Abstract
A warm ocean feature (WOF) is a blob of the ocean’s surface where the sea-surface temperature (SST) is anomalously warmer than its adjacent ambient SST. Examples are warm coastal seas in summer, western boundary currents, and warm eddies. Several studies have suggested that a WOF may cause a crossing tropical cyclone (TC) to undergo rapid intensification (RI). However, testing the “WOF-induced RI” hypothesis is difficult due to many other contributing factors that can cause RI. The author develops a simple analytical model with ocean feedback to estimate TC rapid intensity change across a WOF. It shows that WOF-induced RI is unlikely in the present climate when the ambient SST is ≲29.5 °C and the WOF anomaly is ≲+1 °C. This conclusion agrees well with the result of a recent numerical ensemble experiment. However, the simple model also indicates that RI is very sensitive to the WOF anomaly, much more so than the ambient SST. Thus, as coastal seas and western boundary currents are warming more rapidly than the adjacent open oceans, the model suggests a potentially increased likelihood in the 21st century of WOF-induced RIs across coastal seas and western boundary currents. Particularly vulnerable are China’s and Japan’s coasts, where WOF-induced RI events may become more common.
Highlights
A tropical cyclone (TC) is said to undergo rapid intensification (RI) when its maximum 10-m wind increases by more than 15.4 m/s in 1 day [1]
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This study presents a simple analytical model with ocean feedback of tropical cyclones’ rapid intensity change induced by warm ocean features (WOF)
Summary
A tropical cyclone (TC) is said to undergo rapid intensification (RI) when its maximum 10-m wind increases by more than 15.4 m/s in 1 day [1]. Storms that have undergone RI develop into major storms (Category 3 and above) [17,18]. The WOF may be a warm eddy, a western boundary current, or a summertime coastal shelf sea. It has an anomalously warmer sea-surface temperature (SST) than the ambient sea. Oey and Huang [30] designed numerical ensemble experiments to eliminate other potential RI-causing environmental factors and isolate the WOF-induced intensity change. They conducted twin experiments and showed statistically indistinguishable RI occurrences between the experiments with and without the WOF. They used a strip-down version of the analytical model presented here to support their numerical findings
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