December 2025 Track Record & Model Projections for the Rest of the Cold Period ~January - March 2026

The first month of my Winter Outlook for December 2025 verified very well overall with the well below normal temperatures and normal snowfall /within 5.0"/. By far the strongest signal for the beginning of winter on the analogues was a cold December. Actually; the below normal temperatures carried into December from a colder ending to November also a dominant feature in the forecast. December 2026 average of 27.7 degrees averaged -3.6 below normal. Even though a colder than average December did occur; the temperature roller coaster ride didn't disappoint either with quite a variability in temperatures.  Temperatures ranged from 61 /record 64/ just occurred a few days back on the 28th late at night and 59 degrees just after midnight on the 29th (also two 53's on the 18th/23rd). On the cold side; a 5 degree low on the 5th & 6 degrees on the 14th and 7 on the 8th. All the analogue temperatures averaged 28.5 compared to the 27.7 degrees for this Decembers with 1981-82 the closest temperature-wise with only one tenth different from this December's 27.7 degrees. Snowfall was shy /11.6"/ however of the snowfall back then with 17.3".  

While on snowfall; December's analogue snowfall average wasn't bad either with 9.5" projected compared to the 11.6" that fell. Season 2025-26 snowfall total is running above normal this far /+6.0"/ thru December with 16.8" of the 10.8" average falling.

 

 

 

Model Performance

First off the best model for 500 MB troughing and Surface temperatures thus far; CANSIPS. The model actually closely pegged for temperatures for December and matched Analogues for Southeast Mich. Precipitation projection wasn't bad either with normal to slightly below. Precipitation for December was 2.12" just a bit below the norm of 2.25".

December 500 MB 2025 /Made Dec 1 2025/

December Surface Temps Departure /Made Dec 1 2025/

 

 

December Surface Pcpn Departure /Made Dec 1 2025/

For the rest of the cold season; January Analogues and CANSIPS Model go with another below normal month for temperatures and normal month for snowfall for analogues and above precipitation for CANSIPS.  I'd be surprised if temperature departures are as cold for January as the analogues averaged (colder than December) and CANSIPS.  Model projection is also colder or below normal temperatures. Again, stated many times - timing of the analogue data is important.  Analogues and CANSIPS agreed the first half of the winter would be most affected by more or less - sustained cold. Since late November; even with far ranging temperatures (stated above) - temperatures still averaged several degrees below normal.  Even though I surmise we've seen the most sustained cold in monthly departures and still have notable cold- the bigger question is what about snow? 

 

That was not so clear-cut in analogues nor models. It seems every time we do see a wet, strong system - it's mainly been rain. The storm track into the western Lakes (also drawn on Winter Outlook prevailing storm tracks map) has been dominant, second only to Clippers. Looking at the heavy snows and wind with these storms up north clearly shows this. The Ohio Valley storms and East Coaster have only intermittently showed face. This has a strong correlation to the dominant upper wind jets over the country from the Arctic and Pacific. A shift to the west/south for the jets and slightly further east with phasing would help bring those tracks more active (though East Coast storms have picked up a bit). We'll see....

  

January 500 MB Forecast /Made Dec 1 2025/

January Surface Temps Departure /Made Dec 1 2025/ 

 

January Surface Pcpn Departure /Made Dec 1 2025/  

 

February 500 MB Forecast /Made Dec 1 2025/

February Surface Pcpn Forecast /Made Dec 1 2025  

March 500 MB Forecast /Made Dec 1 2025/

 

  March Surface Pcpn Forecast /Made Dec 1 2025  
 

More updates when deemed applicable!

Making weather fun while we all learn,

Bill Deedler - SEMI_WeatherHistoria

The Whitest of Christmases and Other Christmases Past and Chances for a White Christmas - 2025

Frequently during the Christmas Season, meteorologists are asked; Are we going to have white Christmas?  Generally, it is agreed among meteorologists that in order to "officially" have a white Christmas, an average of an inch of snow must cover the ground Christmas morning /7AM/, but not necessarily have to fall on Christmas. 

Of course when we have a cold December with snow on the ground for weeks as in this year; the mildest weather arrives in time for Christmas week and thus; melts much of the snow when it's generally more appreciated. In addition; December 2025 contained frequent patchy light snows followed by partial or total melting. Thus; having a inch of snow on Christmas morning becomes even more of a crap-shoot. 

At this time /Wednesday 12 Noon/ December 24th 2025; chances of a white Christmas across all of Southeast Lower Michigan, is pretty much a bust; especially with the recent unseasonably mild weather.

Last Christmas of 2024; most areas across extreme Southeast Lower Michigan (across much of Metro Detroit south to the Ohio Border) did not have a white Christmas per se' with a trace or nothing. Further west and northwest across Ann Arbor, Milford, Howell maybe around an inch or so - therefore it was definitely location. Further north over Flint into the Saginaw Valley across into the Thumb Region Mainly around I-69 and north-northeast a white Christmas was seen. 

Christmas of 2023 was a total waste as far as white Christmas with unseasonably mild weather with temperatures in the 50s!

 

Christmas 2022; a cold blast accompanied by several inches of snow fell a few days before and on Christmas across Southeast Lower Michigan making for a white Christmas but with brutally cold wind chills well below zero.

  

On Christmas /2021/ we ended up with no white Christmas. Christmas 2020; we lucked out with generally an inch or two of snow falling over the region on Christmas Eve into Christmas morning. A nice picture-perfect light snow cover.

 

Christmas /2019/ no white Christmas was to be had - and also back in 2018; around Metro Detroit there was no white Christmas. In fact; temperatures pushed up into the 40s and 50s in the few days following Christmas. Further north from the Flint area into the Saginaw Valley and Thumb Region however; a inch or two remained on the ground for a white Christmas across that region.

Over the years, extreme Southeast Lower Michigan has averaged just under a 50 percent chance for a white Christmas.  Some years it's already on the ground, some years not, some years it melts while other years it falls on the day. However, theoretically, you could actually have nothing on the ground Christmas morning and have a snowstorm dump a foot on the region during the day and still have NO official white Christmas under the standing morning rule. It works the other way too; you could have a several inches on the ground at 7am 12/25 but warmer air and/or rain melts it away by afternoon or evening and still officially have a white Christmas.

Several years ago /2017/; an unexpected white Christmas was had in spades as low pressure system overachieved; developing robustly over the southern Great Lake/northern Ohio Valley. The system developed into a notable little snowstorm falling mainly on Christmas Eve over the southeast area as seen in this map, bringing snow for a picturesque, classic Christmas scene. The only negative - and a notable one - was the lousy driving conditions Christmas Eve into early Christmas Day but with improving conditions later for Christmas dinnertime.

For more on the system from the NWS; see here.

In 2016; even with mild weather with temperatures in the 30s; Southeast Lower Michigan was able to hold on to a white Christmas as the snow (generally 2-5") slowly melted. In fact; the day after Christmas, warm air surged into the region and pushed temperatures into mainly the 50s and took care of any remaining snow! Back in December /2015/; it was a mild and snowless Christmas with a high temperatures near 50. Of course, the year before, /2014/ contained our record breaking warm El Nino December, therefore the hopes for a white Christmas were low anyway. Back on Christmas 2014, the chances for a white Christmas were very similar to 2015 with record setting low amounts of snow for the month (in the top 5 snowless). Officially on 12/25/14 at 7am; no snow was on the ground with a trace of light rain on the date. Only a TRACE of snow had fallen up to that day in December /0.1 for the entire month/.  Most areas over the remainder of Southeast Lower Michigan had a few tenths of snow Christmas eve or Christmas but with less than the amount needed and mild temperatures rising into the upper 30s to around 40...none of the area saw a white Christmas.

More Previous Christmases back to 2004:

In 2013;  even with all the snowfall throughout last winter, officially on 12/25/13 at 7am Detroit Metro Airport had only a TRACE of snow on the ground. Most areas into the remainder of Southeast Lower Michigan had some residual snow and ice on the ground for a white Christmas. Back in 2012, enough snow did fall at Detroit Metro Arpt (an inch of fresh snow Christmas Eve) to make it an official white Christmas was on the ground as of 7AM. The necessary inch or more was also on the ground at both Flint and Saginaw. Ironically the day after Christmas, the best snowstorm of the winter season hit the region...a day late and several inches short for Christmas. A year earlier in 2011, it was a relatively mild Christmas with temperatures in the 40s and no snow on the ground; so no white Christmas. However back in 2010; residents across Southeast Lower Michigan did enjoy a white Christmas with generally 1” to 6” of snow across as temperatures hovered in the 20s. Then further back in 2009, much of the Detroit area south did not have a white Christmas but points north across Flint, Saginaw and the thumb region generally had a 1” to 3” snow cover. Back in 2008, we saw a “sloppy, melting white” Christmas. That white Christmas involved the melting of a heavy snow cover from past snows that accumulated throughout December. The best of the snowstorms came before Christmas on the 19^th (with another, lesser intense snow falling on the doorstep of Christmas, 23^rd -24^th). After, however, the heavy snow cover melted in earnest as milder air overspread the region Christmas Eve right through the 26th. Christmas of 2007, saw temperatures rise into the mid 40s to mid 50s a couple of days prior to Christmas and that, combined with light rain, pretty much took care of any hopes for a white Christmas as then, like the later Christmas of 2008, the  previous heavy snow cover melted (but this time in its entirety before Christmas). Some scattered light snow did return, skirting the landscape on Christmas Eve but most areas around Southeast Lower Michigan still only had a trace of snow for Christmas. At White Lake and Saginaw, however, the official inch of snow to make it a white Christmas was barely attained in 2007.

Going back further to the Christmas of 2006; it was also mild and therefore, there was no white Christmas. In 2005, we just barely squeaked out a white Christmas (at Detroit Metro Airport, anyway) as a mild spell moved in just before Christmas along with rain, melting the snow down from 4” to 1” by Christmas morning. Originally, there had been 8” of snow on the ground on the 15^th. The last really scenic (no slop)  with fresh white snow for Christmas occurred in 2004. A snowstorm brought heavy snow (ranging from 8”at Detroit to around 4” in Saginaw and Flint) on the 23^rd, which left the region with a nice white cover for Christmas. It was also a cold Christmas also with highs only in the teens and overnight lows below zero. 

Looking over historical weather records of Christmases past since 1900, a wide range of weather conditions were found. While most people would like to believe that Christmas in the Detroit area should be snowy-white and picturesque, more often than not, they're not. Over the past 124 (including 1900) Christmases in Detroit, 58 (or 47%) have been what would be called "white" with an inch or better of snow on the ground. Keep in mind however, these records are for Detroit; farther north in Flint, the chance of a white Christmas jumps to 56 percent, while in Saginaw and the Thumb region it rises to 61 percent. However; the past 30 year normals /1991-2020/ the shorter time-frame indicates the chance of a white Christmas at Detroit has dropped to just 35%; whereas around Flint the past 30 year norm puts it at basically a 50/50 chance (or exactly 51%). In the Saginaw region; the probability of a white Christmas has dropped to 46%.

Way back on the Christmas of 2000 was very white indeed, but as to how much of a white Christmas (snow depths) is where the confusion came in. Let me elaborate, officially at Detroit Metro Airport, just six inches of snow was recorded on the ground at 7AM Christmas Day. However, just about anywhere west/north and in the city of Detroit itself, amounts were considerably higher with generally 8 to at least 15 inches. At the National Weather Service in White Lake, 15 inches was observed on the ground Christmas 2000 morning. No additional snow fell on Christmas Day (nor was anymore really wanted with the surplus already at hand). In any event, for Detroit and surrounding communities, the six inches at Detroit Metro Airport is the official snow depth used for the area.

The snowiest Christmas (most snow falling on Christmas), occurred in 1915 when 6.4 inches fell with a snow depth of seven inches on the ground. The timing of this snowfall was impeccable for Christmas with it actually starting Christmas Eve around sunset. Then, it continued to snow through the night into Christmas day. Actually, even more than the 6.4 inches fell from the entire storm with an additional 1.6 inches falling on Christmas Eve. This gave a snowstorm total of eight inches.  A little light rain did mix with the snow during the forenoon hours of Christmas but with a high temperature of only 33, it did little to mar the "Christmas card" scene. Speaking of "Christmas card" scenes, another heavy wet snowfall blanketed the area just after the turn of the century early on Christmas in 1901. The scene is described in the historical weather books as follows:

    "Night of the 24 - 25 cloudy; moist snow continued,

     heaviest between hours of 1:30 and 4:30 am, ended

     at 6 am. amount of precipitation .62 inches. The

     street cars ran all night to keep the tracks open.

     the snow adhered to trees etc, and made a very

     beautiful scene. Depth of snow on ground at 8 am,

     5.5 inches".

 This "Norman Rockwell Christmas scene" was further enhanced by a heavy coating of frost deposited on the buildings and windows Christmas Eve due to the moisture-laden air. But just like memories of some Christmases past, this majestic Christmas scene quickly faded (melted) during the day as temperatures climbed to 41 degrees, leaving just slush , slop and water. During the Christmases of 2002 and 2003, the weather was similar to both of the white Christmases mentioned above /1901 & 1915/. Here again in 2003, snow started falling Christmas Eve and lasted into at least part of, if not all of Christmas Day. On Christmas Day 2003, snowfalls ranged from at least an inch in the far southeast corner of Lower Michigan to as much as six inches across Detroit's northern suburbs, extending northward across Flint and Saginaw. On Christmas Day of 2002, total snowfall at Detroit Metro Airport was measured at 6.4” inches for both days (Christmas Eve and Christmas) with 3.4” of it falling on Christmas Day, itself. Across all of Southeast Lower Michigan snowfalls generally ranged from four to seven inches. A picture perfect Christmas was created both years with the freshly fallen snow. Like the Christmas snowstorms of 1901 and 1915, the snow Christmas 2002 was also somewhat heavy and wet with high temperatures in the lower 30s and lows only in the mid 20s.

Probably one of the slushiest and sloppiest Christmas Days happened in 1973. What started out as a white Christmas with a heavy 7 inch snow cover, quickly melted to a meager 2” slush mess by nightfall. To add insult to injury, it rained nearly a half an inch during the day.The wettest Christmas on record occurred in 1945 when 1.16 inches of rain fell. The rain actually began Christmas Eve as a light freezing rain and continued freezing until nearly dawn on Christmas, when the temperature pushed above freezing. Until the ice melted, a few tenths of an inch of ice coated everything by Christmas dawn. Needless to say, walking and driving early the Christmas of 1945 was treacherous but Santa was in and out of town in a flash!

Without a doubt, and still in the memories of long term inhabitants of Southeast Lower Michigan, is the warmest Christmas on record, the Christmas of 1982. It was as though the whole area was shipped to Florida for the holiday! The official record high at Detroit was 64 degrees, while Flint did one degree better at 65! These readings are about normal for Tallahassee, Florida! Scenes of shirt sleeved people with shorts running or riding bikes, instead of visions of sugar plums, made the Christmas of 1982 to some Michigan Christmas traditionalist, very hard to take.  This spring-like day was complete with scattered showers and, of all things, thunderstorms! Ironically, the bitterest cold Christmas came just a year later in 1983! Maybe a payback from Mother Nature for the warm weather we were treated to, the Christmas past? The temperature plummeted Christmas eve to a record low of -9 at Detroit and was accompanied by a stiff west wind averaging 25 to 30 mph, creating life threatening wind chills at times of near 40 below zero! Santa certainly brought the North Pole with him the Christmas of 1983, when he made his rounds very early that morning. In addition to the record low Christmas eve, another record low /-10/ was established during the very early morning hours of Christmas.

These Christmases past discussed are more the extreme than the norm across extreme Southeast Lower Michigan. But they do show the variable weather that can occur at Christmas (or any other time for that matter). The "normal" (or average) highs in extreme Southeast Lower Michigan Christmas Day are in the lower 30s, while lows average in the upper teens.

And now, I'd like to wish all who read this a very Merry Christmas and/or Holiday Season and the best in 2026!  I plan on continuing my blog occasionally for the new year if the fates allow and look forward in reaching out to more people (and hear their comments and ideas) across the globe.

Making weather fun while we all learn,

Bill Deedler - SEMI_WeatherHistorian

Winter 2025-26 in Southeast Michigan; Will it be as Rough as Many Say it Will? THE ANALOGUES ~/PART'S I & II Merged/ - /Dec 1st 2025/ Meteorological Updates Routinely Added

SOUTHEAST LOWER MICHIGAN WINTER OUTLOOK 2025-26

Temperatures:

Both this set of winter's set of analogues and extended model monthly guidance for December  spell out a colder beginning of winter than average; especially the early part of the winter. Analogues paint a cold picture for December, contrasting the recent pictures in Southeast Michigan Inhabitant's minds of numerous mild Decembers since 2000 (see rest of Outlook). While a milder mid December is expected to break the cold snap - latest guidance strongly backs up a below normal average December temperature on the whole with colder weather returning, later.

Analogues for the rest of the winter at this early juncture do intimate a mid winter thaw (most likely our old friend "January Thaw") and another milder period possibly in February (mid-late) but surrounded by cold. Overall temperatures should average 1-3 degrees below normal but subject to change with the aggressive, fast moving winter patterns expected. Dominant periods of cold should be tempered by quick milder air masses. Timing of the patterns will be as much of an issue as much as the expected winter weather in the final analysis.

Snowfall and Precipitation: 

Snowfall and precipitation is a big toss-up this year with not only mixed precipitation goofing things up but storm tracks being rather fickle. Someone's going to get clobbered when upper energy phases (as the Arctic Stream, Polar Jet and Sub-tropical vying for dominance) but who & when is the question? Looking at what's briefly transpired; Lake Effect communities, Upper Midwest and Great Lakes look primed but what of the rest of the winter? If La Nina follows a general pattern; the Lower Great Lakes and Ohio Valley look vulnerable, anytime. Stay Tuned. As for now; near normal or average snow for Southeast Michigan but subject to change with the wind. 

AN OBSERVATION -

Never have I seen so many Winter Outlooks on the Net as I have seen this fall - and never have so many of them been so dire. Dire meaning; calling for a brutally cold and/or stormy winter across the Great Lakes and subsequent surrounding areas. It seems everyone and their mother are doing Winter Outlooks - whether qualified or not (educated and experienced). I must say; when I started doing Season Outlooks for Southeast Lower Michigan while employed by the National Weather Service some 27 years ago (The Super El Nino of 1997-98), I was in barren territory. The only other creators of Outlooks that I saw were the NWS Climate Prediction Center for the whole country and maybe a scant few private companies. A few surrounding WSFO meteorologists starting joining me in Weather Outlooks in the late 90s - early 2000s in the Great Lakes Region as "Down-scaling" got underway. Down-scaling involved looking at familiar hemispheric patterns known at the time; researched by meteorologists and climatologists nationally then, subsequently studying smaller climate and local patterns and making a winter forecast.

FORMAT - 

A new format? I've decided to split up my outlook to get my Winter Analogues out first /Part - 1/; then discuss how the hemispheric patterns should affect the up-coming Winter 2025-26 pattern /Part -2/. Finally; expected winter weather forecast discussed and final forecast issued after Thanksgiving. Basically, this will be during the month of November and into the climatological winter period of December - February. Snowfall projections will be for entire snowfall season into climatological spring. Lastly; Look for Model Outlooks for the Winter.

WINTER 2025 - 26 ANALOGUES 

This new set of analogues goes back to the mid 20th century. Gone for this run are the earlier analogues (pre-1940s) as many were during cold periods with lower actual temperature data and normals. Over the past several decades (mainly since the 1980s); average normals have risen about a degree and a half with time when combining the recent climatological warming period along with the urban climate warming at Detroit /DTW Airport/. For example; the winter normal average temperature is now 28.3 degrees for the 30 year period from 1991-2020. The 100 year temperature average /1891-1990/ before that time by my estimation was about 26.9 degrees.  That leaves approximated departure of around a degree and a half /+1.4/ and that 100 year average is also included in the analogue data chart.

Leaving out the "colder period" analogues pre-1940 made little difference in this winter's sample as the temperature analogues since those analogues averaged notably below normal, anyway. 

Snowfall and Precipitation meanwhile varied considerably and really are a factor of prevailing storm tracks. Snowfalls varied from 18.0" /1960-61/ to a whopping 94.9" during the relatively recent cold and snowy winter of 2013-14. Maybe it's not surprising the "average" snowfall for the entire set landed just a shade (of snowfall) above the 45.0"norm at 45.6". Overall; snowfall norms have been rising slowly the past several decades from the mid-upper 30s to the mid 40s. You wouldn't know that the past three winters with the below average snowfalls officially at Detroit /DTW/. Troublesome this season as mention above is the extreme snowfall brackets from well below normal to well above - "relinquishing to normal". Overall, below normal precipitation was dominant when averaged however; there were 4 better than an inch below normal, 3 better than an inch above and 5 within an inch of normal - really split. But in that case, around normal precipitation is the dominant (and again, that would be within an inch of normal). After looking at the analogue winters; Lake-effect snows across the Great Lakes should be relatively active seeing the cold, blustery conditions predominant in several of the early - mid winters/cold time periods.

Predominant Storm Tracks have made themselves known early in the game this winter by starting out solidly in November. This is reflective of the lower heights (and jet streams). Even the more infrequent "Gulf Low" (non-predominant) is occasionally showing up on model output and I suspect we'll see some action there too. The winter is starting out busy but we will surely get breaks and the occasional mild spells. 

Snowfalls in the analogues over Southeast Michigan were nearly on the same level as precipitation; 6 analogues were below normal, 4 above and 3 within 5.0"of normal. While there's a bit of a lean toward below normal snow in the actual numbers - at the same time, 4 were snowy and 3 contained normal snow winters - so it's pretty much a toss-up. There is a slight preference for the higher totals for the northern and western sections in Southeast Michigan this winter (more typical). This includes the northern and western parts of Metro Detroit. 

 

Another interesting thing I noticed in the data from the Novembers preceding many of the analogues (including Nov '25), they contained the predominance of normal to below normal temperatures. When normal to below normal November temperatures dominated in the analogues; the winter temperature were below normal.  Even two of the November's; 1960 and 1985 that contained above normal temperatures still were followed by colder winters!

Observing the Temperature Departure Map below when all analogues were plotted; below normal temperature departures of -2.0 to -3.0 degrees were observed on average.  Be advised: these are past analogue winters and do not necessarily reflect exactly this upcoming cold season. I'm more interested at not the particular data for each analogue but the overall trend (and even when widely variable, do have dominating patterns discussed in this Outlook).

Analogue 2025-26 Cold Season November through March Temperature Departure

 

 

A	DETROIT	T	E	M	P	S		P	C	P	N
N	SEASON	DEC	JAN	FEB	WNT AVE	WINTER	NAO/SC	SEASON	DEC-FEB	WINTER	QBO	EST FIRST
A	1942-43-n	25.6	21.7	28.0	25.1	1	N/SC--	1942-43-n	7.19	1	M	FROST
L	1960-61-a	25.2	23.1	30.8	26.4	2	N/SC-	1960-61-b	2.87	1	E-	10/1
O	1962-63-b	25.1	17.2	18.8	20.4	3	N-/SC-	1962-63-b	2.36	2	E	9/20
G	1967-68-mb	30.9	20.9	24.3	25.4	4	N-/SC++	1967-68-n	8.97	1	E-	9/23
U	1978-79--b	28.9	18.6	16.5	21.3	5	N-/SC++	1978-79-n	4.90	3	W-	10/08
E	1981-82--n	27.8	17.1	20.7	21.9	6	N/SC+	1981-82-b	6.91	2	E	09/24
S	1985-86-a	22.2	23.9	24.6	23.6	7	N/SC--	1985-86-ma	6.27	3	W-	10/02
	1993-94-n	30.8	17.3	23.5	23.9	8	N+/SC--	1993-94-n	4.95	4	E-	9/30
	1996-97-mb	31.5	23.0	30.6	28.4	1	N-N+/SC-	1996-97-mb	9.05	2	E-/W-	10/03
W	2001-02-ma	35.9	32.7	32.9	33.8	1	N+/SC-	2001-02-n	7.50	4	W-	10/06
E	2013-14-b	26.8	16.4	19.4	20.9	9	N/SC+	2013-14-n	8.16	3	W	10/19
A	2017-18-b	26.6	24.6	31.0	27.4	2	N+/SC--	2017-18-ma	7.11	5	E+	10/26
K	2024-25-ma	33.2	23.0	26.1	27.4	3	N+/SC++	2024-25-n	5.79	6	W	10/17
L	Ave	28.5	21.6	25.2	25.1		25.1	Ave	6.85		QBO
A	NORM 30Y	31.2	25.7	28.0	28.3	100 yr ave	26.9	Norm	6.56		E/+
	Dep	-2.7	-4.1	-2.8	-3.2		-1.8	Dep	0.29
N					-1.2
I	DETROIT	S	N	O	W	F	A	L	L		Oct
N	SEASON	OCT	NOV	DEC	JAN	FEB	MAR	APR	SEA TOT	SEASON	Sib snow	**MAY
A	1942-43-n	T	4.4	9.2	18.4	2.7	2.9	6.8	44.4	1		SNOW
S	1960-61-b	T	1.0	4.5	3.3	5.1	0.4	3.7	18.0	1	N/A	T
	1962-63-b	T	0.2	11.2	7.5	7.6	3.2	T	29.7	2	N/A	T
I	1967-68-n	T	1.4	4.5	11.8	2.8	10.0	0.1	30.6	3	B
	1978-79-n	0.0	6.1	6.6	13.3	3.9	2.7	3.0	35.6	4	B
N	1981-82-b	0.1	0.7	17.3	20.0	13.3	13.6	9.0	74.0	1	E
E	1985-86-ma	0.0	2.0	14.1	8.6	20.8	7.4	1.3	54.2	2	B
U	1993-94-n	0.4	0.6	1.9	17.9	17.1	3.7	4.2	45.8	2	B	T
T	1996-97-mb	0.0	4.1	7.4	20.8	5.4	4.9	0.5	43.1	3	MB
R	2001-02-n	T	0.0	4.9	15.0	6.7	7.1	T	33.7	5	B
A	2013-14-n	T	1.2	15.5	39.1	23.4	12.5	3.9	94.9	3	E
L	2017-18-ma	T	T	22.5	9.2	21.0	5.9	2.4	61.0	4	MB
	2024-25-n	0.0	1.8	3.6	8.9	12.2	0.4	1.8	28.7	6	B
I	Ave	T	1.8	9.5	14.9	10.9	5.7	2.8	45.6		B
	30y Norm	T	1.9	8.9	14.0	12.5	6.2	1.5	45.0
2	Dep	0.0	-0.1	0.6	0.9	-1.6	-0.5	1.3	0.6		Sib Snow
0						7			45	ther	* N/A
2	Color	Temps	Degrees		Rain	Inches		Snow *	Inches
5	Legend:	Below	1.0>		Below	1.00>		Below	<5.0	n
~		Normal	0.0-1.0		Normal	0.00-1.00		Normal	>-5.0<5.0
2		Above	1.0>		Above	1.00>		Above	>5.0
6
LEGEND:	TOP CHART	(Left to Right columns)
COLUMN	TEMPERATURE PRECIPITATION CODES
1	Analogue Seasons (Preceding Nov temperature departure)
2-4	Dec - Feb average temperatures
5	Winter average temperatures
6	Number of analogues winter average temperatures above, normal & below by count and color scheme
7	Dominant: North Atlantic Oscillation /NAO/ & Solar Cycle /SC/
8	Analogues Seasons (Preceding Nov Precipitation)
9	Winter Precipitation Total
10	Number of analogue winter precipitation totals above, normal & below by count and color scheme
11	Dominant Quasi-Biennial Oscillation:			W(est), E(ast), M(isg)
	Quasi-Biennial Oscillation (QBO) is a regular variation in stratospheric winds that influences hemispheric climatic &
	subsequent local weather. It has a 28-month cycle and affects the strength of the polar vortex and jet stream.
	BOTTOM CHART (Left to Right columns)
	SNOWFALL, MONTHLY TOTALS AND SEASON TOTAL				TOTALS/DEPARTURES
	Nov, Mar & April snowfalls are within of an inch for below, normal & above rather than 5" for Dec-Feb
	SIB - Siberian Snow Cover this October compared to that analogue year

 

Next up: Hemispheric Patterns & Meteorological Set Up - Winter Update Part II

Hemispheric Discussion 

In case you haven't surmised by now; the upcoming winter is expected to be, like last winter, a La Nina winter but with the La Nina fading early in 2026. Therefore; we are at the present at this winter's La Nina peak (late November into December). Both La Nina's are generally similar in strength, both a weak La Nina. I do look for this year's La Nina to have more of an influence on our weather than last winter's; mainly due to the atmosphere's stronger resultant La Nina pattern reaction (not dominant last winter) along with the Negative Pacific Decadal Oscillation in place.

 

Here are the Hemispheric SST temperatures at the close of November 2025

 

 

The maturing weak La Nina shows up well of the coast off Northern South America extending due west across the Pacific. The La Nina boundary below normal temperatures are displayed throughout all areas: Nino 1+2, Nino 3, Nino 3.4 and Nino 4. In addition; the Negative (Cold) PDO is well established again off the West Coast like 2017.

 

 

The best likeness of this fall's SST pattern that I could find in the analogue's was indeed; the La Nina of 2017-18.  The cool phase of the Pacific Decadal Oscillation /PDO/ was also on full display that year also. The Atlantic SST's were generally not as warm in 2017 as this late fall, however along the East Coast there are pockets of mixed above and below SST's this late November as opposed to 2017. 

 

 La Nina 2025-26

 

As one can see; the La Nina of 2017-18 extended through the winter and into the early spring of 2018 unlike this season of 2025-26 when the La Nina is expected to wind down earlier during mid winter.  See the data from the ENSO SST's below from the two time periods 2017-2018 and 2025: 

                      JAN  > DEC

 

  

Another similar La Nina SST forming from a Neutral SST was just last year /Winter of 2024-25/. While this analogue La Nina too shows similar traits - there were differences. The La Nina was slower to form and remained very weak dropping to just a SST of -0.6C in January. The winter pattern of 2024-25 over Southeast Lower Michigan was very slow to evolve, unlike this winter. January and February were colder with below normal temperatures with just light amounts of snow through the season. The "real winter months" last winter - like many of the past numerous winters were January, February and March. A cold December has become more of a rarity. In this millennium, since the Winter of 2000 - out of 25 - a generous 17 Decembers have been warmer than normal with the past 8 all above normal!

North Atlantic/Arctic Oscillation - NAO/AO 

Most winters; the phase of the NAO/AO is one of the most important ingredients to the type of winter to be-had over the central and eastern part of the country; and even parts of the mountainous areas of the west at times. This is one of the most elusive oscillations to predict for more than a week or two out. The recent NAO & AO projection for the first half of December is basically calling for a negative phase which mainly relates to below normal temperatures over Southeast Lower Michigan. 

  

As of December 1st - The projected NAO/AO winter model from -

https://www.kylemacritchie.com/ - An intriguing scientist Kyle Macritchie; shows the phases expected for the NAO and AO. It should be noted this too is subject to change as new data is received and processed. While the NAO meanders in it's negative/positive phases, the AO is predominantly projected to be in a negative phase. Supporting a colder than normal winter for the region.

 

 

  

 

Pacific Decadal Oscillation /PDO/ and associated subset EPO

A cool phase of the PDO is represented on the right of the following example and compare it to the current state on the Pacific SST's.

                             Warm Phase of the PDO                    Cool Phase of the PDO

 

Generally warm phases coincide with El Ninos or Neutral states and rarely La Nina states while cool phases coincide with La Ninas, as in the present state. Studies propose that when the PDO and ENSO are out of phase; which is a somewhat rare event, that they may cancel out their known effects. This isn't expected to happen during the upcoming winter with La Nina and a cool phase of the the PDO in synchronicity. The two together tend to compliment one another and several times; accentuate one another effects.

"When SSTs are anomalously cool in the interior North Pacific and warm along the Pacific Coast, and when sea level pressures are below average over the North Pacific, the PDO has a positive value. When the climate anomaly patterns are reversed, with warm SST anomalies in the interior and cool SST anomalies along the North American coast, or above average sea level pressures over the North Pacific, the PDO has a negative value" (Courtesy of Mantua, 1999).

 

"The Pacific Decadal Oscillation (PDO) is a pattern of Pacific climate variability similar to ENSO in character, but which varies over a much longer time scale. The PDO can remain in the same phase for up to 20 to 30 years, while ENSO cycles typically only last 6 to 18 months. The PDO, like ENSO, consists of a warm and cool phase which alters upper level atmospheric winds. Shifts in the PDO phase can have significant implications for global climate, affecting Pacific and Atlantic hurricane activity, droughts and flooding around the Pacific basin, the productivity of marine ecosystems, and global land temperature patterns. Experts also believe the PDO can intensify or diminish the impacts of ENSO according to its phase. If both ENSO and the PDO are in the same phase, it is believed that El Niño/La Nina impacts may be magnified. Conversely, if ENSO and the PDO are out of phase, it has been proposed that they may offset one another, preventing "true" ENSO impacts from occurring". 

http://jisao.washington.edu/pdo
http://www.john-daly.com/theodor/pdotrend.htm

SOLAR CYCLE /SC/

Solar cycle actual effects on short term weather and longer term climate variability remain a controversial subject. I've read several articles which support or are against their shorter term winter relevancy. Some theorize that both natural solar cycles and man's influence affect our climate. I am in favor of the solar cycle being somewhat relevant and sometimes giving the present winter cycle a "little kick" in regard to hemispheric wind flow patterns and resulting temperatures. Numerous recent studies for example, do in fact make the connection to our climate and solar activity including wintertime effects. One of the studies stated the following:

"The Euro–Atlantic sector seems to be a region with a par-

   ticularly strong solar influence on the troposphere. In fact,

significant positive correlations between solar activity and

  surface temperature in Europe have been reported in several

 papers (e.g. Tung and Camp, 2008; Lean and Rind, 2008;

 Lockwood et al., 2010; Woollings et al., 2010), although

  long records tend to give very weak signals (van Olden-

   borgh et al., 2013). We found a weak but significant change

     in the mean late winter circulation over Europe, which re-

   sults in detectable impacts on the near-surface climate. Fig-

   ure 9 suggests that during solar minima more cold air is ad-

   vected from the Arctic, thus resulting in a slightly increased

 probability of colder winters for large parts of the continent.
 Sirocko et al. (2012) recently reached the same con-

 clusion after analyzing 140 yr in 20CR, although their results

are strongly dependent on their selection criteria for

  the solar minimum composite (van Oldenborgh et al., 2013),

    which includes only one winter for each solar cycle".

See analogues and Solar Cycles abbreviated on the Winter Analogue chart. It look's as though with a decreasing solar cycle beginning from the maximum cycle; the solar cycle will continue to have more to do with disrupting the communication factor and ignite the northern lights again.

 

 THE QBO INFLUENCE

The QBO, or Quasi-Biennial Oscillation, is an oscillation in the wind direction in the stratosphere within about 15 degrees of the equator. Over a roughly two-year period, winds tend to oscillate between westward and eastward, with the switch between west and east winds starting high in the stratosphere and then shifting lower in altitude with time. The QBO is the result of waves propagating vertically in the atmosphere that then interact with the mean flow to slowly change wind speeds and direction. These changes influence the overall global circulation patterns, which in turn influence winter weather patterns across North America. 

The amplitude of the easterly phase is about twice as strong as that of the westerly phase. At the top of the vertical QBO domain, easterlies dominate, while at the bottom, westerlies are more likely to be found. At the 30mb level, with regards to monthly mean zonal winds, the strongest recorded easterly was 29.55 m/s in November 2005, while the strongest recorded westerly was only 15.62 m/s in June 1995 (Wikipedia).

If you notice on my analogues; I included the QBO's for each available winter and compared it to the upcoming winter's QBO phase and trend. The present and expected QBO this winter is for an easterly QBO (recently switching from west since the summer shown below as a negative wind speed) and also increasing in amplitude. The set of maps below show the differing influences of the QBO dependent on phase and trend.The QBO is presently in the negative and trending more negative phase (first map). The negative /easterly/ effect supports the temperature map of the Winter Analogue:

 

 

 

Next - What do the Models say about the Winter? AI? 

 

Making weather fun while we all learn,
Bill Deedler -SEMI_WeatherHistorian