How Activist Scientists Enforce Climate Misinformation Through Nefarious Tactics

Written by Roger Pielke Jr on August 22, 2023. Posted in Current News

This post is inspired by the successful efforts last week of climate activists — including three widely-cited scientists — to enforce misinformation by the legacy media

In a nutshell, ABC News wrote an accurate story about how the climate was not a major or even significant factor in the Lahaina, Maui, fire and disaster.

After being mobbed by the enforcers, the story was changed to emphasize the role of climate.

These sorts of activist scientists who seek to enforce preferred public narratives have been called the “science police.”

Today’s post pushes back against this narrative enforcement with some actual science. 

Have a look at the panel below. It shows three versions of a climate time series for annual counts of North Atlantic major hurricanes from 1995 to 2050. Two of the graphs include a large change in climate, but one of them does not.

Please take a moment to consider which of the three panels you think includes ‘climate change’, which does not, and why you came to that judgment.

Here’s the answer.

• The top panel takes annual counts of major hurricanes in the North Atlantic to create a probability distribution based on actual data from 1945 to 2022. For 2023 to 2050, the annual counts are randomly selected from this distribution.
• For the middle panel, I took this probability distribution based on observations and shifted it — starting instantaneously in 2023 — one count to the right (so, for example, the probability of having 3 major hurricanes becomes the probability of having 4, and so on). This large shift is much larger than changes in counts projected for 2100, but this is just an exercise.
• The bottom panel shows a time series based on a shift of 2 counts to the right, representing a much larger change in probabilities.

You can see the three probability distributions in the figure below, with colors to match the panel above. This sort of figure has become common in climate discussions, and you can see an example in the header picture.

Let me suggest two important lessons from this exercise.

First, neither of the series in the top panel comes anywhere close to meeting the IPCC criteria for the detection of ‘climate change’.

But wait a second there! We know that in the time series, the climate has in fact changed — because I changed it — as shown in the shifted probabilities.

So, what gives?

It is not just possible, but often likely, that for specific climate variables, the underlying climate changes, and yet the consequences of those changes are not detectable in short (climatically speaking) time series.

I chose the period 1995 to 2050 because over that time frame my kids will enter their 50s, and be about my age today. It’s the same as me looking at a time series from the 1960s to today. In practice, a lot of climate research on detection and attribution uses much shorter time series.

It is standard today for climate advocates to link every extreme weather event and disaster to ‘climate change’.

My suspicion is that when they do so they are not actually saying anything about the detection or attribution of changes but rather, they are simply witnessing the reality of ‘climate change’ and its deep importance to them.

Part of this witnessing may be to preemptively defend against concerns that if climate changes are not perceived to be large enough, people won’t have enough fear — no one wants to be accused of minimizing ‘climate change’.

Lesson: Just because the signal of ‘climate change’ for particular variables cannot (yet) be detected in the context of historical variability does not mean that ‘climate change’ is not real or important, and in many if not most cases a lack of signal is to be expected.

In fact, that is exactly what the IPCC concludes with respect to most extreme weather events, as shown in the table below and discussed here.

The white cells show where signal detection is not expected to be unequivocally achieved at present, by 2050, or by 2100 (respectively in the three right-most columns).

Advocates who promote every extreme event as being caused by, linked to, made worse by, or fueled by ‘climate change’ are promoting misinformation in almost all cases.

It is an expression of faith, not science. This complicates public discussions of detection and attribution.

Some people are expressing a deeply held religious-like sentiment, and others are talking about data and evidence.

No wonder people talk past each other.

Second, you’ll note in the top figure in the panel above — the one with the black linear trend line — that there is a large decrease in major hurricane activity in the North Atlantic from 1965 to 2050. There were about four per year at the start of the time series and only two at the end, a drop of 50 percent.

That decrease is real in the sense that there are fewer major hurricanes toward the end of this record as compared to the beginning, but it has nothing to do with a change in the climate, as the annual probabilities do not change over the entire data range.

Compare the figure below, which shows the entire dataset from which the top figure in the panel above was taken. The below figure shows 1945 to 2080 and you can see an increase of 50 percent from the start to the end — but this trend also is not the result of a change in climate, as the annual probabilities are constant.

So, what gives?

Many climate variables exhibit large variability — since 1945 we’ve observed anywhere from 0 to 7 major hurricanes yearly in the North Atlantic, that’s a huge variation.

The three probability distributions graphed above represent annual counts of major hurricanes of 2.6 based on observations (black), and about 3.6 (red) and 4.6 (green) in the two shifted probabilities.

The shifted probabilities represent increases in major hurricane annual counts of ~40 percent and ~80 percent — much larger than almost all model projections assessed by Knutson et al. for 2100 (and many actually project a decrease).

Many projected changes in the behavior of extreme events due to ‘climate change’ are in fact small in the context of historical variability.

That is just a fact — have another look at the IPCC table above.

Further, historical variability is sufficiently large that we can look at various time series and fool ourselves into thinking we see change when all we are observing is cherry-picked variability (see the two-time series above with the black linear trends).

Lesson: Natural variability is real and significant. It does not mean that ‘climate change’ is not real or important, but that detecting signals is often difficult even when climate is changing and there is always a risk of erroneously detecting signals where none is present.

There is a good reason that ‘climate change’ has been detected and attributed by the IPCC for temperature and precipitation at large spatial scales — this is where we have the most measurements and through aggregation, variability becomes smaller, making it easier to separate signal from noise.

Consider that there are millions of measurements of temperature and precipitation around the world, but there were only 78 major hurricanes in the North Atlantic from 1945 to 2022 — numbers matter!

But even for temperature, at local levels detection and attribution are challenging, as climate scientists Ed Hawkins explains (emphasis added):

The signal of temperature change varies spatially, as does the size and timing of the natural fluctuations of temperature. Together, these two aspects combine to produce the local experience of how the climate is changing.

For the public, this is critical – it is extremely difficult to detect trends over decadal timescales for individual locations, especially in regions of high variability . . .

The challenges of detection and attribution should tell us that both adaptation and mitigation policies must be built upon a foundation that involves justifications for action that are much broader than ‘climate change’ alone.

So far, climate advocates have sought to shape perceptions of science to support a ‘climate-change’-is-everything agenda. We will have a lot more success if we instead shape policy to align with what science actually says.

See more here climatechangedispatch

Header image: KNTV

About the author: Roger Pielke Jr. has been a professor at the University of Colorado since 2001. Previously, he was a staff scientist in the Environmental and Societal Impacts Group of the National Center for Atmospheric Research. He has degrees in mathematics, public policy, and political science, and is the author of numerous books. (Amazon).

Please note: PSI does not necessarily endorse the views of each and every article we publish. Our intention is to encourage open, honest, scientific debate.

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