Direct in situ evidence of tidal roles in the formation of contourite depositional systems

IF 4.8 1区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS
Shaoru Yin , F. Javier Hernández-Molina , Miguel Bruno Mejías , Juan J. Gomiz-Pascual , Michele Rebesco , Tom Manley , Patricia L. Manley , Jiabiao Li
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引用次数: 0

Abstract

Tidal currents are ubiquitous in the oceans, but the role of these currents in contributing to form contourite depositional systems is poorly understood. Here we evaluated the significance of these currents in the formation and shaping of the contourite depositional systems. We examined in situ current data, spanning three months to one year, from four contourite sites at the exit of the Strait of Gibraltar, the northern North Atlantic Ocean, the Pacific margin of the Antarctic Peninsula, and the Lake Champlain. These current data indicate that tidal currents contribute to varying degrees to the formation of contourite erosional and depositional features, depending on the relative strengths of local tidal currents and background water mass circulation. Tidal currents enhance sediment resuspension in moats and channels, and encourage deposition on drifts, thereby promoting the development of contourite depositional systems. Baroclinic (internal) tidal currents are likely the dominant agent. Our findings indicate that tidal influences, especially those of internal tides, need to be considered in studies of the generation and evolution of contourite depositional systems.
潮汐作用在等高线沉积系统形成过程中的直接现场证据
潮汐流在海洋中无处不在,但人们对潮汐流在形成等高线沉积系统中的作用却知之甚少。在此,我们评估了这些潮流在形成和塑造等高线沉积系统中的重要作用。我们研究了直布罗陀海峡出口、北大西洋北部、南极半岛太平洋边缘和尚普兰湖四个等高线岩地点的现场海流数据,时间跨度从三个月到一年不等。这些海流数据表明,潮汐流在不同程度上促进了等高线岩侵蚀和沉积特征的形成,这取决于当地潮汐流和背景水团环流的相对强度。潮汐流加强了护城河和河道中沉积物的再悬浮,促进了漂流物的沉积,从而促进了等高线沉积系统的发展。巴洛克(内部)潮汐流很可能是主导因素。我们的研究结果表明,在研究等高线沉积系统的产生和演变时,需要考虑潮汐的影响,尤其是内潮的影响。
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来源期刊
Earth and Planetary Science Letters
Earth and Planetary Science Letters 地学-地球化学与地球物理
CiteScore
10.30
自引率
5.70%
发文量
475
审稿时长
2.8 months
期刊介绍: Earth and Planetary Science Letters (EPSL) is a leading journal for researchers across the entire Earth and planetary sciences community. It publishes concise, exciting, high-impact articles ("Letters") of broad interest. Its focus is on physical and chemical processes, the evolution and general properties of the Earth and planets - from their deep interiors to their atmospheres. EPSL also includes a Frontiers section, featuring invited high-profile synthesis articles by leading experts on timely topics to bring cutting-edge research to the wider community.
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