Tropical Storm Alex (2022)
Tropical Storm Alex was a strong and fast moving tropical storm that caused flash flooding in western Cuba and South Florida while developing into the first named storm of the 2022 Atlantic hurricane season. Alex originated from a broad area of low pressure partially related to the remnants of Hurricane Agatha in the Eastern Pacific. The National Hurricane Center initiated advisories on it as Potential Tropical Cyclone One over the eastern Yucatán Peninsula on June 2. Wind shear and dry air kept the system disorganized until after it crossed Florida two days later. Finally, on June 5, the system became sufficiently organized and was named Alex while located north of Grand Bahama Island. Later that same day, Alex's winds briefly strengthened to. The storm brought rain and strong winds to Bermuda on June 6, before becoming a post-tropical cyclone that same day. Alex formed four days after the official start of the season, making the 2022 Atlantic hurricane season the first since 2014 not to have a pre-season named storm.
There were no reports of damage or casualties associated with Alex while it was a tropical storm. Its precursor disturbance, however, flooded streets and caused numerous power outages in Florida. Additionally, in Cuba, the storm caused flooding and mudslides, which killed four people, damaged dozens of homes and knocked out electricity in various areas.
Meteorological history
On May 31, a large low-pressure area developed near the Yucatán Peninsula, partially related to the Pacific basin remnants of Hurricane Agatha interacting with an upper-level trough over the Gulf of Mexico. The low produced a large area of disorganized showers and thunderstorms as it moved across the Yucatán over the ensuing few days. Due to the prospect that the disturbance might become a tropical depression or tropical storm with impacts in portions of Florida and western Cuba, it was designated as Potential Tropical Cyclone One on June 2, while located about north-northwest of Cozumel, Quintana Roo. Around this time, surface observations and satellite imagery noted that the system remained disorganized due to southwesterly wind shear, with deep convection displaced from the estimated center.Early on the following day, Hurricane hunters estimated that the system was producing tropical storm-force winds and reported a low-level wind shift, but found no conclusive evidence of a closed circulation. Scatterometer data early on June 4 indicated the system had an elongated region of light winds and still lacked a well-defined center. Shortly after 12:00 UTC, the system struck the west coast of Florida between Cape Coral and Naples. After moving into the Atlantic later on June 4, the system's circulation started to become better defined. At 00:00 UTC on June 5, the disturbance finally established a well-defined center with sufficient convection, becoming Tropical Storm Alex approximately about north of Grand Bahama Island. By 18:00 UTC, Alex reached its peak intensity with maximum winds of and a minimum central pressure of. After peaking, it weakened slightly and began to lose its tropical characteristics. By 12:00 UTC on June 6, the storm had transitioned to a post-tropical cyclone about north-northwest of Bermuda. Then, 12 hours later, the cyclone was absorbed within a baroclinic zone. A few hours later however, a new area of low pressure formed in association with the deepening trough. And, energized by Alex's remnants, it soon was producing hurricane-force winds as it moved over the central Atlantic, On June 10–11, the new low passed between Iceland and the northern coast of the United Kingdom near the Faroe Islands. Then, it rapidly weakened while moving toward Norway which it reached on June 13.