Media Rush To Link April Snowstorms To Global Warming
Last week, the Great Plains and upper Midwest were pummeled with a late-season blizzard.
A wide swath of 10- to 20-plus inches of snow buried parts of Nebraska, South Dakota, North Dakota, Minnesota, and Wisconsin, with the highest totals in the 20- to 30-inch range centered in far western Minnesota and much of South Dakota (Figure 1).¹
The storm was not technically a “bomb cyclone” because the air pressure didn’t drop 24 millibars within 24 hours, although it did get close.
Figure 1. Observed snowfall from Winter Storm Wesley – NWS Twin Cities.
The highest official snowfall report was 30.8 inches in Wallace, South Dakota, although higher amounts in scattered areas were more than likely.²
On top of that, an ice storm occurred in numerous Midwestern states, a dust storm moved through the southern Plains, and 80 mph wind gusts were observed in Texas and New Mexico, while thundersnow was reported in other locations.²
The cyclone’s size and intensity were very impressive and the snowfall amounts recorded were stunning; in fact, they would have been substantial had the blizzard occurred even in the depths of winter.
The storm system came after the “bomb cyclone,” which passed through the same area only three weeks prior, causing major flooding issues in Nebraska and nearby states.
This was because the near-record cold during February caused the ground to freeze, and with snowmelt and rainfall, all of that water couldn’t seep into the ground leading to widespread flooding.
This didn’t stop journalists from going into overdrive about the storm. Numerous articles, including the one below from CBS News (Figure 2), surfaced claiming that last week’s storm was “caused by climate change,” just like every single weather event “seems” to be a result of these days.
Figure 2. Spring blizzard fueled by Arctic warming, climate change – CBS News.
Is climate change really causing April snowstorms to occur in the Great Plains and Midwest, or is this a rare, but NOT unheard of occurrence? Let’s put this theory to the test and see if it makes any sense.
“Over the past couple of decades, the Arctic has warmed much faster than of the mid-latitudes, especially in winter. Warming of the globe is being caused by heat trapping greenhouse gases produced by the burning of fossil fuels. In the Arctic this warming effect is enhanced by melting sea ice. Ice typically reflects sunlight, keeping the Arctic cool. But since 1970 Arctic sea ice volume has decreased by 50%. Right now, Arctic sea ice extent is at record low levels.”
Jeff Berardelli, Spring blizzard fueled by Arctic warming, climate change (CBS News, 12 Apr. 2019).
It is indeed true that the Arctic has warmed more than the mid-latitude regions and tropics over the past 40+ years, resulting in an energy imbalance.
Daily mean temperature data from the Danish Meteorological Institute (DMI) shows this very well. Figure 3 below shows the daily mean temperatures for the Arctic in 1970 for the entire course of the year, where the red line represents the observed mean temperatures, and the green line is the average.⁴
It is clearly evident that temperatures were average to slightly below average during 1970 throughout the entire year, with stronger fluctuations during the winter (Figure 3).
Figure 3. Daily mean temperatures in the Arctic (1970) – DMI
Looking at last year’s (2018) data, it is easy to see that the wintertime temperatures were generally warmer than average, while summertime temperatures remain unchanged from where they were in 1970 (Figure 4).
Figure 4. Daily mean temperatures in the Arctic (2018) – DMI
This is where the term “Arctic Amplification” comes in; a greater change in temperatures near the poles compared to the rest of the globe.³
Arctic Amplification is generally more pronounced during the winter months. The maps below from WeatherBELL Analytics shows this visually (Figure 5).⁵
When you look at the two months, – January and July 2018 – it is clearly evident that the tropics and mid-latitudes see very little change in temperatures relative to average, while the polar regions, especially the Arctic see a very large contrast from winter to summer.
Figure 5. Global temperature anomaly maps (January and July 2018) – WeatherBELL Analytics.
So what’s causing this “Arctic Amplification?” The media, as usual, is claiming that this is due to atmospheric carbon dioxide.³
However, it is highly unlikely that a trace gas (CO2) in our atmosphere at 0.04%, is causing all of this warming in the Arctic, despite the fact that carbon dioxide is, in fact, a greenhouse gas.⁶
What else could it be? Well, the CBS article also stated that loss of sea ice in the Arctic is helping amplify the “carbon dioxide-induced” warming.³ However, this claim is unjustified considering that sea ice is pretty extensive right now (Figure 6).⁵
Figure 6. Sea ice cover (April 13, 2019) U.S. National Ice Center – WeatherBELL Analytics.
The only other plausible explanation can be increased water vapor levels in the atmosphere. Water vapor generally comprises 1% to 4% of the entire volume of the atmosphere, as it is highly variable by region and by season.⁶
It is well-known that water vapor is the strongest greenhouse gas in Earth’s atmosphere, thus increasing its concentration would result in amplified warming.⁷
Given the fact that ocean cycles (AMO and PDO) are currently in their “warm modes,” it’s no surprise that more evaporation of water is occurring, leading to increased concentrations of water vapor in Earth’s atmosphere.⁷
One could argue that the warmer oceans are being caused by carbon dioxide increase, however, this does not stack up because the heat capacity of the ocean is far greater than that of the atmosphere, which means that what is happening in the atmosphere is likely not driving the oceans.⁷
The CBS article goes on and on about how the Arctic Amplification is resulting in a “wall of red” over Canada and Alaska forcing colder air to be shoved southward (Figure 7).³
However, the honest explanation of this requires a knowledge of meteorology and basic laws of physics. Any meteorologist or weather forecaster should understand Newton’s laws of motion.
The most important of these laws for our case is Newton’s third law, which states that for every action, there must be an equal and opposite reaction.⁸
Therefore, for every ridge (warm air) of high pressure, there must be a trough (colder air) of low pressure, which is exactly what we see in the diagram below.³
This happened because the atmosphere was trying to balance itself out, as it’s always attempting to do; and maybe it was amplified by water vapor’s warming effects, but it did not occur because of carbon dioxide.
Figure 7. 2-meter temperature anomaly – April 11, 2019.
The article did do a great job explaining how the cyclone was amplified by natural aspects, including the fact that moisture was advected (horizontally transported) out of the Gulf of Mexico, which was anomalously warm, and how the clashing of the different air masses both intensified the storm.³
Of course, the warm Gulf was “caused by climate change” too, but the fact of the matter is that a warmer Gulf just happened to be present at that time, which allowed ridging (high pressure) to develop in the southeastern United States creating a nice southerly flow of moist, warm air from the Gulf.
This entire setup was ideal for this intense storm system to occur, it could have been predicted before computer modeling showed it.
Earlier in this article, I mentioned that these late-season snowstorms are rare, but NOT unheard of occurrences.
If we look at our weather history (thank you Farmer’s Almanac), it turns out that April snowstorms indeed happen in the Great Plains and upper Midwest (Figure 8).⁹
Figure 8. Notable Plains and upper Midwest snowstorms. – Farmer’s Almanac.
The reason I go to a historical perspective on this is that late-season snowstorms of the past occurred without any climate change attribution.
It’s only proper to question why storms like this are now being blamed on a trace gas in our atmosphere when all of the natural components were there nevertheless.
If one has a good understanding of meteorology and weather history, then they are likely going to come to the same conclusion as I did.
I want to take a moment to thank Tony Heller and Joe Bastardi for keeping our weather history alive, as a lot of it would be lost without their contribution.
The bottom line is this: April snowstorms in the Great Plains and Midwest; they are the rule, NOT the exception.
Read more at Chris Martz Weather
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