Paul Dorian sends word that there’s a change brewing in the Arctic that may result in a massive and extended cold outbreak for the Northern hemisphere, much like what we saw in late December and early January when record breaking cold swamped the eastern USA. He writes:
Overview
We are now experiencing warmer-than-normal weather conditions in the eastern US and there will be mild spells right into the first week of February, but the signs are increasing for a return to a cold pattern next month and it may very well last for an extended period of time. The MJO is a tropical disturbance that propagates around the global tropics and it will be transitioning into “phases” during the month of February that are conducive to colder-than-normal weather in the eastern US. In addition, stratospheric warming will unfold over the next week or so in the polar region of the Northern Hemisphere and this can set off a chain of events in the atmosphere that ultimately results in colder-than-normal weather for the eastern US. There are other signals as well that support the notion of a return to cold in the eastern US and it very well could stick around for awhile.
Madden Julian Oscillation (MJO)
The MJO is a tropical disturbance that propagates eastward around the global tropics with a cycle on the order of 30-60 days. It is a large-scale coupling between atmospheric circulation and tropical deep convection (thunderstorms). The MJO not only has wide ranging impacts on the patterns of precipitation, surface temperatures, and atmospheric circulation in the tropics, but also influences precipitation and temperature patterns across the globe. Specifically, one significant impact of the MJO over the U.S. during the northern hemisphere winter is an increase in the frequency and intensity of cold air outbreaks across the central and eastern US.
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Specifically, one significant impact of the MJO over the U.S. during the northern hemisphere winter is an increase in the frequency and intensity of cold air outbreaks across the central and eastern US.
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This time of year, phases 5, 6 and 7 of the MJO index signal warmer-than-normal temperatures in the central and eastern U.S., but beyond that time, the MJO is likely to propagate into phases 8, 1 and 2 which usually are correlated with colder-than-normal weather in the central and eastern US during this time of year. In fact, the MJO index is forecasted to increase in amplitude when it enters phase 7 (i.e., move farther away from the inner circle), and an increase in amplitude may actually further influence the overall pattern around here in February.
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Stratospheric Warming
Another way to monitor the potential for Arctic air outbreaks in the eastern U.S. is to follow what is happening in the stratosphere over the polar region of the Northern Hemisphere. Sudden stratospheric warming (SSW) events are large, rapid temperature rises in the winter polar stratosphere and they can set off a chain of events in the atmosphere that ultimately lead to Arctic air outbreaks from northern Canada into the central and eastern U.S. Indeed, there is strong evidence for stratospheric warming to take place in the Northern Hemisphere over the next five-to-ten days (top) and this often increases the chances for colder-than-normal air masses to drop southward from high latitudes and into the middle latitudes.
Other supporting signals for February cold
Two other supporting signals for cold weather in the eastern US following this warmer-than-normal stretch include the outlook of Arctic Oscillation (AO) index and the current snow cover extent across the Northern Hemisphere.
Read his entire forecast here at Vencore Weather. Well worth your time.
Meanwhile from WeatherBell:
When looking at the GFS 16 day 850hPa temperature anomaly we can see how the cold builds in Northwest Canada and dives Southeast into the Eastern US by the end of the period pic.twitter.com/JPbBwIejFG
— WeatherBELL (@weatherbell) January 22, 2018
Operational GFS not showing any signs of a winter storm for the Northeast next week, but ensembles are hinting at an inside runner meaning snows possible for interior portions of the region. Temperatures will be cold enough, so a close eye on this one! pic.twitter.com/XX6T0RFCqj
— WeatherBELL (@weatherbell) January 23, 2018
Here is the beginning of the outbreak:
Joe Bastardi weighs in…
https://twitter.com/BigJoeBastardi/status/955758896165085184
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Please see how the atmosphere works in winter. One can see how the stratosphere declines more and more over the polar circle and the troposphere layer is more and more thin. This mechanism exposes the deception of anthropomorphic global warming.
Let’s be honest, how can a person influence the stratosphere?
http://files.tinypic.pl/i/00956/bf2t5ldgu02z.png
Few people realize that the polar vortex is accelerating above the stratosphere. As you can see below, the wind speed in the highest layers is the highest and reaches a speed averagely of 70 m / s, or over 250 km / h.
http://www.cpc.ncep.noaa.gov/products/stratosphere/strat-trop/gif_files/time_pres_UGRD_MEAN_JFM_NH_2018.png
One can see how the stratosphere declines more and more over the polar circle and the troposphere layer is more and more thin.
http://ds.data.jma.go.jp/tcc/tcc/products/clisys/STRAT/gif/zt_nh.gif
The polar vortex increases the speed due to the temperature difference in winter over the polar circle. This is due to lack of ultraviolet radiation in the winter.
http://images.tinypic.pl/i/00956/0c0und6y2ald.png
http://www.cpc.ncep.noaa.gov/products/stratosphere/strat-trop/gif_files/time_pres_TEMP_MEAN_ALL_NH_2017.png
The polar vortex is affected by waves that occur in winter over the polar circle.
http://www.cpc.ncep.noaa.gov/products/stratosphere/strat-trop/gif_files/time_pres_WAVE1_MEAN_ALL_NH_2017.png
Energy in the stratosphere does not come from the troposphere, but results from the undulations of the thermosphere.
http://www.cpc.ncep.noaa.gov/products/stratosphere/strat-trop/gif_files/time_pres_WAVE1_MEAN_JFM_NH_2018.png
http://www.cpc.ncep.noaa.gov/products/stratosphere/strat-trop/gif_files/time_pres_TEMP_MEAN_JFM_NH_2018.png
Currently, the polar vortex is weakened over China and there attacks powerful frost, below -40 C.
http://files.tinypic.pl/i/00956/rs1tmj6ri2hs.png
Sceptics should listen to President Macron who is leading the way on climate change. Trump can learn a lot from him:
http://www.euronews.com/live
Yawn……
Zzzzzzz………
People walk on a street in Mohe County, northeast China’s Heilongjiang Province, Jan. 24, 2018. The lowest temperature of Mohe reached minus 44 degrees Celsius Wednesday. (Xinhua/Wang Kai)
http://www.xinhuanet.com/english/2018-01/24/136921403_15167922261081n.jpg
The forecast of the polar vortex at the beginning of February means the return of strong frost to the US and China. Large cooling in Europe.
http://pics.tinypic.pl/i/00956/h95h5kfzyapj.png
i’m taking this opportunity to ask a stupid question. I was curious about exactly what longitudes the boundaries 8/1 (West Hemisphere and Africa), 2/3 (Indian Ocean), 4/5 (Maritime Continent), and 6/7 (labeled Western Pacific). Well, the Indian Ocean is located at longitude 90E. Progressing eastward in 90 degree increments, one encounters the International Dateline (labeled the Maritime Continent), the Eastern Pacific (labeled Western Pacific), and the Prime Meridian, Greenwich England (labeled West Hemisphere and Africa). So, since the 6/7 boundary is located opposite the Indian Ocean which is located at 90E, shouldn’t it be located at 90W and called the Eastern Pacific and not the Western Pacific?
Could Mr. Dorian give us an update here? Looks like the forecast has changed.
What’s happening with this forecast?
This is what has happened, …https://earth.nullschool.net/#current/wind/surface/level/overlay=temp/orthographic=-91.66,41.30,1823/loc=-86.125,39.070
So it hasn’t changed?
Over in Asia the freeze line last night dropped all the way to the southern coast line. That is a first for this winter. It’s as if winter started at the begining of January this season. This should be showing mid morning for coastal China. …https://earth.nullschool.net/#current/wind/surface/level/overlay=temp/orthographic=-244.29,35.07,1107/loc=114.268,23.949