该矿以富含原生黄玉为特征,是本区至今发现的唯一大型独立锡矿床.笔者对矿区内含锡花岗斑岩和成矿作用早阶段形成的石英-黄玉-锡石-硫化物脉进行了Rb-Sr同位素年代学研究,获得全岩和石英矿物Rb-Sr等时线年龄分别为(128.1±3.3)Ma(2σ,MSWD=1.07,Ir=0.7163±0.0052)和(125.5±6.1)Ma(2σ,MSWD=1.5,Ir=0.7130±0.0050),表明岩背锡矿的成岩成矿作用均发生于早白垩世晚期,其成因与中生代火山期后高位侵入的花岗斑岩密切相关.     

新疆东部印支期成岩成矿年代学新证据

新疆东部是否存在印支期成矿作用长期存在争议 ,并引起了众多地质学家的关注。同位素年代学研究表明 ,吐哈盆地南缘的石英滩金矿床含矿石英脉 Rb-Sr等时线年龄为 2 3 7± 9Ma(95 %可信度 ,下同 )、东准噶尔南部的双峰山金矿含矿石英脉 Rb-Sr等时线年龄为2 2 6± 2 1Ma(95 %可信     

鲁西泰山群同位素年代

对采自鲁西雁翎关地区泰山群的三套23件全岩和分离矿物样品进行了Rb-Sr和K-Ar研究。任家庄组(或太平顶组)三组混合岩全岩样品给出不同的等时线,它们的年龄和初始比分别是2474±353Ma和0.7014±0.0019,1841±266Ma和0.7023±0.0006,1544±117Ma和0.7047±0.0006;侵入任家庄组的伟晶岩的一件全岩和三件分离矿物给出等时线年龄2408±69Ma和初始比0.7331±0.0093,该伟晶岩中的一件白云母K-Ar年龄为2295±60Ma;雁翎关组五件斜长角闪岩全岩样品给出等时线年龄2266±118Ma和初始比0.7024±0.0007该组斜长角闪岩的一件分离角闪石的K-Ar年龄为2406±65Ma。上述结果表明,本区2500Ma前后发生了广泛的混合岩化作用,2400Ma前后发生了伟晶岩侵位,这个过程间断性地持续到2300Ma前后;角闪岩相变质作用晚于混合岩化,它发生在2400至2300Ma前后;1900至1100Ma前之间有不止一期变质事件叠加。推测任家庄组原岩老于雁翎关组原岩。     

云开隆起金矿带流体包裹体Rb-Sr等时线年龄

首次测定了云开隆起金矿带河台、新洲金矿石英中流体包裹体Rb-Sr等时线年龄。新洲金矿一条等时线年龄为431±121Ma;另一条年龄为133.1±12.5Ma。河台矿区获3条等时线,年龄分别为121.9±14.1Ma、129.6±6.1Ma和129.3±4.1Ma。结合矿区岩石和矿物的U～Pb、Rb-Sr和K-Ar年龄以及矿石铅同位素年龄资料得出结论,自震旦纪以来(矿床围岩时代为震旦纪),本区经历了多期(主要是加里东期和燕山期)地质作用,包括构造-岩浆活动和变质-混合岩化作用,金矿的形成和演化与这些地质作用有紧密的关系,但成矿作用主要在燕山中—晚期。     

念青唐古拉花岗岩的同位素年龄测定及其地质意义

念青唐古拉花岗岩体位于西藏当雄县境内,是拉萨地块中部出露的巨型侵入岩岩基,其面积超过1500km2,以大面积出露的黑云母二长花岗岩为主体。本文分别应用单矿物K-Ar法、全岩-单矿物Rb-Sr等时线法和高灵敏度高分辨率离子探针法(SHRIMP-)对念青唐古拉岩体不同位置上的代表性岩石样品进行同位素测年,得到中细粒黑云母二长花岗岩的K-Ar年龄为8.49±0.14Ma,Rb-Sr等时线年龄为8.07±0.35Ma和8.70±1.40Ma,SHRIMPU-Pb年龄为18.3±0.4Ma;中粗粒黑云母二长花岗岩的K-Ar年龄为9.80±0.35Ma,Rb-Sr等时线年龄为9.33±0.41Ma,SHRIMPU-Pb年龄为11.01±0.24Ma。不同方法测年结果均表明念青唐古拉花岗岩形成于中新世,属拉萨地块内部最年轻的巨型花岗岩岩基,其侵位结晶时代处于青藏高原地壳由南北向挤压增厚向东西向伸展的转变时期,岩浆来源于地壳局部熔融,属后碰撞构造-岩浆活动的产物。     

福建行洛坑大型钨矿的地质特征、成矿时代及其找矿意义

行洛坑钨矿是目前福建最大也是武夷山成矿带最大的钨矿,已知储量主要分布于岩体内部,宜归属于斑岩型钨矿范畴。本文通过Re-Os法和Rb-Sr等时线法测定花岗岩体中辉钼矿的Re-Os等时线年龄为156.3±4.8Ma,石英脉中流体包裹体的Rb-Sr等时线年龄为147.5±2.9Ma,表明成矿作用与岩浆岩的形成基本同步,并延续了大约10Ma。因此,行洛坑钨矿虽然属于斑岩型钨钼矿但岩体以外的空间也可能找到石英脉钨矿,而整个武夷山成矿带中生代持续而复杂的成矿历史预示了其良好的找矿前景。     

金沙江缝合带元古宙残留基底的发现——来自同位素地质年龄的证据

应用颗粒锆石U－Pb法和Rb-Sr全岩等时线法重新研究了金沙江东同办洼龙地区原统归于早二叠世额阿钦群中的一套高级变质岩系的原岩时代和变质时代。其中含蓝晶石二云母片岩Rb-Sr等时线年龄为（432±35）Ma;而斜长角闪岩U－Pb锆石的上交点年龄为（1627±192）Ma,暗示这套变质岩系的原岩时代应大于（1627±192）Ma。（432±35）Ma的Rb-Sr等时线年龄可能代表其变质时代,首次提出金沙江地区应存在早中元古代残留变质其底或策陆块,层位上可与劳山杂岩对比,金沙江缝合带和牢山缝合带是相关联的同一条缝合带。     

云开隆起金矿带流体包裹体Rb-Sr等时线年龄

首次测定了云开隆起金矿带河台、新洲金矿石英中流体包裹体Rb-Sr等时线年龄。新洲金矿一条等时线年龄为(431±12)Ma；另一条年龄(133.1±12.5)Ma。河台矿区获3条等时线，年龄分别为(121.9±14.1)Ma、(129.6±6.1)Ma和(129.3±4.1)Ma。结合矿区岩石和矿物的U-Pb、Rb-Sr和K-Ar年龄以及矿石铅同位素年龄资料得出结论，自震旦纪以来(矿床围岩时代为震旦纪)，本区经历了多期(主要是加里东期和燕山期)地质作用，包括构造-岩浆活动和变质-混合岩化作用，金矿的形成和演化与这些地质作用有紧密的关系，但成矿作用主要在燕山中-晚期。     

塔里木地台西南缘皮山煌斑岩的^40Ar／^39Ar年龄及其地质意义

塔里木地台西南缘皮山县煌斑岩脉群为超钾系列的煌斑岩,侵位于元古宇角门片岩中。经~(40)Ar/~(39)Ar法测定,煌斑岩中金云母的等时线年龄为(231.7±0.3)Ma,全岩等时线年龄为(228.5±0.3)Ma。地球化学数据指示其源区为受俯冲     

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     

赣南—粤北版石群及其地质时代

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,其中上火山岩系称为版石群。根据岩性岩相特征,版石群可进一步划分为两个岩组:下岩组称为合水组,以砾岩、砂岩、页岩等沉积岩为主、夹火山岩,代表火山活动初始期的产物;上岩组称为优胜组,岩性为流纹岩、流纹质凝灰岩、熔结凝灰岩,代表火山活动喷发期的产物。长塘盆地优胜组熔结凝灰岩全岩RbSr等时线年龄为89.5Ma;仁差盆地优胜组流纹岩全岩RbSr等时线年龄为91.9～94Ma,熔结凝灰岩锆石UPb法年龄为86.5Ma,次流纹斑岩锆石UPb法年龄为93.5Ma;菖蒲盆地优胜组流纹岩全岩RbSr等时线年龄为104Ma;版石盆地优胜组流纹岩全岩RbSr等时线年龄为72.2Ma,全岩KAr法年龄为77.6Ma,可见版石群优胜组的地质时代为早白垩世晚期—晚白垩世早期。另外,合水组的生物化石反映出早白垩世的特征,因此,将版石群置于早白垩世—晚白垩世早期是可信的。     

西藏墨竹工卡县甲玛铜多金属矿不同矿石中辉钼矿Re-Os同位素定年及其成矿意义

西藏墨竹工卡县甲玛铜多金属矿中,辉钼矿普遍发育,产于各类矿石中,尤其在矽卡岩型和角岩型矿石中最常见,其次是斑岩型矿石,极少量产于大理岩和结晶灰岩型矿石中。本文采集了甲玛铜多金属矿矽卡岩、角岩和斑岩中不同产状、不同形态的辉钼矿,进行Re-Os同位素定年,获得了27件样品的模式年龄为14.2~17.5 Ma,等时线年龄为15.22±0.59 Ma。其中,斑岩型辉钼矿等时线年龄为14.78±0.33 Ma,角岩型辉钼矿等时线年龄为14.67±0.19 Ma,结果一致。辉钼矿中187Re含量变化于38.75~387.4 g/g,其中,角岩中辉钼矿187Re含量为121.5~387.4 g/g,矽卡岩中为123.7~304.7 g/g,含量较高,而斑岩中辉钼矿的187Re含量相对较低,38.75~130.5 g/g,平均69.0 g/g;辉钼矿187Os含量变化情况基本与187Re相同。甲玛辉钼矿187Re值与冈底斯其他矿体的值对比,显示冈底斯成矿带斑岩－矽卡岩型矿床成矿原岩具有相对较高187Re值的特点。本文研究成果表明,甲玛大型铜多金属矿床形成于中新世Langhian期,辉钼矿为主成矿期的产物之一。鉴于辉钼矿的产出状态,以及其与黄铜矿等的共生组合关系,辉钼矿的成矿时代可代表矿区内主要矿石矿物的成矿时代,且与冈底斯成矿带上一大批大中型斑岩型铜矿的成矿时代一致,成矿集中在20~10 Ma之间,形成于印度大陆与亚洲大陆碰撞之后,从而否定了前人海底喷流沉积的成因观点,为矿区内及其外围进一步的找矿指明了方向。     

桂西北地区石英斑岩脉白云母40Ar/39Ar 年龄及其地质意义

华南西部右江褶皱带内部燕山晚期岩浆岩主要为成群分布的基性- 超基性岩墙群和超酸性岩脉带。本文对桂西北巴
马-凤山-凌云一带的石英斑岩脉进行了斑晶白云母40Ar/39Ar 法测年,获得凤山弄黄北东向岩脉的40Ar/39Ar 坪年龄为（95.59
±0.68）Ma,相应的等时线年龄为（95.0±1.0）Ma;巴马北西向岩脉的坪年龄为（96.54±0.70）Ma,相应的等时线年龄为
（95.91±1.1）Ma。上述年龄代表了岩脉的侵位年龄。这些年龄数据进一步证明右江褶皱带及其周缘燕山期岩浆活动集中于
80~100 Ma 之间,暗示该区晚白垩世发生了大规模的岩石圈伸展减薄事件。华南西部晚白垩世花岗质岩浆活动与大规模的
锡多金属成矿有关,因此桂西北地区石英斑岩集中出露的地方是否具有寻找深部锡多金属矿的前景值得关注。同时,该期
岩浆活动是否与以卡林型金矿为代表的低温热液矿床有成因上的联系尚需更多矿床地质和年代学资料的证实。     

黑龙江三道湾子金矿床火山岩-次火山岩年代学、地球化学和地质意义

三道湾子金矿床位于小兴安岭北麓,是典型的以碲金化合物为主的矿床,为了限定其成矿时代和厘定其成矿地质背景,笔者对同成矿地质体火山岩和成矿期后的玄武粗安玢岩的单颗粒锆石U-Pb年龄和元素地球化学进行测定,获得同成矿地质体粗面英安斑岩及玄武粗安玢岩的~(206)Pb/~(238)U年龄加权平均值分别为(124.2±0.9)Ma(MSWD=0.5,n=18)和(118.9±2.3)Ma(MSWD=0.5,n=6);赋矿围岩为玄武粗安岩与同成矿地质体粗面英安斑岩,Si O2含量为52.75%~62.30%,K_2O和Na_2O含量分别为2.02%~2.85%和3.96%~4.24%。里特曼指数(δ)在0.85~3.67之间,属于钙碱性到高钾钙碱性岩系特征;成矿期后脉岩玄武粗安玢岩,SiO_2含量为51.53%~52.32%,K_2O含量为2.30%~2.36%,Na_2O含量为3.78%~4.14%,里特曼指数(δ)在4.05~4.86之间;微量和稀土元素均显示富集大离子亲石元素(Cs、K、Rb、Ba、LREE等),相对亏损高场强元素(Nb、Ta、Zr、Hf等)和HREE,特别是强烈亏损Th、U和Nb、Ta的特征,与岛弧钙碱性玄武岩相似。研究揭示了该矿床形成于早白垩世(124~119 Ma)或晚中生代造山后伸展构造环境,成矿热动源可能是交代大洋性质的岩石圈地幔。     

新疆伊吾琼河坝地区铜、金矿成矿时代及其找矿前景

文章采用高分辨率、高灵敏度离子探针(SHRIMP)和Rb-Sr等时线定年技术,对新疆伊吾琼河坝地区的云英山斑岩铜矿和淖毛湖北山金矿床的岩体和矿体进行了年代学研究,获得云英山斑岩铜矿区内斜长花岗斑岩体SHRIMP锆石U-Pb年龄为(411.7±7.1)Ma(95%置信度,MSWD=3.0),该矿床的含矿石英脉石英矿物Rb-Sr等时线年龄为(357±15)Ma(95%置信度,MSWD=0.16);淖毛湖北山金矿含矿石英脉中石英矿物Rb-Sr等时线年龄为(346±10)Ma(95%置信度,MSWD=0.19).测定结果显示,该区斑岩型铜矿和破碎带蚀变岩型金矿的形成时间为晚泥盆世-早石炭世,表明云英山式斑岩型铜金矿和淖毛湖式金矿成矿作用与泥盆纪-石炭纪汇聚阶段的火山-次火山岩浆活动有关,也意味着在琼河坝地区具有寻找与火山作用有关的铜、金多金属矿的潜力.     

新疆准噶尔北缘玉勒肯哈腊苏铜(钼)矿区韧性剪切变形时代——来自白云母和黑云母Ar-Ar年龄的约束

玉勒肯哈腊苏斑岩铜(钼)矿主要赋存于闪长玢岩中,少量在北塔山组火山岩及似斑状石英二长岩中。矿化呈细脉状、细脉-浸染状和浸染状。成矿过程经历了斑岩期、剪切变形期和表生期。矿区发育韧性剪切变形带,中泥盆统北塔山组、下石炭统姜巴斯套组、岩体及矿体均发生了剪切变形作用。沿剪切面发育黑云母和白云母新生矿物。白云母的坪年龄和等时线年龄分别为283.8±1.5Ma和285.4±3.1Ma,黑云母的坪年龄和等时线年龄分别为277.0±2.0Ma和277.0±4.0Ma,在误差范围内基本一致,限定矿区韧性剪切变形时间在早二叠世(284～277Ma),与区域额尔齐斯-玛因鄂博断裂活动时间一致。主要成矿作用形成于斑岩期,成矿时代为中泥盆世(374Ma),早二叠世的韧性剪切变形作用只对铜(钼)矿化进行改造。     

Re–Os and U–Pb Geochronology of Porphyry and Skarn Types Copper Deposits in Jilin Province,NE China

Jilin Province in NE China lies on the eastern edge of the Xing–Meng Orogenic Belt. Mineral exploration in this area has resulted in the discovery of numerous large, medium, and small sized Cu, Mo, Au, and Co deposits. To better understand the formation and distribution of both the porphyry and skarn types Cu deposits of the region, we examined the geological characteristics of the deposits and applied zircon U–Pb and molybdenite Re–Os isotope dating to constrain the age of the mineralization. The Binghugou Cu deposit yields a zircon U–Pb age for quartz diorite of 128.1 ± 1.6 Ma; the Chang'anpu Cu deposit yields a zircon U–Pb age for granite porphyry of 117.0 ± 1.4 Ma; the Ermi Cu deposit yields a zircon U–Pb age for granite porphyry of 96.8 ± 1.1 Ma; the Tongshan Cu deposit yields molybdenite Re–Os model ages of 128.7 to 130.2 Ma, an isochron age of 129.0 ± 1.6 Ma, and a weighted mean model age of 129.2 ± 0.7 Ma; and the Tianhexing Cu deposit yields molybdenite Re–Os model ages of 113.9 to 115.2 Ma, an isochron age of 114.7 ± 1.2 Ma, and a weighted mean model age of 114.7 ± 0.7 Ma. The new ages, combined with existing geochronology data, show that intense porphyry and skarn types Cu mineralization was coeval with Cretaceous magmatism. The geotectonic processes responsible for the genesis of the Cu mineralization were probably related to lithospheric thinning. By analyzing the accumulated molybdenite Re–Os, zircon U–Pb, and Ar–Ar ages for NE China, it is concluded that the Cu deposits formed during multiple events coinciding with periods of magmatic activity. We have identified five phases of mineralization: early Paleozoic (~476 Ma), late Paleozoic (286.5–273.6 Ma), early Mesozoic (~228.7 Ma), Jurassic (194.8–137.1 Ma), and Cretaceous (131.2–96.8 Ma). Although Cu deposits formed during each phase, most of the Cu mineralization occurred during the Cretaceous.     

Geology and geochronology of the Xilamulun molybdenum metallogenic belt in eastern Inner Mongolia,China

The Xilamulun molybdenum metallogenic belt, located in eastern Inner Mongolia, China, has great economic potential as a major producer of molybdenum. Four major types of Mo deposits have been recognized in the Xilamulun molybdenum metallogenic belt: porphyry, quartz vein, volcanic-hosted, and greisen. These Mesozoic Mo deposits are closely related to Si- and K-rich intrusives and are usually hosted by granite plutons or located at the endo- or exo-contact zones of the granite porphyry. SHRIMP zircon U–Pb dating gives the emplacement ages of the intrusions related to Mo mineralization as 245.1 ± 4.4, 152.4 ± 1.6, and 139.1 ± 2.3 Ma. Re–Os analysis of five molybdenite samples from the Chehugou porphyry Mo deposit yields an isochron age of 245 ± 5 Ma (2σ), indicating that the mineralization age of the porphyry Mo deposit is about 245 Ma. Re–Os analyses of six molybdenite samples from the Nianzigou quartz-vein-type Mo deposit yield an isochron age of 154.3 ± 3.6 Ma (2σ), constraining the mineralization age of the quartz-vein Mo deposit to 154 Ma. Our results suggest that the Mo mineralization in the Xilamulun belt formed during at least three stages, i.e., the Triassic, Late Jurassic, and Early Cretaceous, and is coeval with the granitic magmatism. The corresponding geodynamic background covers the syncollision between the North China and Siberian plates during the Early to Middle Triassic, a compression setting related to the subduction of the Paleo-Pacific plate during the Jurassic and lithospheric thinning during the Early Cretaceous in eastern China.     

Lithogeochemical,Re–Os and U–Pb Geochronological,Hf–Lu and S–Pb Isotope Data of the Ga'erqiong‐Galale Cu–Au Ore‐Concentrated Area: Evidence for the Late Cretaceous Magmatism and Metallogenic Event in the Bangong‐Nujiang Suture Zone,Northwestern Tibet,China

The Ga'erqiong‐Galale skarn–porphyry copper–gold ore‐concentrated area is located in the western part of the Bangong‐Nujiang suture zone north of the Lhasa Terrane. This paper conducted a systematic study on the magmatism and metallogenic effect in the ore‐concentrated area using techniques of isotopic geochronology, isotopic geochemistry and lithogeochemistry. According to the results, the crystallization age of quartz diorite (ore‐forming mother rock) in the Ga'erqiong deposit is 87.1 ± 0.4 Ma, which is later than the age of granodiorite (ore‐forming mother rock) in the Galale deposit (88.1 ± 1.0 Ma). The crystallization age of granite porphyry (GE granite porphyry) in the Ga'erqiong deposit is 83.2 ± 0.7 Ma, which is later than the age of granite porphyry (GL granite porphyry) in the Galale deposit (84.7 ± 0.8 Ma).The quartz diorite, granodiorite, GE granite porphyry and GL granite porphyry both main shows positive ε_Hf(t) values, suggesting that the magmatic source of the main intrusions in the ore‐concentrated area has the characteristics of mantle source region. The Re–Os isochron age of molybdenite in the Ga'erqiong district is 86.9 ± 0.5 Ma, which is later than the mineralization age of the Galale district (88.6 ± 0.6 Ma). The main intrusive rocks in the ore‐concentrated area have similar lithogeochemical characteristics, for they both show the relative enrichment in large‐ion lithophile elements(LILE: Rb, Ba, K, etc.), more mobile highly incompatible lithophile elements(HILE: U, Th) and relatively depleted in high field strength elements (HFSE: Nb, Ta, Zr, Hf, etc.), and show the characteristics of magmatic arc. The studies on the metal sulfides' S and Pb isotopes and Re content of molybdenite indicate that the metallogenic materials of the deposits in the ore‐concentrated area mainly come from the mantle source with minor crustal source contamination. Based on the regional tectonic evolution process, this paper points out that the Ga'erqiong‐Galale copper–gold ore‐concentrated area is the typical product of the Late Cretaceous magmatism and metallogenic event in the collision stage of the Bangong‐Nujiang suture zone.