Characteristics and long-runout mechanisms of the coarse-grained debris avalanche deposit in the ancient continental rift basin

IF 2.7 2区 地球科学 Q1 GEOLOGY Sedimentary Geology Pub Date : 2024-05-22 DOI:10.1016/j.sedgeo.2024.106679
Cheng Wang , Zaixing Jiang , Xiangxin Kong , Yuanfu Zhang
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Abstract

Debris avalanche deposits are developed on slopes in various environments, including submarine volcanoes, continental volcanoes, continental slopes, and mountain ranges. In contrast, research is relatively scarce on the coarse-grained subaqueous debris avalanche deposits formed by the collapse of steep basin margins in continental small rift basins, which are controlled by tectonics. Through the interpretation of satellite imagery, field investigations, and the study of the morphological characteristics and internal structures of sediments, a massive debris avalanche event during the Early Cretaceous, Xiguayuan Formation of the Luanping Basin at the northern edge of the Yanshan tectonic belt on the North China Block, named the Wangying Debris Avalanche Deposit (WYDAD), has been identified and analyzed for its kinematics, dynamics, and long-runout mechanisms. The study reveals that based on sedimentology, internal structures, and basal characteristics, five different types of sedimentary morphologies can be identified from the source zone to the distal zone: convergent ridges and grooves (longitudinal expansion and lateral compression), transverse ridges and grooves (compression), longitudinal ridges and grooves (shearing and stretching), arcuate ridges and grooves (compression), and mixed sediments (radial extension). The grain size of coarse-grained debris avalanche deposits decreases with increasing transport distance and fragmentation due to jigsaw cracking, while matrix content increases. Additionally, the entrainment of fine-grained substrate and the mixing of lake waters during the transport of debris avalanches often evolve into secondary debris flows or high-density turbidity currents. Debris avalanches are likely primarily controlled by regional tectonic activity and volcanic action. Compared to subaerial debris avalanche deposits, the subaqueous WYDAD exhibits characteristics such as low fragmentation, smooth underwater terrain due to water resistance and buoyancy, and higher fluidity. The mechanism for the long-distance, high-speed transport of the WYDAD is explained by “hydroplaning” and high pore pressure generated by non-draining shear. This study provides insights into the transport processes of coarse-grained subaqueous debris avalanche deposits in continental rift basins. It verifies whether such sediments can serve as a primary sedimentary system for CCUS or potential resource storage.

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古大陆裂谷盆地粗粒碎屑雪崩沉积的特征和长期运行机制
碎屑崩积在各种环境下的斜坡上形成,包括海底火山、大陆火山、大陆坡和山脉。相比之下,对受构造控制的大陆小裂谷盆地陡峭盆地边缘崩塌形成的粗粒水下碎屑崩塌沉积的研究相对较少。通过卫星图像判读、野外调查以及沉积物形态特征和内部结构研究,确定了华北地块燕山构造带北缘滦平盆地早白垩世西瓜园地层中的一次大规模碎屑崩塌事件,命名为汪营碎屑崩塌沉积(WYDAD),并对其运动学、动力学和长流机制进行了分析。研究发现,根据沉积学、内部结构和基底特征,从源区到远区可识别出五种不同类型的沉积形态:汇聚脊和槽(纵向扩张和横向压缩)、横向脊和槽(压缩)、纵向脊和槽(剪切和拉伸)、弧形脊和槽(压缩)以及混合沉积(径向延伸)。粗粒碎屑雪崩沉积物的粒度会随着运距的增加和拼图裂纹造成的破碎而减小,而基质含量则会增加。此外,在泥石崩落的运输过程中,细粒基质的夹带和湖水的混合往往会演变成二次泥石流或高密度浊流。泥石流可能主要受区域构造活动和火山作用的控制。与水下碎屑雪崩沉积相比,水下世界泥石流表现出碎屑少、水下地形因水的阻力和浮力而平滑、流动性强等特点。水下青藏高原碎屑雪崩沉积物的长距离高速迁移机制可以用 "水力平移 "和非排水剪切产生的高孔隙压力来解释。这项研究有助于深入了解大陆裂谷盆地中粗粒水下碎屑雪崩沉积物的迁移过程。它验证了这类沉积物是否可以作为 CCUS 的主要沉积系统或潜在的资源储藏。
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来源期刊
Sedimentary Geology
Sedimentary Geology 地学-地质学
CiteScore
5.10
自引率
7.10%
发文量
133
审稿时长
32 days
期刊介绍: Sedimentary Geology is a journal that rapidly publishes high quality, original research and review papers that cover all aspects of sediments and sedimentary rocks at all spatial and temporal scales. Submitted papers must make a significant contribution to the field of study and must place the research in a broad context, so that it is of interest to the diverse, international readership of the journal. Papers that are largely descriptive in nature, of limited scope or local geographical significance, or based on limited data will not be considered for publication.
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