Sunday, November 17, 2019

My Final 2019-2020 Winter Outlook


It’s November 12th  , as I’m writing this,  our first major arctic front of the season is rolling through, it is  quite blustery and cold outside, and it's getting colder. To get this kind of digging arctic front this early is quite rare.   Many of us in Pennsylvania, New York State and New England have seen measurable snow. So, with Thanksgiving right around the corner, many of y'all are wondering what to expect for this upcoming winter. If you don't want to read all the meteorological data and analysis, you can skip to the end of the post.


Over the last couple of years, I've found when dealing with my seasonal outlooks. it's better to release a few installments leading up to my official outlook. In that light, I've already released my preliminary outlook and a subsequent update.  You can find them at these links






OK let’s get started:

Meteorological Winter officially starts December 1st, astronomical winter officially starts on Saturday December 21st. I started trying to figure out clues for winter 2019-2020 back during the summer. Even back in July, I was fielding questions on my winter thoughts; So, I know many of y'all have high expectations. But I also know there are snow lovers who are excited about the coming winter, and winter haters who dread what is coming. So, it's nearly impossible to make everyone happy.

This outlook covers the December through February time period.

One thing I want to point out, this outlooks forecast is a little warmer overall than some of the analogs indicate. My biggest worry concerning this outlook, is that I’m being too conservative with my temperature ideas…

My Analogs:

1917-1918, 1961-1962, 1969-1970, 1981-1982, 1983-1984, 2004-2005 (double weighted), 2013-2014 (triple weighted), 2014-2015 (double weighted), 2018-2019




When looking at the SST anomalies; the closest matches are 2004-2005 2013-2014, and 2014-2015. 1977-1978 and  2002-2003 just missed as analogs; so they still have to be factored in somewhat.

  

Let’s take a look at current anomalies and teleconnections:



 Looking back at the SST anomalies, they say a lot about what looks to occur this winter.


The first thing that sticks out is the warm SST anomalies in the Northeast Pacific. But also showing up is the warmth off the East Coast of the CONUS; the warmer tropical central Pacific and the cooler SST off the tropical West Coast of South America. We can also see the warm SST in the western Indian Ocean.  All of these are shouting this winter won’t be like last winter.


During the last month, SST in the equatorial Pacific have been above average in the western-central Pacific. The eastern Pacific has seen below average SST
Image from WeatherBell

The El Nino Southern Oscillation (ENSO):


For the spring and summer of 2019, the ENSO was in a weak La Nina. The ENSO became neutral late summer.


But the Southern Oscillation Index has been negative and has caused the ENSO to warm in ENSO region 3.4. ENSO region 1+2 is still colder than 3.4.

So, the ENSO is trying to trend toward a weak Modoki El Nino.


The vast majority of winters that experienced ENSO neutral or a weak El Nino, underwent above average snowfall and below average temperatures, across most of the Northeast.


Weak El Nino’s typically bring much colder than average temperatures to the Eastern CONUS for December, January, and February.




Warm Neutral ENSO conditions typically aren’t quite as cold as Weak El Nino’s, with a slightly warmer December and cold for January and February, with the cold more in the Northeast.

Everything is pointing to the idea of the ENSO staying neutral warm with a Modoki look,  into Spring 2020.



Everything is pointing to the idea of the ENSO staying neutral warm with a Modoki look,  into Spring 2020.

The Pacific Decadal Oscillation (PDO):



The PDO is one of the major weather drivers for our overall weather patterns. Looking at the SST anomalies, all y’all can see the warm water off of coastal Alaska.  This is showing that Currently the PDO is positive. Overall the PDO has been positive since 2006.

When the PDO is strongly positive many have named this the "The Warm Blob" Historically one of the biggest factors for cold and snow in the Northeast is warm water in the northeast Pacific.


Persistent warmer than average SST in the northeast Pacific during the winter season is typically associated with upper level ridging near Alaska and along the Canadian West Coast into the Pacific Northwest of the CONUS.

  

The Indian Ocean Dipole (IOD):


Currently we have cold SST Southwest Pacific in the eastern Indian Ocean, warm SST in the western Indian Ocean. So right now, the IOD is a fairly strong positive. Over the last several years there have been positive IOD during all phases of the ENSO.  Several strong IODs during moderate to strong El Nino’s averaged warm in the Eastern CONUS and cold in the Western CONUS.  On first blush this would seem to be saying a warm winter is in store for the Eastern CONUS.




Given the idea that the ENSO is going to be very weak to neutral, if we remove strong El Nino's and strong La Nina's, the temperature outlook for the Eastern CONUS changes dynamically.


 The positive Indian Ocean Dipole has only occurred three times without an El Nino….1961-1962, 1982-1983, 2012-2013


The Quasi-Biennial Oscillation (QBO):

The QBO is an upper atmospheric pattern near the equator. The winds vary from propagating downward eastward and westward.







  


The QBO is currently west based, meaning it is positive. Some of the snowiest winters here in the Northeast have featured a west based QBO. But that isn’t always the case. A negative QBO often supports a setup for high latitude blocking. A negative phase in the QBO also typically leads to a weaker polar vortex. Making cold intrusion into the CONUS more frequent. 




The QBO does seem to be trying to tend east (negative). Recently, the QBO has been descending toward 30mb.  While this will have implications on the winter ahead, it is unclear how quickly the QBO will descend  

  

The AO and NAO:




 

The AO and NAO are used to try and track high latitude blocking. The AO refers to opposing atmospheric pressure patterns in the middle and high latitudes. A positive AO means the surface pressure is low over the arctic. A positive AO helps keep the mid latitude jet strong enough to keep most of the arctic air locked to our north.  When the AO is negative, there tends to be high pressure over the arctic. As I said above, high pressure in this part of the arctic is called high latitude blocking. It tends to weaken the zonal flow, resulting in greater occurrences of arctic air intrusions into the Northeast CONUS.





The waters off the Northeast Coast are well above average. We should expect the warm SST to strengthen coastal storms moving up the East Coast. Warmer temperatures can hold more water vapor content. So Northeaster's will be able to create a bigger precipitation shield.
A negative NAO generally doesn’t bring the cold air but what it does do is lock those colder temperatures in.  The NAO helps enhance what is going on in the Pacific Basin.  Overall a negative NAO slows down storms, allowing them to become stronger. It also helps promote a stormier pattern here in the Northeast.




In 2018 the AO and NAO were primarily positive.  In fact, on average the NAO has been in a positive phase since 2013. But in recent months the AO and NAO have largely been neutral or negative. If this pattern continues, we should see more arctic intrusions (like the one currently overhead) this winter. This would favor above average snowfall and below average temperatures across the Great Lakes, Northeast, into the northern Mid-Atlantic Region. Most of the models are showing the NAO staying on the positive side on average for this winter. However, many of the teleconnections like a declining QBO and low solar, are hinting at the AO and NAO sticking overall to the negative side for this coming winter.

  

The Madden Julian Oscillation (MJO):


The MJO is a tropical disturbance that transfers wind, precipitation, and pressure changes eastward around the Earth every 30-60 days.




The MJO is most active during neutral phases of the ENSO. With the ENSO looking to be warm neutral and the IOD looking to stay positive, I think any move of the MJO into warmer phases would be very short. So, it won’t take long for cold air to rebuild back into the region.  Shorter stints of warmer temperatures would naturally increase the snow chances.


The MJO has been moving toward a signal indicating high-latitude blocking. This sometimes includes a negative NAO and AO, which correlates to a cold and stormy pattern for the Mid-Atlantic and Northeast.


 The Pacific North American Oscillation (PNA) pattern:

When the PNA is negative we typically see a trough in the west CONUS and a ridge in the east CONUS.  A positive phase of the PNA typically promotes a ridge in the Western CONUS with a Trough in the Eastern CONUS. The PNA is currently positive, that means we typically see colder temperatures in the Eastern CONUS. 


The Eastern Pacific Oscillation (EPO):

 Like the PNA, a negative phase of the EPO normally features a ridge over Alaska and a trough over Eastern North America. So, like the NAO, during negative EPO episodes the Eastern CONUS typically sees colder temperatures. There isn’t a strong correlation between the EPO and the AO. But a strong negative EPO can overwrite a positive AO. This occurred during one of my analog winters 2014-2015. That winter was very cold and the pattern was snowy.








  



Solar:

Weak solar activity is a great sign for high latitude blocking this winter. The historic record, shows a correlation between solar activity and high latitude blocking. When we’re in solar minimums we tend to see much more blocking than during solar maximums. But this isn’t always the case.




When we look at recent solar minimum years, 500 mb height anomalies. There is definitely a correlation between low solar activity and higher than average geopotential heights over Greenland and Iceland.  So, with this being the weakest solar year in over 100 years; there is a good chance for a lot of upper latitude blocking, leading to sustained cold air outbreaks over the central and eastern CONUS. With the increased likelihood of cold, higher snow amounts than average is also a good bet.  I will go a little more in-depth to explain why.


In the previous two prewinter outlooks, I talked about how we're now experiencing the weakest solar minimum in the last 100 years. Because of this I think we will end up seeing a few sudden stratospheric warming (SSW) events this winter.   SSW seem to be more likely during Solar Maximum and Solar Minimum.  The Quasi-Biennial Oscillation (QBO) phase is tied into this SSW are more likely when the QBO is in its westerly phase during Solar Max. On the other end of the spectrum, SSW are more likely when the QBO is in its easterly phase during solar Minimum.  Currently the QBO is trending east.  During the last solar minimum of 2008-2011 the Arctic Oscillation primarily trended negative. So, I'm expecting this winter to see the AO act similarly, and maybe the NAO as well. 


Snowfall anomalies:

Over the last few weeks, there has been an observed rapid advancement of snow cover over Eurasia and North American.  Judah Cohen has done research that correlates this to below average temperatures over the eastern US and above average snowfall over the Northeast into Mid-Atlantic Region. If the snow pack below 60◦ North is above average and expanding during October into November, there is an increased risk for high latitude blocking the following winter. Right now snow cover in that part of Eurasia is higher than in many recent years….So it’s a good sign for snow lovers.  



All of these SST Anomalies and teleconnections are important. The warm SSTs in the Central Pacific, colder SST in the eastern Pacific, and the warm blob in the North Pacific, do point toward a colder pattern for areas east of the Rockies.


So, if there isn't going to be an El Nino, with a warm IOD; the overall SST setup in the Pacific is certainly a cold pattern for the Northeast and Mid-Atlantic.




The general pattern should look basically like this for this winter
The 500mb Heights for and around North America look like this.





The Warmth in the Gulf of Mexico and the Western Atlantic is a sign of above average precipitation this winter.



Warm dry Octobers typically lead to warm winters. October 2013 one of the analog years, was a very wet month. Many of the other global indices I look at also match up well with October 2013.


When looking at past Novembers and winter temperatures; 60-70% of years that saw a cold November ended up with a colder than average winter in New England. November has been cold. Currently we’ve been seeing very better cold air overhead across the region. Back in 1917, a severe arctic outbreak occurred during November, similar to what we’ve been seeing this year.  Typically, we see December warm after a cold November. But not for the winter of 1917-1918; that winter started out brutal and stayed brutal for the entire winter.

What do I expect winter 2019-2020 to act like?

For this year’s winter outlook, I’m going to try and provide some insight not only the general idea, but also into the individual months of December, January, and February.

  
Temperature and Precipitation Outlook:




  

Overall Winter 2019-2020 will be colder than average, average, to slightly above average precipitation, Snowfall will be above average across the entire region.


The analogs are much colder than my outlook. So, there is a chance the winter could end up overall much colder than I’m indicating. But I do favor the idea of some kind of bookend winter, it should start out cold, then some kind of warming before the cold comes back to end the winter. 

I am concerned that this winter could feature a couple of notable ice storms.


December:

 I think December will see the Southeast ridge expand northward.  How far north the ridge gets will decide just how warm we get in our region. But I do think it will allow warmer temperatures to make it into the Mid-Atlantic Region. There will be some moderation for the Northeast, but New England most likely will see warmth at times during December. Right now, December looks to end up average to maybe a degree below average for our region.  The NAO will have a lot to say about how warm the Northeast gets. If it becomes negative mid to end of month, somewhat colder air could become locked in.  But overall don’t expect December to be overly wintry.  This is in line with what the oscillations and other teleconnections, particularly the ENSO are telegraphing. I do fear, the possibility that December could be colder than I'm currently thinking. 1917-1918 saw a very cold December and it is a analog winter.

  
January:

The colder than average temperatures should return during January. But some of the warmth from December could linger into the first part of the month.  January should see a return to tendency supporting high latitude blocking. The pattern we look to see, would translate to greater cold chances farther east, winter storms will be more numerous across the Midwest, Great Lakes into the Northeast and Middle Atlantic.

  
February:

 February will likely experience the core of the cold for winter 2019-2020. We should experience frequent cold outbreaks throughout the month of February.

  
March into April:

 While this winter outlook doesn’t include specific conditions for March into April. As has been the trend of the last few years. Winter like weather will hang on into March and April. For the last few years, March has been a snowy month.

Lake Effect Snow for winter 2019-2020:




SST temperature in Lake Erie are slightly above average at around 11-12 C




SST temperature in Lake Ontario are even warmer, at around 12-13 C.




Given the idea that the general overall pattern is going to feature ridging out west, with troughing in the east. The pattern should support the flow coming out of the northwest to west. With lake waters so warm in Huron and especially Erie and Ontario, the cold air flowing over the lakes should generate a lot of lake effect snow. This is why my snowfall totals for near the Great Lakes are so high. 


In Summary, this will be a colder and snowier winter season in the Northeast and northern Mid-Atlantic region. I think there is a greater chance for blizzards this winter, especially across the interior Northeast.


Remember, a seasonal outlook is about the general pattern and most likely outcome from that pattern. It is not meant to be an exact forecast. As was the case last year (and any year really) there will be areas that over-perform and under-perform from what I’m showing.


I want to take time to thank you for reading my thoughts on winter 2019-2020.  If you have questions not covered in this outlook….or general questions about the upcoming winter please ask.





Monday, October 21, 2019

What is the NOAA and CPC winter outlook really saying?


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.  
 
 

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 .