Understanding uncertainties in contemporary and future extreme wave events for broad-scale impact and adaptation planning
Understanding uncertainties in extreme wind-wave events is essential for offshore/coastal risk and adaptation estimates. Despite this, uncertainties in contemporary extreme wave events have not been assessed, and projections are still limited. Here, we quantify, at global scale, the uncertainties in contemporary extreme wave estimates across an ensemble of widely used global wave reanalyses/hindcasts supported by observations. We find that contemporary uncertainties in 50-year return period wave heights (Hs50">H50s50) reach (on average) ~2.5 m in regions adjacent to coastlines and are primarily driven by atmospheric forcing. Furthermore, we show that uncertainties in contemporary Hs50">H50s50 estimates dominate projected 21st-century changes in Hs50">H50s50 across ~80% of global ocean and coastlines. When translated into broad-scale coastal risk analysis, these uncertainties are comparable to those from storm surges and projected sea level rise. Thus, uncertainties in contemporary extreme wave events need to be combined with those of projections to fully assess potential impacts.
Citation Information
Publication Year | 2023 |
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Title | Understanding uncertainties in contemporary and future extreme wave events for broad-scale impact and adaptation planning |
DOI | 10.1126/sciadv.ade3170 |
Authors | Joao Morim, Thomas Wahl, Sean Vitousek, Sara Santamaria, Ian Young, Mark Hemer |
Publication Type | Article |
Publication Subtype | Journal Article |
Series Title | Science Advances |
Index ID | 70240786 |
Record Source | USGS Publications Warehouse |
USGS Organization | Pacific Coastal and Marine Science Center |