川西南威远背斜南部多向挤压构造演化过程及其主控因素OA
The evolutionary process and controlling factors of multi-directional compressional tectonics south of the Weiyuan anticline,SW Sichuan Basin
[研究目的]受周缘挤压造山作用影响,四川盆地西南部发育多组不同走向的构造,表现出复杂的叠加变形特征.理清不同断裂系的活动期次与成因机理,对于认识油气运移通道、圈闭形成与改造具有重要意义.[研究方法]基于三维地震反射数据,以威远背斜南部地区为例,开展精细的构造解析,识别该地区的主要构造样式,恢复构造演化过程,并分析其主控因素.[研究结果]区内主要发育 NEE 向和 NW 向 2 组挤压逆冲断层及其相关褶皱.其中,NEE 向构造受到寒武系、志留系和三叠系塑性滑脱层影响,主要发育薄皮构造,并且表现出分层变形的特征.NW 向构造则主要受控于志留系和三叠系 2 套滑脱层.识别的生长地层和构造演化恢复结果指示,NEE 向构造经历了晚加里东期、海西期、印支期和燕山期—喜马拉雅期 4 期变形,而NW 向构造主要经历了印支早期、印支中期和燕山期—喜马拉雅期 3 期主要变形.NEE 向构造在早期变形中快速由 SE 方向传递至底部寒武系膏盐滑脱层尖灭处,形成自流井背斜.然而,随着后期 NW—SE 向构造挤压作用的减弱,构造变形基本不再往前传递.虽然 NW 向构造开始发育时间晚,但是持续的构造作用使变形还在向 NE 方向继续传递.[结 论]研究区现今复杂的叠加变形样式主要受控于滑脱层的空间展布及各个方向构造活动期次和变形量.
[Objective]Under the influence of adjacent contractional orogenesis,multiple groups of structures with varying orientations have developed in the southwestern Sichuan Basin,exhibiting complex superimposed deformation characteristics.Clarifying the active stages and genesis mechanisms of different fault systems is crucial for understanding hydrocarbon migration pathways,trap formation,and reconstruction processes.[Methods]Based on 3D seismic reflection data,this investigation selects the region south of the Weiyuan anticline as a case study to conduct detailed structural analysis.The dominant structural styles,evolutionary processes,and controlling factors in this area were then analyzed.[Results]The results indicate that NEE-and NW-trending contractional faults and their associated folds are predominantly developed.Among these,the NEE-trending structure is influenced by detachment layers within the Cambrian,Silurian,and Triassic strata,primarily developing thin-skinned structures and displaying stratified deformation characteristics.The NW-trending structure is mainly controlled by detachment layers within the Silurian and Triassic strata.Integrated growth strata analysis and balanced structural restoration indicate that the NE-trending structure underwent four stages of tectonic shortening:Late Caledonian,Hercynian,Indosinian,and Yanshan-Himalayan periods,whereas the NW-trending structure primarily experienced three stages of deformation:Early-and Middle-Indosinian and Yanshan-Himalayan periods.Deformation related to the NEE-trending structures rapidly propagated to the pinch-out of the Lower Cambrian salt detachment layer during the early stage of tectonic deformation,resulting in the formation of the Ziliujing anticline.However,due to the weakening of late-stage compression,NW-directed propagation was significantly restricted.The NW-trending structure initiated later but,driven by continuous and intense tectonic activity,deformation progressively propagated toward the northeast direction.[Conclusions]Consequently,the present-day complex superimposed deformation pattern in the study area is primarily governed by the spatial distribution of the detachment layers and the timing and magnitude of structural deformation in each direction.
尹超;饶刚;唐鹏程;汪仁富;刘嘉伟;杨文雄;黄旭日
西南石油大学地球科学与技术学院,四川 成都 610500西南石油大学地球科学与技术学院,四川 成都 610500||西南石油大学石油和化工行业山前带油气地球物理勘探技术重点实验室,四川 成都 610500中国石油杭州地质研究院,浙江 杭州 310023中石化西南油气田分公司勘探开发研究院,四川 成都 610041西南石油大学地球科学与技术学院,四川 成都 610500西南石油大学地球科学与技术学院,四川 成都 610500西南石油大学地球科学与技术学院,四川 成都 610500||西南石油大学石油和化工行业山前带油气地球物理勘探技术重点实验室,四川 成都 610500
天文与地球科学
滑脱层缩短率多期变形多向挤压构造演化四川盆地
detachmentsshortening ratiomulti-stage deformationmulti-directional compressiontectonic evolutionSichuan Basin
《地质通报》 2026 (4)
708-719,12
国家自然科学基金项目《数值模拟研究褶皱三维生长及其地貌演化》(批准号:42272271)、四川省自然科学基金项目《宜宾地区柏树溪断裂构造分析及其地震风险指示意义》(编号:2022NSFSC0212)、自然资源部深地科学与探测技术实验室开放课题《川南构造叠加区断裂模型构建及其地震指示意义》(编号:SinoProbe Lab 202213) Supported by the National Natural Science Foundation of China(No.42272271),the Natural Science Foundation of Sichuan,China(No.2022NSFSC0212),and the Open Fund of the SinoProbe Laboratory,Chinese Academy of Geological Sciences(No.SinoProbe Lab 202213)
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