Latest hurricanes aren't rewriting the record books, says official keeper of weather extremes


An aerial shot of Hurricane Irma

NOAA's GOES East satellite captured this infrared image of Hurricane Irma in the Bahamas on Sept. 8. Photo by NASA/NOAA GOES Project

|

Hurricanes Harvey and Irma decimated Florida and the Houston area with destructive winds and torrential rains. These intense hurricanes leave everyone drained, but there is more. A third storm, Jose, is brushing the Atlantic seaboard. A fourth, Maria is lashing Puerto Rico and the Dominican Republic before it turns north towards the U.S.

So what’s up with the weather? Are these storms the most intense faced by the U.S.? Are they being amplified by climate change?

Randy Cerveny, a climatologist and an ASU President’s Professor in the School of Geographical Sciences and Urban Planning, says that although these storms are huge and impressive, they are not rewriting the record books. Cerveny is the rapporteur on climate extremes within the United Nations-affiliated World Meteorological Organization. He literally is the keeper of Earth’s weather extremes, recording and verifying (or repudiating) weather extremes as they are reported around the world.

Cerveny talks about Harvey, Irma, Maria, a warming planet and the effects of human activity on the Earth.

Question: Was Irma a record-setting hurricane?

Answer: While Irma was without question nasty, it wasn't globally record-setting. The world’s records for most intense hurricane (by wind speed) remain tied: Sustained winds of 215 mph for Typhoon Nancy (1961) in the northwestern Pacific Ocean and Hurricane Patricia (2015) in the eastern Pacific Ocean. Irma’s 185 mph winds were some of the strongest recorded in the Atlantic. Irma also sustained those winds for a very long time, and we will be evaluating the data to see if it set a record for the Atlantic basin in terms of longest sustained winds. However, there have been two previous Category 5 hurricanes that were Category 5 at the time they made landfall in Florida: The 1935 Florida Keys “Labor Day” hurricane, and Hurricane Andrew, which hit Dade County, Florida, on Aug. 24, 1992. Irma was a Category 4 storm when it made landfall.

Beyond Florida, the strongest hurricane to make landfall in the U. S. (and the only other Category 5 hurricane to make landfall as a Category 5) was Hurricane Camille, which hit Mississippi in 1969. 

Q: With Harvey, Irma and now Maria, are we experiencing more hurricanes now than in previous years?

A: No. This is the normal time (early- to mid-September) that we have the peak of the Atlantic hurricane season. Over the last couple of years, the Atlantic has been relatively quiet due in part to the extraordinary El Niño episode in the Pacific. However, this does demonstrate the accuracy of our long-term seasonal hurricane predictions as this year was predicted to be an above-average hurricane year.

Q: The hurricanes seem bigger and stronger than previous years. Is that true?

A: There is some theoretical research suggesting that with global warming, hurricanes may increase in size and intensity, but there is still much debate about that in the scientific community. In general, hurricanes have not changed much in the last few decades in terms of size or intensity. The last hurricane of Category 5 strength to hit the United States was Andrew (1992). The difference is the coverage of tropical cyclones (via 24/7 news and social media) that brings tropical storm activity much more into public attention.

Q: Might climate change make these storms more severe?

A: A lot of things impact hurricanes but, yes, in general, a warmer climate produces hotter ocean surfaces and more evaporation. Because it is water that powers hurricanes, hotter oceans and more evaporation should produce, in part, more intense hurricanes. The problem is that there are many other factors that also impact hurricanes. For example, “wind shear,” the variations in wind speed and direction with height, can also cause storms under certain circumstances to weaken or to intensify. The impact of climate change on those many other factors is still being studied.

Q: What is fact/fiction in terms of climate change making storms worse?

A: In general, hurricanes are producing more rain due to climate change. Warmer warms and more evaporation put more moisture into the atmosphere, so increased precipitation can occur. With that said, Hurricane Harvey’s incredible rainfalls were primarily the result of the hurricane abruptly stalling along the Texas coast (due in part to a giant ridge of high pressure in the Southwest). That lack of movement allowed for continued rainfall over many days — and that led to massive flooding.

It is always difficult to attribute one storm’s impact to climate change. Just as it is absurd to say that a single major snowstorm in the winter contradicts anthropogenic global warming theory, it is equally absurd to say that one hurricane in summer confirms global warming theory. Climate is “long term,” while meteorology is “short term.” As climatologists, we look at long-term (years to decades) averages of hurricanes (size, intensity, frequency), for example, to establish the impact of climate change, not single storms.

Q: What types of weather are we experiencing a spike in?

A: Most computer climate models indicate an overall increase in precipitation for a warming planet. Again, that generally is the result of warmer ocean temperatures leading to greater evaporation and, consequently, more fuel for heavier rains. Conversely, most computer climate models also indicate shifts in circulation patterns that might produce greater droughts for regions of Earth. So in general the models are indicating an overall greater variability in some aspects of climate (greater floods but also more intense droughts) with a warming planet.

Q: Is there anything else we should know about the current state of weather and how human activity might be affecting it?

A: One thing that is important to realize is that we are influencing climate and environment at all scales, not just the global scale. Some of the really big problems associated with Hurricane Irma, in terms of damage and flooding, can be attributed as the direct result of human activity over the last 50 years — not so much at the global scale but at local and regional scales. By changing the environment from the Florida marshlands (e.g., Everglades) to massive urban and suburban landscapes, humans have dramatically increased the damages associated with hurricanes. This is because the marshlands have, in the past, acted as critical barriers and reservoirs for storm-surge flooding and rainfall associated with hurricanes like Irma. 

In addition, the leveling and paving of roads and housing developments doesn’t allow the rains to run off as they would in natural marshlands. Sustainability with regards to climate change isn’t just at the global scale; it really begins at the local and regional scales.

More Science and technology

 

Photo of the ISPMHA group at ASU with Olivia Davis in the center

ASU postdoctoral researcher leads initiative to support graduate student mental health

Olivia Davis had firsthand experience with anxiety and OCD before she entered grad school. Then, during the pandemic and as a…

Silhouettes of an adult and a child facing each other.

ASU graduate student researching interplay between family dynamics, ADHD

The symptoms of attention deficit hyperactivity disorder (ADHD) — which include daydreaming, making careless mistakes or taking…

Portrait of Shaopeng Wang.

Will this antibiotic work? ASU scientists develop rapid bacterial tests

Bacteria multiply at an astonishing rate, sometimes doubling in number in under four minutes. Imagine a doctor faced with a…