勉略构造带康县区段磁组构特征及其构造意义

野外研究表明勉略构造带康县区段的两期主要构造变形特征:早期以较深层次的韧性变形为主,晚期为较浅层次的脆-韧性变形;表现为早期发育的紧闭褶皱、透入性面理,被晚期的褶皱以及脆性断层所截切、改造.磁组构主要反映晚期构造变形特征,样品磁化率各向异性度(PJ)总体较高,为强变形类型;T、E反映挤压、剪切为主的应变特征,与Flinn图解结果一致;两组磁面理均值为344°∠40°和179°∠61°,在平面上呈共轭状出露,锐角平分线近东西向,暗示了构造带内南北向挤压伴随着近东西向的走滑;磁线理倾角总体较小,近东西向展布;高角度磁面理以及占优势的低角度磁线理指示了挤压兼走滑的变形机制,部分高角度磁线理与逆冲作用有关.最小磁化率显示出晚期近南北向的应力方向.结合野外构造解析认为,晚期挤压兼右行走滑构造变形反映西秦岭逆冲推覆构造在碧口地块的阻挡下发生右行斜向逆冲,并暗示碧口地块相对向西逃逸.     

岩石磁组构在构造混杂岩带和韧性剪切带研究中的应用：以西天山？…

本文以西天山地区为例,讨论了岩石磁组构造混杂岩带和韧性剪切中的作用和功能。指出岩石磁组构的某些参数能反映混杂岩带的变形类型,磁化率椭球体三个轴的方位在混杂岩基质中分布有规律,而在岩块中没有规律。在韧性剪切带中,磁组构的各向异性度Ｐ值绝大部分大于１．１,并有变化。磁面理的产化变化可用来求出韧性剪切带的位移量和变形路径。磁组构的Ｌ－Ｆ参数图可确定韧性剪切带的类型,最小主磁化率的方位可用来确定韧性剪切带     

岩石磁组构在构造混杂岩带和韧性剪切带研究中的应用——以西天山地区为例

本文以西天山地区为例,讨论了岩石磁组构在构造混杂岩带和韧性剪切带中的作用和功能．指出岩石磁组构的某些参数能反映混杂岩带的变形类型,磁化率椭球体三个轴的方位在混杂岩基质中分布有规律,而在岩块中没有规律．在韧性剪切带中,磁组构的各向异性度Ｐ值绝大部分大于１．１,并有变化．磁面理的产化变化可用来求出韧性剪切带的位移量和变形路径．磁组构的Ｌ—Ｆ参数图可确定韧性剪切带的类型,最小主磁化率的方位可用来确定韧性剪切带的剪切指向．     

大别山双河同构造花岗岩体显微构造与磁组构研究

双河岩体应变分析结果显示, 主应变面发生明显变形, XZ面应变轴比达1.59~2.18, 付林指数K在0.11~0.82. 磁化率各向异性结果显示, 磁面理主体倾向SE, 与岩体宏观面理一致; 磁线理主体向SE倾伏; 磁化率各向异性度P在1.109~1.639; 形态参数T在0.079~0.534; 应变分析与磁化率各向异性分析均表明岩体受到了强烈的挤压变形. 石英C轴组构以沿b轴的高极密为特点, 显示石英以高温的柱面(1010) 〈a〉 滑动为主, 这与赋存在岩体中的高压-超高压岩石及围岩的石英C轴组构明显不同. 综合分析表明, 双河岩体在稍晚于超高压岩石形成的区域挤压背景下侵位, 具有同构造花岗岩变形特点.     

西秦岭温泉岩体的磁组构特征及其侵位机制意义

结合岩石磁学、磁化率各向异性度与区域构造分析了西秦岭温泉岩体的侵位机制及意义.温泉岩体的样品的平均磁化率k_m值总体很大,岩石磁学表明对于磁化率较低的样品,顺磁性矿物（如黑云母等）对磁化率的贡献较大,而少量铁磁性矿物（如磁铁矿等）可能作为剩磁载体.对于磁化率较高的样品,其主要载磁矿物为磁铁矿;花岗岩样品的校正磁化率各向异性度P_J总体小于1.2,显示了岩体为流动磁组构的特征,磁化率椭球体形态参数T总体大于0,扁率E总体大于1,以压扁椭球体为主;岩体的磁面理同磁线理相比更为发育,样品的磁面理普遍表现出围绕岩体边界分布的特点,且倾角较陡;而在岩体内部磁线理与磁面理分布相对散乱,定向性差,这一特征说明温泉岩体的磁组构主要由侵位时的侧向挤压作用形成的;虽然岩体的磁组构特征总体显示了N-NEE和SW向的挤压作用,但岩体侵位时由商丹缝合带闭合所产生的垂直于缝合带方向的挤压作用已相对较弱.本文认为,温泉岩体侵位时是一种弱挤压环境,或者是一种相对稳定的环境甚至可能是一种相对引张的背景,这与温泉岩体形成于后碰撞环境,秦岭造山带已演化至后碰撞拆沉作用发生的伸展阶段所反映的区域构造背景是一致的.     

聂拉木地区高喜马拉雅岩石磁组构及其构造含义

利用岩石磁化率量值椭球体与岩石构造应变椭球体的共轴性，在缺乏岩性标志层的高喜马拉雅结晶基底（聂拉木地区）进行岩石磁组构研究，进而研究喜马拉雅造山带的变形期次和过程.磁组构特征表明：磁化率各向异性度P在樟木镇北1km处的片岩最高为172，在康山桥南1km处最低，为113；百分率各向异性度H在1182%～4507%之间；磁性线理L在102～109之间,磁性面理F在106～160之间,磁性面理F比磁性线理L发育；磁化率椭球体的形状因子T在019～076之间，磁化率椭球的扁率E在104～149之间，磁化率椭球体的形状为一压扁椭球；樟木镇北1km到肉切村，平均最小磁化率主轴方向D3为S－N（除聂拉木北1km的MA9外），大多数样品最小磁化率主轴方向倾角I3＞51°，最高达726°，局部发育有拉长形磁化率量值椭球体.本文研究结果表明，聂拉木地区早期经历强烈的韧性变形，推测可能是一条巨大的右旋逆冲韧性变形带，晚期构造掀斜.     

北京房山岩体的磁组构特征及其 对岩体侵位的约束

岩浆岩的磁组构与岩浆流动、侵位时应力和冷凝后遭受后期构造改造作用有关.本文分析了北京房山岩体东山口-凤凰亭剖面岩石磁化率各向异性(AMS)变化.热磁曲线和磁滞回线分析显示,岩石的主要载磁矿物为多畴磁铁矿颗粒.AMS磁化率椭球体呈压扁状,磁面理发育且产状陡倾,磁化率各向异性度P值平均值高达1.189.自边缘相(东山口)到中心相(凤凰亭),岩石磁化率椭球的扁率E值和形状因子T值逐渐减小,说明磁组构主要反映岩浆流动和岩体侵位时近NNE-SSW方向的挤压作用,在侵位冷凝后并没有遭受到明显的构造改造.     

大别山核部石鼓尖同构造花岗岩的变形与侵位:对造山带构造体制转换的启示

石鼓尖岩体位于大别山核部天堂寨地区,为片麻理化石英二长岩.岩体磁组构分析显示,磁面理主体倾向SE,倾角较大,85%采样点的倾角介于40°~90°之间,与岩体的片麻理产状一致.岩体磁线理在东南部走向为NWW-SEE向,在岩体中部和北部,磁线理走向皆为NE-SW向.在岩体中部,磁线理向SW倾伏,北部磁线理向NE倾伏,磁线理倾角中等.磁化率各向异性度P值介于1.065~1.532之间;形态参数T介于0.005~0.694之间;弗林图解(F-L图解)显示K值均小于1,磁组构分析表明岩体是在SE-NW向挤压应力环境下侵位.石英C轴组构分析表明,岩体受到SE-NW向挤压应力,变形温度在400~500℃之间.显微构造显示岩石具有接近固态的变形组构特征,属同构造岩体变形组构.结合岩体磁组构、显微构造和石英C轴组构,指示石鼓尖岩体侵位冷凝成岩与区域NE向构造为同期,属同构造侵入岩体.石鼓尖岩体U-Pb定年结果表明,岩体锆石U-Pb年龄为(141±2.3)Ma,代表岩体侵位结晶年龄.综合分析认为,石鼓尖岩体侵位冷凝成岩时大别造山带仍然处于挤压环境,造山带由挤压向伸展转换的时间应该在141 Ma之后,岩体侵位时大别造山带的构造演化已受控于滨太平洋构造域.而邻近的天堂寨等巨大岩基则是伸展环境的产物.     

南大巴山前陆褶皱带荆竹坝—石窝剖面磁组构特征及其对构造演化的制约

通过野外构造观测、岩石磁学与磁组构综合分析,本文研究了南大巴山前陆褶皱带荆竹坝—石窝剖面的叠加构造特征及其形成演化.从北东向南西,剖面构造变形总体呈减弱趋势,褶皱轴面总体倾向北东,大尺度褶皱枢纽均以小角度向北西倾伏.古应力分析显示最大主压应力为北东—南西向,反映以南大巴山的推覆为主.剖面J₃之前的采样层位主要表现为变形组构,而J₃-K₁的采样层位则表现为初始弱变形组构.磁线理呈NW-SE向的优势方位,与剖面主构造线基本平行,主要反映来自南大巴山的推覆挤压.剖面发育特殊磁组构：①磁面理与地层面斜交,主要与褶皱作用中的平行层简单剪切相关;②磁线理均不同程度斜交于地层走向,指示构造叠加背景.沿剖面北东向南西区段K_min的倾伏角随构造变形强度减弱而增大,据此相关性可将K_min的倾伏角作为判别弱变形沉积岩变形强度的标志.本文认为,在晚侏罗世以南大巴山的推覆为主而米仓山短轴背斜与川东褶皱带挤压次之的联合作用使南大巴山前陆褶皱带具有构造叠加特征,之后的早白垩世仍主要表现为南大巴山的推覆,而其他两个方向的挤压较之前相对较弱.该结果也反映了秦岭J₃-K₁陆内造山作用及燕山期雪峰陆内构造变形的影响,为探索陆内构造与陆内造山的大陆动力学提供了佐证.     

喜马拉雅东构造结东缘碧罗雪山-崇山剪切带北段构造变形特征及构造意义

位于喜马拉雅东构造结东缘的新生代碧罗雪山-崇山剪切带出露各类构造岩,其西侧翼主要为片麻岩带,以条带片麻岩、眼球状糜棱岩化片麻岩和混合片麻岩为特征,东侧翼为糜棱岩化片岩带;基于野外构造-组构几何关系和叠加-改造痕迹,可识别出多期韧性、韧-脆性和脆性构造变形（D1~D4）.第一期变形D1主要发育等斜-紧闭褶皱F1（褶皱轴近N-S走向）和陡立的轴面劈理S1,以及代表地壳物质垂向增厚和侧向减薄的布丁构造;第二期变形D2构造特征为发育大规模韧性走滑剪切面理S2,部分S2面理发生褶皱变形,形成褶皱F2,褶皱轴陡倾伏,褶皱面陡立,近N-S走向,与剪切面理S2近平行,D2构造样式表现为左旋走滑挤压应变（Transpression）特征;D1和D2构造变形均被晚期NW-SE和NE-SW走向的第三期D3构造改造,即走滑剪切带S3和共轭走滑断裂;第四期构造D4以脆性右旋走滑伸展应变（Transtension）为特征,即N-S走向的走滑组分和正断组分同时发生.结合邻区新生代哀牢山-红河剪切带和高黎贡剪切带的构造几何、运动学和年代学数据,分析认为自新生代印度-欧亚汇聚-碰撞以来,环喜马拉雅东构造结及东缘地区的陆内构造变形经历了地壳增厚（D1）、左旋走滑挤压（韧性域D2和韧-脆性域D3）和右旋走滑伸展（D4）多期构造变形和变形体制的转换.     

Anisotropy of magnetic susceptibility in the Scaglia Rossa pelagic limestone

During folding of the Scaglia Rossa limestone in Umbria, Italy, deformation was mainly accommodated by pressure solution cleavage. Fossils between the cleavage planes appear visibly undeformed, yet the limestone possesses a weak magnetic fabric. The maximum and intermediate principal axes of the magnetic anisotropy ellipsoid define a distinct magnetic foliation plane within which a weak concentration of the maximum axes forms a magnetic lineation. Neither of these features is of sedimentary origin. Results from a slumped outcrop, where bedding and a cleavage induced by overburden compaction have different attitudes, show that the magnetic foliation is caused by the compaction. Comparisons with field-derived structural data suggest that the magnetic lineation was produced tectonically during deformation of the Apennine fold belt.     

Origin of vesicle layering and double imbrication by endogenous growth in the Birkett basalt flow (Columbia river plateau)

The 40-m thick Birkett basalt pahoehoe flow at Sentinel Gap in the Columbia River Plateau has an unusually thick (≥15 m) upper vesicular zone. This zone includes a striking layering in which the layers have contrasted vesicle abundances and sizes. Most layers show a reverse grading of vesicle size and abundance. The layering is interpreted to have grown endogenously by the cyclic injection of vesicular lava layers under the growing top crust, accommodated by uplift of that crust. Grading of the layers resulted from vesicle growth and ascent. Each injection occurred at or near the boundary between vesicular and non-vesicular lava of the preceding layer and split that layer into an upper vesicular part and a lower non-vesicular part. Critical to this interpretation are (1) a pervasive foliation and lineation, defined by the parallelism of strongly flattened and elongate vesicles, transects the vesicle layers obliquely; and (2) the magnetic fabric (the anisotropy of magnetic susceptibility) is oriented similarly to the vesicle foliation, and also defines a cryptic foliation in the non-vesicular zone having a dip opposed to that in the layered zone. These foliations are interpreted to be opposed imbrications and indicate the flow azimuth of the lava. They strongly support the concept of lava growth by successive thin sill-like insertions of fresh vesicular lava between hot but static and effectively solid floor and roof.     

Magnetic anisotropy and fabric of some foliated rocks from S.E. Australia

Summary The magnetic anisotropy of foliated rocks of several types has been measured by the torque-meter method, and shows that the alignment of long axes of magnetic grains in rocks normally follows the pattern of foliation evident in field observations. In a sharp fold in a lit-par-lit formation the magnetic anisotropy indicated an otherwise undetected lineation independent of the bedding and superimposed upon the foliation determined by the layering. In two adamellites, each with two alignment patterns separated by an angle of 30° the magnetic data are shown to be consistent with two foliations but not with one foliation plus a lineation. Magnetic anisotropy data can be ambiguous for rocks in which two or more grain alignment processes have operated, but combined with other observations magnetic measurements can provide a valuable new tool in the study of rock fabrics.     

New insights into asymmetric folding by means of the anisotropy of magnetic susceptibility,Variscan and Pyrenean folds (SW Pyrenees)

Magnetic fabric allows to unravel the petrofabrics of sedimentary rocks and to assess their deformational history. The use of this technique, in addition to classical structural field observations in the limbs of seven asymmetric folds in the Pyrenees, helps to determine the differences of internal deformation as well as the folding kinematics. Three folds developed during the Variscan Orogeny in Ordovician and Devonian rocks, and four folds developed during the Pyrenean Orogeny in Eocene rocks, are studied. Folds show a variety of structural locations, in different thrust sheets of the Southern Central Pyrenees, different cleavage development, age, geometry and lithology. Sampling follows an equivalent lithological layer in the two limbs, except for one case, of the selected folds. Results show a modified tectonic magnetic fabric in most sites with the magnetic lineation on the tectonic foliation plane. A larger scattering of the magnetic lineation (maximum magnetic anisotropy axis) and a higher intensity of the preferred orientation of minerals (eccentricity of the anisotropy of magnetic susceptibility - AMS ellipsoid) is better observed in the overturned (short) limb of the asymmetric Variscan folds than in the normal (long) limb. On the other hand, the shape parameter in Alpine folds is generally larger in the overturned (short) limb then in the normal (long) one. A good clustering of the minimum magnetic anisotropy axes is observed in all limbs. The combination of the AMS data with the structural data helps to understand and better constrain the deformation degree in these asymmetric folds and to unravel the deformational history.     

韧性剪切带及其变形岩石

本文讨论了地壳和上地幔中韧性剪切带及其中的变形岩石。在大多数情况下,韧性剪切带中的变形岩石为糜棱岩,因为经受韧性剪切变形时,岩石的粒度显著减小并发育了强化的叶理(线理)。但是在某些情况下,例如,当隐晶质灰岩及富含长石的岩石经受韧性剪切变形时,剪切带中的变形岩石粒度局部增大或者没有发生明显减小,它们并不是典型的糜棱岩。由于变形环境、变形介质及变形机制的不同,韧性剪切带内岩石变形的产物是不同的     

Strain and shear types of the Louzidian ductile shear zone in southern Chifeng, Inner Mongolia, China

The Louzidian ductile shear zone at the south of Chifeng strikes NE-SW and dips SE at low-medium- angles. This ductile shear zone is mainly composed of granitic mylonite, which grades structurally upward into a chloritized zone, a microbreccia zone, a brittle fault and a gouge zone. All these zones share similar planar attitudes, but contain different linear attitudes and kinematic indicators. Finite strain measurements were performed on feldspar porphyroclasts using the Fry method. These meas- urements yield Fulin indexes of 1.25―3.30, Lode's parameters of -0.535―-0.112 and strain parameters of 0.41―0.75 for the protomylonite, respectively. These data are plotted within the apparent constric- tional field in Fulin and Hossack diagrams. In contrast, for the mylonite, corresponding parameters are 0.99―1.43, -0.176―-0.004 and 0.63―0.82, respectively, and located in the apparent constrictional field close to the plane strain. The mean kinematic vorticity numbers of the protomylonite and mylonite by using three methods of polar Mohr circle, porphyroclast hyperbolic and oblique foliation, are in the range of 0.67―0.95, suggesting that the ductile shearing is accommodated by general shearing that is dominated by simple shear. Combination of the finite strain and kinematic vorticity indicates that shear type was lengthening shear and resulted in L-tectonite at the initial stage of deformation and the shear type gradually changed into lengthening-thinning shear and produced L-S-tectonite with the uplifting of the shear zone and accumulating of strain. These kinds of shear types only produce a/ab strain facies, so the lineation in the ductile shear zone could not deflect 90° in the progressively deformation.     

青藏高原东缘新生代早期古应力环境:来自四川盆地西南缘磁组构的记录

四川盆地西南缘紧邻龙门山褶皱冲断带(青藏高原东边界)南段.该地区的新生代早期红层沉积记录了青藏高原东缘的隆升历史及构造演变.本研究选取四川盆地西南缘芦山地区古新统—下渐新统名山组—芦山组地层剖面为研究对象,利用磁组构方法,结合前人对研究区古地磁及构造变形的研究,恢复了该地区新生代早期的古应力方向.本研究获取了548块样品的磁组构数据,这些磁组构的磁面理与层面平行,产状校正后磁线理呈NE-SW方向(39°/219°),K₃主轴方向相对集中(为120.9°±1.3°),为弱应变背景下平行层缩短之前初始变形磁组构类型,主要形成于地层成岩阶段,未受到后期褶皱等构造变形的强烈改造.本研究认为芦山剖面磁组构结果记录了研究区新生代早期的构造变形信息:新生代早期龙门山褶皱冲断带南段及川西南盆地受NW-SE向的最大主应力控制.该地区新生代晚期及现今应力场与新生代早期一致,可能继承了新生代早期的应力体制,暗示龙门山作为青藏高原的东边界可能在新生代早期已经形成.     

Deposition of rheomorphic ignimbrite D (Mogán Formation), Gran Canaria, Canary Islands, Spain

 Rheomorphic ignimbrite D (13.4 Ma, Upper Mogán Formation on Gran Canaria), a multiple flow–single cooling unit, is divided into four major structural zones that differ in fabric and finite strain of deformed pyroclasts. Their structural characteristics indicate contrasting deformation mechanisms during rheomorphic flow. The zones are: (a) a basal zone (vitrophyre) with pure uniaxial flattening perpendicular to the foliation; (b) an overlying shear zone characterized by asymmetric fabrics and a significantly higher finite strain, with an ellipsoid geometry similar to stretched oblate bodies; (c) a central zone with a finite strain geometry similar to that of the underlying shear zone but without evidence of a rotational strain component; and (d) a slightly deformed to non-deformed top zone where the almost random orientation of subspherical pyroclasts suggests preservation of original, syn-depositional clast shapes. Rheomorphic flow in D is the result of syn- to post-depositional remobilization of a hot pyroclastic flow as shown by kinematic modeling based on: (a) the overall vertical structural zonation suggested by finite strain and fabric analysis; (b) the relation of shear sense to topography; (c) the interrelationship of the calculated vertical cooling progression at the base of the flow (formation of vitrophyre) and the related vertical changes in strain geometry; (d) the complex lithification history; and (e) the consequent mechanisms of deformational flow. Rheomorphic flow was caused by load pressure due to an increase in the vertical accumulation of pyroclastic material on a slope of generally 6–8°. We suggest that every level of newly deposited pyroclastic flow material of D first passed through a welding process that was dominated by compaction (pure flattening) before rheomorphic deformation started. Received: 25 June 1997 / Accepted: 28 October 1998     

秦岭造山带晚三叠世糜署岭岩体的岩石磁学及磁组构可靠性约束

近年来,针对秦岭造山带晚三叠世花岗岩体侵位机制的巨大争议,一些研究采用磁组构方法分析了岩体的内部组构特征及其与区域构造的关系,提出了具有重要意义的新认识.然而,目前这些研究均缺乏对岩体磁组构本质意义的分析,利用该方法约束岩体内部组构的可靠性并不十分清晰.针对这一问题,本文以秦岭造山带内具典型代表性意义的晚三叠世糜署岭花岗岩体为例,开展了该岩体的磁组构、岩石磁学、矿物形态组构和显微构造的综合研究.结果表明,糜署岭岩体的磁化率总体较低,属钛铁矿系列花岗岩.绝大部分样品的磁化率受控于顺磁性的黑云母等铁镁硅酸盐矿物,部分高磁化率样品包含了少量多畴磁铁矿等铁磁性组分的贡献,且随磁化率增大,铁磁性组分的贡献更为明显.样品的磁组构也主要是黑云母组构或由黑云母与磁铁矿的亚组构复合而成.由于样品中磁铁矿含量较低且与黑云母密切共生,磁组构与黑云母形态组构基本一致,因此,黑云母与磁铁矿的亚组构基本共轴.糜署岭岩体的磁组构本质上等同于黑云母组构,反映了黑云母等页硅酸盐矿物在岩体中的分布,可以有效的指示岩体的内部构造特征.宏观和显微构造观察还显示,糜署岭岩体的内部组构形成于岩浆侵位的晚期阶段,叠加了同岩浆期区域构造的关键信息,是从岩体构造角度开展区域构造演化的良好载体.