Abstract
Changes in the translational speed of tropical cyclones (e.g., sluggish tropical cyclones) are associated with extreme precipitation and flash flooding. However, it is still unclear regarding the spatial and temporal variability of extreme tropical cyclone translation events in the North Atlantic and underlying large-scale drivers. This work finds that the frequencies of extreme fast- and slow-translation events of Atlantic tropical cyclones exhibited a significant rising trend during 1980–2019. The extreme fast-translation events of Atlantic tropical cyclones are primarily located in the northern part of the North Atlantic, while the extreme slow-translation events are located more equatorward. There is a significant rising trend in the frequency of extreme slow-translation events over ocean with no trend over land. However, there is a significant rising trend in the frequency of extreme fast-translation events over ocean and over land. The extreme slow-translation events are associated with a strong high-pressure system in the continental United States (U.S.). By contrast, the extreme fast-translation events are related to a low-pressure system across most of the continental U.S. that leads to westerly steering flow that enhances tropical cyclone movement. This study suggests that it might be useful to separate tropical cyclone events into fast-moving and slow-moving groups when examining the translational speed of North Atlantic tropical cyclones, instead of examining regional or global mean translational speed.
Highlights
Tropical cyclone rainfall is closely related to flash flooding, landslides, and debris flow [1,2,3,4,5,6,7]
The extreme fast translational speed may be associated with the impacts of jet streams on tropical cyclone movements after recurvature
Tropical cyclone translational speed has been a hot topic over the years due to its close linkage with tropical cyclone rainfall, during and after landfall
Summary
Tropical cyclone rainfall is closely related to flash flooding, landslides, and debris flow [1,2,3,4,5,6,7]. The extreme rainfall caused by landfilling hurricanes has wreaked havoc to coastal regions along the U.S coast [8,9,10,11,12,13,14,15]. Hurricane Harvey led to flash flooding in Houston and claimed casualties [8,9,10,11,12]. Hurricane Florence caused extreme water-related hazards in North Carolina [13,16]. The extreme hazards related to hurricanes Harvey and Florence are closely associated with extremely slow translation [13,15,16]. As the translational speed of tropical cyclones is closely associated with rainfall amount and flash flooding [8,9,17,18,19], it is of central importance to understand the spatial and temporal variability of tropical cyclone translation and underlying synoptic patterns
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