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UPPER OCEAN RESPONSE TO SURFACEMOMENTUM AND FRESHWATER FLUXES IN THE WESTERN PACIFIC WARM POOL
引用本文:Dake Chen. UPPER OCEAN RESPONSE TO SURFACEMOMENTUM AND FRESHWATER FLUXES IN THE WESTERN PACIFIC WARM POOL[J]. 热带海洋学报, 2004, 23(6): 1-15
作者姓名:Dake Chen
作者单位:Lamont-Doherty Earth
摘    要:


UPPER OCEAN RESPONSE TO SURFACE MOMENTUM AND FRESHWATER FLUXES IN THE WESTERN PACIFIC WARM POOL
Dake Chen. UPPER OCEAN RESPONSE TO SURFACE MOMENTUM AND FRESHWATER FLUXES IN THE WESTERN PACIFIC WARM POOL[J]. Journal of Tropical Oceanography, 2004, 23(6): 1-15
Authors:Dake Chen
Affiliation:Lamont-Doherty Earth Observatory of Columbia University, Palisades, New York
Abstract:A series of numerical experiments are carried out to study the tropical upper ocean response to combined momentum and buoyancy forcing, with emphasis on the three-dimensional thermohaline structure in the western Pacific warm pool. In response to climatological winds, heat fluxes and freshwater input, the model is able to simulate the salient dynamic and hydrographic features of the tropical Pacific Ocean and their seasonal variability. In response to idealized episodic westerly wind bursts and rainfall, the simulated upper ocean conditions compare favorably with available observations, thus enabling us to identify important physical processes involved. Local forcing, vertical mixing and meridional advection dominate the salt and heat budgets in the warm pool on short time scales, but it is necessary to include the saline water coming from the east with the South Equatorial Current to close the salt budget on seasonal and longer time scales. Strong westerly wind bursts generate a swift eastward equatorial jet and a pair of meridional circulation cells with convergence at the equator. This results in an equatorward advection of relatively fresh water from the north and a depression of the thermoeline at the equator. Heavy rainfall reduces the surface mixed layer depth by creating a shallow halocline, thus trapping the momentum and heat inputs near the surface. The remote influences of the episodic momentum and buoyancy fluxes are very different. Westerly wind bursts can generate large downstream disturbances in both dynamic and thermal fields through the propagation of equatorial waves, while the effect of rainfall is mostly confined to the forcing area.
Keywords:freshwater flux westerly wind burst western Pacific warm pool
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