胶东东部中生代走滑逆冲构造带的超微构造研究

胶东东部区域上处于秦岭-大别-苏鲁造山带的东端,是中生代的走滑逆冲构造带.进行超微构造研究有利于解决岩石的变形机制问题.应用偏光显微镜和透射电子显微镜方法,进行了胶东东部走滑逆冲构造带显微构造及超微构造研究.研究认为主要走滑逆冲剪切带的石英位错亚构造以线位错为主,并常见位错环、位错弓弯、位错壁、位错列、位错网及亚晶粒等构造型式颗粒等.石英超微位错构造总体反映的是中温或低温塑性变形环境;石岛剪切带、荣成剪切带、牟平剪切带的平均古差异应力值呈现逐渐降低的趋势,跟温度呈反相关的关系.     

川东明月峡双重楔形构造叠加模式

川东隔挡式褶皱由一系列北东走向的线性褶皱带组成,为典型的高陡背斜构造带。该区油气勘探目的层主要集中在中浅层石炭系,而且钻井主要位于构造核部,钻井深度相对较浅,由于地震资料对构造陡翼地层的反射资料显示品质较差,从而对该构造认识出现了多种解释结果。笔者应用断层相关褶皱理论,依据钻井资料标定,对川东褶皱带典型构造明月峡背斜构造的二维地震剖面测网及两条宽线二维地震剖面重新进行详细构造分析及解释。解释结果表明,如果假定地层厚度不变,明月峡构造样式可以认为是两个楔形构造垂向上叠合而成,发育两期构造。据此本文提出了明月峡背斜双楔形构造发育几何学模式图,分析了两期楔形构造垂向上叠加模式。根据已有的研究成果,地表变形是深部逆冲作用的结果,推测早期中浅层构造变形时间为中白垩世,晚期深层构造为晚新生代时期,而且晚期构造改造了早期构造。构造解释结果给出,剖面几何形态为浅层发育向东的反冲断层扩展褶皱,中深层分别以三叠系膏岩和志留系泥页岩为顶、底滑脱面的楔形构造,深层构造分别以志留系泥页岩和震旦系泥页岩为顶、底滑脱面的楔形构造。构造几何分析指出,深层楔形构造形成时间晚于中深层楔形构造,并改造了早期中深层楔形构造,从而出现了构造高点的向西偏移的现象。在平面分布上,明月峡背斜浅层高陡构造背斜东翼宽度从北向南逐渐变窄,深层楔形体楔形角度逐渐变大,构造缩短量相应增加。     

川东明月峡双重楔形构造叠加模式

川东隔挡式褶皱由一系列北东走向的线性褶皱带组成,为典型的高陡背斜构造带。该区油气勘探目的层主要集中在中浅层石炭系,而且钻井主要位于构造核部,钻井深度相对较浅,由于地震资料对构造陡翼地层的反射资料显示品质较差,从而对该构造认识出现了多种解释结果。笔者应用断层相关褶皱理论,依据钻井资料标定,对川东褶皱带典型构造明月峡背斜构造的二维地震剖面测网及两条宽线二维地震剖面重新进行详细构造分析及解释。解释结果表明,如果假定地层厚度不变,明月峡构造样式可以认为是两个楔形构造垂向上叠合而成,发育两期构造。据此本文提出了明月峡背斜双楔形构造发育几何学模式图,分析了两期楔形构造垂向上叠加模式。根据已有的研究成果,地表变形是深部逆冲作用的结果,推测早期中浅层构造变形时间为中白垩世,晚期深层构造为晚新生代时期,而且晚期构造改造了早期构造。构造解释结果给出,剖面几何形态为浅层发育向东的反冲断层扩展褶皱,中深层分别以三叠系膏岩和志留系泥页岩为顶、底滑脱面的楔形构造,深层构造分别以志留系泥页岩和震旦系泥页岩为顶、底滑脱面的楔形构造。构造几何分析指出,深层楔形构造形成时间晚于中深层楔形构造,并改造了早期中深层楔形构造,从而出现了构造高点的向西偏移的现象。在平面分布上,明月峡背斜浅层高陡构造背斜东翼宽度从北向南逐渐变窄,深层楔形体楔形角度逐渐变大,构造缩短量相应增加。     

库车冲断带秋里塔格构造带东段构造样式与构造演化

秋里塔格构造带位于库车褶皱冲断前缘,其东段包括东秋里塔格背斜和库车塔吾背斜。野外调查和地震剖面解释表明:秋里塔格构造带东段盐下发育断层转折褶皱; 盐上东秋里塔格背斜为滑脱箱状背斜,库车塔吾背斜核部为南倾逆冲断层所破坏。演化剖面显示秋里塔格构造带东段在侏罗纪断陷期发育了正断裂,其后为平静期,直到库车晚期后逆冲断层和褶皱快速发育,背斜最终形成。膏盐岩及古构造对构造变形具有重要影响,一方面作为滑脱层,分割了盐下层与盐上层,导致二者形成不同的构造样式; 另一方面塑性流动充填于背斜核部。由于膏盐岩的厚度差异,东秋里塔格背斜盐上发育褶皱,而库车塔吾背斜核部被逆冲断层破坏,膏盐层厚度还影响了膏盐层上下构造高点的相对位置。盐下构造的发育受侏罗纪古构造控制,进而影响了盐上构造的发育。     

柴北缘早新生代旋转变形特征及其构造意义

青藏高原东北部作为高原北东向扩展的前缘地带,新生代以来变形十分强烈,是研究青藏高原隆升变形过程和生长模式的关键地区之一。然而高原东北部何时卷入印度-欧亚大陆碰撞挤压变形系统以及高原扩展的运动学、动力学过程和机制等仍存在很大争议。大陆碰撞及持续挤压过程往往会伴随块体及其内部的旋转变形,而古地磁磁偏角可以定量恢复块体绕垂直轴发生的旋转变形,在研究块体旋转变形方面具有其独特优势。高原东北部,尤其是柴达木盆地,缺乏早新生代的细致旋转变形研究,制约了我们对高原东北部地区早新生代的旋转变形特征及其对印度-欧亚大陆碰撞远程响应的理解。柴北缘地区出露有近乎连续完整的早新生代路乐河组-下干柴沟组地层,为研究青藏高原东北部早新生代旋转变形提供了理想场所。本文对柴北缘逆冲带北中部的驼南和高泉两剖面早新生代路乐河组和下干柴沟组地层开展精细古地磁旋转变形研究:包括在驼南剖面布设4个时间节点、24个采点260个古地磁岩心样品,高泉剖面布设2个时间节点、14个采点150个古地磁岩心样品。通过系统岩石磁学和热退磁实验分析,揭示两剖面早新生代样品的载磁矿物主要是赤铁矿,并含有少量磁铁矿;所获得31个有效采点的高温特征剩磁方向通过褶皱检验和倒转检验,指示可能是岩石沉积时期记录的原生剩磁方向。结合柴北缘中部红柳沟剖面已有古地磁数据,三剖面古地磁结果一致表明柴北缘地区在45~35 Ma期间发生了显著(约20°)逆时针旋转变形。结合东部陇中盆地同时期古地磁旋转变形记录,发现二者具有反向的共轭旋转变形关系。综合青藏高原东部早新生代(52~46 Ma)旋转变形和渐新世以来走滑断裂活动等证据,我们认为:(1)高原东北部的共轭旋转变形是该地区对印度-欧亚碰撞的远程响应,其时间不晚于中始新世(约45 Ma);(2)早新生代自喜马拉雅东构造结至高原东北部,其两侧系统的共轭旋转变形很可能是该时期喜马拉雅东构造结北北东向压入欧亚大陆引起的右旋和左旋剪切作用导致,且剪切应力及相关的地壳缩短和旋转变形等呈现自东构造结地区沿北北东向逐步向高原东北部传递的特征;(3)古新世—始新世时期高原构造变形可能主要通过南北向挤压-地壳增厚模式、渐新世以来主要以沿主要断裂带的侧向挤出模式来调整。     

燕山西段及北京西山晚中生代逆冲构造格局及其地质意义

燕山西段及北京西山晚中生代逆冲构造集中分布于三个NE向带状区域中,三个带状区域的间隔约为60km,延伸长度自东向西依次减小,呈现出明显的逆冲构造发育的三角形区域。三角形区域的北界为“内蒙地轴”南缘断裂西段,南西界与中元古代早期古盆地构造边界一致,东南部边界则与华北克拉通基底新太古代-古元古代中部碰撞造山带的东部边界大致吻合。逆冲构造具有基底卷入的厚皮构造与盖层内部的薄皮构造共存的构造属性,上盘运动方向总体指向NW,逆冲构造变形主要发生在140~130Ma。逆冲后伸展构造变形以发育在主要逆冲构造后侧为主,并利用先存构造薄弱带。先存构造薄弱带在有利区域构造应力和其他影响因素的作用下导致的构造活化,可能是燕山板内构造变形的重要机制之一。主要逆冲变形前后均有大规模岩浆活动的构造-岩浆时空组合表明,收缩构造造成地壳加厚及由此引发的深部地壳重熔,难以作为统一的机制对这些特征进行合理阐释,需要有其他方式的深部热物质与能量的参与。北京西山霞云岭—长操、教军场—大安山以及马兰—胡林等逆冲断层,是一个统一的大规模的逆冲构造的不同组成部分,具典型、连续的断坪-断坡结构,它形成于髫髻山组(148~146Ma)之后、南窖闪长岩(128Ma)侵入之前,而不是“印支期(或更早)”,它与南大寨—八宝山逆冲构造构成北京西山晚中生代逆冲构造格局。区域性的NW-SE向收缩构造作用及南大寨—八宝山逆冲构造上覆岩席的构造加载,可能是北京西山的蓝晶石带和硬绿泥石带为代表的高压动力变质作用的基本构造原因。     

华南东段早古生代造山带研究

对华南东段早古生代沉积环境、火山岩、超镁铁岩—镁铁岩年代、韧性变形运动学、早古生代造山带特色等方面进行了研究。研究结果表明,震旦纪—奥陶纪期间(680～440Ma)的沉积岩以泥砂质碎屑岩为主体,岩层中浅海相沉积构造发育;缺乏鲍玛层序,不含火山熔岩和爆发火山碎屑岩;原定早古生代玄武岩实为杂砂岩。结合沉积岩地球化学成果,认为本区早古生代为被动大陆边缘浅海—半深海沉积环境。对区内部分镁铁岩和火山岩作SHRIMP岩浆锆石U-Pb定年,年龄集中在860～800Ma之间。韧性变形运动学研究表明,武夷山南东麓从北西向南东逆冲推覆,北麓从南向北逆冲推覆,剖面上呈花状构造样式。稍后发生了韧性走滑剪切作用。对糜棱岩的云母矿物作40Ar-39Ar定年,年龄集中在430～390Ma之间。与国内外典型加里东期造山带相比,华南早古生代造山带具有鲜明的地域特色,造山机制大致可与西欧比利牛斯造山带相比。     

燕山板内造山带中段中生代构造格局与构造演化

燕山板内造山带中段中生代构造格局由近东西向丰宁-隆化断裂、古北口-平泉断裂和密云-喜峰口-青龙断裂及马兰峪背斜组成.丰宁-隆化断裂为由北向南的低角度逆冲断层经后期改造而形成.古北口-平泉断裂系由柳河-承德县断层、乌龙矶-小料北沟断层、寿王坟-大杖子-下杖子断层组成的断裂系统,在剖面上呈正花状构造,具右行斜压性质,活动时代为148～132Ma.密云-喜峰口-青龙断裂为一右行走滑断裂.马兰峪背斜不具有变质核杂岩的构造组合特征,深部岩浆活动主导的、基底薄弱带控制的断块差异隆升可能是其形成的重要机制.三叠系砾岩中的砾石绝大多数具再生砾石特征,主要来自石炭系-二叠系,其中火山岩砾石的年代(240～248Ma)表明其沉积时间应明显小于240Ma.下板城盆地北部及西部王家店-小梁后盆地原所谓的早侏罗世南大岭组火山岩的时代分别为161 Ma和126～127Ma.因此,原标志印支期变形的角度不整合的时代已被否定,印支运动构造表现需重新认识.     

燕山板内造山带中部“承德逆冲构造”的褶皱相关断裂构造模型

燕山板内造山带中部承德盆地复杂的中生代褶皱及逆冲断裂构造,曾被解释为土城子组沉积之后大型逆冲推覆构造(位移量大于40～45km)又经褶皱变形的结果。近年来,土城子组沉积相和物源区分析、中新元古界沉积古地理研究以及相关构造变形研究结果等,对这一变形大型逆冲构造模型提出了多方位质疑。但已有研究并未提出新的构造模型来解释这一复杂构造区域中生代构造变形样式和形成机制。文中通过对承德盆地区域主体构造——承德向斜、向斜两翼逆冲构造变形几何学与运动学特征、向斜转折端附近构造变形与断裂发育状况进行详细野外调查及对关键地质体同位素地质年代进行测试,发现承德向斜两翼逆冲断层为分别向向斜核部以外区域逆冲的独立逆冲断层,逆冲断层活动与承德向斜变形是在统一的收缩变形体制下准同时形成的。它们形成于土城子组之后、张家口组火山活动之前,即距今约139～136 Ma。据此提出了"承德逆冲构造"的背离向斜逆冲构造模型。这一模型合理地解释了燕山中部承德盆地区域中生代构造变形和相应的盆地充填特征,同时表明,燕山板内造山带并不存在碰撞造山带前陆褶皱逆冲带中常见的大型薄皮逆冲构造样式。这一研究结果展示了褶皱相关断裂构造模型在研究和揭示收缩构造变形区域大尺度褶皱与断裂构造相互关系及准确重建区域构造演化过程方面的重要意义。     

Internal geometry of a thrust sheet,eastern Proterozoic belt,Godavari Valley,South India

A small thrust sheet, named Pedda Gutta thrust sheet, consisting of calcareous to cherty argillites and cherts, and juxtaposed against tidal-intertidal cross-bedded quartzites and stromatolitic and sileceous limestone in the eastern Proterozoic belt, Godavari Valley, exhibits structures comparable in style to those of the external zone of a fold-thrust mountain belt. A wide spectrum of periodic and aperiodic mesoscopic folds varying from upright ones with rounded hinges and attenuated limbs, through noncylindrical kinks to whalebacks and sheath-like forms have developed within the small volume of the thrust sheet, the preserved thickness of which is of the order of 50 metres (comparable in scale to cleavage duplexes). Cleavage development is also heterogeneous across the width of the sheet. Displacement transfer from faults to folds and vice-versa is a common feature. On the basis of the distribution of the mesoscopic structures of varying style within the sheet and localization of fault rocks, three slices (wedges) have been recognized, each bounded on the east by a thrust which is steep at the current erosion level but interpreted to be of listric form making the thrust network comparable in architecture, though not in scale, to a hinterland (west) dipping imbricate fan.     

Extensional subsidence, contractional folding and thrust inversion of the eastern Cameros basin, northern Spain

Tectonic analysis of the Cameros massif (northern Spain) demonstrates the need to integrate detailed structural analysis with stratigraphic studies in order to understand the development of inverted basins. The Cameros massif underwent three major tectonic events, each characterized by different mechanisms of deformation: The first event (Tithonian–Early Albian) manifested as continental rifting and formation of the Cameros basin and was attended by normal faulting and related folding of pre- and syn-rift sedimentary sequences (up to 9?km thick). It corresponded to the beginning of rifting and opening of the Bay of Biscay to the north of the massif. The second event occurred at the end of the Early Cretaceous. The basin underwent contraction, manifested as gentle folds containing axial-plane cleavage. This contraction was due to the migration of the center of rifting away from the basin and toward the northeast, and correlates with the onset of oceanic spreading in the Bay of Biscay. Deformation happened during a low-grade metamorphism period that reached its thermal peak after folding and cleavage formation (90–100?Ma). The final stage of deformation (Eocene–Miocene), following a structurally quiescent period of approximately 40?Ma, occurred during the convergence/collision between Iberia and Europe. It formed contractional folds related to large E/W-striking overthrusts. The Mesozoic basin was inverted and transported 25?km toward the north. During this stage both unfolding and tightening of the former folds occurred, as determined from analysis of cleavage orientation associated with the previous shortening.     

早中生代的华北北部山脉：来自花岗岩的证据

地质历史上何时何地曾经存在过高原或山脉是人们感兴趣的话题,根据花岗岩的地球化学特征（如Sr和Yb）与其形成压力的关系探讨了这种可能性。花岗岩按照Sr和Yb的含量可以分为5类：①埃达克岩（Sr>400×10-6, Yb<2×10-6）、②喜马拉雅型花岗岩（Sr<400×10-6, Yb<2×10-6）、③广西型花岗岩（Sr>400×10-6,Yb>2×10-6）、④浙闽型花岗岩（Sr<400×10-6, Yb>2×10-6）和⑤南岭型花岗岩（Sr<100×10-6, Yb>2×10-6）。其中除了广西型的含义不清楚以外,其他4类花岗岩的差别可能与其形成的深度有关。埃达克岩与残留相榴辉岩平衡,压力通常大于1.5 GPa,相应的地壳厚度超过50 km。喜马拉雅型花岗岩与高压麻粒岩平衡,石榴子石和斜长石是主要的残留相,压力通常在0.8～1.5 GPa之间,相应的地壳厚度在40～50 km之间。浙闽型花岗岩与角闪岩相（斜长石＋角闪石）平衡,压力小于0.8 GPa,相当于正常地壳厚度（30～40 km）。南岭型花岗岩形成于伸展环境,相当于正常或更薄的地壳厚度（30 km或更小）。按照上述标志,根据现有的同位素定年和地球化学资料,在华北北部识别出一个东西向延伸的早中生代的山脉（三叠纪—早侏罗世）,称为华北北部山脉。推测该山脉东西长约3000 km,南北宽200～500 km,高度3000～5000 m。山脉大约在早、中三叠世时开始抬升,至晚三叠世达到顶峰,于早侏罗世后垮塌消失,指示西伯利亚板块和华北地块碰撞导致的一次强烈的挤压构造和快速的抬升事件。     

Sedimentary response to the intracontinental orogenic process: insight from the anatomy of a small Mesozoic basin in western Yanshan,northern North China

ABSTRACT

The intra-continental orogeny and tectonic evolution of the Mesozoic Yanshan fold-thrust belt (YFTB) in the northern North China Craton (NCC) have been strongly debated. Here, we focus on the Shangyi basin, located in the centre of the YFTB. An integrated analysis of sedimentary facies, palaeocurrents, clast compositions, and detrital zircon dating of sediments was adopted to determine the palaeogeography, provenance, basin evolution, and intra-continental orogenic process. The Shangyi basin comprises the well-exposed Early–early Middle Jurassic Xiahuayuan Formation and the Longmen Formation, and the Late Jurassic–Early Cretaceous Tuchengzi Formation. Based on the 18 measured sections, five facies associations – including alluvial fan, fluvial, delta, lacustrine, and eolian facies – have been identified and described in detail. The onset of the Shangyi basin was filled with fluvial, deltaic, and lacustrine deposits controlled by the normal fault bounding the northern basin, corresponding to the pre-orogeny. In the Middle Jurassic, the cobble–boulder conglomerates of alluvial fan, as molasse deposits, were compatible with the syn-orogeny of the Yanshan movement, which played a critical role in northern North China and even East Asia. After the depositional break in the Middle–Late Jurassic, the Shangyi basin, controlled by the normal fault present in the north of the basin, re-subsided and quickly expanded southward with thick sedimentation, which is correlative with the post-orogeny. Combined with A-type granites, metamorphic core complexes, mafic dikes, and rift basins of the Late Jurassic–early Early Cretaceous present in the northern NCC and Mongolia, significant extension was widespread in the northern NCC and even in northeast Asia. Moreover, vertical changes of provenance indicate that the Taihang Mountain and the Inner Mongolia palaeo-uplift (IMPU) present at the west and north of the basin, respectively, experienced uplift twice in the Middle–Late Jurassic and Early Cretaceous, resulting in a regional depositional break.     

Geochronology,geochemistry and tectonic significance of the late Mesozoic volcanic sequences in the northern Wuyi Mountain volcanic belt of South China

The widespread occurrence of late Mesozoic volcanic rocks in the Gan-Hang Belt in South China is associated with similarly widespread mineralization, but many important questions surrounding these volcanic rocks have not been clearly answered. The Tianhuashan basin located in the northern Wuyi Mountain volcanic belt is one of the most important volcanic basins in the Gan-Hang Belt, and it is primarily composed of the Daguding and Ehuling Formations and their intrusive counterparts. LA-ICP-MS zircon U–Pb dating shows that the Daguding Formation erupted in the Late Jurassic (152–160 Ma), whereas the Ehuling Formation erupted in the Early Cretaceous (131–139 Ma) in the Tianhuashan basin. Volcanic rocks are rhyolite and share similar trace and rare earth element patterns with an enrichment of LREEs and a depletion in Sr, Ba, Nb, Ta, P, Eu and Ti. They are also characterized by negative whole rock ε_Nd(t) and zircon ε_Hf(t) values with Paleoproterozoic t_2DM ages, suggesting that they were derived primarily from the remelting of ancient crustal materials. Daguding volcanic rocks are strongly peraluminous and show a higher Mg# than pure crustal melts, implying that they were likely derived from Paleoproterozoic metasedimentary basement materials. However, Ehuling volcanic rocks are weakly peraluminous and have a pronounced A₂-type geochemical signature. Detailed elemental and isotopic data suggest that they were formed by the partial melting of the Paleoproterozoic metamorphic basement (including metasedimentary and metaigneous rocks) at a high temperature (~ 840 °C), followed by fractional crystallization. These results imply that during the Late Jurassic, South China on the Gan-Hang Belt was a continental arc coupled with the subduction of the Paleo-Pacific plate. Since the beginning of the Early Cretaceous, an intra-arc rift has formed along the Gan-Hang Belt as a consequence of slab rollback. These results also indicate that the extension in the Gan-Hang Belt began later than the southwestern part of the Shi-Hang Zone and lasted from 139 Ma to 122 Ma.     

同构造沉积分析反演逆冲构造变形过程--燕山东段凌源南部中生代逆冲构造变形过程研究

介绍了同构造沉积分析的基本概念、研究思路、主要研究方法及其在区域构造变形过程研究中的重要作用。基于对辽西凌源南部区域构造变形、晚侏罗世土城子组同构造沉积粗碎屑沉积物成分变化规律的研究 ,获得如下主要认识 :( 1)同构造沉积始于髫髻山组火山活动之后 ;沉积物成分变化及古水动力特征表明 ,同构造沉积物源区主体位于盆地西侧褶皱隆起区 ,而不是来自南东方向的大型逆冲断层上盘的前渊沉积 ;而且显示了正常层序的物源区倾斜岩层的剥蚀和揭顶过程 ;当时的剥蚀作用已达中元古界蓟县系雾迷山组上部。 ( 2 )分布于郭家店盆地和邓杖子盆地之间的中元古界长城系地层“残片” ,与其东侧北票组间为向SEE逆冲的断层接触 ,而西侧与土城子组 (原邓杖子组 )之间为不整合接触 ;在老虎沟东南长城系地层“残片”不复存在的区域 ,土城子组不整合于北票组之上。该“残片”很可能是髫髻山组火山活动之前指向SEE的逆冲构造变形形成的飞来峰构造的残余部分。( 3 )凌源南部中生代逆冲构造变形可以区分为 :早侏罗世北票组之前 (印支期 )由北向南的逆冲作用、北票组之后髫髻山组之前向SEE的冲断推覆、髫髻山组之后的逆冲褶皱变形与同构造沉积作用以及九佛堂组之后局部的逆冲作用。指向SEE的主要逆冲作用以及伴生褶皱变形     

中国东部中生代软流层上涌造山作用

中国东部中生代造山带不同于陆缘俯冲作用和陆间大陆碰撞造山带,也不是陆缘和陆间碰撞造山带发展演化的某一个特定阶段的产物。它是一种由深部软流层上涌造山作用形成的一个新类型的造山带,又称东亚型造山作用。它的造山作用过程是:(1)早中生代(230～180Ma)的前和初始造山幕,深部软流层物质上涌和底侵作用导致冷、强的大陆岩石圈地幔线状破裂与局部拆沉;(2)中、晚侏罗世(180～140Ma)主造山幕,软流层大规模上涌并沿着岩石圈底部壳-幔边界横向侵入和伸展,使垂向差异运动转变为水平挤压作用,结果地壳表层发生大规模的褶皱构造变形和推覆构造,使陆壳加厚形成山根,岩石圈根发生部分拆沉;(3)白垩纪(140～65Ma)的晚期造山幕,加厚的陆壳山根与岩石圈根的大规模拆沉,岩石圈进入全新的从挤压向伸展转变和巨大减薄阶段,软流层大规模上涌成山。     

胶东中生代金成矿系统

胶东是我国最重要的金矿集区,其内已发现金矿床150余处,探明金资源储量4000余吨。虽然其金矿床数量众多、资源储量巨大、分布地域广泛、产出空间各异、矿化类型多样,但它们的成矿地球动力学背景、赋矿围岩环境与产出条件及其成矿作用特征总体一致:(1)胶东是一个主要由前寒武纪基底岩石和超高压变质岩块组成、中生代构造-岩浆作用发育的内生热液金矿集区,约130~110Ma的金成矿事件比区域变质作用晚约2000Myr;(2)区域金成矿系统形成于早白垩世的陆缘伸展构造背景,大规模金成矿事件发生在区域NW向伸展转换为NE向伸展后的NEE向挤压变形作用过程中,对应于中国东部岩石圈大规模减薄、华北克拉通破坏和大陆裂谷作用的高峰;(3)金矿床群聚于NNE向玲珑、鹊山和昆嵛山变质核杂岩周边,主要沿前寒武纪变质岩与中生代花岗岩体接触带形成的区域NE-NNE向拆离断层带分布;(4)控矿断裂带经历了早期的韧-脆性变形和晚期的脆性变形构造叠加,在三维空间上呈舒缓波状延展,控制了金矿体的侧伏和分段富集;(5)矿化样式以破碎带蚀变(砾)岩型、(硫化物-)石英脉型和复合脉带型为主,矿石普遍发育压碎、晶粒状和填隙结构,浸染状、细脉浸染状、网脉状、脉状、团块状和块状构造,反映其形成于韧-脆性→脆性变形环境;(6)矿石中金属矿物以黄铁矿、黄铜矿、方铅矿和闪锌矿为主,非金属矿物以石英、绢云母、钾长石、斜长石和方解石为主;金矿物以银金矿和自然金为主、含少量金银矿,主要以可见金的形式赋存于黄铁矿和石英裂隙中、含少量晶隙金和包体金;热液蚀变主要为黄铁矿化、硅化、钾长石化、绢云母化和碳酸盐化;成矿元素为Au-Ag(-Cu-Pb-Zn);呈现出中-低温蚀变矿化组合特征;(7)成矿流体为壳-幔混合来源,以壳源变质流体为主;成矿物质总体来源于中生代活化再造的前寒武纪变质基底岩石,并混入了少量浅部地壳和地幔组分。这种区域成矿特征的一致性,表明胶东金矿集区早白垩世大规模金成矿作用受控于统一的地质事件,属于后生的中-低温热液脉金成矿系统。这些金矿床具有明显的时空群聚分布特征,主要沿三个变质核杂岩周边的岩相接触带产出,且自西向东,金成矿作用年龄由老变新。据此,可划分为胶北隆起蚀变岩-石英脉型、苏鲁超高压变质带硫化物-石英脉型和胶莱盆地北缘蚀变砾岩型三个金成矿子系统。其矿化样式由浸染-细脉、细脉-网脉型和石英脉型→硫化物-石英脉型→蚀变(角)砾岩型变化,矿石结构、构造以细脉浸染状构造为主→环带结构与梳状构造→角砾状构造为特色,反映其成矿作用分别发生于脆-韧性转换带(约15km)→脆性张剪性断裂带→脆性角砾岩带(约5km)环境;矿化、蚀变规模和强度逐渐减弱,成矿物质中浅部壳源组分逐渐增多,可能与其矿床定位空间越来越远离源区有关;成矿温度和压力依次降低、成矿流体中大气降水和/或盆地卤水贡献逐渐增大,与其成矿深度越来越浅、成矿构造环境越来越偏张性的变化趋势一致。这种成矿特征的区域规律性变化反映至少在拆离断层韧-脆性转换带附近→脆性角砾岩带之间的地壳剖面中、在不同的垂向深度上连续成矿。胶东中生代金成矿系统的上述特征明显区别于典型的"与侵入岩有关的金矿"和"造山型金矿",也不同于全球其它已知的金矿床类型,不能被已有成矿模式所涵盖。为合理解释胶东中生代金成矿系统独特的地质与成矿特征,我们提出新的"胶东型金矿"成矿模式,指出古太平洋Izanagi俯冲板片的回转作用可能是引起区域前寒武纪变质基底岩石中成矿物质大规模活化再造的主要驱动机制,成矿流体主体来源于俯冲板片变质脱水,金可能主要以Au(HS)2-络合物的形式在流体中沿拆离断层系输运,在韧-脆性转换带附近→脆性角砾岩带,由于构造空间急剧增大、成矿流体的温度和压力突然降低,CO2、H2S逸出和硫化作用导致Au(HS)2-等金络合物失稳分解,金大规模沉淀富集成矿。     

祁连山北缘冲断带西段构造特征

祁连山北缘冲断带是中国较早发现油田的地区之一,近几年来该区油气勘探又获得进一步突破。文中根据近几年得到的地震、钻井、地面露头资料,结合前人研究成果,分析了祁连山北缘冲断带西段的构造特征。祁连山北缘冲断带具有中国西部山前冲断带的共同特征:构造主要定型于喜山期;断层相关褶皱、冲断构造体系发育;冲断带分段分带明显;构造复杂。除此之外,祁连山北缘冲断带西段也有独特的构造特征。由于不同性质盆地的叠合,冲断带走向方向地层组成变化大;冲断带的分段性受控于古构造格局;主要发育横向叠置的多重冲断构造体系。这些特征造成了北缘冲断带油气勘探的复杂性。     

北大巴山逆冲推覆构造带前缘构造特征及变形年代学研究

在北大巴山推覆构造带前缘,北—北东倾斜的城口断裂和南—南西倾斜的高桥断裂形成一背冲式逆冲推覆体系,以两断层为界,其间为一巨型冲起构造。该冲起构造因边界断裂的产状特征、活动强度沿走向的差异,而表现出明显的分段性:其北西段为双向逆冲的"正花状"结构;而南东段为反向逆冲为主的"半花状"结构。同构造低温变质绢云母40Ar-39Ar年龄显示,城口断裂在燕山期(约143.3Ma)存在一次强烈的构造活动,导致北大巴构造带进一步逆冲扩展和强烈隆升。在逆冲-推覆向前扩展过程中,受锋缘外侧阻抗的影响,沿前缘部位形成一系列反向逆冲断层,从而形成巨型冲起构造。     

Early Mesozoic tectonic transition of the eastern South China Block: constraints from Late Triassic Dashuang complex in eastern Zhejiang Province

ABSTRACT

The Mesozoic tectonic transition from the Palaeo-Tethys tectonic regime to the Palaeo-Pacific tectonic regime in the eastern South China Block has long been debated. Geochemical and zircon U–Pb–Hf isotopic studies were conducted on the Dashuang complex in the eastern Zhejiang Province. The Dashuang complex consists mainly of quartz syenite in the northwestern part and quartz monzonite in the southeastern part. New laser ablation inductively coupled plasma mass spectrometry zircon U–Pb data show that the quartz syenite, the quartz monzonite, and its chilled margin (fine-grained granite) crystallized at 235 ± 4 Ma, 232 ± 3 Ma, and 230 ± 1 Ma, respectively. The Dashuang complex intrudes into the Chencai Group gneiss that postdated ~646 Ma and underwent anatexis at 443 ± 14 Ma. The quartz monzonite shows A-type granite affinity, characterized by high K₂O + Na₂O and Zr + Nb + Ce + Y, high FeO_T/(MgO + FeO_T) and Ga/Al ratios, an enrichment in light rare earth elements, and depletions in Ba, Sr, and Eu. The quartz monzonite has zircon ε_Hf(t) values of ?14.2 to –11.9 and two-stage model ages of 1788–1922 Ma. Zircon ε_Hf(t) values of the chilled margin (fine-grained granite) and wall rock (gneiss) are scattered (?18.2 to –6.3 and ?19.5 to 10.2). The corresponding two-stage model ages are 1482–2133 Ma and 1184–2471 Ma, respectively. The Dashuang complex was derived mainly from partial melting of Neoproterozoic clastic rocks in the Cathaysia Block. Geochemical data indicate that the quartz monzonite formed in a post-collision extensional environment. These results, considered with previous data, indicate that the transition from the Palaeo-Tethys to the Palaeo-Pacific tectonic regimes of the eastern South China Block occurred during the Late Triassic (225–215 Ma).