Intrinsic and Wind-Driven Decadal Variability of the Kuroshio Extension in Altimeter Observations

Guidi Zhou,Xuhua Cheng,Zhuhua Li

doi:10.3389/fmars.2021.766226

Guidi Zhou, Xuhua Cheng + Show 1 more

Open Access

https://doi.org/10.3389/fmars.2021.766226

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Abstract

In this work we use satellite altimeter observations to study the mechanism of decadal variability of the Kuroshio Extension (KE), with special attention on jet-eddy energy transfer, and on the relationship between the wind-driven sea surface height anomalies (SSHAs) and those directly driven by intrinsic oceanic processes including jet and eddies. It is shown that energy feedback between the jet and mesoscale eddies can maintain the decadal oscillation of the KE. The wind-driven SSHAs are broad-scale and very weak compared to the intrinsic variability. Physically they can potentially trigger delayed responses of the latter by modulating vorticity advection from upstream but the statistical significance is low. KE perturbations resulting from the intrinsic variability, on the other hand, could feedback onto the wind-driven SSHAs by inducing anomalous basin-scale wind stress. The KE jet is thus an integrated system involving the jet and the eddies, possibly feeding back to, and paced by, wind stress anomalies.

Highlights

The Kuroshio Extension (KE) is an eastward extension to one of the most prominent western boundary currents of the global oceans – the Kuroshio
We follow Qiu et al (2014) and define the sea surface height anomalies (SSHAs) averaged over the KE region as the KE index (KEI), which, as shown in Figure 1B, exhibits significant interannual to decadal variability
It is evident that the SSHA associated with the positive KEI is narrowly concentrated along the KE jet at 31–36◦N, consistent with recent studies (Taguchi et al, 2007; Sasaki and Schneider, 2011; Sasaki et al, 2013)

Summary

Introduction

The Kuroshio Extension (KE) is an eastward extension to one of the most prominent western boundary currents of the global oceans – the Kuroshio. In this work we use satellite altimeter observations to study the mechanism of decadal variability of the Kuroshio Extension (KE), with special attention on jet-eddy energy transfer, and on the relationship between the wind-driven sea surface height anomalies (SSHAs) and those directly driven by intrinsic oceanic processes including jet and eddies.

Results

Conclusion