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滇西云县地区中二叠世火山岩的发现及其对昌宁-孟连古特提斯洋俯冲作用的约束

  • 刘军平1,2,3

    机 构:

    1. 云南省地质调查院,云南昆明, 650216

    2. 中国地质大学地球科学与资源学院,北京, 100083

    3. 自然资源部三江成矿作用及资源勘查利用重点实验室,云南昆明, 650051

    ×
  • 宛胜4

    机 构:

    4. 江西省地质调查院,江西南昌, 330000

    ×
  • 田素梅1

    机 构:

    1. 云南省地质调查院,云南昆明, 650216

    ×
  • 王伟1

    机 构:

    1. 云南省地质调查院,云南昆明, 650216

    ×
  • 包佳凤1

    机 构:

    1. 云南省地质调查院,云南昆明, 650216

    ×

1. 云南省地质调查院,云南昆明, 650216;
2. 中国地质大学地球科学与资源学院,北京, 100083;
3. 自然资源部三江成矿作用及资源勘查利用重点实验室,云南昆明, 650051;
4. 江西省地质调查院,江西南昌, 330000;

Discovery of the Middle Permian volcanic rocks in the Yunxian area, western Yunnan and constraints on subduction of the Changning-Menglian Paleo-Tethys Ocean

  • LIU Junping1,2,3

    Affiliation:

    1. Yunnan Institute of Geological Survey, Kunming, Yunnan 650216 , China

    2. School of Earth Science and Resources, China University of Geosciences, Beijing 100083 , China

    3. Key Laboratory of Sanjiang Metallogeny and Resources Exploration and Utilization, MNR, Kunming,Yunnan 650051 , China

    ×
  • WAN Sheng4

    Affiliation:

    4. Geological Survey of Jiangxi Province, Nanchang, Jiangxi 330000 , China

    ×
  • TIAN Sumei1

    Affiliation:

    1. Yunnan Institute of Geological Survey, Kunming, Yunnan 650216 , China

    ×
  • WANG Wei1

    Affiliation:

    1. Yunnan Institute of Geological Survey, Kunming, Yunnan 650216 , China

    ×
  • BAO Jiafeng1

    Affiliation:

    1. Yunnan Institute of Geological Survey, Kunming, Yunnan 650216 , China

    ×

1. Yunnan Institute of Geological Survey, Kunming, Yunnan 650216 , China;
2. School of Earth Science and Resources, China University of Geosciences, Beijing 100083 , China;
3. Key Laboratory of Sanjiang Metallogeny and Resources Exploration and Utilization, MNR, Kunming,Yunnan 650051 , China;
4. Geological Survey of Jiangxi Province, Nanchang, Jiangxi 330000 , China;

作者简介:

刘军平,男,1983年生。高级工程师,从事区域地质与构造地质调查研究。E-mail:271090834@qq.com。

通讯作者:

宛胜,男,1985年生。工程师,从事区域地质与矿产地质调查研究。E-mail:214879248@qq.com。

DOI:10.19762/j.cnki.dizhixuebao.2022257

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目录contents

    摘要

    多年来,对滇西云县-南涧一带广泛出露的中晚三叠世火山岩的形成时代及大地构造属性一直存在争议。出露于云县漫湾地区的原划中三叠统忙怀组中新发现有厚数米的英安岩、英安质凝灰岩夹流纹岩、凝灰岩组合。本次研究采集英安岩D0001进行锆石U-Pb LA-ICP-MS定年,获得262.5±3.1Ma的岩浆结晶年龄和447.4±9.1Ma的继承性年龄,时代厘定为中二叠世晚期,而非前人认为的中三叠世。对岩石组合、同位素测年及地球化学的详细研究表明,这套火山岩属石炭-二叠系龙洞河组,为一套中酸性火山岩组合;SiO2含量68.14%~74.62%,Eu负异常,在TAS图解中全部落入英安岩-流纹岩区;微量元素蛛网图明显富集Rb、Th、Ce等大离子亲石元素,亏损Nb、Ta、Ti等高场强元素,具典型火山岛弧特征,是目前临沧岩浆弧发现的最为年轻的岛弧型酸性火山岩记录,其岩浆源区为受壳源物质混染的下地壳镁铁质岩石部分熔融;应为早中二叠世昌宁-孟连洋向东俯冲的产物。本次的发现,为西南三江地区昌宁-孟连洋向东俯冲提供有利的岩石学记录及时代约束,也为石炭-二叠系龙洞河组北延提供有利支撑,澜沧江断裂以西区域前人划分的忙怀组的分布范围和规模需要重估。

    Abstract

    For many years, there have been controversies over the formation time and tectonic attributes of the volcanic rocks of the late Triassic that are widely exposed from Yunxian to Nanjian, western Yunnan. A few meters of thick dacite, dacite tuff intercalated with rhyolite and tuff were newly discovered in the original Middle Triassic Manghuai Formation in the Manwan area of Yunxian County. In this study, the zircon U-Pb LA-ICP-MS dating was carried out on D0001 andesite, and the magmatic crystallization age of 262.5±3.1 Ma and the inherited age of 447.4±9.1 Ma were obtained. The age was determined to be late Middle Permian, not the Middle Triassic as considered by predecessors. The detailed study of rock assemblage isotopic dating and geochemistry shows that the volcanic rocks belong to the Carboniferous-Permian Longdonghe Formation and are a set of intermediate-acid volcanic rock assemblages. The content of SiO2 (68.14%~74.62%) has weak deficit in varying degrees and falls into the dacite-rhyolite area in the TAS diagram. The trace element cobwebs are obviously enriched in Rb, Th, Ce and other large ion lithophile elements and depleted in high field strength elements such as Nb, Ta, Ti, which are characterized by volcanic island arc.It is the youngest island-arc acid volcanic record within the Lincang magmatic arc. The magma source area is the partial melting of mafic rocks in the lower crust mixed with crust source materials. It should be the product of the eastward subduction of the early and middle Permian Changning-Menglian Ocean. This discovery provides favorable petrological records and chronological constraints for the eastward subduction of the Changning-Menglian Ocean in the Sanjiang area in the southwest, and also provides favorable support for the north extension of the Carboniferous-Permian Longdonghe Formation. The distribution and scale of the Manghuai Formation needs to be reassessed.

  • 滇西地处欧亚板块与印度板块的结合部位,是原/古特提斯构造域的重要组成部分,是研究特提斯构造演化的重要场所。自20世纪80年代以来,国内外学者在该区针对原/古特提斯的演化进行了大量的研究,相继报道了远洋沉积、洋岛/海山组合、蛇绿混杂岩、洋岛玄武岩、高压蓝闪石片岩、俯冲增生杂岩、榴辉岩、洋内弧火山岩、岛弧花岗岩等,均证实原/古特提斯洋在该区的存在及其主洋盆为昌宁-孟连洋盆(Mo Xuanxue et al.,1993; Liu Benpei et al.,19932002; Pan Guitang et al.,2003; Kong Huilei et al.,2012; Mao Xiaochang et al.,2012; Liu Junping et al.,20172020; Wang Baodi et al.,2018; Lü Liuyan et al.,2019; Han Wenwen et al.,2020)。而且,最新资料表明昌宁-孟连结合带所代表的特提斯洋在早古生代至晚古生代可能是一个连续演化的大洋; 铜厂街蛇绿混杂岩及湾河蛇绿混杂岩是昌宁-孟连特提斯洋消亡的残迹(Wang Baodi et al.,2018)。昌宁-孟连带以三叠纪碰撞型花岗岩和同时期的火山岩研究程度较高,而西南三江南段经历了碰撞后的伸展剥蚀作用及新生代印度-欧亚大陆碰撞作用,导致与古特提斯洋俯冲型相关的岩浆活动及沉积记录难以保存,目前仅昌宁-孟连洋南段大勐龙地区曼兵一带有二叠纪俯冲型花岗岩报道(Peng Zhimin et al.,2020; Sun Zaibo et al.,2020)。而昌宁-孟连洋中段云县-南涧一带向东俯冲典型的二叠纪弧火山岩目前均无报道,仅有三叠纪碰撞型花岗岩及无量山岩群志留纪弧火山岩报道(Liu Junping et al.,2019); 由此在昌宁-孟连洋中段寻找二叠纪弧火山岩成为目前研究的方向,对古特提洋俯冲南北岩浆活动贯穿及重塑其构造演化极为重要。

  • 本次在野外调查和岩石学观察基础上,选取原划中三叠统忙怀组新发现的英安岩为研究对象,利用LA-ICP-MS对岩石中的锆石进行精确U-Pb定年,结合英安岩锆石形态特征、地球化学特征和构造演化等,为该套火山岩的时代、地层归属提供新的年代学依据,也为昌宁-孟连洋中段云县-南涧一带向东俯冲提供有利的岩石学记录及时代约束。

  • 1 区域地质背景

  • 研究区位于滇西云县公郎镇哨街乡,构造上位于羌塘-三江造山系和班公湖-双湖-怒江-昌宁-孟连对接带,地层属于华南地层大区、羌北-昌都-思茅地层区、兰坪-思茅地层分区的澜沧地层小区及漾濞地层小区(图1)。区域出露地层以古元古界、中元古界、中生界为主,发育大量二叠纪、三叠纪花岗岩体,少量新生代地层(图1),1∶25万凤庆幅根据岩石组合把澜沧江断裂以西云县漫湾地区施家村—大村一带的火山岩夹火山碎屑岩对比为中三叠统忙怀组(T2m),并无同位素年龄约束,其呈北西向展布,与三叠纪花岗岩呈侵入接触; 区内古元古界崇山岩群为一套角闪岩相深变质岩; 中元古界团梁子岩组为一套绿片岩相浅变质岩; 三叠纪地层为一套海陆交互相碎屑岩、碳酸盐岩沉积,侏罗系漾江组为一套碎屑岩陆相沉积; 新近系三营组为一套成熟度低的碎屑岩河湖相沉积。

  • 本次研究的样品采自澜沧江断裂带以西,层位属原划中三叠统忙怀组(T2m),地点在云县漫湾镇施家村(图1)。在漫湾施家村一带,原中三叠统忙怀组(T2m)总体呈北西向展布,东、西两侧均被三叠纪粗粒黑云二长花岗岩侵入,出露厚度120 m左右,出露面积约15 km2; 大村一带与中元古界团梁子岩组浅变质岩呈断层接触,岩性为灰绿色英安岩、英安质凝灰岩夹流纹岩、凝灰岩及凝灰质粉砂岩(图2),岩石轻微变质,露头新鲜,本次采集同位素及地球化学样品为灰绿色英安岩。

  • 图1 滇西地区地质简图(a)及采样位置图(b)

  • Fig.1 Geological sketch map of western Yunnan area (a) and sampling location map (b)

  • N2s —三营组; J1y —漾江组; T3m —麦初箐组; T3wl—挖鲁八组; T3sh —三合洞组; T3w —歪古村组; T2m —忙怀组; Pz1W —无量山岩群; Pt2t —团梁子岩组; Pt1C —崇山岩群; ηγaT1—早三叠世细粒二长花岗岩; ηγcT3—三叠纪粗粒二长花岗岩; ηγbT3—三叠纪中粒二长花岗岩; ηγaT3—晚三叠世细粒二长花岗岩; ηγP2—二叠纪二长花岗岩; ηδP2—二叠纪花岗闪长岩; Ⅶ-1—昌宁-孟连结合带; Ⅶ-2—临沧地块; Ⅶ-3—思茅地块; Ⅶ-4—楚雄盆地; 1—一级界线; 2—二级界线; 3—整合界线; 4—渐变过渡界线; 5—断层; 6—采样位置及编号; 7—大地构造编号; 8—研究区

  • N2s —Sanying Formation; J1y —Yangjiang Formation; T3m —Maichuqing Formation; T3wl —Waluba Formation; T3sh3—Sanhedong Formation; T3w —Waigucun Formation; T2m —Manghuai Formation; Pz1W —Wuliangshan Group; Pt2t —Tuanliangziyan Formation; Pt1C —Chongshan Group; ηγaT1—Early Triassic fine-grained monzonitic granite; ηγcT3—Triassic coarse-grained monzonitic granite; ηγbT3—Triassic medium-grain monzonitic granite; ηγaT3—Late Triassic fine-grain monzonitic granite; ηγP2—Permian monzonitic granite; ηδP2—Permian granodiorite; Ⅶ-1—Changning-Menglian junction; Ⅶ-2—Lincang block; Ⅶ-3—Simao block; Ⅶ-4—Chuxiong basin; 1—first-order tectonic unit boundary; 2—second-order tectonic unit boundary; 3—conformity boundary; 4—gradual transition boundary; 5—fault; 6—sampling location and number; 7—tectonic unit number; 8—study area

  • 图2 滇西云县地区中二叠世火山岩采样剖面图

  • Fig.2 Sampling section of Middle Permian volcanic rocks in Yunxian area, western Yunnan

  • 1 —黑云二长花岗岩; 2—凝灰质粉砂岩; 3—英安质凝灰岩; 4—英安岩; 5—凝灰岩; 6—流纹岩; 7—侵入界线; 8—产状; 9—忙怀组; 10—中三叠世黑云二长花岗岩; 11—同位素及地球化学样品采样位置

  • 1 —Biotite monzonitic granite; 2—tuffaceous siltstone; 3—dacite tuff; 4—dacite; 5—tuff; 6—rhyolite; 7—intrusion boundary; 8—occurrence; 9—Manhuai Formation; 10—middle Triassic biotite granite; 11—isotope and geochemical sample locations

  • 灰绿色英安岩(D0001):岩石呈灰绿色,块状(图3a、b),岩石斑晶以自形中细晶斜长石(Pl)(23%)为主,有少量石英(Qz)(7%)、黑云母(Bi)(5%); 斑晶镶嵌于灰色微晶长英质基质中。偶见具铁泥质暗化边微粒长英质团块,似岩屑或似变斑晶,后期无构造影响。镜下特征见图3c、d。

  • 2 分析方法

  • 样品D0001为灰绿色英安岩,块状构造,岩石新鲜,发育斑状构造,见有斜长石、石英、黑云母变斑晶。锆石分选在南京宏创地矿完成,将样品先经手工粉碎,后按常规重力及电磁法浮选出锆石颗粒,最后在实体镜下挑选出纯正锆石约200余粒。锆石多为无色透明,个别呈浅黄色,粒状、短柱状、碎粒状,金刚光泽,透明,表面多具磨蚀特征,锆石长度一般为80~150 μm,少数达200 μm。选择晶型较好,无裂隙的锆石颗粒粘贴在环氧树脂表面制成锆石样品靶,打磨样品靶,使锆石的中心部位暴露出来,然后进行抛光。对锆石进行反射光、透射光显微照相和阴极发光(CL)图像分析,根据反射光、透射光及锆石CL图像,选择代表性的锆石颗粒和区域进行U-Pb测年。

  • 锆石U-Pb定年在湖北省地质实验室测试中心岩石矿物研究室分析完成。测试仪器采用美国Coherent Inc公司生产的GeoLasPro全自动版193nm ArF准分子激光剥蚀系统(LA)和美国Agilent公司生产的7700X型电感耦合等离子质谱仪(ICP-MS)联用构成的激光剥蚀电感耦合等离子体质谱分析系统(LA-ICP-MS)。另外激光剥蚀系统配置了由澳大利亚国立大学开发研制的匀化器,由10根长度不同的细PV管组成,激光剥蚀产生的细小粉末样品通过匀化器装置后,因通过长短不同的管道所需的时间略有不同而使样品脉冲信号得到平滑,从而能有效降低激光脉冲剥蚀样品而产生的信号波动。锆石微量元素含量利用NIST610作为外标,Si作为内标进行定量计算(Wu Yuanbao et al.,2004)。锆石U-Pb定年分析采用锆石标准年龄物质91500作为外标进行同位素分馏校正,每分析6~8个样品点分析2次91500。样品测试时,背景信号采集10 s,样品剥蚀40 s,管路吹扫10 s,信号采集时间总共为60 s。样品的同位素比值和元素含量采用ICPMSDataCal9.0进行处理分析,加权平均年龄的计算及锆石年龄谐和图的绘制采用Isoplot3.0(Ludwing,2003)来完成。采用年龄为206Pb/238U 年龄,其加权平均值的误差为2σ206Pb/238U(和207Pb/206Pb)平均年龄误差为95%置信度。

  • 图3 滇西云县地区漫湾英安岩野外露头(a)、手标本(b)、单偏光(c)及正交偏光(d)显微照片

  • Fig.3 Outcrop (a) , hand specimen (b) , plane-polarizing light (c) and orthogonal polarized light (d) microphotographs of the Manwan dacite in Yunxian area, western Yunnan

  • Pl—斜长石; Qz—石英; Bi—黑云母

  • Pl—Plagioclase; Qz—quartz; Bi—biotite

  • 选择5件岩石样品分别进行主量元素和微量元素分析(表1)。样品磨碎至200目后,在武汉上谱分析科技有限责任公司进行主量和微量元素分析测试。主量元素采用XRF法在AxiosmAX X-射线荧光光谱仪上分析完成,其中二价铁由化学滴定法测定。岩石粉末样品首先进行烧失量分析,然后将岩石粉末熔融制备样品,并标记样品名称以备测试,对中国标准参考物质 GSR-3 的分析结果表明,分析精度优于5%。微量元素利用 NexION300D 等离子质谱仪分析完成。样品溶解采用 1.5 mL HNO3+ 1.5 mL HF 混合酸在 Teflon 高压密闭熔样弹中进行,以确保所有难容矿物均被溶解。

  • 3 分析结果

  • 3.1 LA-ICP-MS锆石U-Pb定年

  • 本次用于锆石LA-ICP-MS U-Pb年龄测试的样品采集位置见图2,样品同位素分析数据见表1。灰绿色英安岩的锆石均为无色透明,以柱状、短柱状为主,长度变化于80~200 μm,长宽比1.5~3.5,在阴极发光图像上(图4),形态以大颗粒板状为主,韵律环带发育,为岩浆成因锆石特征。共测定53颗锆石的53个测点,分析结果见表1,锆石U-Pb谐和图见图5,其中52个测点的年龄一致,且都位于谐和线上及其附近,206Pb/238U年龄变化于286.7±4.3~238.4±6.6 Ma之间,年龄加权平均值为262.5±3.1 Ma(MSWD=3.5); 相应测点的Th、U含量变化区间分别为26.1×10-6~1327.9×10-6和59.7×10-6~1427.2×10-6,且线性关系良好,Th/U值变化于0.3~0.9之间,为典型的岩浆锆石成因; 262.5±3.1 Ma代表英安岩的喷发时代。测点45打在锆石核部,其206Pb/238U年龄为447.4±9.1 Ma,应为继承性锆石年龄或捕获围岩锆石年龄。

  • 3.2 地球化学特征

  • 3.2.1 主量元素

  • 漫湾英安岩的主量元素数据见表2。云县漫湾英安岩样品SiO2含量68.14%~74.62%(平均71%),Al2O3含量13.13%~16.68%(平均14.57%),Na2O+K2O=6.75%~10.35%,K2O/Na2O=0.25~1.09(平均0.66),K2O/Na2O<1,属钠质火山岩; 样品烧失量为0.45%~1.15%,说明岩石较新鲜,未发生较强蚀变。在TAS图解(图6a)中,火山岩全部落入英安岩-流纹岩区域,5件样品定名与镜下鉴定成果无差别。SiO2-K2O图解(图6b)中,样品点大部分位于高钾钙碱性系列,表明该英安岩为高钾钙碱性钠质火山岩。

  • 3.2.2 稀土元素和微量元素

  • 漫湾英安岩的稀土总量ΣREE为249.26×10-6~368.83×10-6,具有明显的轻稀土富集,重稀土亏损的特征,稀土元素球粒陨石标准化曲线(图7a)右倾型;(La/Yb)N=8.56~10.99,δEu=0.51~0.86,δCe=0.82~0.98,球粒陨石标准化模式图显示其具明显Eu负异常特征(图7a)。

  • 图4 滇西云县地区漫湾英安岩的代表性锆石阴极发光(CL)图像

  • Fig.4 The CL images of representative zircons from the Manwan dacite in Yunxian area, western Yunnan

  • 图5 滇西云县地区漫湾英安岩的锆石U-Pb年龄谐和图

  • Fig.5 Concordia plot of the zircon U-Pb age data of the Manwan dacite in Yunxian area, western Yunnan

  • 图6 滇西云县地区漫湾英安岩TAS图解(a,据Middlemost et al.,1994)与SiO2-K2O图解(b,据Peccerillo et al.,1976

  • Fig.6 Diagrams of TAS (a, after Middlemost et al., 1994) and SiO2-K2O (b, after Peccerillo et al., 1976) of the Manwan dacite in Yunxian area, western Yunnan

  • 在原始地幔标准化微量元素蛛网图(图7b)上,漫湾英安岩富集Rb、Th、La、Ce等元素,具有明显的Nb、Ta、Ti、Sr亏损,反映出英安岩岩浆部分熔融或结晶分异过程中具有斜长石与角闪石的分离,显示出典型岛弧火山岩的特征。

  • 4 讨论

  • 4.1 漫湾英安岩形成时代

  • 多年来,对滇西云县—南涧一带广泛出露的中晚三叠世火山岩的形成时代及大地构造属性一直存在争议。Fan Weiming et al.(2009)在景洪邦沙地区忙怀组的致密块状岛弧安山岩获得248 Ma锆石U-Pb年龄; 研究区东侧景谷陶家村一带忙怀组中上部含双壳类及叶肢介化石,上部测得英安岩夹层237 Ma锆石U-Pb年龄,认为忙怀组上部限定为中三叠世拉丁期,其他地区均无年龄报道(Luo Liang et al.,2018); 1∶25万凤庆幅仅根据岩石组合把澜沧江断裂以西云县漫湾地区施家村—大村一带的火山岩夹火山碎屑岩对比为中三叠统忙怀组(T2m,并无同位素年龄约束。

  • 本文对云县漫湾地区英安岩岩中锆石矿物颗粒的内部结构研究表明,分析样品的锆石均具有较宽的振荡韵律环带(图4),无变质增生边,Th/U比值在0.3~0.9之间,属典型的岩浆结晶锆石,表明英安岩中的锆石是在岩浆系统中结晶形成。同一样品在不同实验室测试的数据完全一致,获得的加权平均年龄分别为262.5±3.1 Ma(图5),代表了该英安岩的岩浆结晶时代。由此,可以认为云县漫湾大村一带分布的一套中酸性火山岩系的喷发时代为262.5 Ma,为中二叠世晚期,而非前人认为的中三叠世,结合岩石组合及大地构造位置,认为应归属为石炭-二叠系龙洞河组(CPl),为石炭-二叠系龙洞河组北延提供岩石学与年代学证据。

  • 表1 滇西云县地区漫湾英安岩的锆石LA-ICP-MS U-Pb年龄

  • Table1 LA-ICP-MS zircon U-Pb age data of the Manwan dacite in Yunxian area, western Yunnan

  • 表2 滇西云县地区漫湾英安岩的全岩主量(%)、微量和稀土(×10-6)元素分析数据

  • Table2 Whole-rock major (%) and trace (×10-6) element analyses of the Manwan dacite in Yunxian area, western Yunnan

  • 4.2 构造环境与岩浆源区

  • 云县漫湾地区中二叠世英安岩全岩主量元素TiO2含量偏低(0.2%~0.53%,平均0.36%),Al2O3含量为13.13%~16.68%; 在原始地幔标准化微量元素蛛网图(图7b)上,Rb、Th、Ce、U等LILE及LREE富集,Nb、Ta、Ti、Sr等HFSE亏损,显示典型的弧火山岩特征; La/Nb值与Ba/Nb值分别为5.45~7.54(平均6.23)、59~140(平均88.2),同样与典型的岛弧火山岩地球化学特征类似(Li Shuguang,1993)。在Y-Sr/Y图解构造环境判别图解(图8)中,所有样品都落入经典岛弧岩石区。结合锆石微量元素分析结果在Nb/Hf-Th/U 和Hf/Th-Th/Nb图解中(图9a、b),英安岩样品的锆石微量都落于岛弧相关锆石的区域。因此,漫湾英安岩属于典型的岛弧岩浆岩。

  • 图7 滇西云县地区漫湾英安岩球粒陨石标准化稀土元素配分图(a)和原始地幔标准化微量元素蛛网图(b)(原始地幔标准化数据、球粒陨石标准化数据引自Sun et al.,1989

  • Fig.7 Chondrite-normalized REE patterns (a) and primitive mantle-normalized trace elements patterns (b) from the Manwan dacite in Yunxian area, western Yunnan (primitive mantle and chondrite normalized data after Sun et al., 1989)

  • 图8 滇西云县地区漫湾英安岩Y-Sr/Y图解(据Defant et al.,1990)

  • Fig.8 Diagram of Y-Sr/Y of the manwan dacite in Yunxian area, western Yunnan (after Defant et al., 1990)

  • 岛弧型岩浆的成因目前公认的有三种,一种认为形成于初生地壳物质的部分熔融(Atherton et al.,1985),另一种认为形成于俯冲洋壳的部分熔融(Drummond et al.,1990); 还有一种认为是镁铁质下地壳的部分熔融(Atherton et al.,1993)。漫湾英安岩的Mg#值(29.0~44.0,平均35.0)和Hf元素富集特征与镁铁质下地壳部分熔融的岩浆产物(以Mg#一般小于40,富Hf为特征)较为一致(Atherton et al.,1993),因此,认为漫湾英安岩为下地壳镁铁质岩石部分熔融形成。结合漫湾英安岩强烈亏损Nb、Ta、Ti等特征,说明岩浆源区可能有壳源物质的加入或者受到俯冲沉积物的混染。

  • 4.3 大地构造意义

  • 昌宁-孟连古特提斯经历了早古生代晚期—晚古生代特提斯洋俯冲消减、晚二叠世末—早三叠世主碰撞汇聚、晚三叠世晚碰撞造山等阶段的演化过程(Wang Baodi et al.,2018; Liu Junping et al.,2020)。晚古生代特提斯洋俯冲消减过程沉积了以鲕粒-生物碎屑灰岩为主的石炭系—二叠系渔塘寨组(CPy)、以洋盆深水硅质岩、硅质泥岩、放射虫硅质岩、大洋玄武岩为主的石炭系—二叠系光色组(CPg),及本次发现的以中酸性火山岩为主的石炭系-二叠系龙洞河组(CPl),总体构成了洋盆-洋岛-海山-弧后盆地古地理格局; 而在其东侧的临沧-勐海地块,由于昌宁-孟连洋壳的东向俯冲消减,在临沧-景洪一带出现岩浆活动,主要岩石类型为闪长岩-石英闪长岩-花岗闪长岩组合,锆石U-Pb年龄主要集中在269~334 Ma(Kong Huilei et al.,2012Sun Zaibo et al.,2015; Wang Baodi et al.,2018),显示了汇聚型大陆边缘岩浆弧花岗岩的特点。本文获得的262.5±3.1 Ma(MSWD=3.5)岩浆年龄,比Yu Saiying et al.(2003)报道的侵位于变质岩系中或呈残留体分布于三叠纪二长花岗岩体中的花岗闪长岩锆石U-Pb年龄269 Ma晚6.5 Ma; 与Liu Junping et al.(2020)在滇西小湾地区弱过铝质花岗岩岩体锆石U-Pb年龄260.4 Ma相当; 笔者认为三江地区昌宁-孟连洋在晚古生代俯冲形成弧火山岩,可一直持续到中二叠世晚期(262.5 Ma),260.4 Ma左右发生弧-陆俯冲向碰撞汇聚转换作用(Liu Junping et al.,2020),根据目前可靠同位素资料显示昌宁-孟连洋向东俯冲时限应为334~262.5 Ma; 晚二叠世—早三叠世是缅泰马陆块与思茅地块碰撞初始阶段,其主碰撞时限应为254~246.4 Ma(Peng Touping et al,2008; Wei Junqi et al.2008; Wang Yuejun et al.,2010)而中—晚三叠世以来进入了碰撞造山与盆山转换阶段(时限230~210 Ma)。根据本次获得的岛弧型英安岩年龄,笔者认为昌宁-孟连古特提斯洋俯冲型的岩浆弧最晚时限为262.5 Ma,是目前临沧岩浆弧发现的最为年轻的岛弧型酸性火山岩记录,其岩浆弧的分布范围应向北延伸到云县-南涧一带,极大地丰富了临沧岩浆弧的分布范围,为昌宁-孟连古特提斯洋向东俯冲提供时代约束,也为昌宁-孟连古特提斯洋向东俯冲提供了可靠的同位素年龄及岩石学证据。

  • 图9 滇西云县地区漫湾英安岩锆石Th/U-Nb/Hf成因判别图(a)和Th/Nb-Hf/Th成因判别图(b)(据Carley et al.,2014)

  • Fig.9 Th/U-Nb/Hf (a) and Th/Nb-Hf/Th (b) diagrams of the zircon trace elements of the Manwan dacite in Yunxian area, western Yunnan (after Carley et al., 2014)

  • 本文共获得了样品D0001的53个有效的U-Pb同位素年龄值。其中,年龄值较老的1颗锆石应为岩浆上升过程中捕获的通道围岩的岩浆锆石,年龄值为447.4±9.1 Ma; 同期岩浆事件在牛井山中奥陶世O型埃达克质高镁英云闪长岩(Wang Dongbing et al.,2016)、惠民地区456~451 Ma火山活动以及临沧花岗岩基中的奥陶纪岩浆弧型花岗岩均有报道(Wang Dongbing et al.,2015; Nie X M et al.,2016)。与区域同期(456~445 Ma)岩浆活动及相关的高压变质事件,可能是原特提斯洋早古生代晚期向东俯冲消减与增生作用的产物(Wang Fang et al.,2017; Liu Junping et al.,2018; Wang Baodi et al.,2018)。

  • 5 结论

  • (1)首次在临沧岩浆弧带北部云县漫湾地区发现一套中二叠世火山岩,其LA-ICP-MS 锆石U-Pb 年龄为262.5±3.1 Ma(MSWD=3.5),表明喷发时代为中二叠世晚期,是目前临沧岩浆弧发现的最为年轻的岛弧型酸性火山岩记录,确认了西南“三江”造山带中段存在中二叠世晚期酸性火山岩浆事件,且澜沧江断裂以西区域前人划分的忙怀组的分布范围和规模需要重估。

  • (2)云县漫湾地区火山岩主要为一套中酸性火山岩夹火山碎屑岩组合,属高钾钙碱性系列,富集LILE,亏损HFSE,形成于岛弧环境,应重新归属为石炭-二叠系龙洞河组。

  • (3)云县漫湾火山岩形成于岛弧火山岩的大地构造背景,其岩浆源区为受壳源物质混染的下地壳镁铁质岩石部分熔融; 其时代的测定,说明昌宁-孟连洋向东俯冲形成的弧岩浆岩最晚时限为262.5 Ma,为昌宁-孟连洋向东俯冲提供有利的岩石学记录及时代约束,也为昌宁-孟连古特提洋南北构造岩浆演化贯穿提供可靠资料。

  • 致谢:本文得到云南省自然资源厅“腾冲一潞西地区新生代以来地质环境演化及高原特色农业耦合关系研究”项目(编号 CY21624103)资助。云南省地质调查院李静教授级高工认真审阅了本文并提出了详细修改意见,锆石LA-ICP-MS分析得到了湖北省地质实验室测试中心岩石矿物研究室潘诗洋的帮助。审稿人提出了宝贵的修改意见。在此一并表示衷心感谢。

  • 注释

  • ❶ 云南省地质调查院.2008. 云南省1∶250000凤庆幅区域地质调查报告.

  • ❷ 云南省地质调查院.2016. 云南省1∶50000(诗礼、大河、犀牛街、老家库、哨街幅)区域地质调查报告.

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  • 基本信息

    DOI: 10.19762/j.cnki.dizhixuebao.2022257

    基金信息

    本文为云南省国土资源厅基金项目(云南省1∶5万撒马基幅、因民幅、贵城幅、舒姑幅区域地质调查,编号 D201905)
    中国地质调查局项目(编号 121201102000150012-02,DD20160017,DD20160016)
    国家自然科学基金项目(编号 42062005)资助的成果

    引用信息

    刘军平,宛胜,田素梅,王伟,包佳风.2022. 滇西云县地区中二叠世火山岩的发现及其对昌宁-孟连古特提斯洋俯冲作用的约束.地质学报, 96(3): 942~953.

    Liu Junping, Wan Sheng, Tian Sumei, Wang Wei, Bao Jiafeng. 2022. Discovery of the Middle Permian volcanic rocks in the Yunxian area, western Yunnan and constraints on subduction of the Changning-Menglian Paleo-Tethys Ocean . Acta Geologica Sinica, 96(3): 942~953.

    稿件历史

    收稿日期: 2020-10-21

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