Petrogenesis of andalusite–kyanite–sillimanite veins and host rocks, Sanandaj-Sirjan metamorphic belt, Hamadan, Iran

Quartz‐rich veins in metapelitic schists of the Sanandaj‐Sirjan belt, Hamadan region, Iran, commonly contain two Al₂SiO₅ polymorphs, and, more rarely, three coexisting Al₂SiO₅ polymorphs. In most andalusite and sillimanite schists, the types of polymorphs in veins correlate with Al₂SiO₅ polymorph(s) in the host rocks, although vein polymorphs are texturally and compositionally distinct from those in adjacent host rocks; e.g. vein andalusite is enriched in Fe₂O₃ relative to host rock andalusite. Low‐grade rocks contain andalusite + quartz veins, medium‐grade rocks contain andalusite + sillimanite + quartz ± plagioclase veins, and high‐grade rocks contain sillimanite + quartz + plagioclase veins/leucosomes. Although most andalusite and sillimanite‐bearing veins occur in host rocks that also contain Al₂SiO₅, kyanite‐quartz veins crosscut rocks that lack Al₂SiO₅ (e.g. staurolite schist, granite). A quartz vein containing andalusite + kyanite + sillimanite + staurolite + muscovite occurs in andalusite–sillimanite host rocks. Textural relationships in this vein indicate the crystallization sequence andalusite to kyanite to sillimanite. This crystallization sequence conflicts with the observation that kyanite‐quartz veins post‐date andalusite–sillimanite veins and at least one intrusive phase of a granite that produced a low‐pressure–high‐temperature contact aureole; these relationships imply a sequence of andalusite to sillimanite to kyanite. Varying crystallization sequences for rocks in a largely coherent metamorphic belt can be explained by P–T paths of different rocks passing near (slightly above, slightly below) the Al₂SiO₅ triple point, and by overprinting of multiple metamorphic events in a terrane that evolved from a continental arc to a collisional orogen.     

Coupled basin evolution and late-stage metamorphic core complex exhumation in the southern Basin and Range Province, southeastern Arizona

Records of lithospheric extension and mountain-range uplift are most continuously contained within syntectonic sedimentary rocks in basins adjacent to large structural culminations. In southeastern Arizona, metamorphic core complexes form mountain ranges with the highest elevations in the region, and supposedly much less extended terranes lie at lower elevations. Adjacent to the Santa Catalina-Rincon metamorphic core complex, within the Tucson Basin, stratigraphic-sequence geometries evident in a large suite of 2-D seismic reflection data suggest a two-phase basin-evolution model controlled by the emplacement and subsequent uplift of the core complex. In its earliest stage, Phase I of basin formation was characterized by extensive faults forming relatively small-scale proto-basins, which coalesced with the larger basin-bounding detachment fault system. Synextensional sedimentation within the enlarging basin is evidenced by sediment-growth packages, derived from adjacent footwall material, fanning into brittle hanging-wall faults. During this phase, volcanism was widespread, and growth packages contain interbedded sediments and volcanic products but, paradoxically, no mylonitic clasts from the adjacent metamorphic core complex. Phase II of basin evolution begins after a significant tectonic hiatus and consists of a symmetric deepening of the central basin with the introduction of mylonitic clasts in the basin fill. This is coupled with the activation of a series of high-angle normal faults ringing the core complex. These observations suggest a two-phase model for metamorphic core complex evolution, with an initial stage of isostatic core complex emplacement during detachment faulting that resulted in little topographic expression. This was followed, after a significant tectonic hiatus, by late-stage exhumation and flexural uplift of the Santa Catalina-Rincon metamorphic core complex through younger high-angle faulting. Moreover, the geometry of upper basin fill units suggests an extremely low effective elastic thickness in the region and that flexural uplift of the core complex induced asymmetric transfer of ductile mid-crustal rocks from beneath the subsiding Tucson Basin to the uplifting mountain range.     

庐山变质核杂岩基底拆离的变形特征及形成条件

庐山变质核杂岩具有典型的3层结构。拆离带是核部隆升过程中盖层滑脱、剪切变形而形成的,该拆离面是在北东向褶皱基础上叠加杂岩核部隆升作用而形成的波状起伏面。拆离带在核部以西发育倾向西向、南西向、北西向的面理和矿物生长线理,显示向西滑脱形成剪切拉伸变形的特征。拆离带岩石以糜棱岩和构造片岩为主,辅以碎裂岩和构造角砾岩。岩石变形特征表明其既具有韧性变形,也具有脆-韧性变形及脆性变形的特点。核部隆升引起的拆离变形作用,不仅形成了拆离带,还影响了拆离带以上盖层岩石,形成一个由拆离带向上由强变弱的变形域。这种规律性递变现象使庐山变质核杂岩具有垂向变形分层、水平变形分带的特点。拆离带中角闪石-斜长石矿物对计算得出的变质温度为653 ℃～694 ℃,压力为0.56～0.67 GPa。     

甘肃北山勒巴泉变质核杂岩

在多期伸展体制下形成的勒巴泉变质核杂岩构造,具有3层结构的特征,即结晶基底、中间韧性盖层、上部脆性盖层,其间分别被基底剥离断层和盖层剥离断层分割。本文重点论述了变质核杂岩的组成、空间展布、结构构造和典型的构造样式,并分析了变质核杂岩构造的形成时代和大地构造背景。     

The lateral boundary of a metamorphic core complex: The Moutsounas shear zone on Naxos,Cyclades, Greece

We describe the structure, microstructures, texture and paleopiezometry of quartz-rich phyllites and marbles along N-trending Moutsounas shear zone at the eastern margin of the Naxos metamorphic core complex (MCC). Fabrics consistently indicate a top-to-the-NNE non-coaxial shear and formed during the main stage of updoming and exhumation between ca. 14 and 11 Ma of the Naxos MCC. The main stage of exhumation postdates the deposition of overlying Miocene sedimentary successions and predates the overlying Upper Miocene/Pliocene conglomerates. Detailed microstructural and textural analysis reveals that the movement along the Moutsounas shear zone is associated with a retrograde greenschist to subgreenschist facies overprint of the early higher-temperature rocks. Paleopiezometry on recrystallized quartz and calcite yields differential stresses of 20–77 MPa and a strain rate of 10⁻¹⁵–10⁻¹³ s⁻¹ at 350 °C for quartz and ca. 300 °C for calcite. Chlorite geothermometry of the shear zone yields two temperature regimes, 300–360 °C, and 200–250 °C. The lower temperature group is interpreted to result from late-stage hydrothermal overprint.     

岩浆核杂岩和变质核杂岩特征对比及控矿实例——南秦岭牛山-凤凰山变质核杂岩和牛山北岩浆核杂岩构造群落及控矿模式

以南秦岭牛山-凤凰山变质核杂岩和牛山北岩浆核杂岩为例, 通过核杂岩的构造群落、变质程度、岩浆侵位与变形时代、构造层次与演化、控矿特征与控矿构造-蚀变岩相填图及测年研究, 对比2类核杂岩的特征及其控矿作用。结果表明, 2类核杂岩有相似的结构样式, 但构造群落和演化差别较大。牛山-凤凰山变质核杂岩核部为新元古代武当岩群和耀岭河岩组中深变质岩, 其中可见新元古代石英闪长岩和加里东期辉石岩-辉绿岩株, 说明是在新元古代或加里东期形成的。核杂岩与外围震旦系—泥盆系浅变质岩间由剥离断层及韧性剪切带分割。志留系梅子垭岩组为浅变质强变形的岩片组合, 发育多层次韧性剪切、固态流变、滑脱-逆冲-走滑变形3期新生面理及其置换。而牛山北岩浆核杂岩核部和外围是浅变质岩, 在核部和外围填图、测试时发现新元古代、早古生代、三叠纪、侏罗纪4期侵入岩, 与岩浆核杂岩相关的有三叠纪—早侏罗世二长花岗岩株和晚侏罗世花岗岩脉2期侵入岩。研究发现, 与岩浆核杂岩伴随的岩浆侵位、韧性剪切变形与热变质增温-变斑晶加大-自然金沿S2面理分布-金矿化热液蚀变等的时代均集中在晚三叠世—侏罗纪, 指示了时代较新的陆内造山期岩浆核杂岩的脆-韧性剪切变形-立交桥式岩浆-热力垂向增生-热液蚀变成矿时空关联特点及深部找矿方向。     

云蒙山变质核杂岩抬升过程中伸展拆离和岩浆底辟联合作用的证据

北京地区云蒙山变质核杂岩在白垩纪阶段抬升的早期,伴随着沿四合堂剪切带由北向南的拆离滑脱和大型花岗闪长岩的垂向侵位,晚期变形发生在花岗闪长岩岩基周边及其邻近围岩中,形成云蒙山剪切带,并伴随大量同构造的花岗岩和伟晶岩岩脉灌入。剪切带中所有的岩脉都随时间发生了不同程度的变形,较老的岩脉形成紧闭的圆柱状褶皱,枢纽与剪切带的线理和面理接近平行。岩脉与剪切带中L-S组构的平行化作用主要是由于这种转动的结果。岩脉的成分和长英指数随它们的变形程度发生变化,说明持续的岩浆分异作用与韧性剪切变形是同时发生的。云蒙山剪切带由岩浆底辟引起的上盘岩石重力所驱动,并不断得到同构造侵位岩脉的补充,起到存储和不断改造侵位岩脉的作用。早期伸展体制下形成的四合堂剪切带局部遭受云蒙山剪切带的改造或复合。该地区的岩石、构造和同构造岩脉的变形几何学和运动学证据表明,太古宙结晶基底的抬升是下部岩浆底辟与上部地壳伸展拆离共同作用的结果。     

云蒙山变质核杂岩抬升过程中伸展拆离和岩浆底辟联合作用的证据

北京地区云蒙山变质核杂岩在白垩纪阶段抬升的早期,伴随着沿四合堂剪切带由北向南的拆离滑脱和大型花岗闪长岩的垂向侵位,晚期变形发生在花岗闪长岩岩基周边及其邻近围岩中,形成云蒙山剪切带,并伴随大量同构造的花岗岩和伟晶岩岩脉灌入。剪切带中所有的岩脉都随时间发生了不同程度的变形,较老的岩脉形成紧闭的圆柱状褶皱,枢纽与剪切带的线理和面理接近平行。岩脉与剪切带中L-S组构的平行化作用主要是由于这种转动的结果。岩脉的成分和长英指数随它们的变形程度发生变化,说明持续的岩浆分异作用与韧性剪切变形是同时发生的。云蒙山剪切带由岩浆底辟引起的上盘岩石重力所驱动,并不断得到同构造侵位岩脉的补充,起到存储和不断改造侵位岩脉的作用。早期伸展体制下形成的四合堂剪切带局部遭受云蒙山剪切带的改造或复合。该地区的岩石、构造和同构造岩脉的变形几何学和运动学证据表明,太古宙结晶基底的抬升是下部岩浆底辟与上部地壳伸展拆离共同作用的结果。     

Partial melting and decompression of the Thor-Odin dome, Shuswap metamorphic core complex, Canadian Cordillera

The Thor-Odin dome region of the Shuswap metamorphic core complex, British Columbia, contains migmatitic rocks exhumed from the deep mid-crust of the Cordilleran orogen. Extensive partial melting occurred during decompression of the structurally deepest rocks, and this decompression path is particularly well recorded by mafic boudins of silica-undersaturated, aluminous rocks. These mafic boudins contain the high-temperature assemblages gedrite+cordierite+spinel+corundum+kyanite/sillimanite±sapphirine±högbomite and gedrite+cordierite+spinel+corundum+kyanite/sillimanite+garnet±staurolite (relict)±anorthite. The boudins are interlayered with migmatitic metapelitic gneiss and orthogneiss in this region.

The mineral assemblages and reaction textures in these rocks record decompression from the kyanite zone (P>8–10 kbar) to the sillimanite–cordierite zone (P<5 kbar) at T750 °C, with maximum recorded temperatures of 800 °C. Evidence for high-temperature decompression includes the partial replacement of garnet by cordierite, the partial to complete replacement of kyanite by corundum+cordierite+spinel (hercynite)±sapphirine±högbomite symplectite, and the replacement of some kyanite grains by sillimanite. Kyanite partially replaced by sillimanite, and sillimanite with coronas of cordierite±spinel are also observed in the associated metapelitic rocks.

Partial melt from the surrounding migmatitic gneisses has invaded the mafic boudins. Cordierite reaction rims occur where minerals in the boudins interacted with leucocratic melt. When combined with existing structural and geochronologic data from migmatites and leucogranites in the region, these petrologic constraints suggest that high-temperature decompression was coeval with partial melting in the Thor-Odin dome. These data are used to evaluate the relationship between partial melting of the mid-crust and localized exhumation of deep, hot rocks by extensional and diapiric processes.     

Low-temperature thermochronological record of exhumation of the Bitterroot metamorphic core complex, northern Cordilleran Orogen

The Bitterroot metamorphic core complex is an exhumed, mid-crustal, plutonic–metamorphic complex that formed during crustal thickening and subsequent extension in the hinterland of the North American Cordilleran Orogen, in the northern Idaho batholith region. Extension was accommodated mainly on the Bitterroot mylonite zone, a 500–1500-m-thick shear zone that deforms granitic intrusive rocks as young as 53–52 Ma, as well as older high-grade metamorphic rocks and plutons. Exhumation of the core complex, in Eocene time, is marked in the shear zone by the transition from amphibolite-facies mylonitization, to greenschist-facies mylonitization, chloritic brecciation, to brittle faulting that progressed from shallower crustal levels in the west to deeper crustal levels in the east from ca. 53 –30 Ma based on U–Pb, Ar–Ar, and fission-track data. Apatite and zircon fission-track data record the lower-temperature part of the exhumation history and help define when the shear zone became inactive, as well as the transition from rapid, core complex-style extension to slower basin-and-range-style extension. They indicate that the western part of the complex was exhumed to within 1–2 km of the surface by 48–45 Ma, while the eastern part of the complex was still at amphibolite-facies conditions and that the eastern part of the complex was not exhumed below 60 °C until after 30 Ma. Younger apatite fission-track ages (≤26 Ma) on the eastern range front of the Bitterroot Mountains suggest that the present topographic expression of the mylonite front was due to Miocene high-angle faulting and widening of the Bitterroot Valley.     

Thermomechanics of an extensional shear zone,Raft River metamorphic core complex,NW Utah

A detailed structural and microstructural analysis of the Miocene Raft River detachment shear zone (NW Utah) provides insight into the thermomechanical evolution of the continental crust during extension associated with the exhumation of metamorphic core complexes. Combined microstructural, electron backscattered diffraction, strain, and vorticity analysis of the very well exposed quartzite mylonite show an increase in intensity of the rock fabrics from west to east, along the transport direction, compatible with observed finite strain markers and a model of ``necking'' of the shear zone. Microstructural evidence (quartz microstructures and deformation lamellae) suggests that the detachment shear zone evolved at its peak strength, close to the dislocation creep/exponential creep transition, where meteoric fluids played an important role on strain hardening, embrittlement, and eventually seismic failure.Empirically calibrated paleopiezometers based on quartz recrystallized grain size and deformation lamellae spacing show very similar results, indicate that the shear zone developed under stress ranging from 40 MPa to 60 MPa. Using a quartzite dislocation creep flow law we further estimate that the detachment shear zone quartzite mylonite developed at a strain rates between 10⁻¹² and 10⁻¹⁴ s⁻¹. We suggest that a compressed geothermal gradient across this detachment, which was produced by a combination of ductile shearing, heat advection, and cooling by meteoric fluids, may have triggered mechanical instabilities and strongly influenced the rheology of the detachment shear zone.     

中下部地壳拆离断层带演化中的褶皱作用:以辽南变质核杂岩为例

作为变质核杂岩构造的重要组成部分,拆离断层带内广泛发育的褶皱构造与其寄主岩石一样记录了中下地壳拆离作用过程。选取辽南变质核杂岩金州拆离断层带内褶皱构造作为研究对象,基于叶理与褶皱构造关系分析,划分了褶皱期次与阶段性;通过形态组构分析、结晶学组构分析及石英古温度计等技术方法的应用,初步分析了拆离断层内褶皱的形成机制,为辽南地区拆离作用过程提供约束。根据褶皱形成与拆离作用的时间关系,将拆离带内褶皱分为拆离前褶皱、拆离同期褶皱和拆离后褶皱;拆离作用同期的褶皱按时间早晚分为早期(a1)阶段、中期(a2)阶段、晚期(a3)阶段。不同阶段褶皱的野外形态、叶理与褶皱关系等方面的差异,以及形态组构与结晶学组构的特征,为判断和恢复褶皱的形成机制提供了佐证,揭示出拆离断层带褶皱是在纵弯压扁和顺层流变的共同作用下递进剪切变形的产物。在拆离作用过程中, a1阶段和a2阶段褶皱以纵弯、压扁褶皱作用为主,a3阶段褶皱以弯滑作用为主。褶皱作用记录了拆离断层一定温度范围内(主要集中在380~500 ℃)的变形特征,拆离作用从早期到晚期的演化整体处于相对稳定的应变状态下。对金州拆离断层带而言,在区域NW-SE向伸展过程中,还伴随着NE-SW向微弱的收缩。     

索伦缝合带中的印支期伸展作用:中国内蒙古苏尼特左旗变质核杂岩(英文)

根据对内蒙古苏尼特左旗地区的野外研究 ,我们将以前描述的交其尔逆冲断层重新解释为一南倾的伸展拆离断层。该断层为一印支期变质核杂的主拆离断层 ,它叠加在缩短的阿尔泰和满洲里带间的晚古生代索伦缝合带上。变质核杂岩的组成要素包括 :下盘的古生代中期和二叠—三叠纪侵入体 (分别是宝底道和哈拉图岩体 ) ,交其尔拆离断层之下、叠加在下盘岩体上的糜棱岩状剪切带 ,拆离断层本身和上盘成分多变、构造复杂的古生代和元古宙岩石。从U Pb年龄为 2 5 2Ma的糜棱岩化哈拉图岩体中获得白云母 ,其40 Ar/ 3 9Ar冷却年龄为 2 2 4Ma和 2 0 8Ma ,而后伸展沉积的下、中侏罗统沉积在下盘之上 ,表明变质核杂岩形成于印支期 ,即晚三叠世至侏罗纪最早期。研究区内 ,北东东走向的交其尔拆离断层的伸展作用方向大致为 2 15°。这是索伦缝合带内首次发现的印支期伸展作用 ,结合分隔遥远的中国各地区 ,如大别—苏鲁缝合带、西藏高原羌塘变质带和东阿尔金山区近来报道的其它一些晚三叠—早侏罗世 (约 2 2 0～ 190Ma)沿韧性拆离断层的伸展作用实例 ,清楚表明东亚地区区域性印支期变形的性质有必要进行重新研究     

庐山变质核杂岩东侧的伸展拆离及构造意义

庐山变质核杂岩东侧的星子牛屎墩地区出露与西侧拆离带相似的伸展拆离滑脱、韧性流变的构造现象, 岩层整体呈现上盘向南东滑脱的正断层性质, 推测庐山变质核杂岩东侧的拆离带就在此处, 而并非五里正断层。东侧拆离带内岩石以糜棱岩、糜棱状岩石及混合岩为主, 并发育大量的长英质脉体, 形成温压较高, 埋深较大, 其糜棱岩带、构造片岩带保留完好。运动学涡度分析得到涡度W_k>0.75, 表明该拆离系为以单剪为主的一般剪切带。根据糜棱岩中长石的变形特征估算东侧拆离带的形成温度为650 ℃~700 ℃, 与西侧拆离带近于一致。锆石U-Pb年龄测定得到东侧拆离带的伸展年龄为140~135 Ma, 也代表了庐山变质核杂岩的形成时间。     

大别山早白垩世变质核杂岩的结构与演化

大别山中部混合岩-片麻岩穹隆的构造属性认识方面一直众说纷纭.通过对中大别杂岩及其边界剪切带或断裂带的构造解析,并结合对前人相关研究的总结,我们将中大别杂岩厘定为早白垩世的变质核杂岩,其中商麻断裂与晓天-磨子潭断裂和水吼-五河剪切带构成了一个完整的拆离断层带,并将变质核杂岩的形成时间限定在145～120 Ma.中大别杂岩...     

辽南庄河地区栗子房变质核杂岩的发现及意义

在区域地质调查资料基础上,根据宏观与微观构造测量,通过分析区域岩浆活动性及其测年资料等,揭示了在辽南庄河栗子房地区存在另一个变质核杂岩构造,即栗子房变质核杂岩。该核杂岩具有3层结构和5个部分,即由新太古代变质深成岩及中生代花岗岩侵入体构成的下盘、由不同层次的构造岩组成的中部拆离断层带以及由前寒武纪沉积盖层和白垩纪伸展盆地构成的上盘。栗子房变质核杂岩形成于早白垩世,运动方向为上盘相对下盘由NWW向SEE方向运动,与辽南金州变质核杂岩和万福变质核杂岩在几何学、运动学极性和形成时间等方面具有很多相似性,形成于同一动力学背景。该变质核杂岩的厘定可为阐明华北克拉通东部晚中生代岩石圈减薄过程及岩石圈的力学和流变学属性提供依据。同时,变质核杂岩与金矿床成矿关系密切,栗子房变质核杂岩的拆离断层带附近可作为下一步金矿勘查的重点工作区,成矿潜力较大。     

Discovery and significance of Lizifang metamorphic core complex in Zhuanghe area of southern Liaoning

On the basis of the previous regional geological survey, based on the macroscopic and microscopic structural survey, combined with the comprehensive analysis of the regional magmatic activity and dating data, the authors in this paper revealed that there is another metamorphic core complex structure in Lizifang area of Southern Liaoning, namely Lizifang metamorphic core complex. A typical three-layer structure and five parts exist in the core complex, which are the footwall composed of Neo-archean metamorphic plutonic rocks and mesozoic granite intrusive rocks, the detachment fault zone composed of different levels of tectonic rocks, and the upper plate composed of Precambrian sedimentary cap and Cretaceous extensional basin. Lizifang metamorphic core complex formed in the Early Cretaceous Epoch, and the upper plate moved from NWW to SEE relaive to the footwall, which was similar with Jinzhou metamorphic core complex and Wanfu metamorphic core complex in geometry, kinematics polarity and formation time, indicating the same dynamic background. The determination of the metamorphic core complex may provide a basis for the late Mesozoic lithospheric thinning process and the mechanical and rheological properties of the lithosphere in the east of North China Craton. At the same time, the metamorphic core complex is closely related to the mineralization of gold deposits. So the detachment fault zone of Lizifang metamorphic core complex can serve as the key work area for further gold exploration, which may possess large mineralization potential.     

辽南新房变质核杂岩的发现及地质意义

根据宏观与微观构造测量,揭示出在辽宁南部新房地区存在一个变质核杂岩构造,即新房变质核杂岩。该核杂岩具有典型的3层结构：上盘为新元古代—古生代弱变形沉积岩层,下盘是新太古代糜棱岩、片麻杂岩和中生代花岗质侵入岩体,中间是拆离断层带由不同层次构造岩构成。拆离断层带形态为向北西开口的反“C”型,产状较缓,倾向分别向西、向南、向东倾斜,线理产状240°～290°∠12°～30°。运动方向为上盘相对下盘由北东东向南西西运动,结合区域岩浆活动性及其测年资料等综合分析,新房变质核杂岩形成于早白垩世,与辽南金州变质核杂岩在几何学、运动学极性和形成时间等方面具有很多相似性,形成于同一动力学背景。该变质核杂岩的厘定不仅为阐明华北克拉通中生代岩石圈减薄过程及岩石圈的力学和流变学属性提供依据,而且为下一步新房金矿的勘查指明了找矿方向。     

医巫闾山变质核杂岩核部晚中生代花岗岩成因及地质意义

位于华北克拉通北缘的医巫闾山变质核杂岩是中生代东北亚大陆大规模伸展变形的一个代表.本文在系统收集该区已有数据的基础上,对医巫闾山变质核杂岩核部晚中生代花岗岩的主量元素、微量元素以及Sr-Nd同位素进行了测试分析和特征总结,进而讨论其成因及地质意义.研究结果显示,医巫闾山花岗岩主要为一套由黑云母二长花岗岩和花岗闪长岩等组...     

沧县隆起献县变质核杂岩的发育特征及成因模式

渤海湾盆地周缘发育的多个变质核杂岩,很好地记录了华北克拉通东部晚中生代以来的地壳伸展过程。文中以渤海湾盆地西部献县凸起和饶阳凹陷为研究区,试图揭示盆地内部变质核杂岩的发育特征。根据井、震结合的方法,通过精细的构造解释,厘定了献县断层及其上盘的构造变形特征;利用凹陷内的钻井资料对献县凸起上发育地层的时代和岩性进行限定;结合区域上变质核杂岩的发育特征和形成背景,讨论了献县变质核杂岩的发育时间和成因演化模式。结果表明:在研究区内呈弧形展布的献县断层具有主拆离断层的特征,断层上盘的饶阳凹陷南部残留有中元古界和下古生界,且凹陷内发育有数量众多、不同倾向的次级断层;献县凸起上发育的地层为太古宇-古元古界,岩性包括角闪片麻岩、黑云二长片麻岩,局部发育有花岗片麻岩。研究认为,献县变质核杂岩具有典型变质核杂岩的基本特征,其形成时间为晚中生代(K1?),发育于华北克拉通东部岩石圈大规模减薄的背景下,并以滚动枢纽模式发展演化。