Hurricane Lorenzo Brings Category 4 Winds, And Presents an Ominous Climate Signal

Lorenzo's eye has become slightly more poorly defined in the most recent satellite imagery, but it's expected to remain a major hurricane through the weekend.
As Tropical Storm Karen withers away, Hurricane Lorenzo has become "one of the largest and most powerful hurricanes of record for the tropical central Atlantic," according to the National Hurricane Center.

Now packing 140 mph winds, Lorenzo became a Category 4 storm Thursday farther east than any other previous storm on record, save for Julia in 2010.

While far from any populous land masses at the moment, Lorenzo could be having an impact on the Azores in less than a week's time — all the while marking a potentially ominous climate signal.

The Category 4's sprawling cloud shield spans more than 1,000 miles — roughly the distance from Washington, D.C., to Miami; including its outflow, it would be large enough to cover the entire East Coast beneath overcast.
Lorenzo had the makings of a top-tier storm from the start. The National Hurricane Center delineated it as an area to watch, with a "likely" chance of development, even while it was still a mere tropical wave over the African continent.

Lorenzo quickly bloomed immediately after exiting the African coast for the tropical Atlantic Ocean, becoming a tropical storm around lunchtime Monday. Its rate of strengthening has been notable.

At 5 am Wednesday, Lorenzo was declared the fifth Atlantic hurricane of the 2019 season. A day later, the National Hurricane Center announced that it had "rapidly [strengthened] into a major hurricane." By Thursday midmorning, Lorenzo was a Category 4, its winds having jumped from 85 mph to 130 mph in 24 hours.

Lorenzo is enormous. Its hurricane-force winds extend up to 45 miles from the center, with tropical storm-force winds reaching out 265 miles. The storm would be large enough to bring tropical storm-force winds to a region as large as the distance between the Delmarva Peninsula and Toronto.

Passing over somewhat cooler water, the storm is beginning to slowly weaken. Recent satellite scans have revealed warming cloud tops, indicating slightly less vigorous updrafts within the storm's core.

Meanwhile, the eye has lost the crisp, symmetric character it had maintained Thursday. Microwave satellite imagery also suggests the inner eyewall has weakened somewhat.

Lorenzo is expected to maintain strength or gradually decline in peak winds over the coming days, but it will remain a dangerous major hurricane through the weekend. By the middle of the workweek, Lorenzo could affect the Azores, a remote island chain owned by Portugal.
For the time being, Lorenzo's dance is just a show for meteorologists. But beneath the surface, it is the latest overachieving storm to fit into a pattern ripe with overachieving storms.

Lorenzo's central air pressure was lower than that of any other hurricane on record this far east. It also became the strongest hurricane east of 45 degrees west longitude on record. Lorenzo is very much out of bounds.

It's also only the 10th major hurricane on record east of the 40 degrees west marker. Five of those have occurred in the past decade, a number that National Hurricane Center forecaster Eric Blake called "probably no coincidence." Ocean water temperatures in the corridor swept over by Lorenzo are up to a few degrees warmer than their former average baseline, making the lower atmosphere replete with fuel to spin up a beastly storm.

Hurricanes are the atmospheric equivalent of large heat engines; with more thermal heat input by the ocean as seas continue to warm, scientists have concluded that more of these higher-end storms are likely in the future.

A summary of available research from NOAA's Geophysical Fluid Dynamics Laboratory notes that "tropical cyclone intensities globally will likely increase." An increase in the most intense tropical cyclones, Category 4s and 5s, may already be underway. Each of the past four Atlantic hurricane seasons has featured at least one Category 5.

James Elsner, a professor of meteorology at Florida State University, notes that a marked increase in the maximum intensity of the strongest tropical cyclones has been observed, in particular over the Atlantic. The most recent spate of hurricane activity has bolstered this link.

Emerging research also suggests that the latitude at which storms reach their maximum strength may be slowly shifting north, elevating risk for some of the more populous land masses along the northern periphery of traditional Hurricane Alley.

2019 © The Washington Post

This article was originally published by The Washington Post.


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