灵山岛下白垩统软沉积物变形构造类型划分及其地质意义
- 1. 南京大学地球科学与工程学院, 南京 210023;
- 2. 山东科技大学地球科学与工程学院, 山东青岛 266590;
- 3. 中国石油长庆油田分公司数字化与信息管理部, 西安 710021
基金项目:
山东省重点研发计划项目(2017CXGC1608);国家自然科学基金项目(41372135,41672120);国家级大学生创新创业训练计划项目(201510424008);山东省研究生教育创新计划项目(KDYC15007)
作者简介:
孙福宁,男,1994年出生,硕士研究生,沉积学和石油地质学,E-mail:fnsun1228@163.com
- 收稿日期:
2017-07-19
- 修回日期:
2017-11-29
- 刊出日期:
2018-12-10
摘要: 软沉积物变形构造是沉积物沉积之后、固结成岩之前尚处于塑性状态时,在液化作用和各种驱动力作用下发生不同程度变形的一系列构造。灵山岛下白垩统发育有多尺度、多形态、多层位、多期次、多成因的软沉积物变形构造。为研究其具体类型和成因机理,以形态特征为基础,以驱动力为分类依据,将灵山岛下白垩统软沉积物变形构造划分为斜坡上的重力驱动、密度倒置条件下的重力驱动和孔隙流体作用下的剪切力驱动等三种类型。此外,结合灵山岛下白垩统滑塌体内部的软沉积物变形构造分布特征,根据斜坡上重力驱动的软沉积物变形构造形成时所遭受的应力类型,将其进一步分为挤压型、拉伸型和剪切型等三个亚类。在分析研究灵山岛软沉积物变形构造的基本类型、发育情况和分布特征等基础上,认为灵山岛早白垩世地震活动非常频繁。驱动力直接作用于软沉积物,驱动力的种类、大小、作用方式和持续时间是影响软沉积物变形构造类型、形态和规模的重要因素,因此,从驱动力角度对其进行系统划分具有科学性、适用性和可行性。探讨软沉积物变形构造的分类方案对其野外识别和成因分析具有科学价值。
Classification and Geological Significance of Soft-Sediment Deformation Structures of Lower Cretaceous in Lingshan Island
- 1. School of Earth Sciences and Engineering, Nanjing University, Nanjing 210023, China;
- 2. School of Earth Science and Engineering, Shandong University of Science and Technology, Qingdao, Shandong 266590, China;
- 3. Digital and Information Management Department, Changqing Oilfield Company of CNPC, Xi'an 710021, China
Funds:
Key Research and Development Program of Shandong Province, China, No. 2017CXGC1608; National Natural Science Foundation of China, No.41372135, 41672120; National Undergraduate Training Program for Innovation and Entrepreneurship of China, No.201510424008; Innovative Program of Graduate Education in Shandong Province, No.KDYC15007
- Received Date:
2017-07-19
- Rev Recd Date:
2017-11-29
- Publish Date:
2018-12-10
Abstract: Soft-sediment deformation structures (SSDS) are a series of structures formed due to transformation of plastic sediment under liquidization and various driving forces after deposition but before lithification. SSDS are often developed in the strata with different scales, shapes, periods and origins. No doubt that earthquake is one of the most common causes of deformation of soft sediments, however, it is not limited only to earthquakes. SSDS are not a diagnosis of any specific trigger mechanism. According to the classification scheme of induced events, it is much more applicable in the same event, but it is difficult to distinguish the real cause in "multi causes and even the same phenomenon" of deformation. Therefore, the classification based on origin is often limited. In fact, the driving forces are the most direct factors causing the deformation of soft sediments and directly control specific forms of deforming structures. In order to clarify their specific types and development, this study advocates the classification of SSDS according to different driving forces. Based on literature and field outcrop investigation, the Early Cretaceous gravity flows deposit in the Lingshan Island are developed very well with SSDS in multi scales, forms, layers, periods and genesises, which can be classified into three types:the SSDS driven by gravity acting on slopes; the SSDS driven by gravity due to a reverse density gradient; and the SSDS driven by upward shear due to pore fluid. In addition, considering the SSDS development in the interior of the lower Cretaceous slump in the Lingshan island, according to the types of stresses when the deformation structures were formed, SSDS driven by gravity acting on slopes are further divided into three subtypes:compression types, tension types and shear types. 3 categories of more than 10 kinds of SSDS are identified in the Lower Cretaceous in Lingshan Island:SSDS driven by gravity acting on slopes including compression types (synsedimentary reverse faults and disordered compression deformation structures etc.), tension types (synsedimentary boudins, step faults and domino structures etc.) and shear types(some folds and fractures caused by shear and soft double structures etc.); SSDS driven by gravity due to a reverse density gradient including load structures, flame structures and ball-and-pillow structures etc.; SSDS driven by upward shear due to pore fluid including liquefied diaper, water-escape structures, convolute lamination and sandstone dykes etc. According to the types, development and distributions of SSDS, Early Cretaceous seismic activity was very frequent in Lingshan Island. The driving forces directly act on the soft sediment. And their types, strength, modes of action and duration affect the types, shapes and scales of the SSDS. Classification of soft-sediment deformation structures based on driving forces of Lower Cretaceous in Lingshan Island can distinguish SSDS in the slump beds from the normal sedimentary layer, and can distinguish SSDS formed during the slump process from the earthquake process. This classification can clarifies the dynamic mechanism of the deformation of soft sediment. Hence it is scientific, applicative and feasible to divide SSDS based on the driving forces. Discussion on classification of SSDS is benefit to facilitate its field identification and genesis analysis, and to provide a theoretical basis for other similar geological researches.
孙福宁, 杨仁超, 樊爱萍, 尤靖茜. 灵山岛下白垩统软沉积物变形构造类型划分及其地质意义[J]. 沉积学报, 2018, 36(6): 1105-1118. doi: 10.14027/j.issn.1000-0550.2018.085
SUN FuNing, YANG RenChao, FAN AiPing, YOU JingQian. Classification and Geological Significance of Soft-Sediment Deformation Structures of Lower Cretaceous in Lingshan Island[J]. Acta Sedimentologica Sinica, 2018, 36(6): 1105-1118. doi: 10.14027/j.issn.1000-0550.2018.085
Citation: |
SUN FuNing, YANG RenChao, FAN AiPing, YOU JingQian. Classification and Geological Significance of Soft-Sediment Deformation Structures of Lower Cretaceous in Lingshan Island[J]. Acta Sedimentologica Sinica, 2018, 36(6): 1105-1118. doi: 10.14027/j.issn.1000-0550.2018.085
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