259 / 2024-09-12 21:55:02
Response of the North Pacific Storm Track Activity in Cold Season to Multi-scale Oceanic Variations of Kuroshio Extension System: A Statistical Assessment
Generalized equilibrium feedback analysis, Kuroshio Extension, Multi-scale oceanic variations, North Pacific storm track
Session 44 - Western Boundary Currents, Eddies and Their Impacts on Multi-disciplinary Aspects
Abstract Accepted
Peilong Yu / College of Meteorology and Oceanography, National University of Defense Technology
Minghao Yang / College of Meteorology and Oceanography, National University of Defense Technology
Chao Zhang / College of Meteorology and Oceanography, National University of Defense Technology
Lifeng Zhang / College of Meteorology and Oceanography, National University of Defense Technology
Shiyao Chen / College of Meteorology and Oceanography, National University of Defense Technology
Zhi Yang / College of Meteorology and Oceanography, National University of Defense Technology
In this paper, a statistical method called generalized equilibrium feedback analysis (GEFA) is used to investigate the responses of the North Pacific storm track (NPST) in cold season to the multi-scale oceanic variations of Kuroshio Extension (KE) system including its large-scale variation, oceanic front meridional shift and mesoscale eddy activity. Results show that in cold season from the lower to the upper troposphere, the KE large-scale variation significantly weakens the storm track activity over the central North Pacific south of 30°N. The northward shift of KE front significantly strengthens the storm track activity over the western and central North Pacific south of 40°N, resulting in a southward shift of NPST. In contrast, the NPST response to KE mesoscale eddy activity is not so significant and relatively shallow, which only shows some significant positive signals near the dateline in the lower and middle troposphere. Furthermore, it is found that baroclinicity and baroclinic energy conversion play an important role in the formation of NPST responses to the KE multi-scale oceanic variations.