Abstract
Each year, a number of typhoons in the western North Pacific pass through the Luzon Strait into South China Sea (SCS). Although the storms remain above a warm open sea, the majority of them weaken due to atmospheric and oceanic environments unfavorable for typhoon intensification in SCS, which therefore serves as a natural buffer that shields the surrounding coasts from potentially more powerful storms. This study examines how this buffer has changed over inter-decadal and longer time scales. We show that the buffer weakens (i.e. greater potential for more powerful typhoons) in negative Pacific Decadal Oscillation (PDO) years, as well as with sea-level-rise and surface warming, caused primarily by the deepening of the ocean’s 26 °C isotherm Z26. A new Intensity Change Index is proposed to describe the typhoon intensity change as a function of Z26 and other environmental variables. In SCS, the new index accounts for as high as 75% of the total variance of typhoon intensity change.
Highlights
The SST from GHRSST (1982–2013, 1/4o × 1/4o) is used in the calculations of various metrics related to TC-intensity
We focus on long-term variability and, except for the IBTrACS data, monthly climatology is removed from each time series
All quoted trends and correlations are given at the 95% confidence level i.e. the probability that the trend or correlation is due to randomness of the time series is p < 0.05
Summary
Six-hourly typhoon locations and corresponding maximum wind speeds from 1951 to 2013 were obtained from the IBTrACS dataset[60]. Atmospheric variables (for RH, WSH and VOR) were from NCEP/NCAR reanalysis data. Satellite sea-level anomaly data from 1992/October to 2013 were downloaded from AVISO, and monthly averaged.
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