班公湖-怒江结合带西段中特提斯多岛弧构造演化

本文根据1∶25万地质填图成果,将班公湖-怒江结合带西段弧-盆系时空结构自北向南划分为五峰尖-拉热拉新晚侏罗世—早白垩世陆缘火山-岩浆弧带、班公湖蛇绿混杂岩北、南亚带和昂龙岗日-班戈白垩纪—始新世岩浆弧带等,初步认为中特提斯洋经历了三叠纪—早侏罗世扩张,中—晚侏罗世往北、南双向俯冲,晚三叠世—早白垩世残余洋(海)盆和早—晚白垩世陆-弧(陆)碰撞等演化阶段。     

青藏高原西部班公湖蛇绿混杂岩带的基本特征与构造演化

班公湖蛇绿混杂岩带位于班公湖-怒江结合带西段,是中生代特提斯洋消亡的遗迹。根据西藏1∶25万日土县幅、喀纳幅地质填图成果,将班公湖蛇绿混杂岩带的时空结构划分为南、北两条亚带;综合分析研究认为,本区中特提斯洋的演化经历了三叠纪-早中侏罗世扩张,中晚侏罗世双向俯冲,晚侏罗世-早白垩世残余洋(海)盆和晚白垩世陆(弧)-陆碰撞等构造演化阶段。     

西藏东巧—北拉地区班公湖—怒江洋俯冲闭合及对南羌塘盆地演化的制约

应用地层对比、砂岩岩相学和碎屑锆石U-Pb年代学的方法,重建东巧—北拉地区物源转换和班公湖—怒江洋多期次俯冲及微陆块的拼合过程。研究表明：东卡错微陆块南侧的中下侏罗统希湖群下段表现为上三叠统确哈拉群的再旋回沉积,而北侧上段则开始出现来自羌塘地区的物质。这标志着北侧早侏罗世俯冲的东巧分支洋盆消亡,东卡错微陆块在中侏罗世与羌塘地块拼合开始形成初始周缘前陆盆地。接奴群的物源完全来自南羌塘地区,表明周缘前陆盆地在微陆块南侧北拉洋俯冲挤压下持续发育。晚侏罗世—早白垩世(147～141 Ma)拉萨地块和羌塘地块东西向全面碰撞,至早白垩世晚期(约120 Ma)南侧的分支洋盆北拉洋消亡代表碰撞结束。南羌塘地区受班公湖—怒江洋俯冲作用控制在早侏罗世发育由弧前—岩浆弧—弧后盆地组成的“一隆两坳”古地貌,并沉积了曲色组页岩和布曲组石灰岩。微陆块碰撞导致南羌塘盆地的隆起和海平面的下降,形成夏里组含膏质泥岩的潮坪相沉积。随着拉萨地块和羌塘地块的全面碰撞,南羌塘盆地从弧相关盆地卷入前陆盆地褶皱冲断带中,发生差异埋藏和隆升剥蚀。晚侏罗世—早白垩世,南羌塘盆地曲色组烃源岩和布曲组石灰岩在构造挤压作用下发生快速埋藏,进...     

班公湖—怒江结合带南侧弧-盆系时空结构与演化特征

本文在1：25万邦多区幅、措麦区幅填图成果基础上，运用多岛弧造山模式分析了班公湖—怒江结合带南侧弧-盆系时空结构与演化特征。认为中晚侏罗世—早白垩世，伴随班公湖—怒江洋向南俯冲消亡，其南侧形成多岛弧—盆系的空间配置格局；早白垩世晚期—晚白垩世，残余海盆沉积、闭合消亡及其随后的碰撞造山，完成了班公湖—怒江带南侧弧-盆系时空演化史。     

班公湖-怒江洋形成演化新视角:兼论西藏中部古-新特提斯转换

班公湖-怒江洋的形成演化是认识班公湖-怒江成矿带成矿地质背景的关键,近几年中国地质调查局在青藏高原部署了大量1∶50000区域地质调查工作,取得了很多重要发现。对班公湖-怒江结合带两侧关键性海陆沉积地层对比研究,认为南羌塘地块与拉萨地块晚古生代-晚三叠世地层沉积特征及岩石组合基本一致,二者在班公湖-怒江中生代洋盆形成以前是一个整体,为冈瓦纳大陆北缘被动陆缘环境。班公湖-怒江洋在早中侏罗世裂解形成,至中侏罗世趋于稳定且范围最大;向北俯冲消减作用始于中晚侏罗世,晚侏罗世-早白垩世演化为残留海,早白垩世中晚期出现短暂的裂解,致使海水重新灌入;晚白垩世班公湖-怒江洋盆进入闭合后的隆升造山阶段,发生了残留盆地迁移,形成了磨拉石建造。班公湖-怒江洋类似古加勒比海(现今墨西哥湾地区)的形成机制,并与大西洋、太平洋的形成过程关系密切。对于班公湖-怒江洋的闭合和冈底斯弧的形成,本文提出了另一种可能解释,即,新特提斯洋向北俯冲下,岩浆弧逐步南迁,在弧后形成了一系列伸展性质的弧后盆地,两者组成微陆块由北向南逐渐增生形成了现今的拉萨地体,持续向北俯冲也导致了班公湖-怒江洋最终闭合。     

西藏尼玛县南部中晚侏罗世松木果强过铝花岗岩带的发现及其意义

班公湖-怒江结合带南80-100km处,分布着一条东西长度超过100km的强过铝(SP)花岗岩带,由松木果岩体、央雄勒岩体等数个岩体构成。岩体侵位于昂孜错-色热巴断裂南北两侧,包含5次侵入事件,均属高钾钙碱性强过铝花岗岩类,是后碰撞型SP花岗岩,时代为中-晚侏罗世。研究认为,岩带的形成与班公湖-怒江结合带尼玛段中侏罗世之前向南俯冲闭合作用有关,SP花岗岩带的有限长度和相对区域上早的侵位时代还表明,中特提斯洋是多块体、分时段闭合的。     

萨热克盆地库孜贡苏组(J3k)对特提斯洋关闭的沉积响应

班公湖-怒江特提斯洋关闭时间和俯冲方向一直备受关注而且争议较大,前人的研究多半是班-怒缝合带的形成年龄,对于班公湖-怒江特提斯洋俯冲碰撞引起的远程效应却少有报道,所以研究班公湖-怒江特提斯洋关闭过程在西南天山地区引起的远程沉积响应很有必要。班公湖-怒江特提斯洋俯冲碰撞引起西南天山地区的造山活动,西南天山的造山活动使山体抬升剥蚀同时被凝灰石裂变径迹所记录,而山体剥蚀物质又被搬运至山间或山前盆地、最后沉积于山前或者山间盆地内,继而产生盆内的地层沉积充填响应;所以盆地内具磨拉石建造沉积的砾岩反映造山运动引起的山体剥蚀进而反映远处板块的俯冲碰撞情况。所以,对盆地内沉积砾岩的研究也是间接研究造山运动。通过西南天山山前萨热克盆地库孜贡苏组地层的砾石统计分析、沉积相分析、高分辨率层序地层学分析,得到萨热克盆地物源分为北北东和正西两个方向、是冲积扇相沉积、划分为两个中期旋回。结果显示晚侏罗世班公湖-怒江特提斯洋俯冲碰撞过程引起的远程响应可分为两个期次,第一期次构造活动较弱;第二期次构造活动剧烈,沉积了厚层的细砾岩、中砾岩和粗砾岩。冲积扇砾岩的沉积暗示了班公湖-怒江特提斯洋在晚侏罗世末期板块向北俯冲的;班公湖-怒江特提斯洋向北俯冲碰撞引起西南天山抬升剥蚀。     

西藏中冈底斯扎布耶茶卡北部晚侏罗世则弄群火山岩的锆石U-Pb年代学及其成因意义

冈底斯带晚中生代构造演化模式一直存在争议。此次研究了中冈底斯带扎布耶茶卡北部区域则弄群火山岩的野外特 征和锆石U-Pb年龄。锆石U-Pb定年结果表明,扎布耶茶卡北部则弄群火山岩主要喷发于154.2~142.1 Ma。研究首次获得 晚侏罗世的则弄群火山岩年龄为154 Ma,比前人提出的则弄群火山岩浆活动起始时间（130 Ma） 提前了24 Ma,据此将则 弄群的时代定为晚侏罗世至早白垩世。根据研究获得的最新年代学数据,结合冈底斯带火山岩的前人研究资料,显示冈底 斯带中生代弧火山岩具有从南向北逐渐年轻的趋势。因此,最早期南冈底斯弧中生代火山岩可能与新特提斯洋板片北向俯 冲有关,晚侏罗世至早白垩世的中冈底斯带弧火山岩受到了新特提斯洋板片北向俯冲和班公湖-怒江洋板片南向俯冲的双 重影响,早白垩世中期的北冈底斯带弧火山岩则与班公湖-怒江洋板片的南向俯冲密切相关。研究成果为冈底斯带晚中生 代构造演化模式提供了火山岩方面的新证据。     

班公湖-怒江结合带北侧陆缘火山-岩浆弧带的厘定及其意义

在班公湖-怒江结合带西段北侧的拉热拉新岩体东、西两侧,新发现了一些早白垩世岩体、相伴的陆缘火山岩组合和矿(化)点,侵入岩和火山岩的岩石化学特征均显示其成因与中特提斯洋向北俯冲消减密切相关。本文将班- 怒带北侧的火山- 侵入岩带厘定为五峰尖拉热拉新晚侏罗世—早白垩世陆缘火山岩浆弧带,同时讨论了陆缘火山- 岩浆弧带的厘定在分析中特提斯构造演化方面的研究意义。     

尼玛区幅、热布喀幅地质调查新成果及主要进展

证实测区内发育含有华夏生物群分子的上二叠统敌布错组。查明班公湖-怒江结合带内发育一套中侏罗世稳定型浅海碎屑岩沉积。发现结合带南侧存在中晚侏罗世滞后型岛弧火山岩和后碰撞型SP花岗岩带，认为班公湖-怒江结合带在测区表现为向南俯冲的构造极性，闭合时间在中侏罗世以前．根据格仁错地区推覆构造和帮勒右行斜冲挤压韧性变形带初步研究结果，提出永珠-格仁错构造带是一个具有多期活动特征的区域性构造带，并属于狮泉河-申扎-嘉黎构造带的一部分。识别出冈底斯岩浆弧存在2个相对集中又有所套叠的岩带。发现冈底斯中段存在一个矽卡岩型多金属成矿带，在冈底斯北坡古近纪盆地日贡拉组中发现砂岩型铜矿。     

班公湖-怒江结合带西段多岛弧盆系时空结构初步分析

笔者依据班公湖地区1：25万喀纳幅、日土县幅、羌多幅地质填图和专题研究工作取得的阶段性成果,将班公湖带的多岛弧盆系时空结构厘定为3条蛇绿混杂岩亚带。该3条亚带为盆地所隔,从北而南依次为班公湖带北亚带、班摩掌侏罗纪弧间盆地、班公湖带中亚带、日土-巴尔穷侏罗纪—早白垩世复合弧后盆地和班公湖带南亚带等。初步认为班公湖-怒江特提斯洋经历了晚三叠—早侏罗世往北俯冲、中晚侏罗世早期向北、往南双向俯冲、早白垩世往南俯冲等3次俯冲消亡阶段;同时,讨论了在班公湖带研究中存在的问题及其在反演班公湖-怒江结合带西段构造演化和在找矿方面的意义,以及进一步研究方向。     

对雅鲁藏布江结合带形成演化的再探讨

通过1∶5万区域地质调查和收集相关资料的综合研究,本文对雅鲁藏布江结合带的形成演化作了进一步的探讨。雅鲁藏布江特提斯洋具有弧后扩张洋盆的性质,在早三叠世至中三叠世中期洋盆初步形成,中三叠世晚期至晚三叠世洋盆全面形成,从早侏罗世至晚白垩世洋盆逐步萎缩,到古新世至始新世关闭。南带的蛇绿岩主要为洋中脊扩张型(MORB型),形成于中三叠世晚期至晚三叠世。北带的蛇绿岩主要为与洋内俯冲相关的俯冲带上盘型(SSZ型),形成于早中侏罗世。带内侏罗纪至白垩纪其他岩浆岩主要为前弧玄武岩类(FAB型)。显示雅鲁藏布江特提斯洋从早侏罗世开始发生了洋内俯冲,并同步向北向冈底斯带之下主动俯冲消减和向南向喜马拉雅地块之下被动俯冲消减,持续发展到晚白垩世,在古新世至始新世俯冲碰撞消亡转化为结合带。     

Geochronological and geochemical constraints on the Erguna massif basement,NE China – subduction history of the Mongol–Okhotsk oceanic crust

We present new geochronological and geochemical data for granites and volcanic rocks of the Erguna massif, NE China. These data are integrated with previous findings to better constrain the nature of the massif basement and to provide new insights into the subduction history of Mongol–Okhotsk oceanic crust and its closure. U–Pb dating of zircons from 12 granites previously mapped as Palaeoproterozoic and from three granites reported as Neoproterozoic yield exclusively Phanerozoic ages. These new ages, together with recently reported isotopic dates for the metamorphic and igneous basement rocks, as well as Nd–Hf crustal-residence ages, suggest that it is unlikely that pre-Mesoproterozoic basement exists in the Erguna massif. The geochronological and geochemical results are consistent with a three-stage subduction history of Mongol–Okhotsk oceanic crust beneath the Erguna massif, as follows. (1) The Erguna massif records a transition from Late Devonian A-type magmatism to Carboniferous adakitic magmatism. This indicates that southward subduction of the Mongol–Okhotsk oceanic crust along the northern margin of the Erguna massif began in the Carboniferous. (2) Late Permian–Middle Triassic granitoids in the Erguna massif are distributed along the Mongol–Okhotsk suture zone and coeval magmatic rocks in the Xing’an terrane are scarce, suggesting that they are unlikely to have formed in association with the collision between the North China Craton and the Jiamusi–Mongolia block along the Solonker–Xra Moron–Changchun–Yanji suture zone. Instead, the apparent subduction-related signature of the granites and their proximity to the Mongol–Okhotsk suture zone suggest that they are related to southward subduction of Mongol–Okhotsk oceanic crust. (3) A conspicuous lack of magmatic activity during the Middle Jurassic marks an abrupt shift in magmatic style from Late Triassic–Early Jurassic normal and adakite-like calc-alkaline magmatism (pre-quiescent episode) to Late Jurassic–Early Cretaceous A-type felsic magmatism (post-quiescent episode). Evidently a significant change in geodynamic processes took place during the Middle Jurassic. Late Triassic–Early Jurassic subduction-related signatures and adakitic affinities confirm the existence of subduction during this time. Late Jurassic–Early Cretaceous post-collision magmatism constrains the timing of the final closure of the Mongol–Okhotsk Ocean involving collision between the Jiamusi–Mongolia block and the Siberian Craton to the Middle Jurassic.     

澜沧江南带三叠纪火山岩岩石学、地球化学特征、Ar-Ar年代学研究及其构造意义

滇西三江地区澜沧江南带广泛发育三叠纪火山岩。在北部云县一带,中晚三叠世火山岩出露齐全,自下而上可划分为中三叠统忙怀组(T₂m),上三叠统小定西组(T₃x)和上三叠统芒汇河组(T₃mh)。忙怀组以酸性火山岩为主,为一套流纹岩夹火山碎屑岩组合;小定西组发育为中基性火山熔岩夹火山碎屑岩;芒汇河组具有流纹质火山碎屑岩与玄武岩共存的"双峰式"火山岩特征。地球化学特征表明,南澜沧江带三叠纪火山岩具有弧火山岩与大陆板内火山岩的双重属性,推测其形成环境为过渡型的大陆边缘造山带环境。对南澜沧江带南部景洪附近采集到的石英安山岩样品进行Ar-Ar年龄测试,得到的坪年龄为236.7±2.2Ma,为中三叠世。结合火山岩年代学结果,推测澜沧江洋主碰撞期为早三叠世,中三叠世与晚三叠世早期分别为碰撞后的应力松弛阶段与洋盆继续俯冲期,到晚三叠世末期,俯冲作用结束,澜沧江洋关闭。     

长江源各拉丹冬一带晚三叠世那底岗日组

长江源各拉丹冬一带那底岗日组,为一套基-中酸性的火山岩或火山碎屑岩-沉积岩组合,其上与中侏罗统雀莫错组不整合、与下晚三叠世巴贡组整合接触,火山岩u—Pb同位素年龄为212±1．7Ma,时代为晚三叠世诺利晚期-瑞替期,为晚三叠世拉竹龙-金沙江洋盆？向南消减形成的火山岩浆弧。     

The record of the Late Palaeozoic active margin of the Palaeotethys in NE Iran: Constraints on the Cimmerian orogeny

The Cimmerian orogen resulted from the collision and accretion of several Perigondwanan blocks to the southern margin of Eurasia between the Late Triassic and Early Jurassic, following the closure of the Palaeotethys ocean. Remnants of this orogen discontinuously crop out in N (Alborz range) and NE Iran (Mashhad–Fariman area) below the syn- to post-collisional clastic successions of the Shemshak Group (Upper Triassic–Middle Jurassic) and the Kashaf Rud Formation (Bajocian). In NE Iran rock associations exposed in the Binalood Mountains, Fariman and Darreh Anjir areas include mafic–ultramafic intrusive rocks, basalts, silicoclastic turbidites and minor limestones, which have been interpreted in the past as ophiolitic remnants of the Palaeotethys ocean. Original stratigraphic, structural, geochemical and geochronological data, described in this paper, suggest a different interpretation. The volcano-sedimentary units of Fariman and Darreh Anjir complexes where deposited during Permian in a subsiding basin were siliciclastic turbidites, derived from the erosion of a magmatic arc and its basement, interfinger with carbonates and basaltic lava flows with both transitional and calc-alkaline affinity. The coexistence of magmatic rocks with different geochemical signature and the sedimentary evolution of the basin can be related to a supra-subduction setting, possibly represented by a fault-controlled intra-arc basin. The Fariman and the Darreh Anjir complexes are thus interpreted as remnants of a magmatic arc and related basins developed at the southern Eurasia margin, on top of the north-directed Palaeotethys subduction zone long before the collision of Iran with Eurasia. They were later involved in the Cimmerian collision during the Triassic. New radiometric ages obtained on I-type post-collisional granitoids postdating the collision-related deformational structures suggest that the suture zone closed before mid-Norian times. Deformation propagated later northward into the Turan domain involving the Triassic successions of the Aghdarband region.     

阿尔泰造山带南缘和准噶尔板块北缘晚古生代构造演化及多金属成矿作用

研究表明,阿尔泰南缘和准噶尔北缘晚古生代大地构造演化及成矿作用均受古亚洲洋形成与演化的控制。晚古生代该地区经历了3个不同性质的构造演化阶段,同时伴有不同的多金属成矿作用。早泥盆世,由于古亚洲洋板块的俯冲,在阿尔泰南缘形成了一系列陆缘断陷盆地,并伴随以铅、锌、铜、铁多金属为主的矿化;同时,俯冲的古亚洲洋板块发生部分熔融,形成了埃达克岩及与其有关的铜矿床。随着板块俯冲的继续,中泥盆世出现了前弧盆地,并形成了铜-铅-锌多金属矿床。至石炭纪,西伯利亚板块与哈萨克斯坦-准噶尔板块发生碰撞,在额尔齐斯缝合带附近出现了由于挤压作用而形成的金矿床,同时,在缝合带北侧(阿尔泰地区),由于壳型花岗岩的广泛发育,形成了稀有金属矿床。早二叠世,在额尔齐斯缝合带附近又发生了碰撞后的板内拉张作用,从而诱发了一系列与地幔作用有关的岩浆活动,形成了以喀拉通克为代表的铜-镍矿化。因此,阿尔泰南缘和准噶尔北缘晚古生代多金属找矿远景区包括:阿勒泰南缘早泥盆世火山-沉积盆地内铅、锌、铜及铁多金属矿床和准噶尔北缘早泥盆世与埃达克岩有关的铜矿床;中泥盆世前弧盆地内的铜多金属矿床;石炭纪额尔齐斯缝合带内与碰撞有关的金矿床及稀有金属矿床;早二叠世与板内拉张有关的铜-镍多金属矿床。