On October 17th 2019 the National Oceanic and
Atmospheric Administration's Climate Prediction Center (NOAA/CPC) released their 2019-2020 Winter Outlook. The Winter Outlook with temperature and
precipitation predictions covers December (2019), January and February (2020) . The
agency is forecasting warmer-than-average temperatures over a large part of the
United States. They are also increasing the odds for a wetter than average
winter over the northern Plains into the Great Lakes, Midwest and western parts
of the Northeast and the Mid Atlantic
Region.
In this post I will try to shed a little light
on what the NOAA/CPC really indicate. I show some of the things
they base their outlook on; then I will go over some key difference between
their outlook and my outlook.
It is important to remember that the NOAA winter
outlook is not a forecast Instead it's based on probabilities. My outlook is
based on degrees and amounts above or below average.
When I was a Texas A&M I took the typical
required math classes, like: linear Algebra, Calculus 1-4, Differential
Equations...; I also took Finite Math, Discreet Math, and several different classes
involving Statistics. Yes I'm a math geek....I love math!
How does the NOAA/CPC seasonal outlook work?
One thing I want to make clear, the only
probabilities that can be verified are 0% and 100%.
Here is a look at the temperature and precipitation outlooks for winter 2019-2020.
Here is a look at the temperature and precipitation outlooks for winter 2019-2020.
The Outlook has labeled parts of the CONUS with
EC; this means equal chances, which means there is no tilt in the odds toward
any outcome. They also typically use the letters A,B, and N.
EC = Equal chances ( 33.3%)
A= for above median
B= for below median
N = for near median
The above or below color shades work like this. They are listed in lowest to highest probability
>33% chance
>40% chance
> 50% chance
>60% chance
And so on.
Here is a closer look at the color shading legion.
NOAA/CPC pretty much relies solely on the Madden-Julian
Oscillation (MJO), El Nino Southern Oscillation (ENSO) region (Nino 3.4), and the
Atlantic Oscillation (AO). This is compared to the 15 year mean and the 30 year
climatology for that season (currently that is the 1981-2010 record). After the
computers spit out the data. The NOAA/CPC forecasters, divide the data into
three parts, the upper 1/3 median, the near 1/3 median, and the lower 1/3 median.
All of this equals 100%. Each category has an equal chance of occurring. So the
default probability is 33.3%. So while the color shading indicates the
probability of above or below temperature and precipitation. It doesn't
indicate how much above average or below average those amounts will be.
As for my outlook:
I look at dozens of things beyond that looked at
by NOAA/CPC; some of these have a weak correlation while others have a strong correlation.
But taken in their entirety I have found they do a decent job.
With the ENSO looking to be a little negative of
neutral. I think we will have a sort of hybrid La Nina. But ENSO neutral to
weak La Nina is a cold signal for the Northeast into the Mid Atlantic. When
the ENSO is near neutral, it doesn't exert a lot of influence on the overall
pattern. So, other teleconnections and short term climate patterns like the
MJO, AO, and North Atlantic Oscillation (NAO), are able to wield more sway than
when we're in a El Nino or a La Nina.
The AO involves the upper level circulation around the North Pole. This is commonly called the Polar Vortex. The Polar Vortex is weaker than is typical for this time
of year. This is a good sign, that polar air will have a good chance to work
south at times during the upcoming winter.
A weak polar vertex has resulted in several cold outbreaks in similar
years. The MJO has a lot of influence on the jet
stream pattern. This will have a big impact not only on how cold or warm we
are, but also on the storm pattern. As we've seen the last few weeks, our
current MJO pattern is helping Nor'easters and Coastal Storms to develop. Most of the analog years I used, had a predominate
negative NAO; when the NAO is negative we tend to see higher heights over
eastern Canada, Greenland and Iceland. As a result of the higher latitude
blocking we end up with a slower pattern, that favors locking colder in place
for longer periods of time, it also helps ensure above average Clipper and
Coastal Storm activity. Cool SST in Nino region 1+2 and that very warm blob in
the Northeast Pacific is another cold signal.
The last couple of weeks has seen tremendous snowpack growth, Canada,
and the Rockies and Northern Midwest have also see quite a bit of early season
snow. While it's a weak correlation, it is still a signal for a colder than
average winter in the Northeast. Because the ENSO is looking to be sort of a hybrid
La Nina, the pattern could be a bit erratic. As I said in my winter update a few days ago. We're in the quietest solar minimum in around 100 years. The last time a solar cycle was this feeble was solar cycle 14 in the early 1900's. there is a strong correlation to solar activity and winter in the Northeast. Quiet years see colder winters.
While I will be making minor adjustments in my
final outlook. I haven't seen anything going on that will drastically alter
what I said in the preliminary winter outlook, nor the update I just posted the
other day.
The reality is seasonal forecasting is extremely
difficult to get right. Every source you
go to doesn't know what's exactly going to happen from December to
February, especially this far in advance.
I don't know how things will actually workout on a day to day, or when we will see snowstorms and cold outbreaks, but all the things I look
at, makes my guess, an educated guess. Those things are telling me NOAA/CPC is
showing too much warm possibilities for the Northeast and Mid Atlantic Region. The pattern we've been in should continue into
Winter 2019-2020. With a favorable pattern for Coastal Storms the Mid Atlantic.
I-95, into southern and southeastern New England should see a few big
storms. With Interior sections of
Pennsylvania, New York State, and the rest of New England seeing an active
winter. With the pattern showing a decent chance for moisture moving north and
east into our region, with the cold should come the snow. The Great Lakes are quite warm. So the clippers could bring an active lake effect snow season. The Great Lakes, into western and northern
New York State along with western Pennsylvania could end up being ground zero
for winter mayhem.
Right now, I will continue to monitor and
observe the overall pattern and teleconnections to see what else they can tell
me......I will be coming out with my final 2019-2020 outlook in two to three
weeks.
For anyone who didn't catch my preliminary 2019-2020 winter outlook, or the follow up post; here are the links.
Preliminary winter outlook.
Winter outlook follow up .
For anyone who didn't catch my preliminary 2019-2020 winter outlook, or the follow up post; here are the links.
Preliminary winter outlook.
Winter outlook follow up .
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