The North Equatorial Current and rapid intensification of super typhoons

Authors
Kang, Sok KuhKim, Sung-HunLin, I. -I.Park, Young-HyangChoi, YumiGinis, IsaacCione, JosephShin, Ji YunKim, Eun JinKim, Kyeong OkKang, Hyoun WooPark, Jae-HyoungBidlot, Jean-RaymondWard, Brian
Issue Date
2024-03
Publisher
Nature Publishing Group
Citation
Nature Communications, v.15, no.1
Abstract
Super Typhoon Mangkhut, which traversed the North Equatorial Current (NEC; 8-17 degrees N) in the western North Pacific in 2018, was the most intense Category-5 tropical cyclone (TC) with the longest duration in history-3.5 days. Here we show that the combination of two factors-high ocean heat content (OHC) and increased stratification - makes the NEC region the most favored area for a rapid intensification (RI) of super typhoons, instead of the Eddy Rich Zone (17-25 degrees N), which was considered the most relevant for RI occurrence. The high OHC results from a northward deepening thermocline in geostrophic balance with the westward-flowing NEC. The stratification is derived from precipitation associated with the Inter-Tropical Convergence Zone in the summer peak typhoon season. These factors, which are increasingly significant over the past four decades, impede the TC-induced sea surface cooling, thus enhancing RI of TCs and simultaneously maintaining super typhoons over the NEC region.
Keywords
VARIABILITY; CIRCULATION; SEA-SURFACE TEMPERATURE; OCEAN THERMAL STRUCTURE; VERTICAL WIND SHEAR; TROPICAL CYCLONES; POTENTIAL INTENSITY; MAXIMUM INTENSITY; PART I; IMPACT
URI
https://pubs.kist.re.kr/handle/201004/150555
DOI
10.1038/s41467-024-45685-2
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KIST Article > 2024
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