Abstract
Unprecedented coastal upwelling off the southern coast of the Korean Peninsula was reported during the summer of 2013. The upwelling continued for more than a month after a plunge in upwelling-favourable winds and had serious impacts on fisheries. This is a rare phenomenon, as most coastal upwelling events relax a few days after the wind weakens. In this study, observational data and numerical modelling results were analysed to investigate the cause of the upwelling and the reason behind it being sustained for such an extended period. Coastal upwelling was induced by an upwelling-favourable wind in July, resulting in the dynamic uplift of deep, cold water. The dynamic uplift decreased the steric sea level in the coastal region. The sea level difference between the coastal and offshore regions produced an intensified cross-shore pressure gradient that enhanced the surface geostrophic current along the coast. The strong surface current maintained the dynamic uplift due to geostrophic equilibrium. This positive feedback between the dynamic uplift and geostrophic adjustment sustained the coastal upwelling for a month following a plunge in the upwelling-favourable wind.
Highlights
Unprecedented coastal upwelling off the southern coast of the Korean Peninsula was reported during the summer of 2013
Upwelling occurs as a form of dynamic uplift that results from geostrophic equilibrium, which is a balance between the pressure gradient force (PGF) and the Coriolis force[6,7]
Observational data analyses and numerical modelling were performed to investigate the reason for the unprecedented coastal upwelling, as well as why it was sustained for such an extended period on the southern coast of the Korean Peninsula during the summer of 2013
Summary
Unprecedented coastal upwelling off the southern coast of the Korean Peninsula was reported during the summer of 2013. Coastal upwelling was induced by an upwellingfavourable wind in July, resulting in the dynamic uplift of deep, cold water. The strong surface current maintained the dynamic uplift due to geostrophic equilibrium This positive feedback between the dynamic uplift and geostrophic adjustment sustained the coastal upwelling for a month following a plunge in the upwellingfavourable wind. Coastal upwelling is a process that brings deep, cold water to the ocean surface. Observational data analyses and numerical modelling were performed to investigate the reason for the unprecedented coastal upwelling, as well as why it was sustained for such an extended period on the southern coast of the Korean Peninsula during the summer of 2013
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