Colorado State University Tropical Weather and Climate Research

Research

Human societal impacts

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Why was the 2018 Atlantic hurricane season more active than anticipated and how we can better characterize uncertainty in seasonal hurricane forecasts?

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Group Members: Philip J. Klotzbach , Michael M. Bell

Our group at CSU collaborated with Tropical Storm Risk, based at the University College-London, to investigate the 2018 Atlantic hurricane season in detail. We noted that the season was more active than was anticipated by seasonal forecasts issued prior to the peak of the season (e.g., before mid-August). The season was also more active than would be anticipated given long-term historical relationships between large-scale conditions known to impact Atlantic hurricanes during the peak of the season (August-September) and Atlantic hurricanes. The season ended up above-average for most TC parameters, despite above-normal tropical Atlantic vertical wind shear, below-normal tropical Atlantic SSTs and borderline weak El NiƱo conditions - all of which generally lead to below-average Atlantic hurricane activity. Much of the activity in 2018 occurred at higher latitudes, where Atlantic seasonal TC forecasts generally have little (if any) predictability. Our study argues that probabilistic methods be used to issue Atlantic seasonal forecasts in future years, in order to better account for these types of outlier seasons.


How do maximum sustained wind and minimum sea level pressure relate to normalized damage?

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Group Members: Philip J. Klotzbach , Michael M. Bell

Atlantic hurricanes have historically been categorized using the Saffir-Simpson Hurricane Wind Scale, which ranks hurricanes based on their maximum sustained wind (e.g., Vmax). In this study, we investigate whether Vmax or minimum sea level pressure (MSLP) historically has worked as a better predictor of continental US hurricane landfall damage. We use the normalized hurricane damage dataset from Weinkle et al. (2018) and show that MSLP (r = 0.77) has a more significant correlation with damage than has Vmax (r = 0.66) for 165 continental US landfalling hurricane events since 1900 (Figure 7). The relationship has been much stronger for MSLP in recent years, where recent hurricanes like Ike (2008) and Sandy (2012) have done much more damage than would have been expected from their Saffir-Simpson Hurricane Wind Scale ranking. MSLP has also been a much better predictor of damage for hurricanes making landfall from Georgia to Maine, where hurricanes tend to be larger and more sprawling.