Perpustakaan Digital ITB

ABSTRACT Horizontal velocity spirals with a clockwise rotation (downward looking) rate of 1.7? m?1, on average, were observed in the western and northern Yellow Sea from December 2006 to February 2007. With the observed thermal wind relation, the beta-spiral theory was used to explain the dynamics of spirals. It was found that the horizontal diffusion of geostrophic vortex stretching is likely to be a major mechanism for generating geostrophic spirals. Vertical advection associated with surface/bottom Ekman pumping and topography-induced upwelling is too weak to support these spirals. Strong wind stirring and large heat loss in wintertime lead to weak stratification and diminish the effects of vertical advection. The cooling effect and vertical diffusion are offset by an overwhelming contribution of horizontal diffusion in connection with vortex stretching. The Richardson number-dependent vertical eddy diffusivity reaches a magnitude of 10?4 m2 s?1 on average. An eddy diffusivity of 2870 m2 s?1 is required for dynamic balance by estimating the residual term. This obtained value of 10?4 m2 s?1 is in good agreement with the estimation in terms of observed eddy activities. The suppressed and unsuppressed diffusivities in the observation region are 2752 and 2881 m2 s?1, respectively, which supports a closed budget for velocity rotation.