沙岸的地貌和沉积物流动性:东北太平洋赫卡特海峡狗鱼滩研究

IF 2.8 3区 地球科学 Q2 GEOGRAPHY, PHYSICAL
Kai Boggild, Michael Z. Li, Jordan B. R. Eamer, Cooper D. Stacey
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引用次数: 0

摘要

沉积物沿浅大陆架移动是一个自然过程,具有广泛的环境和经济影响,因此对近海海洋空间规划工作非常重要。例如,开发海洋可再生能源需要详细了解移动床面的形态动力学,以选择地基类型,确保在浅海陆架环境中安全安装基础设施。本研究利用水声和机载测深数据,结合地震剖面和粒度信息,评估了加拿大不列颠哥伦比亚省近海赫卡特海峡狗鱼滩(< 20 mbsl)的地貌和沉积物流动性。这些数据揭示了从沉积物贫乏的滞留区到沉积物丰富的沙脊和沙丘,以及介于两者之间的沙带和沙沟等海流冲刷特征。地震反射数据显示,高达 15 米的表层沙集中在北向对齐的沙脊下,这些沙脊主导着赫卡特海峡西北部的水深测量。沙带(通常被理解为浅海环境中沉积物有限的地貌)明显保持在与相邻沙丘(即沉积物丰富的地貌)沙厚相当的海床上,这表明水动力和沉积物特征(主要是粒度)的局部空间变化影响着移动床形的表达。2008 年至 2019 年期间的重复测绘显示,沙丘和带状沙丘均向北迁移,沙丘朝东北方向的背风侧的海底变化最大,这与已发表的沉积物流动性模型非常吻合,该模型表明向北的床形迁移主要是由风暴驱动的。沙丘总迁移距离的中位数为 164 米(向北)(时间平均迁移率为 14.9 米/年)。沙带的迁移较少(向北迁移的中位距离为 73 米),迁移方式与深度有关。由于沙带通常与水流平行,其横向迁移可能是由于水流方向不同以及水流在较浅海床上加速所致。因此,在研究海底变化时应考虑沙带的迁移,尤其是当沙带形成于未固结沉积物之上时。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Geomorphology and sediment mobility on sand banks: A study of Dogfish Bank, Hecate Strait, Northeast Pacific Ocean

Geomorphology and sediment mobility on sand banks: A study of Dogfish Bank, Hecate Strait, Northeast Pacific Ocean

Movement of sediment along shallow continental shelves is a natural process with wide-ranging environmental and economic implications, making it of high importance to marine spatial planning efforts in the offshore. Development of marine renewable energy, for instance, requires detailed understanding of the morphodynamics of mobile bedforms to select foundation types and ensure safe installation of infrastructure in shallow shelf environments. This study evaluates geomorphology and sediment mobility of Dogfish Bank (< 20 mbsl) in the Hecate Strait offshore British Columbia, Canada, using hydroacoustic and airborne bathymetric data combined with seismic profiles and grain-size information. These data reveal current-swept features ranging from sediment-depleted lag to sediment-abundant sand ridges and dunes, with sand ribbons and furrows in-between. Seismic reflection data show up to 15 m of surficial sand concentrated beneath north-aligned sand ridges that dominate the bathymetry of northwest Hecate Strait. Sand ribbons (typically understood sediment-limited features in shallow marine environments) are notably maintained over seabed with comparable sand thickness to adjacent dunes (i.e. sediment-abundant features), suggesting local spatial variability in hydrodynamics and sediment characteristics (principally grain size) influence expression of mobile bedforms. Repeat mapping between 2008 and 2019 shows dunes and ribbons both migrate northwards, with largest seafloor changes along northeast-facing lee sides of dunes, matching closely with published models of sediment mobility which suggest northward bedform migration is largely driven by storms. Median total migration distance is 164 m (northward) for dunes (time-averaged rate of 14.9 m/year). Sand ribbons show less migration (median northward distance of 73 m) and migrate in a depth-dependent manner. Because sand ribbons are typically flow-parallel features, their lateral migration likely results from varying current directions and flow acceleration over shallower seabed. Sand ribbon migration should therefore a consideration in studies examining seabed change, particularly when they are formed over unconsolidated sediment.

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来源期刊
Earth Surface Processes and Landforms
Earth Surface Processes and Landforms 地学-地球科学综合
CiteScore
6.40
自引率
12.10%
发文量
215
审稿时长
4 months
期刊介绍: Earth Surface Processes and Landforms is an interdisciplinary international journal concerned with: the interactions between surface processes and landforms and landscapes; that lead to physical, chemical and biological changes; and which in turn create; current landscapes and the geological record of past landscapes. Its focus is core to both physical geographical and geological communities, and also the wider geosciences
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