Seasonal Mesoscale and Submesoscale Eddy Variability along the North Pacific Subtropical Countercurrent
Event: 2014 Ocean Surface Topography Science Team Meeting
Session: Science Results from Satellite Altimetry: Finer scale ocean processes (mesoscale and coastal)
Presentation type: Type Oral
Contribution: PDF file
Located at the center of the western North Pacific subtropical gyre, Subtropical Countercurrent (STCC) is not only abundant in mesoscale eddies, but also exhibits prominent submesoscale eddy features. Output from a 1/30-deg high-resolution OGCM simulation and the AVSIO altimetry product are analyzed in this study to contrast the seasonal STCC variability in the mesoscale vs. submesoscale ranges. Resolving the eddy scales of > O(150km), the altimetry product reveals that the STCC eddy kinetic energy and rms vorticity have a seasonal maximum in May and April, respectively, a weak positive vorticity skewness without seasonal dependence, and an inverse (forward) kinetic energy cascade for wavelengths larger (shorter) than ~250km. In contrast, the submesoscale-resolving OGCM simulation detects that the STCC eddy kinetic energy and rms vorticity both appear in March, a large positive vorticity skewness with strong seasonality, and an intense inverse kinetic energy cascade whose shortwave cutoff migrates seasonally bewteen the 35 and 100km wavelengths. With the aid of a 2.5-layer reduced gravity model with an embedded surface density gradient, we show that these differences are due to the seasonal evolution of two concurring baroclinic instabilities. Extracting its energy from the surface density gradient, the frontal instability has a growth timescale of O(7 days), a dominant wavelength of O(50km), and is responsible for the surface-intensified submesoscale eddy signals. The interior baroclinic instability, on the other hand, extracts energy from the vertically-sheared STCC system. It has a slow growth timescale of O(40 days), a dominant wavelength of O(250km) and, together with the kinetic energy cascaded upscale from the submesoscales, determines the mesoscale eddy modulations.