Hurricane Ida hit the Louisiana coast with 150 mph winds on Aug. 29, 2021, 16 years to the day after Hurricane Katrina devastated New Orleans on nearly the same path.
Ida was one of the most intense tropical storms on record in the state. Its storm surge was less than Katrina’s, but it quickly flooded streets and homes outside the levee system where many residents were under mandatory evacuation orders.
Most of New Orleans’ rebuilt levees appeared to have held, but the powerful winds tore up roofs, knocked down trees and caused “catastrophic damage” to transmission lines, cutting power across the region.
Four articles from our archives, written by meteorologists and atmospheric scientists, offer some insight into why the New Orleans area is at high risk for intense hurricanes and what climate change has to do with these powerful storms.
1. Some areas are more prone to hurricane damage
New Orleans is among the most at-risk places along the U.S. coast for hurricanes. An analysis by the National Oceanic and Atmospheric Administration estimated the area was likely to see a hurricane within 50 nautical miles about once every seven years and a major hurricane about every 20.
Several characteristics can put a region at higher risk for destructive hurricanes, University of Florida meteorologist Athena Masson explained.
One factor is timing, she wrote. Storms tend to hit Texas and the Atlantic Coast earlier in the season, while the northern Gulf Coast is at higher risk from late August into October. Trade winds tend to push storms away from the western Gulf later in the fall.
Another is the shape of the sea floor. A shallow continental shelf like Louisiana’s can generate a powerful storm surge. Parts of the coast were inundated with more than 9 feet of water as Ida arrived.
Conditions along the storm’s path, particularly the water temperature, largely determine whether a tropical storm becomes a dangerous hurricane, Masson said.
“Three key ingredients are needed for a hurricane to form: warm sea surface water that’s at least about 80 degrees Fahrenheit (26.5 C), a thick layer of moisture extending from the sea surface to roughly 20,000 feet, and minimal vertical wind shear so the thunderstorm can grow vertically without interruption,” Masson wrote.
Hurricane Ida had all three. The Gulf of Mexico’s surface was exceptionally warm as Ida moved through, with temperatures around 85 to 90 F (29.4 to 32.2 C). The storm also had plenty of moisture and very little wind shear to stop it.
2. What does climate change have to do with hurricanes?
The 2020 hurricane season broke records with 30 named storms, seven major hurricanes of Category 3 strength or higher, and 10 storms that underwent rapid intensification like Ida did before making landfall. (Related: 2020 Hurricane Season is Likely to be More Active Than Usual)
In analyzing the 2020 season, atmospheric scientists James Ruppert at Penn State and Allison Wing at Florida State University discussed climate change’s role in raising hurricane risks.
On the question of whether climate change affects the number of hurricanes, there is no detectable global trend in hurricane frequency, and studies using computer models have had conflicting results, Ruppert and Wing wrote. But, they said, there is a trend toward more intense storms – those that are Category 3 and higher, like Hurricane Ida.
“Since ocean temperature controls the potential intensity of tropical cyclones, climate change is likely behind this trend, which is expected to continue,” they said. “The U.S. is also seeing more storms with extreme rainfall. With warmer temperatures, more water is able to evaporate into the atmosphere, resulting in greater moisture in the air.” (Related: Warmer Oceans Will Make Hurricanes More Intense)
3. Climate change and storm surge
Climate change also affects the level of hurricane damage in another way: It gradually increases the risk from storm surge.
Storm surge – the huge volume of water that the hurricane pushes on shore – is one of the greatest threats to life and property from any hurricane. The height and extent of the storm surge depend on the strength and size of the hurricane, but sea level rise is raising the baseline height of the ocean, Penn State meteorologist Anthony Didlake Jr. explained.
“As water warms, it expands, and that has slowly raised sea level over the past century as global temperatures have risen. Freshwater from melting of ice sheets and glaciers also adds to sea level rise. Together, they elevate the background ocean height,” Didlake wrote. “When a hurricane arrives, the higher ocean means storm surge can bring water further inland, to a more dangerous and widespread effect.”
4. The IPCC on hurricanes
The latest global climate analysis from the United Nations’ Intergovernmental Panel on Climate Change offered similar conclusions.
It discussed evidence that hurricanes are now more intense than they were 40 years ago, are intensifying more rapidly and are slowing in their forward movement, leading to more rainfall. The influence of greenhouse gas emissions in these changes is still being determined; reductions in particulate pollution have also had important effects, said Robert Kopp, an author of the report’s chapter on oceans and sea level rise.
“The clearest effect of global warming is that a warmer atmosphere holds more water, leading to more extreme rainfall, like that seen during Hurricane Harvey in 2017,” Kopp explained. “Looking forward, we expect to see hurricane winds and hurricane rains continue to increase.”
About this Article
Editor’s note: This story is a roundup of articles from The Conversation’s archives.
Stacy Morford, Environment + Climate Editor, The Conversation
This article is republished from The Conversation under a Creative Commons license. Read the original article.