气候变化领域集成服务门户(CCPortal): Examining the impact of the Great Barrier Reef on tsunami propagation using numerical simulations

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DOI	10.1007/s11069-021-04686-w
	Examining the impact of the Great Barrier Reef on tsunami propagation using numerical simulations
	Thran M.C.; Brune S.; Webster J.M.; Dominey-Howes D.; Harris D.
发表日期	2021
ISSN	0921030X
起始页码	347
结束页码	388
卷号	108 期号:1
英文摘要	Coral reefs may provide a beneficial first line of defence against tsunami hazards, though this is currently debated. Using a fully nonlinear, Boussinesq propagation model, we examine the buffering capacity of the Great Barrier Reef against tsunamis triggered by several hypothetical sources: a series of far-field, Solomon Islands earthquake sources of various magnitudes (Mw 8.0, Mw 8.5, and Mw 9.0), a submarine landslide source that has previously been documented in the offshore geological record (the “Gloria Knolls Slide”), and a potential future landslide source (the “Noggin Block”). We show that overall, the Great Barrier Reef acts as a large-scale regional buffer due to the roughness of coral cover and the complex bathymetric features (i.e. platforms, shoals, terraces, etc.) that corals construct over thousands of years. However, the buffering effect of coral cover is much stronger for tsunamis that are higher in amplitude. When coral cover is removed, the largest earthquake scenario (Mw 9.0) exhibits up to a 31% increase in offshore wave amplitude and estimated run-up. These metrics increase even more for the higher-amplitude landslide scenarios, where they tend to double. These discrepancies can be explained by the higher bed particle velocities incited by higher-amplitude waves, which leads to greater frictional dissipation at a seabed covered by coral. At a site-specific level, shoreline orientation relative to the reef platforms also determines the degree of protectiveness against both types of tsunamis, where areas situated behind broad, shallow, coral-covered platforms benefit the most. Additionally, we find that the platforms, rather than gaps in the offshore reef structure, tend to amplify wave trains through wave focussing when coral cover is removed from simulations. Our findings have implications for future tsunami hazards along the northeastern Australian coastline, particularly as the physiological stressors imposed by anthropogenic climate change further exacerbate coral die-off and reductions in ecosystem complexity. Therefore, areas that experience a protective benefit by the Great Barrier Reef’s platforms could be disproportionately more vulnerable in the future. © 2021, The Author(s), under exclusive licence to Springer Nature B.V.
关键词	Coral reef Earthquake Great Barrier Reef Numerical simulation Submarine landslide Tsunami
英文关键词	bathymetry; computer simulation; coral reef; earthquake event; submarine landslide; tsunami; wave propagation; Australia; Coral Sea; Great Barrier Reef; Queensland; Anthozoa
语种	英语
来源期刊	Natural Hazards
文献类型	期刊论文
条目标识符	http://gcip.llas.ac.cn/handle/2XKMVOVA/206605
作者单位	Water Research Laboratory, School of Civil and Environmental Engineering, University of New South Wales, Sydney, NSW 2052, Australia; GFZ German Research Centre for Geosciences, Telegrafenberg, Potsdam, 14473, Germany; Institute of Geosciences, University of Potsdam, Potsdam, Germany; Geocoastal Research Group, School of Geosciences, University of Sydney, Sydney, NSW 2050, Australia; Asia-Pacific Natural Hazards and Disaster Risk Research Group, School of Geosciences, University of Sydney, Sydney, NSW 2050, Australia; School of Earth and Environmental Sciences, University of Queensland, Brisbane, QLD 4072, Australia
推荐引用方式 GB/T 7714	Thran M.C.,Brune S.,Webster J.M.,et al. Examining the impact of the Great Barrier Reef on tsunami propagation using numerical simulations[J],2021,108(1).
APA	Thran M.C.,Brune S.,Webster J.M.,Dominey-Howes D.,&Harris D..(2021).Examining the impact of the Great Barrier Reef on tsunami propagation using numerical simulations.Natural Hazards,108(1).
MLA	Thran M.C.,et al."Examining the impact of the Great Barrier Reef on tsunami propagation using numerical simulations".Natural Hazards 108.1(2021).