Model-based assessment of sustainable adaptation options for an industrialised meso‑tidal estuary

IF 3.1 3区地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES

Ocean Modelling Pub Date : 2024-11-28 DOI:10.1016/j.ocemod.2024.102467

Johannes Pein , Joanna Staneva , Johanna Biederbick , Corinna Schrum

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Abstract

Human-shaped estuaries play a vital role in supporting a range of economic, ecological and social functions. Such cultural landscapes often require enormous services, which may be provided at the expense of the ecological status and the ability to provide ecosystem services. This is exemplified by the estuaries of the German North Sea coast, of which the Elbe estuary is the most prominent and stands out as the largest and most consistently developed. The port of Hamburg, which is the primary economic driver in the region, has shaped the morphology of the surrounding water body. This has resulted in a number of hydrodynamic effects and sedimentological and ecological consequences, which have been well documented and subject to extensive debate. Despite this understanding, however, there is a tendency to propose solutions that are limited to the smallest local scales and are unable to mitigate the consequences of human interventions that have taken place or continue to take place at the estuarine and catchment scales. The lack of illustrative and quantitative scenario simulations and holistic assessments also hinders the ability to implement ambitious adaptation measures. To step forward, this study presents a model-based assessment including scenario simulations of four prototypical adaptation measures that are potentially capable of mitigating the problems of high turbidity, sedimentation and oxygen minimum without compromising coastal protection. The experimental design comprises a two-month morphodynamic simulation for each adaptation scenario and a one-year simulation of coupled hydrodynamics and ecology. The model simulations demonstrate that the proposed measures have the potential to reduce the siltation of the upper estuary, thereby reducing the need for extensive and costly maintenance dredging. Furthermore, the simulated measures also reduce the tidal range in the densely populated upper estuary, albeit to varying degrees. This also applies to mitigating the consequences of eutrophication, such as the oxygen content in the navigation channel. These differences, as well as the differing scale and effort associated with the four measures, form the basis of a final comparative evaluation based on universal sustainability criteria.

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工业化中潮河口可持续适应方案的基于模式评估

人形河口在支持一系列经济、生态和社会功能方面发挥着至关重要的作用。这种文化景观往往需要大量的服务，而这些服务可能是以牺牲生态状况和提供生态系统服务的能力为代价的。德国北海沿岸的河口就是例证，其中最突出的是易北河河口，它是最大和最持续发展的河口。汉堡港是该地区的主要经济驱动力，它塑造了周围水体的形态。这导致了许多水动力效应以及沉积学和生态学后果，这些后果已被充分记录并受到广泛辩论。然而，尽管有这种认识，仍有一种倾向，即提出的解决办法仅限于最小的地方尺度，无法减轻在河口和集水区尺度上已经发生或继续发生的人类干预的后果。缺乏说明性和定量情景模拟以及全面评估也阻碍了实施雄心勃勃的适应措施的能力。为了进一步推进，本研究提出了一个基于模型的评估，包括对四种原型适应措施的情景模拟，这些措施可能能够在不损害海岸保护的情况下减轻高浊度、沉积和最低氧的问题。实验设计包括对每种适应情景进行为期两个月的形态动力学模拟和为期一年的水动力学与生态耦合模拟。模型模拟表明，所提出的措施有可能减少河口上游的淤积，从而减少对大规模和昂贵的维护疏浚的需要。此外，在人口密集的河口上游，模拟措施也减小了潮差，但程度不同。这也适用于减轻富营养化的后果，例如航道中的氧含量。这些差异，以及与这四项措施有关的不同规模和努力，构成了根据普遍可持续性标准进行最后比较评价的基础。

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来源期刊

Ocean Modelling 地学-海洋学

CiteScore

5.50

自引率

9.40%

发文量

审稿时长

19.6 weeks

期刊介绍： The main objective of Ocean Modelling is to provide rapid communication between those interested in ocean modelling, whether through direct observation, or through analytical, numerical or laboratory models, and including interactions between physical and biogeochemical or biological phenomena. Because of the intimate links between ocean and atmosphere, involvement of scientists interested in influences of either medium on the other is welcome. The journal has a wide scope and includes ocean-atmosphere interaction in various forms as well as pure ocean results. In addition to primary peer-reviewed papers, the journal provides review papers, preliminary communications, and discussions.