哀牢山造山型金成矿系统:复合造山构造演化与成矿作用初探

哀牢山金矿带是我国最重要的喜马拉雅期造山型金矿带,形成于三江特提斯复合造山过程中。论文基于对哀牢山复合造山带区域构造背景、控矿构造系统演化、金成矿期次及其时代的系统研究,从金成矿年代序列、成矿过程构造控制及成矿作用动力学环境三个方面,探讨了复合造山过程中的金矿成矿作用。研究结果表明,哀牢山金矿带发育三期金矿成矿-热事件:早期金成矿作用(61.55～63.09Ma)对应于逆冲推覆构造系统最为发育的时期,与剪切走滑断裂构造的形成同步,显示它们统一受控于印度-亚洲大陆碰撞早期的强烈汇聚挤压构造动力学体制;主期金成矿作用(33.76～36.10Ma)对应于区域挤压构造应力场的相对松弛阶段以及富碱斑岩和剪切走滑断裂构造系统最为发育的时期,受控于印度-亚洲大陆碰撞构造动力学转换体制,并可能受青藏高原物质东向逃逸和软流圈脉动隆起的联合制约,金矿大规模成矿作用与构造动力体制转换过程中的壳幔物质强烈交换与构造变形密切相关;晚期金成矿作用(26.40～30.80Ma)对应于岩石圈伸展作用的发生以及亏损地幔减压熔融产生的板内高钾岩浆岩的就位,受控于印度板块反向旋转拖曳与斜向俯冲回退的综合作用。

青藏高原东部晚新生代重大构造事件与挤出造山构造体系

文章系统梳理了青藏高原东部地区晚新生代重大构造事件的沉积记录、岩浆记录和构造变形响应，重新厘定了青藏运动或横断事件的起始时限，建立了青藏高原东部晚新生代构造演化序列与挤出造山构造体系。研究认为，发生在上新世之前的青藏运动是青藏高原东部最重要的构造作用阶段，起始于距今12~8Ma，并持续到上新世早期，持续时间达6~8Ma。在这个构造运动阶段，青藏高原东部地块（川滇地块、川青地块、西秦岭构造带和陇中地块等）有序地向东挤出，受到鲜水河、东昆仑、海原等WNW-ESE向大型断裂左旋走滑运动调节，构造挤出同时伴随地块内部逆冲褶皱变形，导致地壳增厚和高原东缘山脉快速崛起；构造挤出也超越了现今东缘地貌边界，向东扩展导致扬子地块盖层滑脱褶皱，形成龙泉山、大凉山等褶皱构造带。上新世出现的砾石层（东缘前陆地带的大邑砾石层、临夏盆地的积石砾石层、兰州盆地的五泉砾石层等）标志了青藏高原东部差异性构造地貌的形成。上新世晚期至早更新世时期（3.6~1.0Ma）对应一个构造松弛阶段，青藏高原东部整体进入冰冻时期，沿其东缘发育一系列受正断层控制的南北向伸展断陷盆地，如安宁河谷地、元谋盆地、盐源盆地、滇西北盆地群等，其中加积了以昔格达组为代表的稳定河湖相沉积。发生在早、中更新世之交（距今1.0~0.6Ma）的昆—黄运动或元谋事件使青藏高原东部地块进一步向东挤出、东缘地壳逆冲增厚和年轻山系加速隆升。晚更新世以来的构造运动称为共和运动或最新构造变动阶段，起始于距今约120ka，青藏高原东缘构造变形系统出现重大分化，南段川滇菱形地块发生绕喜玛拉雅东构造结的顺时针旋转运动，形成川滇双弧形旋扭构造体系；而中段川青地块的挤出伴随东缘龙门山断裂带的右旋走滑运动和秦岭山系的向东挤出。在这个最新构造变动阶段，青藏高原东部下地壳通道流可能是重要的深部构造驱动因素。

造山带构造年代学研究的技术与方法

造山带构造年代学研究的技术与方法杨巍然简平（中国地质大学，武汉，４３００７４）造山带以其雄伟的地貌景观、复杂的物质组成和变形特征、强烈的深成作用、丰富的矿产资源以及和气候、环境、灾害等的密切关系，长期以来一直成为人们关注的中心。特别是９０年代开始，固...

广西岑溪地区糯垌A型花岗岩的厘定及其构造意义

广西糯垌岩体位于华夏古陆与钦杭结合带的交接部位,主要岩性为黑云母钾长花岗岩,其锆石LA-ICP-MS U-Pb年龄为(151.1±1.9)Ma和(152.6±1.2)Ma,显示为燕山早期晚侏罗世岩浆活动的产物。糯垌岩体具有富碱、高钾、高铁、贫镁的特征,alk的质量分数为10.29%~10.91%,Fe OT的质量分数为3.60%~5.10%,Fe OT/Mg O值为10.33~11.69。岩石为碱性准铝质系列,δ43为4.78~5.38,A/CNK值为0.96~0.98,A/NK值为1.21~1.24;具有右倾型的稀土配分模式图,稀土总量较高,具强烈的负铕异常,其∑REE值为(610.03~790.48)×10^(-6),δEu值为0.30~0.37。原始地幔标准化蛛网图显示明显亏损Ba、Sr、P、Ti,富集Rb、Th、La、Ce、Zr、Hf、Y等元素;具有较高的10 000Ga/Al值(3.03~3.31)和Zr+Nb+Ce+Y值((857.7~1244.4)×10^(-6))。上述地球化学特征表明糯垌岩体为铝质A型花岗岩,同时具较低的Ce/Nb、Y/Nb、Yb/Ta元素比值,暗示为A1型非造山花岗岩。εNd(t)值为-2.25^-1.52,εSr(t)值为22.34~37.59,TDM值为(0.86~1.24)Ga,表明糯垌岩体来源于中新元古代的地壳物质,可能有地幔物质的参与。糯垌岩体形成于板内环境,说明广西岑溪地区晚侏罗世经历特提斯构造域向太平洋构造域转换后进入板内非造山构造环境。

全球大地构造相刍议

研究中国的造山带需要一个对照模型。阿尔卑斯是研究相当成熟的造山带,选择它作为研究中国造山带的对照系是可行的。许靖华先生提出了把阿尔卑斯模式化、功能化为三大块的办法,绞尽脑汁想出了3个古民族的名称,用这3个名称把这三大块叫作3个相。这就是后来的雷特相、凯尔特相和阿勒曼相,其功能分别是上冲体、下插体和逃逸体。说穿了,分析大地构造相为的就是找一个把中国造山带和阿尔卑斯相对比的方法,纯粹是方法学,没有什么深奥的理论。在研究中国造山带的过程中,发现了一些阿尔卑斯不具有的大地构造相,造山带分析中又不可或缺,于是笔者补充成为6个相类、15个相的分类方案。在此基础上建立了大地构造相模式剖面和平面模式图。全球大地构造相分析不同于碰撞造山带,需要全面地表达全球大地构造环境。我们使用了3级分类要素:第一级是动力学要素,第二级是大地构造环境,第三级是构造与岩石组合。根据这些要素,划分了4类大地构造环境、11类亚环境和31个大地构造相。

北淮阳构造带鲜花岭找矿远景区铜铅锌矿化相关侵入岩的锆石U-Pb年龄和Hf同位素特征

安徽北淮阳构造带鲜花岭找矿远景区发育中酸性侵入岩相关的铜铅锌矿化,本次研究选取铜铅锌矿化相关的鲍冲二长岩开展锆石LA-ICP-MS U-Pb年代学及LA-MC-ICP-MS锆石Lu-Hf同位素分析。结果显示锆石Th/U比值为0.54-1.33,属于典型岩浆成因锆石。鲍冲二长岩锆石U-Pb年龄加权平均值为(124±2)Ma(n=10,MSWD=3.2);结合锆石自形、发育岩浆环带等特点,该年龄是鲍冲二长岩的结晶年龄。这一形成年龄对应于大别造山带构造垮塌事件,因此,北淮阳构造带鲜花岭地区铜铅锌矿化可能形成于早白垩世后岩石圈减薄环境。原位锆石Lu-Hf同位素研究显示,鲍冲二长岩的εHf(t)在-15.7～-10.2之间,两阶段锆石Hf模式年龄为1.82～2.17 Ga,指示岩浆源区为古元古代的基底。结合前人资料,安徽北淮阳构造带成矿作用可以划分为三期:第一期晓天盆地的火山热液型金矿化(130 Ma),第二期鲍冲岩体有关的铜铅锌矿化(124 Ma)和第三期的斑岩型钼矿化(114Ma)。

湘东南骑田岭岩体A型花岗岩的地球化学特征及其构造环境

骑田岭复式花岗岩体地处湘东南矿集区的中南部。本文研究讨论了骑田岭岩体的主体,即中侏罗世骑田岭序列花岗岩。其岩石类型为角闪石黑云母花岗闪长岩角闪石黑云母二长花岗岩黑云母二长花岗岩。各岩石单元从早至晚,SiO2含量总体由低变高,变化范围在65.92%～75.68%之间。岩石高钾、富碱,K2O含量为4.10%～5.27%,平均4.86%;Na2O+K2O为7.12%～8.24%,平均7.85%;K2O/Na2O值平均为1.63;ACNK值在0.90～1.05之间,平均为0.96;KN/A在0.71～0.89之间,平均为0.78,属钾玄岩系列与高钾钙碱性系列准铝质弱过铝质花岗岩类。ΣREE平均达375.6μg/g,在原始地幔标准化图解上显示出Ba、Nb、Sr、P、Ti、Eu负异常和U、Th、Nd、Zr、Sm、Y的正异常,具明显的分异结晶作用特征。ISr值为0.70854～0.71281,εNd(t)值为-5.05～-7.57,tDM为1.35～1.56Ga,明显低于湘桂内陆带花岗岩的背景值(1.8～2.4Ga)和区域基底的时代(1.7～2.7Ga),反映出有幔源物质加入。经多种相关图解判别均显示其为A型花岗岩,骑田岭序列应形成于后造山拉张构造环境。讨论认为湘东南及华南地区燕山早期构造环境为后造山而不是陆内裂谷环境。

Tectonic framework of Qilian orogen: reveal from an aeromagnetic anomaly feature

The Qilian Orogenic belt is one of the typical orogenic belts globally and a natural laboratory for studying plate tectonics.Many researchers have studied the ophiolite and high pressure and ultra-high pressure metamorphic rocks in the Qilian orogen and obtained valuable achievements.However,a hot debate exists on the basement property,the distribution of ophiolite,and the boundaries of tectonic units.Large-scale high-precision aeromagnetic surveys have recently been conducted in the Qilian Orogenic belt and adjacent areas.In this study,we are trying to analysis the tectonic framework of the Qilian Orogen using 1:500,000 aeromagnetic data.The results provide geophysical perspectives for studying the structural framework and deformation of this area.According to the aeromagnetic∆T anomaly map,the central and Southern Qilian have the same magnetic anomaly feature that noticeably differs from the North Qilian Orogenic belt and the Qaidam Block.This result indicates that the central and Southern Qilian have a unified magnetic basement and differ from the North Qilian orogenic belt and Qaidam Block.The map shows the distribution of ophiolite in the North Qilian orogenic belt.Linear magnetic anomalies represent the ophiolites because the mafic–ultramafic rocks usually have high magnetic susceptibility.The ophiolite belts are continuously distributed in the western part of North Qilian orogenic belt and have a large scale.However,the scale of the ophiolite belt and the outcropping of mafic–ultramafic rocks reduces when they pass through Qilian County to the east.The results indicate differences in the evolution process between the eastern and western parts of North Qilian,with Qilian County as the transition zone.This study also systematically defines the geophysical boundaries of the Qaidam Block,Qilian Block,North Qilian Orogenic belt,and Alxa block.It is proposed that the sinistral displacement of the Altun Fault is adjusted and absorbed by the series of NE-trending faults in the Qilian orogen and merge into the Longshoushan–Gushi Fault.The extension of the North Qilian Orogenic belt is strengthened by the neotectonics movement along the shearing direction,which separated the North Qilian Orogenic belt into several segments and formed a series of northeast-trending faults.

湘西南苗儿山地区早燕山期花岗岩地球化学特征及形成环境

湘西南苗儿山地区早燕山期花岗岩形成于晚侏罗世早期,侵入于加里东期花岗岩(构成苗儿山岩体主体)和印支期花岗岩中。主要岩石类型为细粒—中粗粒斑状黑云母二长花岗岩,局部发育细粒二云母二长花岗岩。岩石SiO_2为76.02%~80.26%、Al_2O_3为10.94%~12.88%、K2O为3.42%~5.34%、Na_2O+K_2O为5.37%~8.22%、ASI为1.04~1.31(平均1.14),总体属铁质、钙碱性系列过铝质花岗岩类。微量元素中Ba、Sr、P、Ti表现为强烈亏损,Rb、(Th+U+K)、(La+Ce)、Nd、(Zr+Hf+Sm)、(Y+Yb+Lu)等相对富集。稀土总量较低(122.9~175.4μg/g),轻稀土略富集((La/Yb)N=2.55~3.79),具明显的负Eu异常(δEu=0.07~0.22)。岩体ISr值为0.99007和1.15860,εNd(t)值为-9.20和-8.80,两阶段Nd模式年龄(t2DM)为~1.7Ga。C/MF-A/MF图解显示源岩主要为变质泥质岩和变质杂砂岩。强过铝花岗岩样品的Al_2O_3/TiO_2比值部分<100。上述地球化学特征表明花岗岩为S型花岗岩,源岩主要为中、上地壳酸性岩石,并有少量地幔物质加入。花岗岩主量和微量元素构造环境判别图解以及区域构造演化过程表明花岗岩形成于后造山构造环境,岩浆形成与先期(中侏罗世)陆壳增厚升温及软流圈地幔的热传递有关。

中国东部中、新生代软流圈上涌与构造-岩浆-矿集区

以深部地球物理资料为基础,结合大地构造环境、岩浆岩同位素示踪及矿产资源分布规律,加以综合分析.通过热力学计算可知,中国东部近2亿年来的上地幔岩石圈/软流圈构造可以存留至今,且能区分出中、新生代.软流圈上涌与矿集区:(1)中生代金属矿:(a)克拉通区,软流圈沿柱身上涌,其柱头上方形成幔壳混熔花岗质岩及相应Au、Cu、Mo、Pb-Zn等矿集区,并于柱身与岩石圈块体陡接触带,形成中基性杂岩及相应富Fe矿集区;(b)褶皱带区,在软流圈上涌柱上方形成近幔源型花岗质岩,相应为Cu、Au、Pb-Zn、Mo、Ag矿集区;(c)南岭带,软流圈层在适当深度、热量充足、较大范围内"平卧",因热传导而致使地壳内物质部分重熔,形成壳源型花岗质岩及相应的W、Sn、稀有元素矿集区;(2)新生代油气田:(a)与太平洋板块俯冲有关的软流圈上涌,其上方出露玄武岩,形成较大型油田;(b)与裂陷盆地有关的软流圈上涌,其上方形成大型油田,也有中小型油田.软流圈上涌与大地构造:中生代J-K时期,通过构造力特征等的综合分析,阐明燕山运动的根源及其影响;新生代侧重剖析大陆裂谷相关特征.总之,软流圈上涌是岩石圈减薄,以及中、新生代构造-岩浆-矿集区形成的根源.

地震滑坡在活跃造山带侵蚀和风化中的作用:进展与展望

以地震为代表的构造运动在地球地貌演化中起着根本性的作用,其过程包括同震抬升或沉降和地震滑坡侵蚀.地震诱发的滑坡向河流输送大量的松散物质,可造成流域物质输移通量成倍增加,且持续时间可达几十年或更久.在暴露新鲜岩石的同时,地震滑坡还剥蚀植被和土壤,这些作用都极大地影响着区域的碳输移.越来越多的研究尝试量化地震对地表过程影响的通量、速率和演化方式,但目前对这类高强度事件对地表过程的影响强度、幅度和趋势仍知之甚少.文章透过2008年汶川特大地震诱发的滑坡对流域侵蚀与沉积通量、河水化学和碳输移影响这一镜头,系统综述了1999年台湾集集地震、2015年尼泊尔Gorkha地震和新西兰历史地震等对地表过程的影响,明确了地震滑坡对构造活跃造山带流域侵蚀和风化发挥着重要作用.文章建议,未来应加强对地震事件前后流域侵蚀-风化作用和通量的监测、地球化学示踪、沉积记录及模拟对比研究,这不仅有助于加深高强度构造事件地表环境效应的机理认识,而且对于阐明高强度构造事件与大陆侵蚀-风化以及长时间尺度全球碳循环之间的内在联系具有深刻科学意义.

湘南骑田岭竹枧水花岗岩的锆石SHRIMPU-Pb年代学和岩石学

骑田岭岩体的竹枧水花岗岩是我国南岭地区最早进行同位素年龄测定的花岗岩之一,20世纪60年代初期获得的黑云母K-Ar年龄数据,曾用来作为骑田岭花岗岩属于印支期的主要依据。最近对其进行了锆石SHRIMPU-Pb年龄测定及岩石学和地球化学研究,测得其结晶年龄为160±2Ma,属燕山早期。它富碱富钾,富含LILE和HFSE,具壳幔混合来源,形成于华南大陆内部后造山阶段拉张减薄的构造环境。

辽西地区晚侏罗世张家口组及其地质意义

辽宁省西部地区张家口组是在近几年来1∶5万、1∶25万区域地质调查的基础上发现和建立的,主要分布于金岭寺-羊山盆地的东缘、北票盆地西缘、四家子-铁营子盆地及凌源三十家子盆地东缘,呈北东向沿断裂带分布.岩性为一套偏酸、偏碱性的火山岩,以爆发相的火山角砾岩、集块岩及凝灰岩为主,呈角度不整合覆于晚侏罗世土城子组之上,其上被早白垩世义县组角度不整合覆盖.形成于挤压造山与伸展构造的过渡环境,是古亚洲构造域压性体制与滨太平洋活动带张性体制构造转换阶段的产物.地层时代为晚侏罗世.

东昆仑中段地层学研究的新进展

东昆仑中段是昆仑山地区基础研究的热点,区内地质构造复杂、地层类型多样。对构造混杂岩地层必须坚持活动论思想,采取以反序方法,有助于正确进行构造古地理的恢复。对成层有序的浅变质砂岩、板岩必须摒弃传统做法,即按一个岩系的自然成因单元结构进行。通过对东昆仑中段构造构混杂岩的万保沟岩群研究,获得了洋岛地层序列的新认识,识别了东昆仑中三叠世希里可特组的存在。对巴颜喀拉山群作了许多新研究,对中新世地层取得了重大发现,提出了青藏高原隆升的具体时间和一系列特点。

Structure of different types of coal metamorphism by HTEM

In order to discuss the effect of tectonic stress on the structural evolution of coal, given the importance attached to High-resolution Transmission Electron Microscopy (HTEM), we investigated several aspects of material structures of high-rank Carboniferous period coal, located in the northern foreland basin of the Dabie orogenic belt in eastern China. High powered crystal lattice images of Bright Fields (BF) and Selected Area Diffraction patterns (SAD) of different types of metamorphism in coal were obtained. The results show that the Basic Structural Units (BSU) become increasingly more compact as a function of rising tem-perature and pressure. Under pressure, the local orientation of molecules is strengthened, the arrangement of BSU speeds up and the degree of order is clearly enhanced.

Relation between structural evolution of the Longmenshan orogenic zone and sedimentation of its foreland basin

In order to determine the area for oil and gas exploration in China’s north Sichuan basin,we have divided the time during which the Longmenshan foreland basin was formed into five periods,based on the sedimentary response relationship of the foreland basin to structural evolution: 1) a late Triassic Noric period;2) an early-Middle Jurassic period;3) a late Jurassic to early Cretaceous period;4) a late Cretaceous to Paleogene-Neogene period and 5) the Quaternary period. As well,we analyzed the sedimentary environment and lithologic features of every basin-forming period. The results show that there are several favorable source-reservoir-cap assemblages in our study area,making it a major region for future oil and gas exploration in China’s northern Sichuan basin.

THE THRUST AND NAPPE TECTONIC ZONE ALONG THE SOUTHERN MARGIN OF THE COAL-FORMING REGION OF NORTH CHINA

A thrust and nappe tectonic zone with imbricate branch thrusts is developed along the southern margin of the coal-forming region of North China. This tectonic zone is tightly related to the Qinling-Dabie collision orogen in genesis and belongs to the frontal zone of a huge thrust system developed during Yanshanian episode at the northern foot of the orogen. It is pointed out that thrusting had distorted the original depositional margin of the coal-forming region and some new coal-bearing blocks would be found out in the frontal sheets and under the undulate sole thrust.

Diagenesis tectonic setting and U-Pb dating for zircon from Tanjianshan Group in northern margin of Qaidam Basin

The shape,texture,content and REE characteristics of zircons from the O2tnd-1,O3tnd-2,O3tnd-3pyroclastic rock of Tanjianshan Group on the north margin of Qaidam Basin indicate that the O2-3tndis the product of volcanism during the transitional period from ocean-land interim crust to oceanic crust.The U-Pb surface ages obtained from O3tnd-2and O3tnd-3can be divided into 9 groups,every age group coincides with the period when significant tectonic-heat event took place at Oulongbuluke micro-continental base of northern Qaidam,suggesting that the base rocks have provided materials for the formation of sedimentary and volcanic rock in O2-3tnd.The volcanic rocks of O3tnd-3formed at 440 Ma,with time gap 46 Ma to those of O1tna-1and O3tnd-3may represent the minor period that Xitieshan back-arc extension have lasted,the scale of back-arc basin that formed in Xitieshan extension may approach to 1 400 km.Based on the test of ithochemistry data for major elements and analysis of Sr isotope geochemistry for the clastic sedimentary rock in O1tna-2and O3tnd-2,the authors get the conclusion that the O1tna-2and O3tnd-2of Tanjianshan Group may form in back-arc basin environment,while the lithology difference between these two formations may reflect the changes of geodynamic processes as the diagenesis tectonic environment transformed from continental margin depression to adjacent sea basin.

Carboniferous slab-retreating subduction of backarc oceans:the final large-scale lateral accretion of the southern Central Asian Orogenic Belt

During Carboniferous time,tremendous juvenile arc crust was formed in the southern Central Asian Orogenic Belt(CAOB),although its origin remains unclear.Herein,we presented zircon U-Pb-Hf and whole-rock geochemical and Sr-Nd isotopic data for a suite of volcanic and pyroclastic rocks from the Khan-Bogd area in southern Mongolia.These Carboniferous pyroclastic rocks generally have some early Paleozoic zircons,probably derived from the granitic and sedimentary rocks of the Lake Zone and the Gobi-Altai Zone to the north,indicative of a continental arc nature.In addition,they have a main zircon U-Pb age of ca.370–330 Ma,positive Hf and Nd isotopes,and mafic-intermediate arc affinity,similar to the coeval arc magmatism.Moreover,the pyroclastic rocks of the northern area have more mafic and older volcanic components with depositional time(ca.350–370 Ma;Visean and Bashkirian stages)earlier than that in the southern area(mainly ca.350–315 Ma;Serpukhovian and Bashkirian stages).Combining a preexisting northward subduction supported by the available magnetotelluric data with a slab rollback model of the main oceanic basin of the Paleo-Asian Ocean(PAO)during Carboniferous and Triassic times,we infer that the Carboniferous arc magmatism was probably derived from a backarc ocean triggered by slab rollback.Thus,the juvenile arc volcanism of Mongolia,together with other areas(e.g.,Junggar)in the southern CAOB,represented a significant lateral accretion that terminated after the Carboniferous due to a significant contraction of the PAO.

Tectonic evolution of the Tongbai-Hong'an orogen in central China: From oceanic subduction/accretion to continent-continent collision

The Tongbai-Hong'an orogen is located in a key tectonic position linking the Qinling orogen to the west and the Dabie-Sulu orogen to the east. Because the orogen preserves a Paleozoic accretionary orogenic system in the north and a latest PaleozoicMesozoic collisional orogenic system in the south, it may serve as an ideal place to study the tectonic evolution between the North and South China Blocks. The available literature data in the past 20 years indicate that the tectonic processes of the Tongbai-Hong'an orogen involved four stages during the Phanerozoic:(1) Early Paleozoic(490–420 Ma) oceanic subduction, arc magmatism and arc-continent collision created a new Andean-type active continental margin on the North China Block;(2) Late Paleozoic(340–310 Ma) oceanic subduction and accretion generated separated paired metamorphic belts: a medium P/T Wuguan-Guishan complex belt in the south of the Shandan-Songpa fault and a high P/T Xiongdian eclogite belt in the northern edge of the Mesozoic HP metamorphic terrane;(3) Latest Paleozoic-Early Mesozoic(255–200 Ma) continental subduction and collision formed the Tongbai HP terrane in the west and the Hong'an HP/UHP terrane in the east as a consequence of deep subduction towards the east and syn-subduction detachment/exhumation of the down-going slab;(4) Late Mesozoic(140–120 Ma) extension, voluminous magma intrusion and tectonic extrusion led to the final exhumation of the Tongbai-Hong'an-Dabie HP/UHP terrane and the wedge-shaped architecture of the terrane narrowing towards the west. However, many open questions still remain about the details of each evolutionary stage and earlier history of the orogen. Besides an extensive study directly on the Tongbai-Hong'an orogen in the future, integrated investigation on the "soft-collisional" Qinling orogen in the west and the "hard-collisional" Dabie-Sulu orogen in the east is required to establish a general tectonic model for the whole Qinling-TongbaiHong'an-Dabie-Sulu orogenic belt.