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1.
地壳深部岩石普遍存在变形组构,花岗质岩石中的变形组构不仅影响岩石强度,而且对后期变形具有显著控制作用。近年来,先存组构对各向异性岩石的流变强度影响成为高温高压实验研究的热点之一。文中对前人给出的各向异性岩石(包括云母片岩-片麻岩、石英-钙长石均匀混合体与层状组构样品)半脆性-塑性流变实验数据进行了重新整理与分析,结合作者开展的不同组构条件下花岗片麻岩与糜棱岩流变实验结果,讨论了先存组构对各向异性岩石流变强度的影响。实验数据表明:1)各向异性岩石的面理与最大主应力方向的角度是影响强度的主要因素。在半脆性破裂域,样品压缩方向垂直于面理(PER)和平行于面理(PAR)的强度基本相同,在压缩方向与面理呈30°夹角时,岩石破裂强度最小;在塑性流变域,垂直于面理方向的强度显著高于平行于面理方向的强度,当面理与最大主应力方向的角度为45°时,岩石强度最小。2)后期变形对原有组构的继承与改造程度,决定了各向异性岩石强度高低。3)样品中矿物的含量、分布与粒度对各向异性岩石强度有显著影响。理论模型预测结果与云母片岩实验结果比较吻合,但其他类型各向异性岩石的流变比理论模型结果要复杂得多。因此,进一步开展具有先存组构的各向异性岩石的流变实验,并将实验变形与实际地质条件下更为复杂的岩石变形进行对比分析,是认识各向异性岩石流变和变形机制最有效的方法。 相似文献
2.
在压力为1.0GPa、温度为400~1 073K条件下,用交流阻抗谱法研究了采自山东泰山的黑云斜长片麻岩平行及垂直面理方向的电导率。在实验温度范围内,黑云斜长片麻岩实验样品电导率的对数值为-6.0~0.5S/m,满足Arrhenius方程。电导率在平行面理方向比垂直面理方向高出约1个数量级。平行面理方向样品电导率分别在第3轮升、降温过程中的881~1 040K之间出现1个明显的电导率突变过程,这可能与黑云母的脱水有关。在低温段,垂直及平行面理方向样品的活化焓分别为0.43和0.49eV,在高温段则分别为3.40和1.53eV。将该实验电导率结果与华东地区大地电磁结果进行对比发现,在中下地壳范围内,该实验结果部分位于大地电磁结果范围内,说明黑云斜长片麻岩可能是组成这一地区中下地壳的候选岩石之一。 相似文献
3.
以高黎贡剪切带中发育的变形花岗质岩石为研究对象,主要通过光学显微镜(OM)、扫描电镜(SEM)、阴极发光仪(CL)和电子背散射衍射(EBSD)对其显微构造、组构以及矿物成分进行了精细的测试分析,重点针对岩石中的长石细粒化和流体制约因素进行了深入讨论.研究结果表明:(1)高黎贡剪切带中的变形花岗质岩石随糜棱岩化程度的增强,呈现出两个明显的端元变形岩石类型,即Ⅰ型-条带状花岗质糜棱岩和Ⅱ型-条带状超糜棱岩.(2)在Ⅰ型和Ⅱ型岩石中,主要矿物组合均为钾长石、斜长石、石英、黑云母和(或)白云母.然而其中Ⅰ型岩中矿物的成分含量为:钾长石(残斑为主)斜长石石英±黑云母;Ⅱ型岩中矿物的成分含量为:细粒化的斜长石钾长石石英±黑云母.(3) EBSD组构结果显示无论是Ⅰ型-条带状花岗质糜棱岩,还是Ⅱ型-条带状超糜棱岩,条带状石英在Y轴方向形成最大c轴0001主极密的结晶学优选定向,表示以柱面a滑移系发育为主;而Ⅱ型-条带状超糜棱岩基质中的石英单颗粒在X轴方向形成最大c轴0001主极密的结晶学优选定向,指示了柱面c滑移系.(4)Ⅱ型-条带状超糜棱岩基质中分布的钾长石矿物变形是以(100)[010]滑移系的发育占主导地位的位错蠕变动态重结晶,斜长石矿物呈现较弱的EBSD组构,表现出颗粒边界为主的滑移超塑性流动特征.值得注意的是从Ⅰ型-条带状花岗质糜棱岩到Ⅱ型-条带状超糜棱岩中,变形长石残斑主要为钾长石.在角闪岩相剪切变形过程中钾长石呈现出明显细粒化以及矿物相、矿物成分和结构的转变,表现为钾长石矿物残斑被细粒化斜长石和石英颗粒取代并伴随着流体作用.钾长石残斑的强烈细粒化进一步形成高应变局部化的超糜棱岩和整个岩石的超塑性流动. 相似文献
4.
大别山双河同构造花岗岩体显微构造与磁组构研究 总被引:5,自引:0,他引:5
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. 相似文献
5.
在总结岩石变形机制与岩石流变学实验进展的基础上,讨论了岩石流变学数据的重复性。虽然高温高压流变学实验积累了大量的数据,但中、上地壳长英质岩石和早期获得的石英集合体的流变实验数据重复性比较差,而近年来发表的石英、长石的流变学实验数据重复性相对较好。虽然利用经验理论模型,根据端元组分可以拟合两相矿物集合体的流变律,但并不能满足定量确定复杂组分和特殊流变性的长英质岩石流变参数的需要。因此,利用长英质岩石流变参数估计大陆地壳流变强度剖面时,即使在相同地温和应变速率条件下,给出的流变曲线、脆-塑性转化带深度也有一定差别,还需要通过大量实验给出更精细的长英质岩石流变学实验数据。根据近年来流变学实验研究的新进展,讨论了在实验室条件下影响长英质岩石流变的各种因素,重点分析了流体、岩石成分、样品粒度和组构对流变的影响。微量结构水对岩石流变有显著的弱化作用,而熔体对流变的影响与熔体含量和分布相关,只有熔体呈薄膜状湿润颗粒边界时,熔体的弱化作用才显著。成分对岩石流变的影响不仅体现在样品的应力指数等流变参数的变化方面,还体现在样品从半脆性变形向塑性变形的转化温度方面。粒度主要影响岩石的变形机制,其中,细粒样品在扩散蠕变域具有应力与粒度线性负相关特性,是理想的应力计,可以用来定量确定韧性剪切带的流变强度;而在位错蠕变域,应力与粒度没有依存关系,这为将实验室条件得出的流变数据外推估计地壳流变提供了重要依据。组构和各向异性是地壳中岩石存在的普遍现象,但关于层状组构对多相矿物组成的岩石流变影响的研究非常少,需要通过新的实验来深入研究。 相似文献
6.
攀枝花辉长岩半脆性-塑性流变的实验研究 总被引:16,自引:2,他引:16
在固体介质三轴实验系统上对干的攀枝花细粒辉长岩进行了半脆性-塑性流变学实验研究. 实验 条件为: 温度700~1150℃, 围压450~500 MPa, 应变速率1×10-4~3.1×10-6 s-1. 实验结果表明, 在700~ 800℃, 应力指数平均值n = 14.6, 激活能Q = 612±12 kJ/mol, 变形以机械双晶和位错滑移为主, 含微破裂, 为半脆性流变; 在900~950℃, 应力指数平均值n = 6.4, 激活能Q = 720±61 kJ/mol, 变形以机械双晶和位错滑移为主; 在1000~1150℃, 应力指数n = 4.1, 激活能Q = 699±55 kJ/mol, 变形以位错滑移、攀移为主. 本实验结果在微观结构、变形机制和流变参数等方面与已有的单斜辉石和辉绿岩流变实验结果接近. 相似文献
7.
商丹糜棱岩带不同区段石英和长石的显微构造及石英组构特征表明,商丹糜棱岩带自西向东构造变形环境显示从低绿片岩相至中- 高绿片岩相至高绿片岩相—低角闪岩相的变化规律。低绿片岩相变形环境下,石英多为Ⅰ型条带,长石主要显示脆性破裂特征,石英c 轴组构呈单一环带型式。中- 高绿片岩相变形环境下,石英主要为Ⅱ型石英多晶条带,斜长石主要处于脆性碎裂流动状态,钾长石开始向韧性转化,石英c 轴组构呈绕y 轴分布的点极密型式。高绿片岩相—低角闪岩相变形环境下,石英普遍呈现光性均匀并有120°三连点的动态重结晶和Ⅳ型条带,斜长石开始显示脆- 韧性过渡状态的变形特点,钾长石显示明显的韧性变形特点,石英c 轴组构呈Ⅰ型交叉环带型式 相似文献
8.
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. 相似文献
9.
一般认为磁组构能有效地反映岩石所经历的应变特征.为了研究不同类型的磁组构和不同期次应变之间的关系,对来自华南地块两个地区的早三叠世灰岩样品进行了岩石磁学、磁组构以及应变特征的对比分析.来自湖北通山县的样品经历了三期构造变形,这为解析磁组构和多期次应变提供了理想的机会.岩石磁学结果显示携磁矿物主要为磁铁矿.磁化率各向异性(AMS)和非磁滞剩磁各向异性(AAR)结果显示其最小轴与层面垂直,最大轴和中间轴分布于层面内,反映了沉积和压实作用产生的应变,而后期构造应变在磁组构中没有体现.来自广东连县的样品发育有渗透性压溶缝面理和方解石脉,说明经历了构造应变.AMS结果没有显示占优势的组构方向.AAR结果显示三轴组构,其最大轴分布于最大应力方位,与构造应变特征吻合,最初的压实组构被构造应变组构所代替.上述结果表明:(1)AAR可以很好地反映渗透性应变的特征,而AMS有时会失效;(2)应变的尺度要小于样品的尺度,磁组构才能有效地反映应变. 相似文献
10.
《地球物理学进展》2015,(6)
本文采集了映秀—北川断裂带南段出露的发生韧性变形的花岗岩样品,分析了脆塑性转化带内的岩石变形特征、变形温度和流动应力,并利用傅里叶红外吸收光谱仪(FITR)重点对石英和长石进行了测试.研究表明,龙门山断裂带深部发生过局部化塑性流动,以中、高温位错蠕变机制为主,重结晶细粒石英的粒度约15~100μm,估算得到的流动应力约15~80MPa.石英和长石内的微量水由晶体缺陷水、颗粒边界水和少量的包裹体水构成,两者的红外吸收光谱特点非常相似,主要吸收峰出现在波数3400cm~(-1)附近,次要吸收峰主要分布在波数3050cm~(-1)、3200cm~(-1)、3300cm~(-1)、3380cm~(-1)、3430cm~(-1)、3600cm~(-1)、3650cm~(-1)和3730cm~(-1)附近.花岗片麻岩内石英的水含量0.004~0.019wt%,长石的水含量0.013~0.043wt%;花岗初糜棱岩中石英的水含量0.004~0.018wt%,长石的水含量0.029~0.069wt%,愈合片麻岩中裂缝的早期石英脉中的细粒石英的水含量0.003~0.014wt%,发生半脆性-脆性变形的晚期石英脉的水含量0.016~0.032wt%.通过与前人的研究对比,认为龙门山地区韧性剪切带内微量水含量随变形程度增加而升高,弱化了脆塑性转化带内断层中心岩石流变强度,提高断层的应变速率,加强了脆塑性转化带向脆性域底部的闭锁断层的应变传递作用.对于难以滑动的高角度逆断层,这有利于强震在中地壳深度附近的孕育和发生. 相似文献
11.
Geology of the Grove Mountains in East Antarctica——New evidence for the final suture of Gondwana Land 总被引:4,自引:0,他引:4
As the core block of the East Gondwana Land, the East Antarctic Shield was traditionally thought, before 1992, as an amalgamation of a number of Archaean-Paleoproterozoic nuclei, be-ing welded by Grenville aged mobile belts during 1400—900 Ma, while the … 相似文献
12.
Geology of the Grove Mountains in East Antarctica 总被引:2,自引:0,他引:2
Grove Mountains consists mainly of a series of high-grade (upper amphibolite to granulite facies) metamorphic rocks, including
felsic granulite, granitic gneiss, mafic granulite lenses and charnockite, intruded by late tectonic gneissic granite and
post-tectonic granodioritic veins. Geochemical analysis demonstrates that the charnockite, granitic gneiss and granite belonged
to aluminous A type plutonic rocks, whereas the felsic and mafic granulite were from supracrustal materials as island-arc,
oceanic island and middle oceanic ridge basalt. A few high-strained shear zones disperse in regional stable sub-horizontal
foliated metamorphic rocks. Three generations of ductile deformation were identified, in which D1 is related to the event before Pan-African age, D2 corresponds to the regional granulite peak metamorphism, whereas D3 reflects ductile extension in late Pan-African orogenic period. The metamorphic reactions from granitic gneiss indicate a
single granulite facies event, but 3 steps from mafic granulite, with P-T condition of M1 800°C, 9.3×105 Pa; M2 800–810°C, 6.4 × 105 Pa; and M3 650°C have been recognized. The U-Pb age data from representative granitic gneiss indicate (529±14) Ma of peak metamorphism,
(534±5) Ma of granite emplacement, and (501±7) Ma of post-tectonic granodioritic veins. All these evidences suggest that a
huge Pan-African aged mobile belt exists in the East Antarctic Shield extending from Prydz Bay via Grove Mountains to the
southern Prince Charles Mountains. This orogenic belt could be the final suture during the Gondwana Land assemblage. 相似文献
13.
Strain analyses for the Shuanghe pluton show that the main strain planes suffered distinct deformation. The main strain value (XZ) is up to 1.59-2.18, and the value of Flinn index (K) ranges from 0.11 to 0.82. Anisotropy of magnetic susceptibility (AMS) measurements reveal that the orientations of the magnetic foliation and lineation gently dip SE, consistent with the macroscopic foliation of the pluton. The value of anisotropy degree (P) ranges from 1.109 to 1.639, and the shape parameter (7) from 0.079 to 0.534. These studies prove that the pluton was deformed under strong compression. Quartz c-axis textures, defined by monoclinic or triclinic asymmetry, usually developed the high maxima paralleling the b-axis, which is defined by the developed in the high-ultrahigh pressure rocks (UHP) which were captured in the pluton or country rocks. It is concluded that the Shuanghe pluton emplaced under regional compression slightly after the formation of UHP, and it is characterized by synkinematic granitic deformation. 相似文献
14.
Ultra-high pressure metamorphism of granitic gneiss in the Yinggelisayi area, Altun Mountains, NW China 总被引:10,自引:0,他引:10
LIU Liang SUN Yong LUO Jinhai WANG Yan CHEN Danling & ZHANG Anda The Key Laboratory of Continental Dynamics Ministry of Education Department of Geology Northwest University Xi抋n China 《中国科学D辑(英文版)》2004,47(4)
With the discovery and further studies of high- pressure (HP) to ultra-high-pressure (UHP) eclogites and UHP garnet lherzolite in the Altun Mountains[1 9], it becomes interesting if the country rocks of these HP-UHP metamorphic rocks also underwent HP-UHP metamorphism, which will be crucial for understand-ing the relationship of HP-UHP metamorphic rocks and their country rocks, the mechanism of their forma-tion and uplifting and the existence of continental deep subduction in the are… 相似文献
15.
脆塑性转化带对于研究岩石圈变形、断层强度和变形机制以及强震的孕育和发生具有重要意义。文中采用汶川地震震源区彭灌杂岩中具有代表性的细粒花岗岩样品,在固体压力介质三轴实验系统上开展了高温高压非稳态流变实验研究。实验设计模拟了汶川地震区地壳10~30km深度的实际温度和压力,温度为190~490℃,压力为250~750MPa,应变速率为5×10-4s-1,利用扫描电镜对实验样品进行微观结构观察。实验力学数据、微观结构及变形机制分析表明,在相当于地壳浅部10~15km深处的低温低压条件下,表现为应变强化,样品具有脆性破裂-半脆性流动的变形特征;在相当于地壳15~20km的深度条件下,随着应变量增加,应力趋于稳态,样品具有脆塑性转化特征;在相当于地壳20~30km的深度条件下,样品具有塑性流动特征。当样品处于半脆性域时发生非稳态流变,主要变形机制为碎裂作用,同时激活了动态重结晶作用、位错蠕变等塑性变形机制。样品强度随着深度不断增大,在深度为15~20km时达到极大值,深度为20~30km时强度逐渐减小。因此,花岗岩的强度随深度的变化规律与微观结构及变形机制均表明,在实验温度和压力条件下,花岗岩具有非稳态流变特征,在15~20km深处,龙门山断裂带处于脆塑性转化带,花岗岩强度达到最大值,该深度与汶川地震的成核深度一致,显示出彭灌杂岩的强度和变形对汶川地震的孕育和发生具有控制作用。 相似文献
16.
Water contents and deformation mechanism in ductile shear zone of middle crust along the Red River fault in southwestern China 总被引:1,自引:0,他引:1
Using Fourier transform infrared spectroscopy (FTIR), we measured water contents of quartz and feldspar for four thin sections of felsic mylonite and two thin sections of banded granitic gneiss col- lected from a ductile shear zone of middle crust along the Red Rivers-Ailaoshan active fault. The ab- sorbance spectra and peak position suggest that water in quartz and feldspar of granitic gneiss and felsic mylonite occurs mainly as hydroxyl in crystal defect, but also contains inclusion water and grain boundary water. The water contents of minerals were calculated based on the absorbance spectra. Water content of feldspar in granitic gneiss is 0.05 wt%-0.15 wt%, and that of quartz 0.03 wt%-0.09 wt%. Water content of feldspar ribbon and quartz ribbon in felsic mylonite is 0.095 wt%-0.32 wt%, and those of fine-grained feldspar and quartz are 0.004 wt%-0.052 wt%. These data show that the water content of weakly deformed feldspar and quartz ribbons is much higher than that of strongly deformed fine-grained feldspar and quartz. This suggests that strong shear deformation leads to breakage of the structures of constitutional water, inclusion and grain boundary water in feldspar and quartz, and most of water in minerals of mylonite is released to the upper layer in the crust. 相似文献
17.
Fabric development in brittle-to-ductile shear zones 总被引:3,自引:0,他引:3
Carol Simpson 《Pure and Applied Geophysics》1986,124(1-2):269-288
Brittle-to-ductile shear zones from two separate geological settings are shown to have nucleated on zones of predominantly brittle deformation. The shear zones are not simply foliated cataclasites, since they contain abundant evidence of dynamic recrystallization of constituent minerals. A small quartz diorite lens in the Borrego Springs shear zone, southern California, contains centimeter-scale cataclasite zones that exhibit a gradual transition into foliated rock. Alteration of magnesiohornblende to actinolite, feldspar to white mica plus quartz, and biotite to chlorite, produced elongate minerals that define the foliation. During the later stages of deformation, intracrystalline slip and dynamic recrystallization of quartz and feldspar were important deformation mechanisms.The widespread occurrence of mineralized dilatant cracks predated the development of meter-to-decimeter-scale ductile shear zones in the Striped Rock granite, southern Virginia. Again, important deformation mechanisms in the final stages of deformation were intracrystalline slip and dynamic recrystallization of quartz.In both field areas the role of fluids has been important from the onset of brittle deformation. Fluids may have enhanced early fracturing in addition to causing the alteration and hydrolytic weakening of host rock minerals and the introduction of new mineral species. Each of these processes is thought to have contributed to the later localization of crystal plastic deformation in the rocks. 相似文献
18.
本实验在气体介质三轴高温流变仪上,采用怀安瓦窑口麻粒岩,在温度900~1200℃、围压300 MPa、应变速率10~(-4)~10~(-6)/s条件下,开展高温流变实验.实验样品麻粒岩由斜长石(52%)、单斜辉石和斜方辉石(40%)、石英(3%)、磁铁矿和钛铁矿(5%)组成,矿物平均粒度为:斜长石294μm、单斜辉石和斜方辉石282μm、石英97μm、磁铁矿和钛铁矿109μm.利用傅里叶变换红外光谱仪分析获得变形后样品的水含量约为0.17±0.05wt%.实验样品的强度随温度升高而降低,随应变速率降低而降低.基于力学数据,采用稳态流变方程,获得实验样品在900~1000℃时的应力指数为8.1~12.9,在1050~1150℃时的应力指数为4.8~5.8,平均值5.2.应力指数随着温度升高而降低.显微结构和成分分析表明,在900℃时麻粒岩出现矿物压扁与定向拉长特征,样品以位错滑移和微破裂变形为主;在950~1000℃时,麻粒岩样品中颗粒边界变得圆滑,表现出位错攀移特征,辉石和磁铁矿边缘出现微量熔体;在1050~1200℃时麻粒岩出现部分熔融,而且随着温度和实验时间(应变)增加,熔体含量增加,熔体结晶出微粒斜长石、辉石和橄榄石,部分辉石通过固体反应生成橄榄石.颗粒边界熔体和矿物反应促进了扩散作用,导致位错攀移和熔体引起的扩散蠕变共同控制了麻粒岩的高温流变. 相似文献
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20.
NI JinLong LIU JunLai TANG XiaoLing ZHAO ChunQiang & ZENG QingDong 《中国科学:地球科学(英文版)》2014,57(4):600-613
The combination of field surveys with analysis of microstructure of tectonite and Electron Backscatter Diffraction (EBSD) on quartz fabric indicated that three periods of ductile shear events developed in the Paishanlou gold deposits and the E-W and NE-striking ductile shear zones were formed during each event. The E-W-striking ductile shear zone, accompanied by compressional and dextral shear slip, was shear-cut by the NE-striking shear zones, accompanied by compressional-sinistral shear slip and sinistral-normal shear slip, successively. An E-W-striking ductile shear zone developed at a deeper tectonic level and at middle- to high-temperatures, accompanied by abundant microstructures, including microlayering between a polycrystal quartz belt and mica, and quartz deformation was depended on cylinder (10-10) 〈a〉 or 〈c〉 glide. The development of an E-W-striking shear zone can be seen as a tectonic pattern in the region of the Paishanlou gold deposits of the collision between the Mongolian tectonic belt and the North Archean Craton from Suolun to the Linxi suture zone during the Indosinian. The NE-striking ductile shear zone developed approximately 160 Ma during the early Yianshanian at middle to shallow tectonic levels and at middle- to low-temperatures, accompanied by typical microstructures, including polycrystal quartz aggregation and quartz subgrain rotation recrystallization, etc., and quartz deformation was depended on prismatic (1011) 〈a〉 glide. The last ductile shear event around the NE-striking shear zone developed at low temperatures and shallow tectonic levels, yielding to a pre-existing NE-striking shear zone, accompanied by abundant microstructures, including low-temperature quartz grain boundary migration and bulging recrystallization. The last ductile shear movement may be related to lithosphere thinning and the destruction of the North China Craton from approximately 130-120 Ma, and this shear event resulted directly in the mineralization in the Paishanlou region. 相似文献