Characteristics and driving mechanisms of mixing and stratification in Suances estuary using the potential energy anomaly budget equation

IF 2.8 2区生物学 Q1 MARINE & FRESHWATER BIOLOGY

Frontiers in Marine Science Pub Date : 2025-02-21 DOI:10.3389/fmars.2025.1531684

Jagoba Lupiola, Javier F. Bárcena, Javier García-Alba, Andrés García

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Abstract

The environmental variability of rivers and tides create complex mixing patterns, which modulate the estuarine ecosystem services. Therefore, a thorough understanding of these systems is vital, not only for their protection but also for their recovery. This study first applies a method to analyze the different mechanisms driving the mixing and stratification of the water column in Suances estuary, a small estuary with large intertidal zones, by using numerical modeling to calculate the potential energy anomaly (ϕ) and its derivative (ϕt). Numerical results show that Suances estuary presents an ellipse of mixing and stratification variability driven by, firstly, the river flow (seasonal cycle – monthly time scale), secondly, the tidal phase (ebb-flood cycle – diurnal time scale) and, lastly, the tidal magnitude (spring-neap cycle – fortnightly time scale). Furthermore, these results explicitly highlight how the driving mechanisms can vary for the same estuary geometry at different locations due to diurnal, fortnightly and seasonal changes in forcing. The predominant driving mechanisms in Suances estuary are straining (S) tending to stratify the estuary, river and tide advection (A) tending to mix it and non-linear straining (N), caused by contributions from intertidal areas that favor mixing or stratification according to the tidal cycles. Additionally, a threshold was found between the potential energy anomaly and the depth of the water column, confirming that there are limiting values of the potential energy anomaly depending on the depth that can develop in the estuary. This is especially significant in small and shallow estuaries, since maximum values of the potential energy anomaly will be obtained as a function of depth.

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河流和潮汐的环境变化造成复杂的混合模式，从而调节河口生态系统的服务。因此，全面了解这些系统至关重要，这不仅有利于保护它们，也有利于它们的恢复。本研究首先采用数值模型计算势能异常（ϕ）及其导数（ϕt）的方法，分析了驱动苏昂斯河口水体混合和分层的不同机制。数值结果表明，苏安斯河河口呈现出一个混合和分层变化的椭圆形，其驱动因素首先是河流流量（季节周期--月时间尺度），其次是潮汐相位（退潮-洪水周期--日时间尺度），最后是潮汐幅度（春季-小潮周期--双周时间尺度）。此外，这些结果还明确强调了在不同地点，同一河口几何形状的驱动机制如何因昼夜、双周和季节性驱动力的变化而不同。苏安斯河河口的主要驱动机制是趋向于使河口分层的应变（S）、趋向于使河口混合的河流和潮汐平流（A）以及非线性应变（N），非线性应变是由潮间带的贡献引起的，潮间带根据潮汐周期有利于混合或分层。此外，还发现了势能异常与水体深度之间的临界值，证实了势能异常的极限值取决于河口的深度。这对于小而浅的河口尤为重要，因为随着深度的增加，势能异常值将达到最大值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Frontiers in Marine Science Agricultural and Biological Sciences-Aquatic Science

CiteScore

5.10

自引率

16.20%

发文量

2443

审稿时长

14 weeks

期刊介绍： Frontiers in Marine Science publishes rigorously peer-reviewed research that advances our understanding of all aspects of the environment, biology, ecosystem functioning and human interactions with the oceans. Field Chief Editor Carlos M. Duarte at King Abdullah University of Science and Technology Thuwal is supported by an outstanding Editorial Board of international researchers. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, policy makers and the public worldwide. With the human population predicted to reach 9 billion people by 2050, it is clear that traditional land resources will not suffice to meet the demand for food or energy, required to support high-quality livelihoods. As a result, the oceans are emerging as a source of untapped assets, with new innovative industries, such as aquaculture, marine biotechnology, marine energy and deep-sea mining growing rapidly under a new era characterized by rapid growth of a blue, ocean-based economy. The sustainability of the blue economy is closely dependent on our knowledge about how to mitigate the impacts of the multiple pressures on the ocean ecosystem associated with the increased scale and diversification of industry operations in the ocean and global human pressures on the environment. Therefore, Frontiers in Marine Science particularly welcomes the communication of research outcomes addressing ocean-based solutions for the emerging challenges, including improved forecasting and observational capacities, understanding biodiversity and ecosystem problems, locally and globally, effective management strategies to maintain ocean health, and an improved capacity to sustainably derive resources from the oceans.