Coastal flooding by tropical cyclones and sea-level rise

Woodruff, Jonathan D.; Irish, Jennifer L.; Camargo, Suzana J.

doi:10.1038/nature12855

Cited by 621 publications

(419 citation statements)

References 79 publications

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“…The coastal impacts of tropical cyclones (TCs), namely erosion, flooding, and habitat destruction, have been well documented globally (Castillo et al 2012;Woodruff et al 2013). Existing studies of TC impacts on coral reef-fringed coastlines have primarily focused on the impact to the coral communities (Harmelin-Vivien 1994), the hydrodynamic *Correspondence: michael.cuttler@uwa.edu.au Author Contribution Statement: MVWC collected and analyzed the field data, developed and analyzed the numerical model, and wrote the manuscript.…”

Section: Introductionmentioning

confidence: 99%

“…The results indicate that this erosion was due to locally generated wind waves within the lagoon rather than the offshore waves that were dissipated on the reef crest. A comparison of these volume changes to observations of tropical cyclone impacts along exposed sandy beaches quantitatively demonstrates the substantial coastal protection reefs can provide against extreme storms.The coastal impacts of tropical cyclones (TCs), namely erosion, flooding, and habitat destruction, have been well documented globally (Castillo et al 2012;Woodruff et al 2013). Existing studies of TC impacts on coral reef-fringed coastlines have primarily focused on the impact to the coral communities (Harmelin-Vivien 1994), the hydrodynamic *Correspondence: michael.cuttler@uwa.edu.au Author Contribution Statement: MVWC collected and analyzed the field data, developed and analyzed the numerical model, and wrote the manuscript.…”

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confidence: 99%

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Response of a fringing reef coastline to the direct impact of a tropical cyclone

Cuttler

Hansen

Lowe

et al. 2018

Limnol Oceanogr Letters

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Tropical cyclones generate extreme hazards along coastlines, often leading to losses of life and property. Although coral reefs exist in cyclone-prone regions globally, few studies have measured the hydrodynamic conditions and morphological responses of reef-fringed coastlines to tropical cyclones. Here, we examine the impact of Tropical Cyclone Olwyn on a section of Australia's largest fringing reef (Ningaloo Reef) using in situ wave and water level observations, topographic surveys, and numerical modeling. Despite forereef significant wave heights reaching 6 m and local winds of 140 km h 21 , average beach volume change was only 23 m 3 m 21 . The results indicate that this erosion was due to locally generated wind waves within the lagoon rather than the offshore waves that were dissipated on the reef crest. A comparison of these volume changes to observations of tropical cyclone impacts along exposed sandy beaches quantitatively demonstrates the substantial coastal protection reefs can provide against extreme storms.The coastal impacts of tropical cyclones (TCs), namely erosion, flooding, and habitat destruction, have been well documented globally (Castillo et al. 2012;Woodruff et al. 2013). Existing studies of TC impacts on coral reef-fringed coastlines have primarily focused on the impact to the coral communities (Harmelin-Vivien 1994), the hydrodynamic *Correspondence: michael.cuttler@uwa.edu.au Author Contribution Statement: MVWC collected and analyzed the field data, developed and analyzed the numerical model, and wrote the manuscript. JEH helped with data analysis and interpretation, model development and analysis, and provided critical review of the manuscript. RJL helped with experimental design, data and model interpretation, and provided critical review of the manuscript. EJFD developed the regional-scale model and helped with development and validation of the local model. Data Availability Statement:The metadata and specific data files used in the analyses described in the text and Supporting Information are accessible at https://doi.org/10.5281/zenodo.1162945Additional Supporting Information may be found in the online version of this article.This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. Scientific Significance StatementTropical cyclones can have catastrophic consequences for coastal infrastructure, marine habitats, and coastal populations worldwide. However, coral reefs can provide natural coastal protection by reducing the amount of wave energy reaching coastlines. Here, we quantify the coastal protection afforded by a fringing reef from a direct tropical cyclone impact and show that the observed beach erosion was not associated with the magnitude of the extreme offshore waves, but rather due to local wind wave growth across the lagoon. These results can be applied to assess coastal hazards facing reef-fringed coastlines due to extreme ...

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Section: Introductionmentioning

confidence: 99%

mentioning

confidence: 99%

Response of a fringing reef coastline to the direct impact of a tropical cyclone

Cuttler

Hansen

Lowe

et al. 2018

Limnol Oceanogr Letters

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“…Reduced foraging success may lead these organisms to starvation and may, subsequently, increase the risk of mortality [89]. As a consequence of climate change, tropical storms are becoming more frequent and intense [87, 90, 91]. These events may increase seabird mortality in the future, with negative consequences for species with declining populations.…”

Section: Discussionmentioning

confidence: 99%

Environmental Predictors of Seabird Wrecks in a Tropical Coastal Area

2016

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Beached bird surveys have been widely used to monitor the impact of oil pollution in the oceans. However, separating the combined effects of oil pollution, environmental variables and methodological aspects of beach monitoring on seabird stranding patterns is a challenging task. The effects of a comprehensive set of oceanographic and climatic variables and oil pollution on seabird strandings in a tropical area of Brazil were investigated herein, using two robust and innovative methods: Generalized Linear Mixed Models and Structural Equation Modeling. We assessed strandings of four resident seabird species along 480 km of beaches divided into 11 sampling areas, between November 2010 and September 2013. We found that increasing the distance from the nearest breeding island reduce the seabird stranding events. Storm activity and biological productivity were the most important factors affecting the stranding events of brown boobies Sula leucogaster, Cabot’s terns Thalasseus acuflavidus and kelp gulls Larus dominicanus. These species are also indirectly affected by warm tropical waters, which reduce chlorophyll-a concentrations. Beach surveys are, thus, useful to investigate the mortality rates of resident species near breeding sites, where individuals are more abundant and exposed to local factors associated with at-sea mortality. In contrast, conservation actions and monitoring programs for far-ranging seabird species are needed in more distant foraging areas. Furthermore, beach monitoring programs investigating the impact of oil pollution on seabirds need to account for the effects of environmental factors on stranding patterns. The present study also demonstrated that seabirds inhabiting tropical coastal waters are sensitive to climate conditions such as adverse weather, which are expected to increase in frequency and intensity in next decades.

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“…To understand the magnitude of impact of cyclone intensification on the surge hazard, we consider the simple model of Knutson and Tuleya [46], where tropical cyclone wind intensity increases by approximately 4 % for every 1°C increase in sea-surface temperature, and the momentum conservation argument for surge generation, where surge at a given location is proportional to wind speed squared. It thus follows that surge will increase on the order of 8 % for every 1°C of sea-surface temperature warming [89]. This means that areas more susceptible to significant wind surge generation, namely those areas that are low-lying and are exposed to intense storms, will exhibit a relatively larger increase in surge hazard.…”

Section: Nonstationary Considerations-decadal Variability and Long-tementioning

confidence: 99%

Tropical Cyclone Storm Surge Risk

Resio

Irish

2015

Curr Clim Change Rep

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Tropical cyclone storm surge represents a significant threat to communities around the world. These surge characteristics vary spatially and temporally over a range of scales; therefore, conceptual frameworks for understanding and mitigating them must be cast within a context of risk that covers the complete range of hazards, their consequences, and methods for mitigation. A review of primary overlapping time scales and associated spatial scales for tropical cyclone surge hazards covers two scales of particular interest: (1) synopticscale predictions used for warnings and evacuation decisions and (2) long-term estimation of hazards and related risks needed for coastal planning and decision-making. Factors that can affect these estimates, such as episodic variations in tropical cyclone characteristics and longer-term climate change and sea-level rise are then examined in the context of their potential impacts on hazards and risks related to tropical cyclone surges.

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Coastal flooding by tropical cyclones and sea-level rise

Cited by 621 publications

References 79 publications

Response of a fringing reef coastline to the direct impact of a tropical cyclone

Response of a fringing reef coastline to the direct impact of a tropical cyclone

Environmental Predictors of Seabird Wrecks in a Tropical Coastal Area

Tropical Cyclone Storm Surge Risk

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