皖东黄栗树——破凉亭断裂带北段构造岩显微——超显微变形特征及地质 …

本文就郯庐断裂南段东内栗树－－破凉亭断裂带内构造岩,特别是中深层次的韧性剪切带中的糜棱岩进行了细致的野外考察,采样,在室内显微构造研究的基础上,选择有代表性的样视域进行透电镜制样观察,在对各超显微构造特征分析归纳的基础上,讨论了构造岩的塑性变形特征,并对构造岩的应变参数（最大差异应力和应变速率）进行了计算,从显微－－超显微构造角度仔细研究该断裂带内典型的构造岩的变形特征,初步判明断裂带的性质和运动     

甘肃阳山金矿区安昌河—观音坝断裂带显微构造特征及地质意义

甘肃阳山金矿是我国最大的金矿床,位于西秦岭造山带的陕甘川"金三角"地区。金矿成矿时代为早侏罗世,与燕山期斜长花岗斑岩有密切的成因联系。基于野外地质调查,本文对安昌河—观音坝断裂带构造岩进行了细致的显微构造研究,以期通过微观构造特征认识宏观断裂构造的活动规律。镜下观察表明断裂带内兼具大量的脆性与塑性显微变形,主要发育左行剪切,暗示该断裂为左行韧-脆性剪切带。断裂带内构造岩经历了高绿片岩相、低绿片岩相及低于绿片岩相的变质-变形过程,且断裂带内至少存在过三到四期构造变形,为断裂带曾发育"多期构造变形"提供依据。显微构造应力分析及岩层产状等密度图显示区域主压应力方向为NNW-NNE,是对印支期以来多期主应力方位的综合反映。据亚颗粒法及动态重结晶法计算的成矿前古应力差值为128.6～95.8 MPa,成矿期古应力差值为74.9～69.3 MPa,成矿后古应力差值为65.8 MPa。综合分析认为中—晚三叠世以来安昌河—观音坝断裂带变质相相变为高绿片岩相→低绿片岩相→低于绿片岩相,变形序列为韧性→韧-脆性→脆性,区域主应力大小发生了大→小的转变,主应力方位经历了SN向挤压→NE向挤压→NW及SN向挤压的转换。安昌河—音坝断裂带构造演化特征反映其经历了从深部到浅部逐渐抬升的过程。     

辽西兴城—台里韧性剪切带北段变形特征

辽西兴城—台里地区发育系列花岗质岩石,强烈构造变形特征均显示其具有韧性剪切带的特点。对剪切带北段进行详细宏微观构造解析,结合岩石变形强度差异性分析、有限应变测量、石英C轴EBSD测试以及古差异应力值估算等研究,结果表明剪切带内花岗质片麻岩和眼球状花岗质片麻岩具有NEE向左行剪切变形特征,变形岩石为S-L构造岩,应变类型属于平面应变,古差异应力值介于30~40 MPa之间。长石-石英矿物温度计以及石英C轴EBSD组构指示剪切带以中低温变形为主,温度在400℃~500℃,属绿片岩相变质,具中-低温韧性剪切带特征。韧性剪切带内普遍存在变形分解现象,弱变形带内岩石残斑含量较高,眼球状构造和S-C组构较为发育;强变形带岩石残斑含量较低,剪切面理较为发育,糜棱面理发育较弱或者不发育。     

桐柏山商丹断裂带东延段石榴云母片岩中石榴子石显微构造特征及变质—变形环境分析

韧性剪切带上岩石变质—变形条件的研究是探讨造山带造山过程及造山机制的重要环节.岩石中矿物显微、超微构造特征是造山带形成环境的真实体现,是造山带变形研究的基础.本文通过对商丹断裂带(即商南—丹凤断裂带)东延段桐柏山地区石榴云母片岩中石榴子石的位错特征及动态重结晶型式等显微构造特征,分析研究石榴子石塑性变形方式、变形机制及...     

长乐—南澳断裂带东山段剪切变形与剪切加热作用

本文在系统的有限应变测量的基础上,对闽东南长乐—南澳断裂带东山段剪切变形特征进行了分析:利用变形石英显微亚结构。(动态重结晶颗粒)估算了剪切带内古应力并(σ—σ_3):通过对剪切变形能密度分布W(x)格离散化计算,采用有限差分数值近方法,获得了剪切热数值解:最后总结了研究地区剪切变形,剪切加热与动热成岩成矿作用的相对时空关系以及长乐—南澳断裂域构造意义     

桐柏杂岩北界剪切带的构造变形特征研究

桐柏杂岩北界剪切带是桐柏—大别造山带发育的一条大型的左行走滑韧性剪切带,发育糜棱岩、超糜棱岩以及强直片麻岩等强变形岩石。通过对剪切带内岩石的矿物共生组合、剪切带的位移量计算、石英的分维数计算、石英颗粒的差异应力以及应变速率的估算等多种方法分析结果显示:桐柏杂岩北界剪切带的位移量为38.3~41.1km;动态重结晶石英颗粒边界统计数据的相关系数R均大于0.96,动态重结晶颗粒边界具有统计意义上的自相似性;分维数为1.207~1.302之间,从剪切带的核部向边部,颗粒粒径和分维值的变化是逐渐变大的。石英的分维值反映出石英的动态重结晶与剪切带密切相关,变质变形由剪切带核部向边部逐渐减弱。桐柏杂岩北界剪切带的差异应力值为23.583~46.983 MPa之间,应变速率为1.70×10~(-11)~9.74×10~(-11)s~(-1)。通过对比剪切带内动态重结晶石英颗粒的粒径、差异应力和应变速率可以发现,差异应力与应变速率表现出一定的正相关性,都随着从剪切带的核部到边部慢慢变小;而石英的粒径则与差异应力和应变速率表现出负相关性,从剪切带核部到边部,随着石英粒径的变大,差异应力和应变速率变小。差异应力越大,导致石英颗粒的受力强度越大,变形越强,表现出来的就是应变速率越强。从显微构造变形角度来研究认识该剪切带,对揭示桐柏—大别造山带的构造演化以及构造模型的建立有着重要的构造意义。     

胶东新城金矿床控矿构造变形环境：显微构造和EBSD组构约束

新城金矿床是典型的"焦家式"破碎带蚀变岩型金矿,矿体形态和规模都严格受到断裂破碎带控制,是探讨复杂构造-流体耦合成矿系统控矿构造变形环境研究的理想选区。断裂破碎带中构造岩既是构造变形行为的载体,也是相应变形环境的受体。论文在新城金矿详细露头构造解析的基础上,系统采集该矿床控矿断裂破碎带定向构造岩样品,进行显微构造和EBSD组构分析。研究区构造岩显微构造特征主要表现为韧性变形和脆性变形。韧性变形有波状消光、带状消光、亚晶粒、动态重结晶、核幔构造、丝带构造、碎(残)斑系、扭折带、变形纹、机械双晶、蠕英结构、云母鱼等;脆性变形有书斜构造和显微裂隙等。长石(残)斑系、扭折带、变形纹、蠕英结构和石英颗粒边界迁移动态重结晶、丝带构造等矿物变形特征表明断裂带成矿前以高温韧性变形为主;石英波状消光、亚晶粒、亚颗粒旋转和膨凸动态重结晶、方解石机械双晶、长石显微裂隙充填物等矿物变形反映成矿期兼有中低温韧性变形和脆性变形;压剪性穿晶裂隙则反映出成矿后主要是低温脆性变形。根据差应力、应变测量和EBSD组构分析,将新城金矿床控矿构造变形环境可以分为3个构造期:成矿前在NW-SE向挤压作用下发生韧-脆性左行剪切变形,600~700℃,差应力61.37~111.09MPa,应变测量轴比a/c为2.295~3.978,动态重结晶石英颗粒边界分维值为1.466~1.599,反映矿区为高温中高压高应变带变形环境,应变速率较大;成矿期为NW-SE向逐渐NEE-SWW向转变的挤压作用,发生压剪性脆性变形,200~500℃,差应力65.91~135.68MPa,应变测量轴比a/c为1.403~2.204,动态重结晶石英颗粒边界分维值为1.321~1.378,反映矿区成矿期为中低温中高压低应变带变形环境,反应速率较小;成矿后在NWW-SEE向挤压作用下发生压剪变形,150~300℃,反映低温低压脆性变形环境。     

鲁西地区韧性剪切带显微构造研究及岩组分析

通过对鲁西地区韧性剪切带显微构造及岩组特征等的研究,认为该区韧性剪切带具有多期次、多方向、多性质的变形特点,韧性变形主体具有右行剪切性质,最大主压应力方位为ＮＥＮＥＥ。从岩组分析结果可知,区内岩石韧性变形较强,并且复杂,变形以压剪性变形为主,石英变形机制主要为柱在滑移,韧性变形时温度较高。石英自由位位错密度法应力估算结果说明,区内最大差应力为７５．４ＭＰａ,平均值６８．４５ＭＰａ,金矿体的赋存与构     

郯庐断裂带肥东北部文集地区构造岩类型与构造变形分析

位于郯庐断裂带中南部的肥东地区是郯庐断裂带内韧性剪切带出露的主体区域之一。本文从肥东北部文集地区的构造岩组成及其变形入手,通过详细的野外观测、室内显微构造变形分析来确定该地区构造变形的几何学形态及其涡度、有限应变、分维度、差异应力、应变速率等参数。研究区主要出露角闪岩相肥东变质杂岩,构造岩以糜棱岩和糜棱岩化片麻岩为主,岩石变形强烈。根据极摩尔圆法得到的运动学涡度值为0.729~0.870,指示区域内的韧性剪切活动以简单剪切为主。几何学形态上,肥东北部文集地区构造整体呈一背形展出,其枢纽走向NE-SW,轴面倾向SE,物质及变形强度等方面均表现出一定的规律和对称性。研究区内动态重结晶石英颗粒边界具有统计学上的自相似性,其分维值D在1.143~1.208之间,且自背形核部向两翼,颗粒粒径增大,分维值减小。差异应力Δσ介于17.86~55.18MPa之间,应变速率ε值在1.960×10^-13~7.330×10^-12s^-1之间,且背形核部差异应力和应变速率较两翼大,呈近似对称性分布。通过对比以上构造参数可以发现,区内差异应力和应变速率表现出一定的正相关性,自核部向两翼二者均呈减小趋势;动态重结晶石英颗粒则与应变速率呈负相关性,即核部颗粒细小、两翼增大。本文从几何学、运动学以及显微构造变形分析等方面对该区构造变形展开精细化研究,借此来分析肥东北部地区郯庐断裂带的构造形态和运动学特征,这对进一步认识郯庐断裂带的演化过程及构造模型的建立有着重要的意义。     

甘肃文县阳山金矿带显微构造研究

甘肃文县阳山金矿位于西秦岭南亚带,地处中国扬子大陆—华北大陆—松潘甘孜地块三大地块(华北—扬子—松潘)的汇聚转化部位,大地构造背景极为复杂。本次工作着力研究该区显微构造特征,通过显微构造来反映宏观构造。主要研究内容与成果包括:①通过对显微构造特征观察,认为该区构造应变主要为脆—韧性变化,区域构造运动至少可以分为4个期次,与宏观构造所反映的构造期次基本一致;②显微构造运动学分析表明,该区断裂带活动方式有变化,从而造成了剪切方向的不一致;③动力学分析表明,该区域主应力方向为NW—NE,与宏观构造所反映的区域主应力方向一致;动态重结晶法计算古应力差值为20MPa左右,反映为后期剪切作用的差异应力,其构造层次也相对较浅,属于表—浅构造层次。     

Rock Deformation, Component Migration and ^18O/^16O Variations during Mylonitization in the Southern Tan-Lu Fault Belt

This paper discusses the relationship between the volume loss, fluid flow and component variations in the ductile shear zone of the southern Tan-Lu fault belt. The results show that there is a large amount of fluids flowing through the shear zone during mylonitization, accompanied with the loss of volume of rocks and variations of elements and oxygen isotopes. The calculated temperature for mylonitization in different mylonites ranges from 446 to 484℃, corresponding to that of 475 to 500℃ for the wall rocks. The condition of differential stress during mylonization has been obtained between 99 and 210 MPa, whereas the differential stress in the wall rock gneiss is 70-78 MPa. The mylonites are enriched by factors of 1.32-1.87 in elements such as TiO2, P2O5, MnO, Y, Zr and V and depleted in SiO2, Na2O, K2O, Al203, Sr, Rb and light REEs compared to their protolith gneiss. The immobile element enrichments are attributed to enrichments in residual phases such as ilmentite, zircon, apatite and epidote in mylonites and are interpreted as due to volume losses from 15% to 60% in the ductile shear zone. The largest amount of SiO2 loss is 35.76 g/100 g in the ductile shear zone, which shows the fluid infiltration. Modeling calculated results of the fluid/rock ratio for the ductile shear zone range from 196 to 1192 by assuming different degrees of fluid saturation. Oxygen isotope changes of quartz and feldspar and the calculated fluid are corresponding to the variations of differential flow stress in the ductile shear zone. With increasing differential flow stress, the mylonites show a slight decrease of δ^18O in quartz, K-feldspar and fluid.     

夹皮沟剪切带化学成分演化研究

野外地质填图及室内工作表明,夹皮沟剪切带可以划分为早期韧性剪切带(>2500Ma)和晚期脆—韧性剪切带(2000～1600Ma).韧性剪切作用是在角闪岩相条件下形成,以位错、扩散蠕变变形为主,体系内岩石成分与体积基本保持不变,为封闭体系,与矿化关系不密切.脆—韧性剪切作用形成一系列片糜岩,岩石以微破裂及溶解—沉淀变形为主,体系内岩石成分与体积都发生变化,为开放体系,与矿化关系密切.韧性及脆—韧性剪切带的基础岩石是长英质片麻岩,但脆—韧性剪切带被韧性剪切带所限定,并在韧性剪切带基础上形成.     

Petrological Study on the Ductile Shear Zones in the Core of the Eastern Qinling Orogenic Belt in Western Henan

A series of ductile shear zones of the overthrust and strike-slip-types and related ductile shear metamorphicrocks, including tectonic melange and mylonites. were formed in the core of the Qinling orogenic belt in thecourse of the Caledonian-Indosinian ductilc and brittle-ductile reworking. The study on their petrography. va-riations in composition and conditions of formation is conducive to revealing the metamorphism-deformationhistory of the core of the Qinling orogenic belt and further to understanding the dynamic mechanism of its evo-lution.     

伏牛山构造带变质流体脉变形特征及构造意义

伏牛山构造带由多条近平行的断裂带和夹持其间的变形岩片组成,洛南-栾川断裂带和瓦穴子-乔端断裂带为其中的两条主要断裂带。这两条断裂带虽遭受多期强烈构造活动的影响,但主造山期的构造特征至今仍然保存完好,并以中深层次的韧性剪切变形为主,形成了典型的糜棱岩和同构造期石英脉。本文从宏观、微观、超微观变形特征及年龄等方面对这些变质流体脉进行了研究,以探讨与其形成密切相关的构造活动特征、年代及其在秦岭造山带和华北板块南缘强变形带中的作用。石英脉中石英颗粒动态重结晶特征总体显示远离剪切带只有少量的膨凸式,靠近断裂带为亚颗粒式,形成核-幔结构,位错特征显示远离剪切带位错密度较小,靠近断裂带较大,位错形态显示瓦乔断裂带以挤压为主,洛南-栾川断裂带以剪切为主。两条断裂带石英脉的变形特征说明它们的糜棱岩化过程均为塑性变形中的晶质塑性变形,形成过程均为挤压在先,剪切在后。所测糜棱岩中石英脉的ESR年龄分别为372.9±30.0 Ma、275.0±20.0 Ma和218.0±20.0 Ma,真实地记录了晚加里东至中-晚海西期北秦岭的构造活动及所受影响。其中372.9±30.0 Ma是宽坪岩块向华北板块下的斜向俯冲汇聚和走滑的年代, 275.0±20.0 Ma是瓦乔断裂带的形成年龄。218.0±20.0 Ma的年龄则反映了华南、华北两大板块印支晚期全面闭合作用在秦岭造山带内部的影响。从以上3个年龄可以看出:北秦岭各构造带自北向南演化,时代上自北向南变新。     

郯庐断裂带南段桴槎山韧性剪切带糜棱岩的变形条件和组分迁移系

本文对郯庐断裂带南段主干断裂典型的韧性剪切带进行了系统的剖析。从糜棱岩塑性变形的亚颗粒化、动态重结晶和矿物成分特征及岩石组分迁移变化等入手进行系统的研究工作，计算了岩石形成的温度、压力和流动应力和流变速率参数；模拟计算了岩石在剪切变形作用下的体积亏损及组分迁移的量值，探讨了变形－变质及流体的相关关系     

陕川丁家林-太阳坪金矿带成矿机理

丁家林-太阳坪金矿带与丁家林-太阳坪脆-韧性剪切带同位分布、同能源作用、同步生成，是脆-韧性剪切变形形成的石英脉型金矿，总体走向NE，主要由丁家林和太阳坪2个金矿床组成，分石英单脉、单脉密集带、复脉带3个亚型。丁家林以含Au石英复脉为主，太阳坪以含Au石英单脉为主；成矿物质来源于富含Si质的志留系黄坪组，成矿流体主要是构造水；内生成矿作用分脆．韧性剪切变形-构造分异热液期和韧-脆性剪切变形-构造分异热液期，与2期脆-韧性剪切变形相对应，第2期为主成矿期。其成矿机理是脆-韧性剪切变形动力成岩成矿。     

龙口-莱州断裂带中段韧-脆性构造变形特征及其动力学

初步总结了龙口－莱州断裂带中段的地质特征,论述了断裂构造岩的分类特征及其复合关系,概括了韧－脆性剪切带内的韧性变形构造,矿物塑性变形和岩石变形组构等构造变形特征,划分了韧－脆断裂带的活动期次,探讨了断裂带的演化特点。通过岩组分析,差应力值估算及温压条件判断,笔者还对断裂带进行了动力学分析。     

Structural geochemistry of gold mineralization in the Linglong-Jiaojia district, Shandong Province, China

The Linglong-Jiaojia district is one of the most important regions containing gold deposits in China. These gold deposits can be divided into: a) the pyrite-gold-quartz vein type (Linglong type), which is controlled by brittle-ductile to ductile deformation structures, and b) the alteration-zone type (Jiaojia type), characterized by small veinlets, or the disseminated type recognized in brittle shear zones. Lode gold deposits in the Jiaojia area occur in NE brittle fracture zones, formed in a dominantly simple shear deformation regime, mainly in thrust attitude with a minor sinistral strike slip component. In the Linglong area, the lode gold deposits are located at the intersection of three types of structures: NNE and NE brittle-ductile fault zones and the ENE ductile reverse shear zone in the south of the area. The structural characteristics of these brittle shear zones are consistent with a tectonic NNW-SSE principal stress field orientation. Similar stresses explain the ENE Qixia fold axes, the Potouqing and several other ENE reverse ductile shear zones elsewhere in the region, the Tancheng-Lujiang fault zone and its subsidiaries in the vicinity of the Linglong-Jiaojia district, as well as the southern ENE suture zone north of Qingdao. Therefore these structural systems occurred as part of different major tectonic events under NNW-SSE compression principal stress fields in the area. Gold deposits are hosted in smaller-scale structures within the brittle fault zones and brittle-ductile shear zones. Although ore bodies and, on a smaller scale, quartz ore veins often seem to be randomly oriented, it is possible to explain their distribution and orientation in terms of the simple shear deformation process under which they were developed. The progressive simple shear failure is characterized by various fracture modes (tension and shear) that intervene in sequence. The tension and shear fractures are influenced by the stress level (depth of burial beneath the paleosurface) in their structural behavior, show variable dilatancy (void openings) and extend on all scales. By making use of these characteristics, a progressive failure analysis can be applied to predicting the shape and extent of ore bodies as well as the styles of mineralization at any given location.     

郯庐断裂带张八岭隆起北段的左旋走滑挤压变形及其~(40)Ar/~(39)Ar定年

郯庐断裂带张八岭隆起北段,自西向东分别出露北北东向的韧性滑脱变形带、脆-韧性过渡带和脆性的前陆褶断带。韧性滑脱变形带内的张八岭群片岩,广泛发生了低绿片相背景下的糜棱岩化。其中呈现为平缓的糜棱面理和近南北向的矿物拉伸线理。显微构造及石英C轴组构分析显示,该韧性滑脱带一致为上盘向南的运动。该带以东依次变为上盘向南南东→南东的逆冲活动,总体上为左旋走滑挤压变形带。张八岭群所在的韧性变形带为深部陡立走滑构造与浅部脆性构造之间的滑脱变形带,其间的差异走滑变形,造成了该滑脱层在总体向北运动中出现上盘向南的剪切变形。对6处张八岭群片岩中15个不同粒级白云母的40Ar/39Ar定年指示,变形发生在(236.2±0.5)~(238.0±0.4)Ma的中三叠世晚期。这表明郯庐断裂带的左行平移发生在华北与华南板块碰撞的深俯冲阶段,起源于陆内转换断层。     

Very high strains recorded in mylonites along the Alpine Fault, New Zealand: implications for the deep structure of plate boundary faults

Oblique displacement on the Alpine Fault, which forms the principal structure along the Australian–Pacific plate boundary in South Island, New Zealand, has resulted in exhumation of a kilometre-wide mylonite zone in the hanging wall adjacent to the current brittle fault trace. The mylonites formed under amphibolite facies conditions at depths of ca. 25 km and have been uplifted during the past 5 Ma. A suite of 65–70 Ma pegmatite veins in the hanging wall Alpine schists has been progressively deformed within the mylonite zone and sheared out over a strike length of ca. 100 km. Measurements of the thickness distribution of the pegmatite veins within the non-mylonitised schists and at three localities within the progressively strained mylonites have been used to estimate strain values within the mylonites. The thicknesses approximate a log-normal distribution, with a mean value that is progressively reduced through the protomylonites, mylonites and ultramylonites. By assuming that the thickness distribution currently observed in the schists was the same for the pegmatites within the mylonites before strain, a model of deformation incorporating simple shear and simultaneous pure shear is used to strain the undeformed veins until a fit is obtained with the strained distributions. Shear strains calculated range from 12 to 22 for the protomylonites, 120 to 200 for the mylonites and 180 to 300 for the ultramylonites, corresponding to pure shear values of 1–3 in each case. These values are compatible with the strains predicted if most of the surface displacement on the fault over the past 5 Ma were accommodated within a 1–2-km-wide mylonite zone through the middle and lower crusts. The results suggest that processes such as erosional focussing of deformation and thermal weakening may cause intense strain localisation within the lower crust, with plate boundary deformation restricted to narrow zones rather than becoming increasingly distributed over a widening shear zone with depth.