An approach to assessing tsunami risk to the global port network under rising sea levels

npj Natural Hazards Pub Date : 2024-12-04 DOI:10.1038/s44304-024-00039-2

Constance Ting Chua, Takuro Otake, Tanghua Li, An-Chi Cheng, Qiang Qiu, Linlin Li, Anawat Suppasri, Fumihiko Imamura, Adam D. Switzer

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Abstract

Seaports are vulnerable to extreme sea level events. Beyond physical damage, any port inoperability affects trade flows in and out of the affected port and disrupts shipping routes connected to it, which then propagates throughout the port network. Here, we propose an approach to assessing tsunami risk to ports and the global port network. We leverage on the topological properties of the global liner shipping network and centrality measures to quantify the potential impacts of a Manila Trench earthquake-tsunami under both present and future sea levels. We find that a Manila Trench tsunami could potentially damage up to 11 ports at present-day conditions and 15 ports under rising sea levels. Port closure could exceed 200 days and cause greater disruption to shipping routes than historical tsunami events. We also find that sea level rise is likely to result in uneven changes in tsunami heights spatially and hence, uneven impacts on the global port network.

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一种评估海平面上升下全球港口网络海啸风险的方法

海港容易受到极端海平面事件的影响。除了物理损失之外，任何港口的不可操作性都会影响进出受影响港口的贸易流量，并扰乱与之相连的航运路线，然后在整个港口网络中传播。在此，我们提出了一种评估港口和全球港口网络的海啸风险的方法。我们利用全球班轮运输网络的拓扑特性和中心性度量来量化马尼拉海沟地震海啸在当前和未来海平面下的潜在影响。我们发现，马尼拉海沟海啸在当前条件下可能会破坏多达11个港口，在海平面上升的情况下可能会破坏15个港口。港口关闭可能超过200天，对航线造成的破坏比历史上的海啸事件更大。我们还发现，海平面上升可能导致海啸高度在空间上的不均匀变化，从而对全球港口网络产生不均匀的影响。

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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npj Natural Hazards

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