黑龙江东部晚中生代盆地群构造层划分及构造沉积演化

黑龙江东部盆地群包括现今残留的三江盆地、勃利盆地、鸡西盆地、虎林盆地和宁安盆地等。根据地层间的不整合关系可将晚中生代盆地群划分为4个构造层, 盆地演化经历了3次不同背景下的伸展阶段和3次构造反转。构造层Ⅰ (绥滨组和东荣组) 发育于SN向断陷槽内; 构造层Ⅱ (滴道组、城子河组和穆棱组) 发育于NE-NNE向的弧后伸展走滑环境; 构造层Ⅲ (东山组) 沉积时期, 本区又发生一次伸展减薄裂解作用; 而构造层Ⅳ (猴石沟组、海浪组、七星河组和雁窝组) 则发育于NW-NNW向挤压环境, 充填一套粗碎屑沉积。黑龙江东部盆地群的形成和演化受蒙古-鄂霍茨克海碰撞闭合的影响和东部古太平洋板块的俯冲作用及若干外来地体的拼贴作用控制, 其中太平洋板块向大陆俯冲引起的局部地幔对流和岩石圈显著减薄的拆沉事件是盆地形成的主要动力学机制。     

太平洋板块中生代俯冲构造事件的响应：来自黑龙江东部饶河三叠纪层状燧石的古地磁证据

黑龙江东部饶河境内的层状燧石是中生代完达山造山带蛇绿混杂岩的重要组成部分,这些层状燧石的构造意义成为人们关注的热点。对完达山造山带饶河三叠纪大佳河组层状燧石280余块定向手标本开展深入的古地磁研究,结果表明这些层状燧石遭受不同程度的重磁化,重磁化的时间推测为晚侏罗世中期—早白垩世之间。说明对黑龙江东部晚侏罗世—早白垩世存在太平洋板块俯冲的响应。本区重磁化的机制是太平洋板块向西俯冲导致的地体增生、拼贴过程中的造山带流体造成的区域性重磁化现象。     

Kinematics of orocline-parallel faults in the Texas and Coffs Harbour oroclines (eastern Australia) and the role of flexural slip during oroclinal bending

The Texas and Coffs Harbour oroclines are defined by a Z-shaped curvature in the southern New England Orogen (eastern Australia), but the geometry and kinematics of faults around these oroclines, as well as their possible role during oroclinal bending, have hitherto not been understood. Using aeromagnetic and open file seismic data, as well as field observations, the pattern, geometry and kinematics of fault systems, have been investigated. Fault traces with a strike-slip component are oriented parallel to the curved magnetic and structural fabrics of the Texas and Coffs Harbour oroclines. Our observations show evidence for sinistral or sinistral-reverse, dextral (or dextral-reverse) and normal kinematics along NW-striking faults. The dominant kinematics along NNE- and NE-striking faults is dextral or dextral-reverse. The timing of faulting is not well constrained, but the ubiquitous recognition of orocline-parallel faults may suggest that a flexural slip mechanism operated during oroclinal bending in the early–middle Permian (ca 299–265 Ma). Our observations indicate that many of the orocline-parallel faults, with strike-slip separation, were reactivated during the Mesozoic and Cenozoic, as indicated by the recognition of displaced Triassic granitoids, Mesozoic sedimentary rocks and Cenozoic basalts.     

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).     

Climatic and environmental variability during the termination of the Last Glacial Stage in coastal eastern Australia: a review

By comparison with the Northern Hemisphere, there is a paucity of high-resolution, continuous records extending into the Last Glacial Maximum from the Southern Hemisphere. With specific reference to coastal eastern Australia, there are long records of paleoclimatic and paleoenvironmental variability available from the tropical north and temperate south. However, there are significant spatial gaps between such records: in particular, until relatively recently, little attention had been paid to the subtropics. This review paper summarises understanding of regional paleoenvironmental and paleoclimatic variability in coastal eastern Australia during the termination of the Last Glacial Stage, with the aim of highlighting gaps in the current state of knowledge. Recommendations for future research are prioritised to answer knowledge gaps in understanding climate variability in eastern Australia between ca 33–18 kyr BP.     

坡折带对陆相湖盆辫状三角洲层序和沉积的控制——以准噶尔盆地东缘三工河组为例

通过对钻探、地震及露头资料的研究,将准噶尔盆地东缘三工河组划分为两个三级层序。在地震和测井剖面上识别出挠曲坡折带和断裂坡折带两种构造坡折带。坡折带对于研究区层序和沉积的控制作用主要表现为:对于层序,"径向沟梁辐射,纬向阶梯分布"的坡折带体系使得本区三工河底部低水位体系域发育,坡折带加强河道侧向迁移,削弱河道下蚀,增加准层序数量,坡折带高部位低水位体系域会侵蚀下覆地层;对于沉积,在精细开发区的三工河组识别出6种沉积微相组合,顺物源连井剖面上自下而上识别出3个沉积微相组合序列,陡坡区发育富河口坝三角洲前缘,缓坡区发育富河道三角洲前缘。     

羌塘盆地东部中生代沉积特征与构造演化

羌塘盆地东部基底由前石炭纪吉塘岩群组成,沉积盖层为晚古生代一白垩纪地层。其中,中生代海相地层在盆地内分布广泛,沉积体系多样,构造古地理转换频繁。中生代盆地包括南羌塘坳陷、唐古拉山隆起带、北羌塘坳陷等3个构造单元,内部又可以划分出不同时期多个次级凹陷和凸起。盆地的发展和演化既受南、北两侧板块结合带控制,又受盆地内部被分划性断裂带围限的各断块差异性活动约束,依次经历了晚三叠世前陆盆地阶段,“北羌塘”早-中侏罗世伸展裂陷盆地发育阶段,多玛侏罗纪-早白垩世早期被动大陆边缘陆表海盆地发展阶段、晚期前陆盆地阶段,晚白垩世南羌塘山间压陷盆地演化阶段。实质上,该盆地是不同时期原型盆地有序叠加而构成的大型叠复式盆地。     

Provenance of sediments from Mesozoic basins in western Shandong: Implications for the evolution of the eastern North China Block

This paper reports LA–ICP–MS U–Pb dates and in situ Hf isotope analyses of detrital zircons from the Mesozoic basins in western Shandong, China, with the aim to constrain the depositional ages and provenances of the Mesozoic strata as well as the Mesozoic tectonic evolution of the eastern North China Block (NCB). The Mesozoic strata in western Shandong, from bottom to top, include the Fenghuangshan, Fangzi, Santai and Wennan formations. Most of the analyzed zircon grains exhibit oscillatory growth zoning and have relatively high Th/U ratios (generally 0.2–3.4), suggesting a magmatic origin. Zircons from the Fenghuangshan Formation in the Zhoucun Basin yield six main age populations (2489, 1854, 331, 305, 282, and 247 Ma). Zircons from the Fangzi Formation in the Zhoucun and Mengyin basins yield eight main age populations (2494, 1844, 927, 465, 323, 273, 223, and 159 Ma) and ten main age populations (2498, 1847, 932, 808, 540, 431, 315, 282, 227, and 175 Ma), respectively, whereas zircons from the Santai Formation in the Zhoucun and Mengyin basins yield nine main age populations (2519, 1845, 433, 325, 271, 237, 192, 161, and 146 Ma) and six main age populations (2464, 1845, 853, 277, 191, and 150 Ma), respectively. Five main age populations (2558, 1330, 609, 181, and 136 Ma) are detected for zircons from the Wennan Formation in the Pingyi Basin. Based on the youngest age, together with the contact relationships among formations, we propose that the Fenghuangshan Formation formed in the Early–Middle Triassic, the Fangzi Formation in the Middle–Late Jurassic, the Santai Formation after the Late Jurassic, and the Wennan Formation after the Early Cretaceous. These results, together with previously published data, indicate that: (1) the sediments of the Fenghuangshan Formation were sourced from the Precambrian basement and from late Paleozoic to early Mesozoic igneous rocks in the northern part of the NCB; (2) the sediments of the Fangzi and Santai formations were sourced from the Precambrian basement, late Paleozoic to early Mesozoic igneous rocks in the northern part of the NCB, and the Sulu terrane, as well as from Middle–Late Jurassic igneous rocks in the southeastern part of the NCB; and (3) the Wennan Formation was sourced from the Tongshi intrusive complex, the Sulu terrane, and minor Precambrian basement and Early Cretaceous igneous rocks. The evolution of detrital provenance indicates that in the Early–Middle Triassic, the northern part of the NCB was higher than its interior; during the Late Triassic to Early Jurassic, the eastern NCB was uplifted, resulting in a period of non-deposition; and an important transition from a compressional to an extensional tectonic regime occurred during the Middle–Late Jurassic. The presence of Neoproterozoic and Triassic detrital zircons in the Fangzi Formation sourced from the Sulu terrane suggests that large-scale sinistral strike-slip movement along the Tan-Lu Fault Zone did not occur after the Middle Jurassic (ca. 175 Ma).     

西藏羌塘盆地东部中生代构造古地理特征及演化

在大量的区域地质调研和野外露头观测资料基础上,详细研究了西藏羌塘盆地东部中生代不同构造单元的沉积充填序列、地层发育特征与接触关系、构造界面性质、沉积体系配置和沉积相分布等,阐述了盆地沉积与周缘构造带演化之间的耦合关系,重建了研究区中生代不同时期的构造古地理面貌。研究表明,羌塘盆地是一个大型叠复式盆地,盆地东部中生代有海相、海陆过渡相和陆相3个沉积体系组、9个沉积体系和多个沉积（亚）相。盆地内部包括南羌塘坳陷、北羌塘坳陷、唐古拉山隆起带,以及不同时期的次级凸起与断凹等构造单元。其中,多玛断凹是以前石炭纪构造片岩为基底的侏罗纪-早白垩世早期被动大陆边缘陆表海盆地,早白垩世晚期转换为前陆盆地,晚白垩世以来与索县-左贡断凹联合为一体,在陆内造山过程中经历了压陷型盆地充填演化阶段。索县-左贡断凹是在晚三叠世班公湖-怒江沟-弧-盆体系基础上发展起来的前陆盆地。北羌塘坳陷是以华力西期开心岭-杂多隆起带为基底,经过晚三叠世昌都前陆盆地沉积、早侏罗世断陷盆地火山-沉积作用之后,于中侏罗世与索县-左贡断凹联合为一体,形成北羌塘-昌都巨型坳陷型盆地。白垩纪北羌塘陆块和昌都陆块处于隆升剥蚀状态。     

华北东部中、新生代岩石圈地幔的不均一性：来自橄榄石的组成填图结果

华北中、新生代玄武质火山岩和基性脉岩携带的地慢橄榄岩捕虏体中橄榄石和／或橄榄石捕虏晶系统的组成填图显示华北东部中、新生代岩石圈地幔存在明显的时空分布规律和不均一性。这与通过岩石圈地幔源基性岩石的地球化学反演获得的华北中生代岩石圈地幔的时空不均一性及其块体特征完全一致。太行山和鲁皖地区新生代岩石圈地慢的差异演化主要反映古老地幔橄榄岩与熔体相互作用时熔体性质和来源的不同。同时,橄榄石Fo填图还揭示了郯庐断裂对华北东部中、新生代基性岩浆活动及其岩石圈地幔演化的重要制约作用。而且,华北东部中生代岩石圈减薄后尚存古老岩石圈地幔残留。因此,华北东部岩石圈减薄的整体拆沉模式很难成立。     

壳内岩浆层演化的盆地效应:以中国东南部中生代盆地为例

中国东南部中生代发育有拗陷型、断裂型、断陷型3种不同类型的盆地,其中前者发育于晚三叠世-早侏罗世,其内多为含煤建造;次者发育于中侏罗世-早白垩世,主要为火山岩建造;后者发育于白垩纪-古近纪,主要为陆相红岩建造。研究结果表明,盆地构造类型的演化与该区中生代壳内岩浆层的演化密切相关。与联合古陆解体相伴随的古太平洋板块俯冲使得东亚陆缘岩石圈的内能逐渐升高,其结果是壳内岩浆层的形成和增厚以及其上盖层岩石的弯曲变形,导致中生代早期众多拗陷盆地的形成;燕山早期的构造运动使印支期已强烈变形的地壳进一步破裂,为壳内岩浆层的物质溢出或喷发提供了通道条件,从而在重熔界面(岩浆层上界面)埋深较浅的本区东部形成众多火山岩盆地;系统内能在晚侏罗世后逐渐下降,地壳冷却收缩使得断块的重力调整逐渐占主导位置,形成众多由正断层控制的断陷盆地。     

四川盆地东部上三叠统须家河组层序地层及聚煤特征研究*

四川盆地东部上三叠统须家河组共分7段,其中须一段与川西小塘子组为同期异相沉积。须一、须三、须五、须七段为含煤泥岩段,须二、须四、须六段为砂岩段。对区内钻井剖面及露头剖面进行分析,在须家河组中识别出区域性构造不整合面及河流下切冲刷面等层序界面,将须家河组划分为4个三级层序,分别对应于须一段、须二段—须三段、须四段—须五段、须六段—须七段。以地层的岩性、岩相变化特征细化分出低位体系域、湖侵体系域和高位体系域。其中低位体系域以广泛分布的河道砂岩沉积为特征;湖侵体系域与高位体系域以湖滨三角洲相的细砂岩、粉砂岩、泥岩及煤层互层为特征。对层序地层格架下的聚煤特征分析表明,层序Ⅲ聚煤最有利,其次为层序Ⅳ,层序Ⅱ最差;在层序Ⅲ内,高位体系域比湖侵体系域更有利于成煤。煤层厚度变化明显受泥炭堆积速率与可容空间增加速率的控制,高位体系域早期较高的可容空间增加速率与较高的泥炭堆积速率保持平衡,有利于厚泥炭(煤)层的形成。     

Early Mesoproterozoic metamorphism in the Barossa Complex,South Australia: links with the eastern margin of Proterozoic Australia

LA-ICP-MS U–Pb geochronological data from metamorphic monazite in granulite-facies metapelites in the Barossa Complex, southern Australia, yield ages in the range 1580–1550 Ma. Metapelitic rocks from the Myponga and Houghton Inliers contain early biotite–sillimanite-bearing assemblages that underwent partial melting to produce peak metamorphic garnet–sillimanite-bearing anatectic assemblages. Phase equilibrium modelling suggests a clockwise P–T evolution with peak temperatures between 800 and 870°C and peak pressures of 8–9 kbar, followed by decompression to pressures of ～6 kbar. In combination with existing age data, the monazite U–Pb ages indicate that the early Mesoproterozoic evolution of the Barossa Complex is contemporaneous with other high geothermal gradient metamorphic terranes in eastern Proterozoic Australia. The areal extent of early Mesoproterozoic metamorphism in eastern Australia suggests that any proposed continental reconstructions involving eastern Proterozoic Australia should share a similar tectonothermal history.     

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。     

华北克拉通东部南北缘中生代火山-沉积格局及其构造转折过程

通过华北克拉通东部北缘和南缘盆地充填序列和盆地分布演化对比研究,解析了该区中生代构造转折过程。研究发现两侧盆地均大致从早侏罗世开始发育,约以晚侏罗世为界,之前盆地充填记录反映以挤压作用、岩石圈增厚为主,之后以陆内伸展、岩石圈减薄为主,显示晚侏罗世明显的构造转折,并且地壳浅部的构造体制转变均滞后于岩石圈深部构造环境的变化。然而,两侧盆地演化也有明显差别：①北缘燕辽地区从早侏罗世到白垩纪,发育了多层系的从基性、中基性到中酸性的火山岩及火山碎屑岩组合,而南缘合肥盆地仅在晚侏罗世早白垩世产出钙碱性火山岩及火山碎屑岩组合,反映出不同的深部构造过程和源区特征;②北缘的岩石圈减薄可能始于约163 Ma,南缘明显的岩石圈减薄则始于约149 Ma,而反映在盆地构造与充填尺度上的伸展作用分别对应于大约145 Ma和132 Ma;③晚侏罗世构造转折期,北缘燕辽地区粗碎屑沉积以河流体系为主,反映盆山地势高差较小;而南缘该期发育冲积扇体系,盆山地势高差较大;④北缘盆地沉积中心迁移规律复杂,而南缘总体呈现由南向北的迁移趋势。显然,大别山碰撞造山和后造山期强烈的隆升和剥露对南缘盆地演化具有极大的主导和制约作用,而北缘则显示出强烈的壳幔相互作用并伴有区域性的陆内挤压推覆（转折前）和张裂 伸展（转折后）交替的特点。华北克拉通晚中生代构造转折的时限北缘较南缘早,说明诱发这一转折事件的区域构造动力可能首先与华北北部壳幔相互作用密切关联。     

鄂尔多斯盆地东缘中—新生代构造特征及构造应力场分析

对鄂尔多斯盆地东缘黄河沿岸一带中—新生代构造特征的研究表明：盆地东缘中—新生代构造变形与印支运动、燕山运动、喜马拉雅运动密切相关。印支运动对东缘构造影响相对微弱,受扬子板块和华北板块碰撞的影响,区内形成了一套挤压应力近NS向的共轭节理。燕山运动对东缘的形成演化意义重大,其基本构造形态就是在这一时期形成的。受古太平洋板块与亚洲大陆俯冲产生的远程构造效应的影响,区内发育NE—NNE走向的褶皱带;离石断裂受到SE—SEE方向的挤压,以脆性变形为主;节理解析获得的燕山期构造应力场以NW—SE向挤压为特征。喜马拉雅运动期间,盆地东缘的挤压方向转变为NE—SW向,其动力主要来自印度板块向欧亚板块的碰撞及碰撞期后陆内俯冲所产生的远程效应。     

Continental margin basins in East Asia: tectonic implications of the Meso‐Cenozoic East China Sea pull‐apart basins

The East China Sea basins, located in the West Pacific Continental Margin (WPCM) since the late Mesozoic, mainly include the East China Sea Shelf Basin (ECSSB) and the Okinawa Trough (OT). The WPCM and its adjacent seas can be tectonically divided into five units from west to east, including the Min‐Zhe Uplift, ECSSB, the Taiwan–Sinzi Belt, OT, and the Ryukyu Island Arc, which record regional tectonic evolution and geodynamics. Among those tectonic units, the ECSSB and the OT are important composite sedimentary pull‐apart basins, which experienced two stages of strike‐slip pull‐apart processes. In seismic profiles, the ECSSB and the OT show a double‐layer architecture with an upper half‐graben overlapping on a lower graben. In planar view, the ECSSB and the OT are characterized by faulted blocks from south to north in the early Cenozoic and by a zonation from west to east in the late Cenozoic. The faulted blocks with planar zonation and two‐layer vertical architecture entirely jumped eastward from the Min‐Zhe Uplift to the OT during the late Cenozoic. In addition, the whole palaeogeomorphology of the ECSSB changed notably, from pre‐Cenozoic highland or mountain into a Late Eocene continental margin with east‐tilting topography caused by the eastward tectonic jumping. The OT opened to develop into a back‐arc basin until the Miocene. Synthetic surface geological studies in the China mainland reveal that the Mesozoic tectonic setting of the WPCM is an Andean‐type continental margin developing many sinistral strike‐slip faults and pull‐apart basins and the Cenozoic tectonic setting of the WPCM is a Japanese‐type continental margin developing dextral strike‐slip faults and pull‐apart basins. Thus, the WPCM underwent a transition from Andean‐type to Japanese‐type continental margins at about 80 Ma (Late Cretaceous) and a transition in topography from a Mesozoic highland to a Cenozoic lowland, and then to below sea‐level basins. Copyright © 2013 John Wiley & Sons, Ltd.     

中新生代库车-南天山盆山系统隆升历史的裂变径迹证据

通过对库车河剖面中新生界砂岩中碎屑磷灰石裂变径迹分析测试,得出磷灰石样品可分为3组,分别反映库车盆地边缘或其物源区天山的剥露冷却。对测试数据分析和热史模拟表明,南天山及库车盆地在中新生代经历了3次主要隆升事件,且山盆隆升时间上具有差异性的特点。从142Ma南天山开始隆升,使天山地区从准平原化状态开始盆山分异;96~75Ma为晚白垩世开始的盆地与天山共同经历的区域性隆升;54~30Ma为天山与盆地边缘差异隆升阶段,是盆山边界处盆地基底向天山方向的阶梯式抬升所导致的。     

Geochemical character and tectonic significance of Early Devonian keratophyres in the New England Fold Belt,eastern Australia

Extrusive and high level intrusive Early Devonian keratophyres are the oldest in situ igneous rocks in the Tamworth Block of the New England Fold Belt of eastern Australia. They show extensive evidence of degradation, including the destruction of magmatic phases, the growth of low grade metamorphic minerals, and changes in composition involving the dilution of elemental abundances in response to silica addition. Relations between the less mobile minor and trace elements, and limited data on clinopyroxene compositions, lead to the conclusion that these Early Devonian volcanic rocks are mostly calc‐alkaline volcanic arc andesites with minor dacite. These rocks unconformably overlie a sequence of Early Palaeozoic forearc basin deposits, indicating that the Early Devonian marks a period of readjustment of tectonic elements within the New England Fold Belt, associated with a marked east‐directed stepping out of the magmatic arc. Generation of the keratophyres in a subduction zone environment limits the position of the trench to 100 km east of the Peel Fault System.     

华北克拉通东部中生代岩石圈减薄的过程与机制:中生代火成岩和深源捕虏体证据

基于最新的同位素年代学资料 ,华北克拉通东部中生代的岩浆作用可划分成四个阶段 ,即晚三叠世 ( 2 0 5～ 2 2 5Ma)碱性岩浆作用 ;中晚侏罗世 ( 1 5 5～ 1 6 0Ma)花岗质岩浆作用 ;早白垩世 ( 1 1 2～ 1 32Ma)双峰式岩浆作用和晚白垩世 ( 92～ 73Ma)碱性玄武质岩浆作用。徐淮地区中生代侵入岩中榴辉岩捕虏体的发现及其地质年代学资料 ( 2 1 9Ma)表明 ,华北克拉通东部中生代早期曾发生过一次重要的陆壳加厚过程。俯冲板片的断离以及高压—超高压变质岩的快速折返和晚三叠世 ( 2 0 5～ 2 2 5Ma)的碱性岩浆作用的存在均暗示 ,华北克拉通中生代岩石圈减薄已经开始。拆沉作用则是引起中生代早期岩石圈减薄的主要机制。中、晚侏罗世 ( 1 5 5～ 1 6 0Ma)花岗质岩浆作用形成于造山期后的伸展环境 ,代表了中生代岩石圈减薄的继续和发展。早白垩世 ( 1 1 2～ 1 32Ma)双峰式岩浆作用表明中生代岩石圈减薄达到了峰期。而幔源纯橄岩捕虏体中富硅质熔体的交代作用和玄武岩的高87Sr/ 86Sr值、低ε(Nd ,t)值特征表明 ,软流圈对岩石圈底部的化学侵蚀可能是导致该阶段岩石圈减薄的主导机制。晚白垩世 ( 92～ 73Ma)碱性玄武质岩浆作用和“海洋型”地幔捕虏体的存在代表了等温面的下降和岩石圈地幔的增生