Genuine Increases in Tropical Cyclone Intensities

TL;DR

This paper reanalyzes satellite data on tropical cyclone intensities, revealing that recent increases in strong storm observations are genuine and not solely due to fewer weak storms, especially when extending the record through 2023.

Contribution

It extends previous analyses by incorporating data through 2023, demonstrating that the observed intensification trend is real and driven by increases in strong storm observations.

Findings

C3-C5 storm observations increased after 2017.

The trend is now driven by more strong storms, not just fewer weak storms.

The genuine intensification signal is confirmed with extended data.

Abstract

Kossin et al. (2020) report a rising ratio of satellite observations of major C3-C5 storms relative to all C1-C5 storms from 1979 to 2017. Decomposing their R = N(C3+)/N(C1+) statistic into per-category shares shows that their trend was driven primarily by fewer C1 rather than more C3-C5 observations. From the first half to the second half of their sample period, their per-year C1 observations fell by 17%. However, extending the record through 2023 greatly changes the picture. Although the relative decline in C1 observations persists, C3 and C4 observations now increase, too. The signal about the intensification of storms now becomes genuine in the extended sample, in that it is driven no longer only by fewer weak but now also by more strong tropical cyclone observations.