Erin not only rapidly intensified between Friday and Saturday, but also had an extremely rapid intensification. On Friday morning, Erin was a tropical storm with maximum sustained winds of 70 mph. By 11 a.m. on Saturday, the National Hurricane Center indicated that Erin had gained major catastrophic maximum sustained winds of 160 mph. This is an intensification of 85 mph in 24 hours.
Rapid intensification has become more common in the last few decades. Studies have shown that rapid specification is due to having warmer ocean waters.
Warmer ocean waters are one of the many phases of climate change. Climate Central, a nonprofit climate organization, did a study at the end of 2024 analyzing the 2024 hurricane season. The results showed that warmer water has contributed to stronger storms. Warmer waters made Helene have maximum sustained winds 10 mph stronger than they would have been if there were no climate change. Similar trends were found with hurricane Beryl and hurricane Milton.
We know that hurricane categories are solely focused on the maximum sustained winds. A warming climate not only brings warmer ocean waters, but with warmer ocean waters, there’s more evaporation, which is released into the atmosphere and held above until it has only one way to go: down as rain.
Rapid intensification vs. extreme rapid intensification
Focusing solely on rapid intensification as it is scientifically and meteorologically described, a storm must intensify by 35 mph during 24 hours to be considered rapid intensification. But a rapid extreme intensification is defined as a storm that intensifies at least 58 mph during 24 hours.
The trend shows that rapid extreme intensification is becoming more common this century, with over a dozen storms that have intensified at least 58 mph in a day, in recent decades.
Hurricane Erin
Luckily, Hurricane Erin is expected to stay north of the Caribbean and well away from the Eastern Seaboard. Nonetheless, parts of the East Coast of the United States will have indirect impacts from this major hurricane. Erin is expected to remain as a major hurricane, at least category three, through the rest of next week. This is a monster of a storm that will expand its windfield as it moves northward over the warm Atlantic waters. This expansion in the windfield will cause high wave action from much of the east coast of Florida northward through the Carolinas, and perhaps even through the northeast. There will also be a high risk for rip currents throughout much of the week. Please stay off the water. Wave heights could exceed 10 feet.
ACE is a metric used to quantify the overall activity of tropical cyclones, particularly during hurricane seasons. It combines the intensity and duration of storms into a single value, providing a measure of the total energy expended by tropical cyclones in a given period, typically a hurricane season.
Erin is expected to maintain at least a category three status through much of the week. This storm is releasing a lot of energy. A factor measured in storms is the ”Accumulated Cyclone Energy” or ACE. It is very possible that the accumulated cyclone energy would beat records. According to preliminary calculations, Erin’s total ACE could surpass the entire ACE of the 2013 hurricane season. By the way, the 2013 hurricane season was the last season without any major hurricanes.
(Except for the headline, this story has not been edited by PostX News and is published from a syndicated feed.)
