共查询到19条相似文献,搜索用时 187 毫秒
1.
应用透射电子显微镜(TEM)对大别地区英山县含柯石英榴辉岩、石英榴辉岩及石榴角闪岩中石榴子石进行研究,结果表明在强塑性变形的三类岩石中,石榴子石的超微构造特征存在明显差异。在含柯石英榴辉岩中的石榴子石位错密度比角闪岩中的低。修正石榴子石材料系数α为0.25,用石榴子石位错密度估算了相对差异应力值,并讨论了在超高奢榴辉岩形成和退变质过程中各阶段的变质条件。根据石榴子石位错密度测定的差异应力,结合石榴 相似文献
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《地学前缘》2017,(2):1-15
讨论了地壳深部岩石处于"重力-构造力复合的静水压力模型"。此模型的基本认识为,地壳深部压力是由重力应力和构造应力引起的两部分各向等应力合成的,构造应力场的静水压力部分被称为"构造附加静水压力"。遵循这一认识,需要从总静水压力中先去掉构造附加静水压力,进而用构造校正[深度=重力引起压力/(总压力-构造附加的压力)]的方法,进行形成深度的测算。考虑岩石作为黏弹性体的应力-应变关系,作者用黏弹性本构方程,获得大别地区英山县含柯石英榴辉岩的成岩深度≥30km,安徽岳西碧溪岭地区含柯石英榴辉岩深度为23~53km,河南新县地区的含柯石英榴辉岩成岩深度为36~40km。再进一步用变质深度的流变学公式,在黏性系数0.2×10~(23)条件下,推算出超高压变质岩形成深度约50~55km。可见,大别超高压变质岩形成深度介于23~55km,而不是前人认为的超过100km甚至更深,由此,"深俯冲-折返"模式需要科学的论证。本研究为高压-超高压变质的"构造增压壳内成因"提供了一些依据。 相似文献
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构造附加静水压力及构造物理化学在地质研究中的应用 总被引:1,自引:0,他引:1
“构造附加静水压力”概念认为,地壳任一点静水压力部分是由重力所附加的静水压力和由构造作用力所附加的静水压力叠合而成的。构造叠加致使同一地壳深度的水平面上静水压力值不相等,这种压力梯度是流体及油气长距离水平运移的主要原因,建立岩石矿床形成深度的构造校正测算方法,得出胶东“玲珑-焦家式”金矿成矿深度仅3km左右的数据,进而测得大别超高压变质带含柯石英榴辉岩形成深度仅≥32km,它们可能是壳内构造物理化 相似文献
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大别山杂岩中两类斜长角闪岩的矿物学鉴别标志及对榴辉岩成因的意义 总被引:3,自引:1,他引:3
鉴别造山带斜长角闪岩由含柯石英榴辉岩退变而成,还是未经过超高压变质作用的普通斜长角闪岩,对研究榴辉岩成因有重要意义,本文提出用斜长角闪岩中两个最常见矿物,石榴长石和角闪石的MnO和MgO含量以及四次配位A1和六次配位A1数可有效地区分这两种不同成因的斜长角闪岩,本文提供的数据表明:大别群变质杂岩中有一部分斜长闪岩并未经历过超高压变质作用,因此,大别群中的超高压变质岩是构造侵入到角闪岩相岩石中的产物 相似文献
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《地学前缘》2017,(2):40-53
研究发现,高压-超高压变质岩基本都发育于全球或区域规模的大型构造带,产于强烈构造变形带中相对较弱应变的部位。苏鲁—大别超高压变质岩具有明显的构造变形,这成为追索构造应力-应变作用和探讨形成构造环境与演化过程的重要线索。本研究用成岩成矿深度的"构造校正测算方法",进行野外观察、岩石变形-应力测算及构造校正测算。其结果显示,超高压变质岩形成深度在23~55km之间。大别—苏鲁超高压变质岩的锆石SHRIMP年龄显示,具有环带的内核高压矿物年龄大于680 Ma,而其含柯石英幔圈里超高压变质矿物在(231±4)Ma形成,角闪岩相等退变质矿物形成在(211±4)Ma,可见超高压变质发生在陆缘和陆内的地质环境。综合研究其岩石矿物的Sr-Nd、O和He同位素含量,有力证明了岩石的壳内成因特征。深钻孔岩心的岩石矿物学系统显示,超高压变质岩及其几公里宽范围里的各类围岩普遍含有柯石英等高压-超高压矿物包体。上述实际资料,用超高压变质的"深俯冲-折返"模式已经不能得到科学的解释。本文提出大别—苏鲁超高压变质岩"构造增压壳内成因模式",认为这些超高压变质作用可能发育在陆内地块之间的强烈构造挤压环境。在230Ma左右,由于构造压力与重力压力叠加致使局部达到超高压及相应温度等条件,特别是当p≥2.8GPa时,变质的物理化学条件得到满足,可以在23~55km深处发生超高压变质作用,之后经应力松弛和拆离构造,岩石又逐步抬升并发生退变质作用。也可以说,该超高压变质岩具有构造物理化学成因。 相似文献
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中国大陆科学钻探主孔0~4500米变质岩石锆石中保存的超高压矿物包体 总被引:14,自引:9,他引:14
中国大陆科学钻探主孔0-4500米的岩心主要由榴辉岩、斜长角闪岩、副片麻岩、正片麻岩以及少量的超基性岩所组成。岩相学研究结果表明,榴辉岩的围岩普遍经历了强烈角闪岩相退变质作用的改造,峰期超高压变质的矿物组合已完全被后期退变质过程中角闪岩相矿物组合所替代。采用激光拉曼技术,配备电子探针和阴极发光测试,发现主孔224件岩心中有121件(包括榴辉岩、斜长角闪岩、副片麻岩和正片麻岩)样品的锆石中普遍隐藏以柯石英为代表的超高压矿物包体,且不同岩石类型锆石中所保存的超高压矿物包体组合存在明显差异。(含多硅白云母)金红石石英榴辉岩锆石中保存的典型超高压包体矿物组合为柯石英 石榴石、柯石英 石榴石 绿辉石 金红石和柯石英 多硅白云母 磷灰石。黑云绿帘斜长角闪岩锆石中保存的超高压矿物组合为柯石英 石榴石 绿辉石、柯石英 石榴石 多硅白云母和柯石英 绿辉石 金红石,与榴辉岩所保存的超高压矿物组合十分相似,表明该类斜长角闪岩是由超高压榴辉岩在构造折返过程中退变质而成。在副片麻岩类岩石,如石榴绿帘黑云二长片麻岩锆石中,代表性的超高压包体矿物组合为柯石英 多硅白云母和柯石英 石榴石等;而在石榴黑云角闪钠长片麻岩锆石中,则保存柯石英 硬玉 石榴石 磷灰石、柯石英 硬玉 多硅白云母 磷灰石和柯石英 石榴石 磷灰石等超高压矿物包体。在正片麻岩锆石中,标志性的超高压矿物包体为柯石英、柯石英 多硅白云母、柯石英 蓝晶石 磷灰石和柯石英 蓝晶石 榍石等。此外,在南苏鲁东海至临沭一带的地表露头以及一系列卫星孔岩心的锆石中,也普遍发现以柯石英为代表的标志性超高压矿物包体,表明在南苏鲁地区由榴辉岩及其围岩的原岩所组成的巨量陆壳物质(方圆>5000km2,厚度超过4.5km)曾整体发生深俯冲,并经历了超高压变质作用。该项研究对于重塑苏鲁-大别超高压变质带俯冲-折返的动力学模式有着重要的科学意义。 相似文献
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通过对大别地区不同超高压岩石和同一超高压岩石中不同变形期次石英的变形特征的研究 ,探讨超高压岩石折返时的流变学特征和状态。运用野外构造解析、组构分析、透射电镜和应变分析发现 ,除榴辉岩中静态重结晶石英外 ,其它超高压岩石中石英均发生了强烈的塑性变形 ,波状消光、变形纹、变形条带等极为常见。石英石榴岩中石英交叉滑移位错的发育 ,说明经历了高温位错蠕变 ,其代表的差异应力为Δσ =78.92MPa。石英脉的变形是超高压岩石折返到中地壳以后的角闪岩相退变峰期产物 ,其差异应力为Δσ =2 5 .2MPa。超高压二云母片岩中石英典型的糜棱结构代表的差异应力为 :Δσ =5 9.6 1MPa。大别超高压岩石可能是在构造应力比较低的情况下区域隆升的结果 相似文献
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安徽碧溪岭岩体的锆石U-Pb年龄为2774±24Ma。它显示大别山的含柯石英榴辉岩可能形成于晚太古代。榴辉岩多硅白云母的Ar-Ar等时线年龄(662±13Ma)也同样限定其退变质作用的上界年龄在寒武纪。同位素年代学结果与该类榴辉岩严格产出在由大别群组成的太古宙地块中的地质特征一致。我们相信,大别山含柯石英榴辉岩变质地区可能是一个晚太古代的超高压变质带。大别山地区在中生代三叠纪时期处于南秦岭构造带的东延部分。大别群以及赋存其中的含柯石英榴辉岩共同遭受晚期的区域动力变质事件。作者分别测得斜长片麻岩白云母Ar-Ar等时线年龄为192.6±3.8Ma,榴辉岩中低角闪岩相普通角闪石Ar-Ar坪年龄230.7±4.6Ma。它们代表大别群片麻岩和榴辉岩两种原始变质岩的印支期改造年龄。 相似文献
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苏鲁-大别超高压岩石中锆石SHRIMP U-Pb定年研究——综述和最新进展 总被引:6,自引:9,他引:6
如何建立苏鲁-大别超高压岩石深俯冲-超高压-快速折返过程连续而完整的P-T-t轨迹及精细的年代谱系,是目前地学界研究的热点。而变质锆石是否记录深俯冲石英榴辉岩相进变质阶段的年代学信息和超高压峰期变质时代的准确归属,是目前苏鲁-大别超高压变质带需要深入研究的核心问题。本文在对前人同位素年代学方面所取得的成果进行系统总结的基础上。采用锆石中矿物包体激光拉曼和电子探针测试、锆石阴极发光图像成因分析以及SHRIMP U-Pb定年等综合研究手段,确定苏鲁-大别地体榴辉岩及其强退变质围岩在深俯冲-构造折返过程中主要经历了四个阶段的变质演化:深俯冲石英榴辉岩相进变质(Ⅰ)、超高压峰期变质(Ⅱ)、构造折返初期石英榴辉岩相退变质(Ⅲ)和构造折返晚期角闪岩相退变质(Ⅳ)。研究发现,扬子板块(中)新元古代巨量的陆壳物质在早三叠纪(246~244Ma)俯冲到华北板块之下约65km的深处。发生了石英榴辉岩相进变质,相应的变质温压条件为T=542~693℃,P=1.7~2.02GPa。这些高压石英榴辉岩相岩石在中-新三叠纪继续向下俯冲,在235~225Ma期间,俯冲的深度至少达到了170km的地幔深处,并发生了峰期柯石英榴辉岩相超高压变质,相应的变质温压条件为T=722~866℃,P>5.5GPa。苏鲁-大别超高压地体自石英榴辉岩相进变质阶段到超高压峰期变质阶段的俯冲速率为7.0km/Myr。这些超高压岩石在219~216Ma期间,发生了第一次构造抬升至75km的深处,并经历了石英榴辉岩相退变质作用的改造,退变质温压条件为T=730~780℃,P=1.7~2.6GPa。这些退变质岩石在212~205Ma期间,又经历了第二次抬升至25km中-下地壳深处,并叠加了角闪岩相退变质作用,该阶段变质温压条件为T=610~710℃,P=0.7~1.2GPa。苏鲁-大别超高压地体两次构造抬升的速率大致相同,为5.6km/Myr。该项成果不仅确定了苏鲁-大别榴辉岩及其强退变质岩石深俯冲过程石英榴辉岩相进变质-超高压峰期变质、构造折返过程石英榴辉岩相-角闪岩相退变质连续而完整的变质演化P-T-t轨迹及精细的年代谱系,而且对于重新建立苏鲁-大别巨量陆壳物质快速超深俯冲-快速折返的动力学模式有着重要的科学意义。 相似文献
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Lü Guxian 《中国地质大学学报(英文版)》2004,15(2):206-215
The plastic deformation of garnet in coesite-bearing eclogite,quartz eclogite and garnet amphibolite of the UHPM complex in Yingshan County in the Dabie Mountains has been studied. The stress generated by the strong tectonic movement was an important component of the total pressure that resulted in the formation of the eclogite in the Dabie UHPM zone. The three-dimensional tectonic principal stresses and additional tectonic stress-induced hydrostatic pressure [ps=(σ1 σ2 σ3)/3] are reconstructed according to the differential stress and the strain ratio(α) of the garnet in the minor coesite-bearing eclogite of the Yingshan County. Then the gravity-induced hydrostatic pressure(pg) is calculated following the equation p minus ps,where p is estimated to be 2.8 Gpa based on the quartz-coesite geobarmeter. Therefore,the thickness of the rock column overlying the coesite-bearing eclogite in the Ying-shan County is determined ≥32 km. This estimation,significantly different from ≥100 km,the previous one obtained solely based on the weight/specific weight ratio(W/SW),offers a proper explanation for the puzzle that no tracer of the addition of mantle-derived material has been found in the Dabie UHPM zone during the process of UHPM,although a number of researchers claim that this process took place at the depth of the mantle(≥100 km). It is concluded that attention should be paid to the additional tectonic stress-induced hydrostatic pressure in the study of UHPM zones. 相似文献
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成岩成矿深度构造校正测算和实测 总被引:1,自引:0,他引:1
成岩成矿深度的构造校正测算方法,是从测算压力中先消除构造附加静水压力之后再计算上覆岩石厚度,即成岩成矿深度的方法。该方法建筑在对地壳岩石处于固体应力状态的认识之上,采用弹性固体模型代替静止流体模型,比沿袭至今单纯用压力/密度方法得出的深度更符合于实际情况。该文以胶不玲珑-焦家式金矿床为例,介绍了该方法的理论基础和野外地质研究方法-开展变形岩相形迹填图,在室内利用三维变形和古差应力测量,计算差应力时 相似文献
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大别山超高压变质岩形成深度的同位素限制 总被引:8,自引:0,他引:8
大别山超高压变质岩形成深度是各国地质学家十分关心的问题。它不仅影响对碰撞造山带形成机制和演化过程的认识,而且影响对地球深部状况及地球动力学的研究。该文对大别山超高压变质岩已有同位素资料进行了分析与讨论。大别山榴辉岩的εNd为-6.2~-17,εSr为18~42,且显示明显的Nd同位素的不平衡现象。大别山榴辉岩的氧同位素组成研究表明,这些榴辉岩的原岩在超高压变质前,不同程度地与贫18O的大气降水(或海水)发生过氧同位素交换,且在超高压变质过程中依然保留了这些痕迹。除一个样品外,大别-苏鲁地区的榴辉岩的3He/4He比值都落在0.79×10-7~9.35×10-7范围内,显示陆壳岩石来源He的重要贡献。所有Sr-Nd、O和He同位素研究均表明:超高压变质岩保存着表壳岩石原岩的同位素特征,而未显示变质时受到地幔物质的明显影响。对于超高压变质岩的上述同位素特征,有人认为是由于大别山造山带俯冲和折返的速度太快造成的。由于造山带俯冲和折返的速度太快,表壳岩石原岩变质时来不及与地幔物质发生交换,故没有留下地幔物质参与的痕迹。该研究认为这种解释有些勉强,因为大别造山带俯冲和折返时间至少需要15Ma.在如此长的时间内,在100多公里地幔深处高于700℃的高温下发生超高压变质作用,表壳岩石原岩不可能不与地幔物质发生同位素交换。相反,如果认为大别山超高压变质岩就在地壳内形成,则大别山超高压变质岩同位素的所有特征就很好解释了。 相似文献
14.
大别山南部的超高压变质岩在其形成及折返过程中经过5期变形。D1变形为榴辉岩相前变形,形成于扬子板块北缘陆壳基底的俯冲过程中;D2变形形成于折返初期(220-210Ma)即超高压变质岩在浮力驱动下折返至下地壳底部的过程中,变形以块状榴辉岩的糜棱岩化及层状榴辉岩和基质的紧密-同斜褶皱为特征;D3变形发生在折返中期(200-180Ma)即超高压变质岩在南北陆块持续碰撞作用下被挤出并向北逆冲折返至中地壳的过程中,变形以榴辉岩的布丁化和基质的强烈韧性剪切变形为特征;D4变形是折返晚期(130-110Ma)超高压变质岩在地壳浅部伸展体制下向南滑脱所致;在折返至近地表时,超高压变质岩受到NE向断层(D5)的切割。 相似文献
15.
Cao Ronglong Zhu ShouhuaGuangzhou Institute of Geochemistry Chinese Academy of Sciences Guangzhou Guangdong 《《地质学报》英文版》1996,70(1):46-58
A U -Pb zircon age of 2774±24 Ma for eclogite from the Bixiling rock body of Anhui Province, central China, indicates that the Dabieshan coesite-bearing eclogite was probably formed in the Late Archaean. A phengite Ar-Ar isochron age of 662±13 Ma for the eclogite confines also an upper limit age of its subsequent retrograde metamorphism in the Precambrian. The results of isotopic dating for such type of eclogite coincide with the geological features of its restricted occurrence within the Archaean metamaorphic terrain composed of the Dabie Group. It is believed that the Dabieshan coesite-bearing eclogite terrain might be a Late Archaean ultra-high-pressure metamorphic belt. The Dabie Mountains area was the eastward extension of the southern Qinling structural belt during the Triassic. Both the Dabie Group and the coesite-bearing eclogite hosted therein underwent a late-stage dynamic metamorphic event. The present authors have obtained a muscovite Ar-Ar isochron age of 192.6±2.8 Ma from plagioclase gn 相似文献
16.
Ultra-high-pressure metamorphism of carbonate rocks in the Dabie Mountains, central China 总被引:3,自引:0,他引:3
Abstract Widespread ultra-high-P assemblages including coesite, quartz pseudomorphs after coesite, aragonite, and calcite pseudomorphs after aragonite in marble, gneiss and phengite schist are present in the Dabie Mountains eclogite terrane. These assemblages indicate that the ultra-high-P metamorphic event occurred on a regional scale during Triassic collision between the Sino-Korean and Yangtze cratons. Marble in the Dabie Mountains is interlayered with coesite-bearing eclogite and gneiss and as blocks of various size within gneiss. Discontinuous boudins of eclogite occur within marble layers. Marble contains an ultra-high-P assemblage of calcite/aragonite, dolomite, clinopyroxene, garnet, phengite, epidote, rutile and quartz/coesite. Coesite, quartz pseudomorphs after coesite, aragonite and calcite pseudomorphs after aragonite occur as fine-grained inclusions in garnet and omphacite. Phengites contain about 3.6 Si atoms per formula unit (based on 11 oxygens). Similar to the coesite-bearing eclogite, marble exhibits retrograde recrystallization under amphibolite–greenschist facies conditions generated during uplift of the ultra-high-P metamorphic terrane. Retrograde minerals are fine grained and replace coarse-grained peak metamorphic phases. The most typical replacements are: symplectic pargasitic hornblende + epidote after garnet, diopside + plagioclase (An18) after omphacite, and fibrous phlogopite after phengite. Ferroan pargasite + plagioclase, and actinolite formed along grain boundaries between garnet and calcite, and calcite and quartz, respectively. The estimated peak P–T conditions for marble are comparable to those for eclogite: garnet–clinopyroxene geothermometry yields temperatures of 630–760°C; the garnet–phengite thermometer gives somewhat lower temperatures. The minimum pressure of peak metamorphism is 27 kbar based on the occurrence of coesite. Such estimates of ultra-high-P conditions are consistent with the coexistence of grossular-rich garnet + rutile, and the high jadeite content of omphacite in marble. The fluid for the peak metamorphism was calculated to have a very low XCO2 (<0.03). The P–T conditions for retrograde metamorphism were estimated to be 475–550°C at <7 kbar. 相似文献
17.
Diffusion modeling of zoning profiles in eclogite garnets from three different tectonic units of Mt. Dabie, UHPM unit, HPM unit and northern Dabie, was used to estimate the relative time span and cooling rates of these rocks. Modeling result for the Huangzhen eclogite garnet shows that the maximal time span for the diffusion-adjustment process is about 22 Ma since the peak-temperature metamorphism, which is the maximum time span from amphibolite facies metamorphism to greenschist facies metamorphism. The Bixiling eclogites had subjected to a cooling process at a rate of - 10℃/Ma from 750℃ to 560℃ during 20 Ma. The second cooling stage of the Raobazhai eclogite following granulite-facies metamorphism is an initial fast cooling process at a rate of about 25℃/Ma and then slowed down gradually. All these belong to a coherent Dabie collision orogen with differences in subduction depth and exhumation/uplifting path. 相似文献
18.
A. I. OKAY 《Journal of Metamorphic Geology》1995,13(4):449-460
Abstract Paragonite in textural equilibrium with garnet, omphacite and kyanite is found in two eclogites in the ultrahigh-pressure metamorphic terrane in Dabie Shan, China. Equilibrium reactions between paragonite, omphacite and kyanite indicate a pressure of about 19 kbar at c . 700° C. However, one of the paragonite eclogites also contains clear quartz pseudomorphs after coesite as inclusions in garnet, suggesting minimum pressures of 27 kbar at the same temperature. The disparate pressure estimates from the same rock suggest that the matrix minerals in the ultrahigh-pressure eclogites have recrystallized at lower pressures and do not represent the peak ultrahigh-pressure assemblages. This hypothesis is tested by calibrating a garnet + zoisite/clinozoisite + kyanite + quartz/coesite geobarometer and applying it to the appropriate eclogite facies rocks from ultrahigh- and high-pressure terranes. These four minerals coexist from 10 to 60 kbar and in this wide pressure range the grossular content of garnet reflects the equilibrium pressure on the basis of the reaction zoisite/clinozoisite = grossular + kyanite + quartz/coesite + H2 O. The results of the geobarometer agree well with independent pressure estimates from eclogites from other orogenic belts. For the paragonite eclogites in Dabie Shan the geobarometer indicates pressures in the quartz stability field, confirming that the former coesite-bearing paragonite-eclogite has re-equilibrated at lower pressures. On the other hand, garnets from other coesite-bearing but paragonite-free kyanite-zoisite eclogites show a very wide variation in grossular content, corresponding to a pressure variation from coesite into the quartz field. This wide variation, partly due to a rimward decrease in grossular component in garnet, is caused by partial equilibration of the mineral assemblage during the exhumation. 相似文献
19.
You Zhendong Han Yujing Zhong Zengqin Sang Longkang Chen Nengsong Zhang Zeming 《中国地质大学学报(英文版)》1995,(1)
Petrogenesis of Eclogites in the Light of PunctuatedMetamorphic Evolution in Dabie Terrane,China¥YouZhendong;HanYujing;ZhongZ... 相似文献