地学前缘 ›› 2015, Vol. 22 ›› Issue (3): 118-128.DOI: 10.13745/j.esf.2015.03.010

• 中国东部盆地形成动力学环境与构造演化 • 上一篇    下一篇

二连盆地早白垩世断陷分布及其与基底构造的关系

漆家福, 赵贤正, 李先平, 杨明慧, 肖扬, 于福生, 董越崎   

  1. 中国石油大学(北京) 油气资源与探测国家重点实验室, 北京 102249; 中国石油大学(北京) 地球科学学院, 北京 102249; 中国石油 华北油田分公司, 河北 任丘 062552
  • 收稿日期:2014-04-02 修回日期:2014-08-15 出版日期:2015-05-15 发布日期:2015-05-15
  • 作者简介:漆家福(1957—),男,教授,博士生导师,主要从事盆地构造分析与油区构造解析。E-mail:qijiafu@cup.edu.cn
  • 基金资助:

    国家科技重大专项课题(2011ZX05009001);中国石油大学(北京)油气资源与探测国家重点实验室应用基础研究课题

The distribution of Early Cretaceous faultedsags and their relationship with basement structure within Erlian Basin.

 QI  Jia-Fu, DIAO  Xian-Zheng, LI  Xian-Beng, YANG  Meng-Hui, XIAO  Yang, XU  Fu-Sheng, DONG  Huo-Qi   

  • Received:2014-04-02 Revised:2014-08-15 Online:2015-05-15 Published:2015-05-15

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摘要:

二连盆地下白垩统充填在一系列NENNE向正断层控制的(复式)地堑、半地堑断陷中,具有陆内裂陷盆地特征。盆地内部的早白垩世断陷以不同方式连接在一起构成3个不同走向的裂陷带(马尼特—乌兰察布正向裂陷带、乌尼特—乌兰察布斜向裂陷带和川井—腾格尔斜向裂陷带),裂陷带周边隆起区也有零星的地堑、半地堑断陷分布。二连盆地的基底经历了加里东期、海西期、印支期和早燕山期多期构造演化,表现为褶皱与基底断裂构成的强变形带和岩浆岩体、微小陆块等弱变形域镶嵌排列、构造线方向多变的不均一特点。二连盆地早白垩世断陷的构造样式和空间分布与基底构造密切相关,基底强变形带发育大量的断陷构成裂陷带,基底弱变形区只发育有零星的断陷。受基底强变形带走向的影响,不同裂陷带的断陷组合形式表现出差异性。马尼特—乌兰察布裂陷带上叠在走向由NE向转为NEE向、向南凸出的东乌珠穆沁—二连弧形褶皱带上,早白垩世断陷多表现为串联、小角度斜列复合型式,属于正向裂陷带;乌尼特裂陷带上叠在NEE向的二连—贺根山深大断裂带(混杂岩带)之上,川井—腾格尔裂陷带上叠在近EW向的温都尔庙—西拉木伦深大断裂带(缝合带)及两侧褶皱带上,裂陷带内部的早白垩世断陷多表现为并联、中—大角度斜列复合型式,属于斜向裂陷带。正向裂陷带内部的早白垩世断陷多为深而狭长的地堑、半地堑,斜向裂陷带内部的早白垩世断陷多为浅而宽阔的地堑、半地堑。上述特征表明二连盆地早白垩世裂陷的分布及其构造样式受基底构造控制。

关键词: 正向裂陷, 斜向裂陷, 构造样式, 基底构造, 二连盆地

Abstract:

The Erlian Basin is a continental rifting basin which is constituted by faulted sags in the styles of graben and/or halfgraben controlled by NENNE striking normal faults and was filled by the Lower Cretaceous. A lot of faultedsags concentratedly distributed in three rifting zones extending in different directions (ManiteWulanchabu rift zone, Wunite rift zone, and ChuanjingTenggar rift zone), and a few faultedsags were scattered over the uplift around the rift zone in the Erlian Basin. The basement of basin was constructed by multicycle tectonism and geological process before the Cretaceous, which was of heterogeneity in crustal nature and had a variety of structure lines. The strong deformation zones were mounted with weak deformation blocks; the former included foldthrust zone, suture zone and accretionary wedge; the latter included magmatic rock bodies, magmatic arcs or micro continental blocks, etc. The distribution and structural style of faultedsags were closely related to basement structure. The rift zone is also the strong deformation zone of basement. The various directions in basement strong deformation zone have caused the difference of rift zone in structural style and their arrangement of faultedsags. ManiteWulanchabu rift zone which superimposed on the WuzhumoqinErlian curve foldthrust zone that projected to southeast direction is the orthogonal rifting structure chaining graben and/or halfgraben in NNENE striking in series. Wunite rift zone which superimposed on the ErlianHegenshan suture zone (mélange zone) in NEEstriking is of oblique rifting structural feature combining graben and/or halfgraben together in rightstep echelons. ChuanjingTenggar rift zone which superimposed on the WenduermiaoXinamulun suture zone and accretionary wedge of north boundary of North China Craton in EW striking has also the typical oblique rifting structural feature combining graben and/or halfgraben together in highangle echelons or parallel connection. The Early Cretaceous faulted sags within orthogonal rift zone included long narrow but deep graben and/or halfgraben. The Early Cretaceous faulted sags within oblique rift zone included short wide but shallow graben and/or halfgraben. Abovementioned geological features demonstrate that the distribution and structural style of faultedsags in Erlian Early Cretaceous basin was controlled by basement structure.

Key words: orthogonal rifting, oblique rifting, structural style, basement structure, Erlian Basin

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