How Activist Scientists And MSM ‘Gaslight’ The Public On Hurricanes

Written by Roger Pielke Jr. on January 2, 2025. Posted in Current News

Hurricanes are the poster child of climate politics, but evidence and research have not always conformed to the narrative

As you can see in the poster [below], in which the hurricane is spinning the wrong way, a popular narrative exists that hurricanes are caused by carbon dioxide emissions from power plants (or makes them more frequent, more intense, more wet, more slow, more fast).

A pseudoscientific cottage industry has sprung up that associates just about every notable hurricane with ‘climate change’.

Today, I take a look at recent efforts to attribute hurricanes to ‘greenhouse gas’ emissions.

The impacts of ‘climate change’ on hurricanes are claimed to be huge. Here are some examples from 2024:

• Hurricane Milton was 40 percent more likely.
• Hurricane Helene was more than 100 percent more likely.
• Typhoon Shanshan was 36 percent more likely.
• Typhoon Gaemi was about 50 percent more likely.
• Hurricane Beryl was almost 100 percent more likely.

Press releases making such incredible claims after every major storm are uncritically repeated by the major media around the world.

Let’s take a closer look at what lies behind these press releases. Like the hurricane spinning the wrong way in Al Gore’s movie poster, the attribution tricks sit out in plain sight, visible to anyone willing to have a look.

First Trick — Attribution Inflation

Earlier this month, Tropical Cyclone Chido made landfall in Mayotte, part of the archipelago between Madagascar and the African continent, before going inland across Mozambique. Chido was a small but powerful tropical cyclone that resulted in the deaths of almost 100 people.

In the days after the storm, the Grantham Institute at Imperial College London issued a press release claiming:¹

The IRIS model estimates that climate change uplifted the intensity of a tropical cyclone like “Chido” from a Category 3 to Category 4. A “Chido” type storm is about +40 percent more likely in the 2024 climate compared to a pre-industrial baseline.

Wow, 40 percent — that is a big number!

It is about an order of magnitude larger than the most extreme projections of the IPCC AR6 for changes in tropical cyclone intensity by 2100.

It turns out that 40 percent is actually less than three percent.

Here is the trick: The Imperial College press release claims that a storm like Chido has changed from a 1 in 13.9-year event to a 1 in 10.1-year event — In other words, from an event with a 7.2 percent chance of occurring in any year to an event with a ~10 percent chance of occurring.

Taking the claim at face value, that means that a storm like Cyclone Chido is 2.8 percent more likely (i.e., 10 percent minus 7.2 percent).

That wouldn’t sound too scary.

But if we round the return periods to 14 and 10 years respectively, and take the percentage change of the percentage change (10 percent divided by 7.14 percent) — Voila — We get a 40 percent change.

In a different context, the New York Times explains that “percentage change values may give a misleading impression of what is really happening.”

Indeed.

Second Trick — Begging the Question

The Imperial College approach to attribution assumes the conclusion that it seeks to prove. They do this by simply assuming that every storm is made stronger due to warmer oceans, which indeed have warmed due to increasing carbon dioxide and other gases in the atmosphere.

With this starting point, it is straightforward to conclude that the storm that just happened was made more likely due to ‘climate change’.

Imperial College explains:

The difference in the storm intensity and likelihood of this storm intensity between the counterfactual climate and today’s climate can be attributed to climate change.

Simple, right?

For instance, they provide an example of their method applied to Typhoon Haiyan (2013, Philippines) which :

According to IRIS, in a cooler climate without human-caused warming, typhoons as powerful as Haiyan are expected to hit the Philippines about once every 9,300 years, but in the climate with 0.8°C of warming, similar typhoons are expected to occur about once every 130 years.

Wow! Using the “percentage of a percentage” trick to characterize increased likelihood means that a storm like Haiyan was 7,000 percent more likely due to ‘climate change’.²

The problem with assuming a direct relationship between sea surface temperatures and hurricane likelihoods and return periods is that tropical cyclones are influenced by many environmental factors beyond just ocean temperatures.

The underlying theory of hurricane intensity was developed by Kerry Emanuel of the Massachusetts Institute of Technology in the 1980s to describe what he called the maximum potential intensity of tropical cyclones.

Emanuel also recognized that “hardly any storms” reach their maximum potential intensity, and fail to:

…maintain intensities near their maximum intensity for any appreciable period, even when potential intensity remains high.

This points to flaws in the notion, arising from idealized model studies, that tropical cyclones can maintain nearly steady states and shows that most storms eventually encounter adverse environmental influences, such as vertical wind shear or storm-induced ocean surface cooling, even when they remain over warm ocean water.

Such complexities mean that simple storyline attribution — warmer oceans predictably mean stronger storms — is inappropriate when used to characterize the behavior of individual storms.

But let’s go with the results of the Imperial College conclusions of an annual chance of a Chido-like storm increasing from 7.2 to ~10 percent.

How many years would it take to detect such a change in observations, using the IPCC threshold for achieving detection (90 percent confidence)?

According to ChatGPT, as you can see in a coin flip example below, more than 2,100 years.³

Even if storms like Chido were now 2.8 percent more likely, it would take a very, very long time to detect such a change.

Perhaps that is why assumptions are favored over evidence.

Third Trick — Ignoring Evidence

Image: Tu et al 2024

The figure above comes from a recent paper (Tu et al. 2024) titled — Decreasing trend in destructive potential of tropical cyclones in the South Indian Ocean since the mid-1990s.

In fact, as you can see in the figure, in no ocean basin have tropical cyclones seen an increase in their destructive potential over the past 30 years.⁴

Tu et al. explain (emphasis added):

Here we investigated changes in the destructiveness of tropical cyclones worldwide using the power dissipation index and found that there is no clear trend in most basins, but a significant decrease in power dissipation index has been detected in the South Indian Ocean basin since 1994, which is almost entirely due to a decrease in both tropical cyclone frequency and duration in this basin.

The South Indian Ocean is the basin where Cyclone Chido made landfall earlier this month.

See more here climatechangedispatch

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