One of the most impressive time lapses I've seen in a long time. This is from WGN-TV Hancock camera earlier this week (February 21). Look how quickly the ice opens up over Lake Michigan as the winds shift and the temperatures rise. If this doesn't cause you to rethink walking on the ice I don't know what will.
Cracks in the ice are VERY common especially this time of year. Fluctuations in air temperature, wind direction and intensity drive the shifting ice making it more unstable.
Ice coverage across the Great Lakes have reached their peak and are now falling.
LAKE SUPERIOR: 51% on Feb 19th
LAKE MICHIGAN: 335 on Feb 18th
LAKE HURON: 48% on Feb 20th
LAKE ERIE: 86% on Feb 20th
LAKE ONTARIO: 21% on Feb 18th
Lake Erie, the shallowest of the lakes is showing significant ice breakup.
FEBRUARY 17
FEBRUARY 19
FEBRUARY 21
ANIMATION OF THE ABOVE IMAGES
FEBRUARY 23
The ice movement forecast through early next week.
Compare this year to the last 2 years:
I checked the years since 2000 that had at least 50% ice coverage on March 1st. The average date where we drop to under 25% ice cover is during the last week of March. This is directly connected to the air temperatures. Based on the long range outlook through the first 7-10 days of March, the ice loss should be gradual.
One of the biggest canned responses I get when I mention winter cold is "Winter is supposed to be cold. What's so special about the cold?". My qualifying reply usually mentions the fact that it's not the average cold we address in the forecast, it's the extreme cold that is the biggest concern for people. This winter since January 1 has been unusual in that we haven't had much extreme cold (until now, February 7).
I checked the high temperature for each of the last 5 winters from January 1 to February 7. This graphic below first shows the last 4 winters (minus 2021). Notice the ups and downs. Blue and red dots denotes the days above 50. Red dots are highs below 20. Blue curved line are the 2021 high temperatures. Notice how much flatter the curve is this year. No extremes either way. Just consistent cold...until now.
Interestingly, the last time we had a high temperatures above 50 degrees was early Christmas Eve (before the holiday snow).
Here is the list of longest stretches WITHOUT reaching 50. Some of these started in November and December. The blue asterisk denotes years (8 total) that didn't reach their first 50 under AFTER February 15th. Only 4 made it into March without a 50 degree day: 1963 (March 11), 1978 (March 19), 1940 (March 17) and 2003 (March 7). It's looking more likely we won't see a 50 until at the earliest, the last week of February.
Lake Erie ice coverage has bounced from under 5% last week to just over 20% this past weekend. Now its down to 10%.
Crib Cam - February 2, 2021
Ice thickness is mainly under an inch
The water temperature is much lower than 3 weeks ago so it won't take much nudging for ice to develop.
The last time we went from very little ice to over 80% in a week's time was in 2016.
Look at the temperatures vs normal across the US over that period in early February 2016. The high and low temperatures in Cleveland were in the teens and single digits overall.
The forecast temperatures from this weekend through late next week will be WELL BELOW NORMAL across the northern half of the US. This image looks similar to the one above.
So I would expect Lake Erie ice coverage to increase to 50-60% by next Wednesday minimum.
Could we see this again along the northcoast before the end of the month? Could ice cover significantly impact lake effect snow development in the next 2 weeks? You bet.
If you live around the Great Lakes especially downwind in wintertime, you probably experience lake effect snow especially during the first half of winter when the lakes are warmer and free of ice. Here in northern Ohio we live on the southern edge of Lake Erie (warmest and shallowest lake) directly in the lake effect snow firing line. More ice on Lake Erie reduces lake effect snow potential. So each winter by mid January, the same question pops up: Will the lake freeze?
Photo Courtesy: Scott Sabol February 2013
Let's see how much ice is on the lake right now (as of January 12). Roughly 0.6%
(Right after Christmas, we reached 1.2% ice coverage on the 27th of December before it melted off)
Ice coverage is well below normal so far (red line is this winter 2020-2021 through 1/11)
For initial clues on where this year's ice coverage might end up, Great Lakes historical ice coverage data (GLERL) might shed some light. This data goes back to 1973. (I wish it went back further).
The graph below shows the historical ice coverage through January 8th since the early 1970s.
How many years have had similar (20% and under) ice coverage at this stage of the winter--January 11th? 24 total since 1973.
Which one of those years ended up with more than 80% or more ice coverage? Only 6: 1985, 1997, 2000, 2004,, 2005 and 2019
In these years ice coverage jumped significantly in just a few weeks!
Why did those years develop ice so quickly? Look at the temperatures vs normal across the Great Lakes and Ohio Valley between January 11th (low ice coverage) and the day when ice coverage reached at least 80% FOR EACH OF THESE 6 YEARS.
I tabulated the number of days where the high temperatures in Cleveland stayed at/under 32° and the overnight lows stayed at/under 15°.
The below normal cold wasn't just relegated to Ohio. In each year, the cold was widespread over multiple weeks!
1985: Every day was under 32 degrees. Half of nights under 15 degrees
1997: Half of days under 32 degrees. 10 of 13 nights under 15 degrees
2000: 14 of 18 days under 32 degrees. 11 of 18 nights under 15 degrees
2004: 9 of 15 days under 32 degrees. 10 of 15 nights under 15 degrees
2005: 10 of 14 days under 32 degrees. 8 of 14 nights under 15 degrees
2019: Half of days under 32 degrees. Only 8 of 20 nights under 15 degrees
The Lake Erie water temperatures in these years started out well above freezing between January 11 and January 13. By day 10 (January 23) the water temp had dropped to between 32 and 34 degrees...
...It wasn't until the water temperature dropped under 34 degrees between January 21 and 24 that the ice coverage increased. The ice coverage jump day to day (see below) was significant beyond day 10 once the water temperature dropped and the cold air temperatures were firmly established.
* What are the shortest jumps from 20% to nearly 80% ice coverage?
2/7/1973 to 2/13/1973: 17% to 81% in 6 days
2/6/1995 to 2/11/1995: 16% to 80% in 5 days
1/17/1997 to 1/22/1997: 24% to 77% in 5 days
1/19/2005 to 1/24/2005: 24% to 82% in 5 days
2/4/2013 to 2/10/2013: 20% to 82% in 6 days
2/10/2016 to 2/15/2016: 0.7% to 79% in 5 days
In each of these years (with the exception of 2016), the ice coverage remained at around 80% for 3+ weeks
* The average ice coverage for specific dates between 2010 and 2020:
January 15: 38%
January 20: 40%
January 31: 46%
February 10: 56%
February 20: 50%
March 1: 49%
March 15: 34%
March 31: 17%
Average dates where ice coverage is highest: February 13-18th
Historically here is the daily ice coverage for each year in January and February.
Based on the temperature forecast for the remainder of January and into early February, what are the chances the lake freezes over--80% or more? Pretty small.
We are entering a 2 week stretch through the end of January with periods of colder than normal temperatures. Based on what I am seeing, on the higher end I think the ice coverage will be between 40-50% by month's end. In reality I believe it will verify closer to 25%.
Bottom line, Lake Erie will stay open for lake effect snow business into early February!
The first 10-14 days of February will be key to the rest of the winter Lake Erie ice coverage.
We've already have a few decent snow events this winter. The first was on December 1st. The second was Christmas Eve and Christmas Day, the snowiest Christmas Eve/Day since 1995. The National Weather Service here in Cleveland has a great summary HERE .
Now that we are a few days into January 2021, what does the current pattern tell us?
If you remember back on December 8th on my post, I mentioned the possibility of a GREENLAND BLOCK (red color) which would increase the possibility of cold and snow to finish out December.
MODEL animation from December 8 showing potential Greenland Block
It was too early at that point to say for certain that the mid-late December pattern would be a harbinger of what was to come in January. Now look at the animation below. See how the block (red color) near Greenland is staying in place. Also see how the western North America ridge (red colors) is starting to develop. This is a bigtime one-two punch: Ridge west (potential block) and a ridge (Greenland block) east.
The jet stream is trending MUCH stronger. Look at the warmer colors across the eastern US. East coast snow lovers will love this!
Top years with similar pattern shows below normal temperatures the 3rd week of January
So after watching the pattern over the last month becoming more persistent, as of this writing (January 4) all this seems to be foreshadowing more cold and deeper southern storm systems!
Some projections are starting to show this idea.
First 2 weeks of January snowfall
3rd week of January snowfall projection
What about the Polar Vortex? Are there indications this become more unstable in the weeks ahead? Absolutely.
Look at the surface map over Asia and the large surface high pressure.
Meteorologist Mike Adcock noted this on Twitter on December 28th: "Looking at 2100 UTC obs in Mongolia, Tosontsengel is reporting 1089.5 hPa. This station is the record-holder from 2001 (1084.8 hPa). Further, Tsetsen Uul (labelled w/ H) is reporting 1093.5 hPa (32.29"). These, along with other reports, if verified, would break the world record."
This Siberian high pressure ridge is very large. Its been locked in since last month.
Climate specialist Rick Thoman also noticed the abnormally low pressure near the dateline on December 30th: "The GFS is all in for the deepest cyclone in a long time in or near Alaska waters. I've listed the four storms since 1975 that I know of with an analyzed minimum pressure below 930hPa".
The jet stream has been extremely strong off of Asia east into the northern Pacific which probably enhanced the storm above around New Years Eve. Notice the up and down jet across North America.
What does this have to do with the Polar Vortex and the potential for cold for the eastern US?
The super-high pressure center over Mongolia if located just right creates friction along the Mongolian Mountains. This process creates atmospheric waves that propagate into the stratosphere! The mountains change the pathway so that these waves can significantly weaken the stratospheric jet stream. This can cause warming events at the top of the atmosphere called Sudden Stratospheric Warming events. When these occur, its just a matter of time before the "top-of-atmosphere warming" creates a weakening of the jet stream closer to the surface in the northern latitudes along with expansion of cold around the north pole. A weaker polar jet stream means the Polar Vortex can move south easier.
See how the temperatures have jumped recently in the stratosphere
Also notice how the wind direction made a big directional change
Here is great tutorial on how this all fits together.
It doesn't happen overnight. Its usually weeks down the road.
See how the cold reloads across western Canada and then drains into the central US by the 20th?
Expect our chances for MORE wetter snows second half of January!
