Litcius/Paper detail

On the assessment of the wave modeling uncertainty in wave climate projections

Héctor Lobeto, Álvaro Semedo, Melisa Menéndez, Gil Lemos, Rajesh Kumar, Adem Akpınar, Mikhail Dobrynin, Bahareh Kamranzad

2023Environmental Research Letters14 citationsDOIOpen Access PDF

Abstract

Abstract This study investigates the epistemic uncertainty associated with the wave propagation modeling in wave climate projections. A single-forcing, single-scenario, seven-member global wave climate projection ensemble is used, developed using three wave models with a consistent numerical domain. The uncertainty is assessed through projected changes in wave height, wave period, and wave direction. The relative importance of the wave model used and its internal parameterization are examined. The former is the dominant source of uncertainty in approximately two-thirds of the global ocean. The study reveals divergences in projected changes from runs of different models and runs of the same model with different parameterizations over 75% of the ensemble mean change in several ocean regions. Projected changes in the wave period shows the most significant uncertainties, particularly in the Pacific Ocean basin, while the wave height shows the least. Over 30% of global coastlines exhibit significant uncertainties in at least two out of the three wave climate variables analyzed. The coasts of western North America, the Maritime Continent and the Arabian Sea show the most significant wave modeling uncertainties.

Topics & Concepts

ClimatologyWave modelSignificant wave heightWave heightForcing (mathematics)Climate modelWind wave modelClimate changeEnvironmental scienceMeteorologyWave propagationWind waveProjection (relational algebra)GeologyGeographyMathematicsPhysicsOceanographyQuantum mechanicsAlgorithmOcean Waves and Remote SensingCoastal and Marine DynamicsOceanographic and Atmospheric Processes