扬子北缘复合构造带的结构、演化和动力学

扬子北缘复合构造带位于秦岭—大别造山带南缘与扬子板块北缘之间,由桐柏—大别造山带、武汉—怀宁断褶带、九岭—江南隆起带、瑞昌—铜陵断褶带和大冶—宿松对接带等构造单元组成,是中生代不同时期构造体制叠加,不同方向构造复合、联合的结果。该复合构造带北侧的桐柏—大别山南缘构造带和武汉—怀宁前陆断褶带由北向南逆冲,主要形成于晚印支期,是特提斯构造体制作用的产物; 而南侧的九岭—江南隆起带和瑞昌—铜陵断褶带,则由南向北逆冲,主要形成于早燕山期,是太平洋构造体制作用的产物,同时北侧的大别山南缘构造带和前陆断褶带受到影响,再次活动; 位于该复合构造带中部的大冶—宿松对接带是上述不同构造体制下,不同方向应力叠加,多期构造形迹复合最终形成的复杂构造带。所以,扬子北缘复合构造带是特提斯构造体制与太平洋构造体制转换的产物,是中下扬子两大构造体系转换的经典记录。     

Comparison between the Galicia and Aquitaine margins

There is a great similarity between the Galicia margin and the Aquitaine margin (i.e. the Aquitaine Basin and the North Pyrenean zone). In particular, the timing of the rifting as well as the resulting structures (exposure of perodotite, tilted fault blocks, normal and transverse faults, half grabens) are practically the same. This comparison leads to the interpretation that the northern side of the Pyrenean fold belt is inherited from the Mesozoic deep passive margin of Europe. The Cenozoic thrust sheets and reverse faults of the northern Pyrenees zone are tentatively interpreted as former rift structures (tilted blocks and listric faults) which were removed during the convergence of the Iberian and European plates during the Paleocene and Eocene.     

鄂尔多斯盆地西缘横山堡地区构造特征与油气勘探目标优选

鄂尔多斯盆地西缘北区横山堡地区是重要的油气接替区域。本文利用构造解析、地震勘探等技术方法,对研究区构造特征与油气勘探目标进行了研究。结果表明,晚侏罗纪末期,研究区为银川复背斜东翼,喜山期构造调整后转为前缘反冲带,由一系列西冲东倾逆冲断层与断背斜组成;该区可分为西部逆冲断褶带、中部逆冲断阶带和东部过渡构造带3个构造单元。断层可分为4级;以燕山期近南北—北北东向逆断层为主,其次为喜山期近东西向走滑断层,并错断了燕山期逆断层。构造样式为一系列东倾单向叠瓦状冲断组合,由近南北向逆断层及加持于其中的断块组成,断块往往为一些小型断背斜,其轴迹走向以近南北—北北东向为主。地质结构为深层滑脱型单向东倾冲断构造。根据上述研究,在沙亥庙断裂上盘断背斜构造高部位优选出一个钻探目标。     

四川龙门山地区反转构造样式分析及其成因机制探讨

反转构造是当今构造地质学研究的新兴热点领域,本文尝试以反转构造和断层相关褶皱理论来探讨龙门山褶皱冲断带及川西前陆盆地中的反转构造样式及其成因。著者在综合前人研究成果的基础上,通过野外地质调查,室内构造分析与建模系统研究了龙门山地区典型的反转构造样式,讨论了龙门山带的反转性质,主干断裂的成因以及反转动力学机制。研究表明,龙门山的发育机制为一斜向正反转过程,区内发育有反转断层转折褶皱、被动陆缘型反转滑脱褶皱、反转断层传播褶皱以及受古生代裂谷控制的反转构造等反转构造类型;反转时期主要为印支期,本区在印支运动之前同时属被动陆缘和裂谷的构造背景;进入印支期后,受扬子陆块、华北陆块、羌塘陆块之间相互碰撞的影响而造山。该过程在本区不同地段表现存在差异,这种差异受控于前期的构造格局以及后期不同方向挤压应力的叠加。四川前陆盆地的发育和该过程有密切的联系,盆地内部具有裂谷构造反转的证据。     

The Casanova Complex of the Northern Apennines: A mélange formed on a distal passive continental margin

The Cretaceous-Palaeocene Casanova Complex occurs in two thrust sheets of the eugeosynclinal Ligurids of the Northern Apennines. It is a sedimentary mélange with ophiolitic and quartzose turbidites or limestone-shale olistostrome (submarine debris flows) as matrix. Exotic blocks of ophiolite and granite, serpentinite breccias and lenticular ophiolitic breccias and olistostromes contribute to the mélange character of the complex. Deformational structures include soft-sediment slump folds (indicating a SW-dipping palaeoslope) and boudins, a gradational slumped top to the mélange, small-scale faults in chert blocks and deformation associated with the emplacement of the exotic slide blocks. The blocks were shed as rotational slides from submarine fault scarps and are surrounded by haloes of debris created by submarine weathering. The stacking pattern of the blocks, with the originally stratigraphically highest ophiolite lithologies lowest in the pile of blocks, is explained by a diverticulation model with progressively deeper erosion. Mechanical analysis shows that the blocks were stable when partly exposed resting on a soft sediment substratum. Criteria which distinguish the Casanova Complex from a tectonic mélange, and which may be of value in other mélanges, are discussed. Previous interpretations of the complex as a precursor olistostrome to northeastward nappe emplacement (the Bracco ridge model) are rejected. The mélange is believed to have formed on ocean crust as a result of turbidite and debris flow sedimentation, soft sediment deformation, block faulting, gravity sliding and submarine erosion at the distal edge of a uniformly SW-dipping continental margin.     

尼日尔三角洲盆地泥收缩构造发育特征及对沉积的控制

泥收缩构造是发育在尼日尔三角洲盆地深水区的典型构造样式,属重力滑脱冲断构造,主要构造类型有冲断裂、塑性泥构造及相关褶皱和正断裂。基于地震地质解释,结合构造发育史分析,认为泥收缩构造主要受塑性泥构造控制,在中新世托尔托纳(Tortonian)晚期开始活动,中新世墨西拿期(Messinian)—上新世赞克勒期(Zanclean)达到最强,之后构造活动逐渐减弱,但至今仍在活动。通过古构造恢复,结合沉积展布分析,认为中新世托尔托纳晚期沉积开始受构造活动控制,托尔托纳阶上部及以上地层具有明显的同沉积特征,泥收缩构造相关的冲断裂上升盘厚度明显小于下降盘厚度,褶皱两翼的地层厚度明显厚于中间背斜顶部的地层厚度。     

塔里木盆地西南缘构造样式及其主导因素

塔里木盆地西南缘是西昆仑山前北北西—近东西向的构造变形带.具有南北3带、东西3段、上下3层的展布特点.各带、段和层以基底卷入的冲断构造和盖层滑脱的断层相关褶皱为主,包括:破冲褶皱、断层扩展褶皱、断层滑脱褶皱和断层弯曲褶皱等.通过识别地震剖面上不整合面和同构造沉积现象,认为构造变形时间在上新世—第四纪;第一排背斜带形成于...     

断层调整与控制作用下的叠加构造变形:以贵州地区燕山期构造为例

褶皱叠加方式与其形成的构造现象极为复杂。常见3种叠加方式为共轴叠加、横跨叠加和斜跨叠加。如果地质体均一,断层不发育,即会形成理想型叠加褶皱的构造样式。如果发育区域性大型断层,在不同方向的区域应力场作用下,加上地质体的不均一,就会在不同的区块内形成更为复杂的叠加褶皱与构造组合。贵州境内自古生代-中生代先后发育了5条切割基底的区域性断裂,至早中中生代,这些断层将区内切割为6个主要构造块体。在三叠纪之后的燕山构造运动期间,发生了强烈的构造叠加变形,早燕山期与晚燕山期区域应力场方向不同,使得不同区域断层的性质、位移发生变化,断层的多次活动起到了应力释放与调整作用,再加上块体地质结构的不均一性与软弱层的滑脱作用,最终在不同区块内发生了不同的褶皱叠加作用,形成了不同的褶皱构造样式与构造组合。     

Evolution of thrust system deformation in an intracratonic chain: Study of the Southern-Central Tunisian Atlas

The development of belt structures in intracratonic chains is guided by the convergence system. In the Southern-Central Tunisian Atlas, several parameters control the evolution of thrust folds during different tectonic phases. One of these phases is tectonic inheritance, which leads to the reactivation of pre-existing normal faults during compressive phases. The angle between the direction of these faults and the shortening axis (NNW-SSE) is the most important parameter for interpreting the mode of the evolution of thrust folds. Jebel Elkebar is an example of a structure developed on NW-SE-oriented faults that is perpendicular to the shortening axis. Based on the geometry of its folds, Jebel Elkebar is interpreted as a 'Fault Related Fold'. The E-W-oriented Orbata structure is oblique to the direction of the shortening axis and is interpreted through the model 'Fault Propagation Fold' with 'Breakthrough'. The Gafsa Fault, which is parallel to the shortening axis, is a transpressional fault interpreted through the 'Strain Partitioning' mode, which is associated with the oblique ramp fold. The development of various thrust folds requires the presence of a basal decollement level during the Triassic succession. In the Southern-Central Tunisian Atlas, the deformation is variable (geometry of fold closure) and is correlated with the depth of the decollement level; indeed, the intensity of deformation is proportional to the depth of the decollement level. Consequently, the most important deformation is in the higher successions and is a vertical migration of the decollement level associated with thin-skinned deformation.     

鄂尔多斯盆地西缘中段构造特征与油气勘探前景

鄂尔多斯盆地西缘中段是西缘构造带的重要组成部分,关于该区的地下构造模式由于受地下构造复杂与地震资料品质差的影响长期以来缺乏清晰的认识。通过地表地质、大量地震资料的综合研究,纵向上以下古生界类复理石浊积岩系、上古生界煤系区域性滑脱层为界,将该区划分为上部的逆冲推覆构造系统和下部的原地系统。前者断裂、褶皱发育,由6个逆冲席组成,横向分带性特征明显,自西向东划分为逆冲推覆构造主体、前缘过渡带、前缘带三个带;后者构造变形较弱,总体为西倾单斜,局部地区发育完整背斜圈闭。前缘过渡带、前缘带及原地系统勘探目的层众多,油气成藏地质条件好,勘探前景较好;逆冲推覆构造主体目的层已裸露,油气生成与保存条件较差,勘探潜力欠佳。     

龙门山冲断带北段前锋带新生代构造变形

龙门山北段前锋构造的地震剖面解释和前缘盆地内沉积地层的磁组构研究表明前锋构造中发育两期构造挤压作用,即整体强烈的晚三叠世变形和由北向南逐渐减弱的弱新生代构造变形。受这两期构造挤压作用的控制,龙门山北段前锋构造中发育上、下两套构造层,地表构造为晚三叠世时期形成,而深部隐伏构造则形成于新生代。北部的矿山梁和天井山构造几何学上表现为一个双重构造,浅层是一个晚三叠世形成的断层转折褶皱;深层是新生代形成的多个逆冲岩片叠置所构成的隐伏堆垛背斜;南部的青林口和中坝构造主体表现为叠瓦状逆冲,前锋构造是断层转折褶皱和断层传播褶皱。新生代构造冲断位移量以及造成早期构造抬升由北向南逐渐减小,反映新生代变形强度由北向南的减弱。磁组构研究表明新生代变形从龙门山冲断带边缘到盆地内部,磁组构从铅笔状磁组构到初始变形磁组构并逐渐过渡到沉积磁组构。由南向北磁组构由初始变形磁组构转变为铅笔状磁组构,说明应变越来越强,从而进一步证明了龙门山前锋新生代构造的弱变形作用和变形强度的北强南弱分布特征。     

Syn-thrust deformation across a transverse zone: the Grem–Vedra fault system (central Southern Alps, N Italy)

The lateral continuity of the E?CW trending thrust sheets developed within the Lower to Middle Triassic cover of the central Southern Alps (Orobic belt) is disturbed by the occurrence of several N?CS trending transverse zones, such as the poorly known Grem?CVedra Transverse Zone (GVTZ). The GVTZ developed during the emplacement of the up to six S-verging thrust sheets consisting of Lower to Middle Triassic units, occurring immediately south of the Orobic Anticlines. The transverse zone, active during thrust emplacement related to the early Alpine compressions which pre-date the Adamello intrusion, includes three major vertical shear zones, the Grem, Pezzel and Zuccone faults. The major structure of the transverse zone is the dextral Grem fault, forming a deep lateral ramp between thrust sheets 3 and 5. A similar evolution also occurred along the Zuccone and Pezzel faults, which show a left-lateral displacement of syn-thrust folds. The Grem fault was later reactivated as an oblique tear fault during the emplacement of the Orobic Anticlines, due to back-thrusting along out-of-sequence thrust surfaces (Clusone fault). Transpressional deformations along the fault zone are recorded by the rotation of major syn-thrust folds, which also suggest a horizontal offset close to 0.5?km. Records of the first stage of evolution of the Grem fault are better preserved along its northern segment, and structural relationships suggest that it propagated southward and downward in the growing thrust stack. The study of the meso and megascopic structures developed along the GVTZ constrains the evolution of the transverse zone, illustrating the complex deformational phenomena occurring in a transpressional regime. The GVTZ probably reflects the existence of pre-existing tectonic lineaments with a similar orientation. Evidence of pre-existing structures are not preserved in the exposed units, nevertheless the N?CS extensional fault systems that characterize the Norian to Jurassic rifting history of the Lombardian basin are valid candidates.     

南天山褶皱冲断带西段变形空间差异性及控制因素

新生代早期印度板块与欧亚板块持续碰撞汇聚导致欧亚板块内部发生大规模的陆内变形,天山造山带再次隆升,并向塔里木盆地大规模逆掩推覆,形成了现今南天山褶皱冲断带,其变形表现出明显的空间差异性。本文以南天山褶皱冲断带西段为研究对象,通过对不同构造带的地震剖面解释、运用平衡剖面技术恢复出各演化阶段发育过程并计算出相应的变形量,分析本区构造带的空间差异性及其控制因素。通过分析认为南天山褶皱冲断带西段可以进一步划分为巴什布拉克构造段,乌恰-阿图什-喀什构造段和柯坪西缘构造段。其中,巴什布拉克构造段变形特征主要呈一系列对冲构造和背驮盆地样式。乌恰-阿图什-喀什构造段变形特征表现为深、浅两个层次:深部发育堆垛构造和构造楔,浅部发育断层传播褶皱和逆冲断层改造的褶皱带。柯坪西缘构造段变形更加强烈,也表现为深、浅两个层次:深部发育堆垛构造,堆垛程度更大,浅部也发育断层传播褶皱和逆冲断层改造的褶皱带以及反冲断层系。结合该研究区的地质概况进一步分析,本文认为南天山褶皱冲断带西段构造变形的差异性可能与新生代以来帕米尔块体向北推进、塔拉斯-费尔干纳右行走滑断裂的活动、先存断裂的活化与韧性滑脱层的影响有关。     

江南造山带北部早中生代岳阳—赤壁断褶带构造特征及变形机制研究

早中生代(晚印支-早燕山期)岳阳-赤壁断褶带位于江南造山带与中扬子前陆盆地交界地带.作者对该构造带进行了地表地质调查,以此为基础探讨了构造剖面结构及构造变形动力机制.岳阳-赤壁断褶带自南而北可分为岳阳-临湘基底滑脱-逆冲带,桃花泉-肖家湾盖层滑脱褶皱带,以及赤壁-嘉鱼前陆盆地断-褶-盆构造带.岳阳-临湘基底滑脱-逆冲带自南而北依次有郭镇向斜、官山背斜、临湘倒转向斜和聂市背斜,组成隔槽式褶皱组合.褶皱轴面多向南倾,褶皱变形面为南华系盖层与冷家溪群褶皱基底间的角度不整合面和顺界面的滑脱断裂面.桃花泉-肖家湾盖层滑脱褶皱带主要发育轴面南倾倒转褶皱,褶皱波长较小,卷入地层为南华系-志留系以及上石炭统-中三叠统沉积盖层.赤壁-嘉鱼前陆盆地断-褶-盆构造带以南倾蒲圻断裂(江南断裂)为南部边界,发育T3-J2前陆盆地沉积,带内褶皱与断裂卷入地层包括沉积盖层以及T3-J2地层:南部断裂与褶皱轴面南倾.北部轴面近直立.自南西至北东,研究区内构造线走向由EW向渐变为NEE-NE向.上述构造分带及变形特征反映出自南向北的运动指向,表明岳阳-赤壁断褶带具前陆冲断带构造性质.从断裂相关褶皱理论出发,以地表构造特征为依据,厘定了岳阳-赤壁地质剖面结构并进行了变形动力机制分析,认识如下:①自南而北、自下而上的多个滑脱层及其间的南倾逆断裂或断坡(主要为江南断裂)组成近似台阶状的逆冲断裂系统,从总体上控制了构造块体的滑移、逆冲以及相应的构造格架或变形分区.②郭镇向斜为基底滑脱褶皱,官山背斜具滑脱褶皱和断裂传播褶皱双重成因,聂市背斜为断裂转折褶皱;临湘向斜为受两侧背斜控制的被动向斜,由于弯滑褶皱作用在其两翼沿不整合界面形成滑脱断裂.③岳阳-临湘基底滑脱-逆冲带隔槽式褶皱的形成主要受控于褶皱基底的滑脱和基底整体的水平压缩,其形成机制类似于肿缩式褶皱.最后讨论认为湘东北-鄂东南地区不存在大规模、长距离的逆冲推覆构造.     

塔里木盆地库车坳陷中部构造变形样式及分布特征

库车坳陷是塔里木盆地北部一个次级构造单元,受晚新生代陆内造山作用控制,发育典型的挤压冲断构造; 同时,由于古近系和新近系盐层的存在,发育丰富的盐相关构造; 另外,冲断构造各段之间的调节作用还形成了一系列的走滑构造。本文利用最新的2D、3D 地震资料及钻井资料,分析总结了库车坳陷中部的变形样式及分布特征。研究结果表明: 1)根据变形的成因机制,将库车坳陷的构造变形划分为收缩构造、盐构造及走滑构造。2)收缩构造以逆冲断层及褶皱样式为主,盐上构造层可划分为断层相关褶皱和褶皱相关断层,其中断层多在盐层内滑脱。盐下构造层根据断层组合方式可划分为叠瓦状冲断构造、楔形冲断构造及滑脱冲断构造。盐构造可以划分为盐席、盐墙、盐楔入、盐刺穿及盐拱构造。走滑构造在剖面上可见花状构造及不协调变形,平面上则可见雁列褶皱、马尾断层及海豚效应。3)收缩构造及盐构造主要分布于克拉苏构造带及秋里塔格构造带内,自南天山至盆地中心,盐下构造层由叠瓦状冲断构造过渡至滑脱冲断构造,过渡带内则发育楔形冲断构造; 走滑构造集中于坳陷西部的阿瓦特-却勒构造段以及东部的克拉3-东秋8构造段。     

东昆仑山南缘大型转换挤压构造带和斜向俯冲作用

东昆仑地体和巴颜喀拉－－松潘甘孜地体之间的会聚边界是一条位于东昆仑南缘的大型转换挤压构造带。研究表明该带的东段（阿尼玛卿段）和西段（东－西大滩段）构造特征不同,阿尼玛卿段的构造以印支期具往南西造山极性的逆冲叠覆岩片和新生代脆性左行走滑构造为特征,东－西大滩段是由220Ma形成的EW向韧性左行走滑剪切带及两则伴生的挤压褶皱断裂带组成,韧性变形持续至20Ma,之后表现为脆性左行走滑构造再活动。因此,东昆仑南缘大型会聚带是一条由东段的“收缩挤压”为主向西段的“转换挤压”逐渐过度的特殊复杂的构造带,它的形成与巴颜喀拉－－松潘甘孜地体往NE方向斜向俯冲于东昆仑地体之下有关。     

Mechanisms of thrust faulting in the gran sasso chain, central apennines, italy

The Gran Sasso chain in Central Italy is made up of an imbricate stack of eight thrust sheets, which were emplaced over the Upper Miocene—Lower Pliocene Laga Flysch. The thrust sheets are numbered from 1 to 8 in order of their decreasing elevation in the tectonic stack, and their basal thrusts are numbered from T₁ to T₈, accordingly. On the basis of their different deformation features, the major thrust faults fall into three groups: (1) thrust faults marked by thick belts of incoherent gouges and breccia zones (T₁, T₂, T₃); (2) thrust faults characterized by a sharp plane which truncates folds that had developed in the footwall rocks (T₅, T₆); and (3) thrust faults truncating folds developed in both the hangingwall and footwall units, and bordered by foliated fault rocks (T₇). The deformation features observed for the different faults seem to vary because of two combined factors: (1) lithologic changes in the footwall and hangingwall units separated by the thrust faults; and (2) increasing amounts of deformation in the deepest portions of the imbricate stack. The upper thrust sheets (from 1 to 6) are characterized by massive calcareous and dolomitic rocks, they maintain a homoclinal setting and are truncated up-section by the cataclastic thrust faults. The lowermost thrust sheets (7 and 8) are characterized by a multilayer with competence contrasts, which undergoes shear-induced folding prior to the final emplacement of the thrust sheets. Bedding and axial planes of folds rotate progressively towards the T₅, T₆, T₇ and T₈ thrust boundaries, and are subsequently truncated by propagation of the brittle thrust faults. The maximum deformation is observed along the T₇ thrust fault, consistent with horizontal displacement that increases progressively from the uppermost to the lowermost thrust sheet in the tectonic stack. The axial planes of the folds developed in the hangingwall and footwall units are parallel to the T₇ thrust fault, and foliated fault rocks have developed. Field data and petrographic analysis indicate that cleavage fabrics in the fault rocks form by a combination of cataclasis, cataclastic flow and pressure-solution slip, associated with pervasive shearing along subtly distributed slip zones parallel to the T₇ thrust fault. The development of such fabrics at upper crustal levels creates easy-slip conditions in progressively thinner domains, which are regions of localized flow during the thrust sheet emplacement.     

渝东构造样式分析与成因解析

详细的构造分析与解析表明,渝东经历了晚元古代—古生代弱造山与稳定的克拉通盆地、中生代强造山与周缘前陆盆地、新生代造山后与残余盆地3个发育世代;现今构造格局与样式实为多期构造变形形迹的复合、联合与叠加。从总体上看,研究区纵向上可划分为3个构造层,其区域构造形态总体呈现前展式逆冲推覆薄皮构造样式,局部构造共见有7种变形样式。其中,下构造层主要发育双重构造与断弯褶皱;中构造层多发育断弯与断展褶皱;上构造层以形成滑脱、断展与突破构造为主;形成时代大致经历了晚燕山、早喜马拉雅、晚喜马拉雅三期;总体体现西冲的NE向逆冲构造体系形成期最早、东南方向逆冲的NEE向冲褶系形成期其次、东冲的NNE—近SN向逆冲褶皱系形成期最晚。研究区北部构造形成早于中南部,北端NWW—EW向逆冲褶皱系干扰、限制着中北部NE—NEE向逆冲推覆系向北延伸,中部发育的转换(调节)带区段具有比较明显的调节作用。     

大巴山弧形构造带中段渔渡地区侏罗纪叠加变形研究

大巴山构造带是秦岭造山带南部发育的一个以逆冲推覆构造为特征的构造带。通过在大巴山弧形构造带中段渔渡地区进行的详细构造解析发现,大巴山构造带在侏罗纪以来经历了至少两期变形叠加,变形地层三叠系嘉陵江组—侏罗系沙溪庙组。早期变形以与滑脱构造相关的轴向北西—北北西向箱状或隔挡状褶皱为主,并在深部发育顺层滑脱构造,变形时代为晚侏罗世到早白垩世。晚期变形与北侧逆冲相关,导致右行走滑变形,主要形成右行走滑断层和北西—北北西向紧闭褶皱,变形时代比第一期稍晚,为晚侏罗世之后到早白垩世。两期变形形成的褶皱延伸方向一致,与区域构造线的方向协调,而且在远离北侧镇巴断裂的地区变形强度有减弱的趋势,两期变形叠加形成共轴或斜交叠加构造。研究表明,变形与大巴山冲断—推覆构造带向南逆冲有关。     

余姚—丽水断裂带嵊州地区燕山期主要构造特征

余姚—丽水断裂带是浙东南地区活动时间长、延伸远、发育比较宽的一条NE—NNE展布的断裂构造带,在浙江嵊州地区上火山岩系磨石山群和下火山岩系永康群中构造形迹表现十分明显。余姚—丽水断裂带由一系列NE—NNE向控制区内白垩纪盆地形成与发展的正断层,以及NE—NNE走向、自北西向南东逆冲的叠瓦状断层和轴迹呈NE—NNE向的褶皱组成。通过对其构造活动特征及控制新老地层的时序关系研究,结合区域构造活动规律和时空演化关系等综合分析认为: 正断层形成时间较早,控制白垩纪盆地的形成和发展,与早白垩世岩石圈伸展减薄形成的拉张作用密切相关; 叠瓦状逆冲断层及斜歪褶皱、紧闭同斜褶皱等褶、断构造组合形成于晚白垩世之后,其动力学机制可能与古太平洋构造域向太平洋构造域的转换效应有关。研究成果为深入探讨浙东地区燕山期构造演化提供了新的素材和资料。