Another notable record was that Laura was the seventh named storm to make landfall in the US so far in 2020, the most to do so before the end of August (four tropical storms and three hurricanes). This begs the question, why are so many more named storms impacting the US?
The planet has warmed significantly over the past several decades, causing changes in the environment in which extreme weather events are occurring.
The study found that hurricanes, typhoons, and tropical cyclones worldwide are becoming stronger and potentially more deadly as the globe warms due to the climate crisis.
What makes a hurricane powerful?
One way a hurricane strengthens is by traveling over warm water. Ocean surface water temperature needs to be at least 80 degrees — more than 86 degrees Fahrenheit is ideal — with that heat extending beneath the surface. High-altitude winds need to be calm, so they don’t disrupt thunderstorm activity.
When Laura moved through the Gulf of Mexico, sea surface temperatures were in the upper 80s.
A storm’s internal conditions also must be exactly right. A hurricane needs a way to ventilate, much like a car engine, so it can continue to process all of the fuel from the warm water and use it to strengthen the storm.
According to the National Hurricane Center, rapid intensification is when a tropical system sees a sustained wind increase of at least 35 mph in 24 hours or less. Laura’s wind speed increased 45 mph in 24 hours, going from 65 mph to 110 mph between 5 a.m. Tuesday and 5 a.m. Wednesday.
Not all climate change is equal
It is important to note that no one single storm can be attributed to climate change. Laura alone was not created solely by climate change. In fact, you could make a bigger argument that the absence of El Nino, (or even the forecast presence of La Nina) was more of a cause. But strong, rapidly intensifying storms like Laura are more likely to occur in general thanks to climate change.
So, if the ocean temperatures are much warmer than they normally would be, then storms should, in theory, be able to intensify more than they normally would, given all other circumstances are also equal.
Warmer ocean temperatures will not create a hurricane, but an existing storm system can strengthen into a more powerful storm due to warmer ocean temperatures.
But not all facets of climate change regarding tropical systems are bad. For example, wind shear — the change in wind speed and/or direction– is another element that may increase due to climate change and could be beneficial. Wind shear, if there is a decent amount of it, can actually tear tropical systems apart.
We saw this with Hurricane Marco as it moved into the Gulf of Mexico. In theory, the ocean temperatures were very warm — fuel for hurricanes to develop further — but even with that added ingredient, Marco could not overcome the strong wind shear, and associated dry air, and eventually weakened and fell apart shortly after landfall.
But there can be destructive consequences.
Excessive rain and rapid strengthening are the biggest concerns
One of the effects of climate change that scientists are most certain of is increased rainfall amounts and rainfall intensity — a result of warmer than normal ocean temperatures that create a warmer and more moist environment for the storm.
Kevin Trenberth, a senior scientist at the National Center for Atmospheric Research, previously told CNN that climate change leads to these warmer and wetter environments and sets the stage for what can be the storms’ biggest threat: heavy rainfall and flash flooding.
We saw it with Hurricanes Florence, Harvey, Michael, Dorian, and again with Laura.
Warmer oceans mean more moisture is available in a warmer atmosphere.
“It’s one of the simplest relationships in all of meteorology,” said Michael Mann, an atmospheric science professor and director of the Earth System Science Center at Pennsylvania State University.
For every 1 degree Celsius (1.8 degree Fahrenheit), there is 7% more moisture in the air. With Hurricane Florence in 2018, ocean temperatures were trending around 2.7 degrees Fahrenheit warmer than normal, which contributed to nearly 10% more moisture available in the atmosphere.
And the season hasn’t even hit its peak, which statistically occurs on September 10.