~Most likely occurring today.
~But not after a great sustained Arctic Basin Gyre did its thing.
~It is just about to happen, after long sojourning Arctic Basin High pressure system
~Impacts sea ice survival in a big way
The reasons why cyclones persist more in cooler summer weather are obvious, they cast a shade from the sun. In the Arctic it is a bit more complex, sea ice helps create clouds as well, more of it causes a cloudier Polar summer. Moist air hitting an ice pack easily fogs up, fog is a cloud touching the surface. Onto itself summer sea ice and cyclones are a pair, so it is not surprising that summer Lows tend to survive longer above ice. But there is a time, such as now, when cold Highs and Lows may subsist simultaneously:
~Stable warming of the Polar Vortex is seldom uniform in shape or temperatures.
~This warming can cause a sudden cooling zone anywhere with very long exposures to the frozen ground and of course by prolonged cloudless air
~Recently we have had a very neat example.
Early may 2012 Arctic weather was incredibly warm, this warming has not stopped, it kept shrinking a mangled Arctic Polar Vortex, but suddenly 1 week later , under an even warmer rising sun, what appears to be impossible occurred:
~However spring 2016 was part of the warmest El-Nino in history
~While spring 2021 is part of the coldest La-Nina since
There is something out of the ordinary coming about:
~Simply extraordinary systematic Arctic surface air warming, caused newly discovered optical phenomena
~Vertical sun disks in the middle of the pack, analyzing a much weakened out of normal position Cold Temperature North Pole
~Extra clear air, confirming a depolluted Arctic atmosphere and a quiescent La-Nina unable to compensate for historically warmest 2016 El-Nino
Since 2016, the year with the warmest El-Nino in history, everything was changed further, culminating to Nothing:
~Hot spring summer for North America, #1 warmest year in history.
~ Is strange, since La-Nina usually cools the planet
Lets take a summary look:
The only thing really unknown is the new state of circulation affairs, what will a non existent really normally perennially cold Polar Vortex world look like? We are about to find out. WD April 25, 2021
~Winter 2020-21 was unbelievably warm for North America
~None better example than the 0 C temperature Isotherm
~In a short time span Arctic spring and autumn days have shortened.
~A very good reason why Northern Hemisphere circulation is changing aside from warming temperatures: thinner sea ice.
~ This can be visually observed multiple ways, all to to with atmospheric refraction.
The latest Arctic warming can be summed up in 3 periods by sunset tardiness, of which some part of the sun disk can be seen well below the astronomical horizon (A.O. : horizon seen if there was no atmosphere). In the High Arctic Cornwallis Island some sun disks parts have been seen lower than -3 degrees (that is 3 degrees of arc below astronomical horizon). Furthermore when seen so much below the A.O. under the violet sky, sunsets shift Northwards quite a lot, prolonging the day. 3 recent periods of concern would certainly be 2001-2005 , the last thicker ice years, 2005-2010 intermediate warming/thinning of sea ice, 2011 to 2021 severe thinning years, of which the first period had 6 Month of March sunsets 2 degrees below astronomical horizon, the intermediate period had 3, the longest lasting period of 11 March months had only 3, this is a serious decline in optical properties caused by sea ice and air interface. Visually this can be studied in greater details, although I have no illusions about how convincing these images can be, atmospheric refraction is very poorly understood, I'll endeavor to explain nevertheless:
~Last few later winter circulation pattern vanished.
~North Hemisphere current prime CTNP has been anchored North Central Siberia for a long time
~2021 spring summer weather will of course be different in many locations.
At present, the great Canadian Archipelago Spring CTNP (coldest vortice) has a hard time establishing itself, largely because there has been a constant streaming of North Pacific warm cyclones destroying its formation, on every 2 or 3 days of build up this vortice gets banged up by cyclonic heat advection. As a result Siberia has dominated as CTNP prime region, shifting the entire circulation picture of North America, from mainly cold to much warmer:
NOAA daily composite March 1 to 17 picture at 600 mb temperature, roughly the weighted temperature of the entire troposphere, has morphed from, 1977; when the North Pole was CTNP prime vortex, 2012: by continental split vortices, very bad for sea ice, 2016; very strong El-Nino year , again with the spit cold temperature vortices, 2020, really 2018, 19, 20 dominant Archipelago CTNP.,to 2021 the North Pacific flow year so far. Basically if this continues, and there are no signs otherwise. It will be a dry summer for much of North America, particularly mi-west eastwards. What really matters for California coastal fires is the green to yellow threshold, basically the jet stream hangout region, in 1977 it was close to Mexico USA border, now well to the North. The early preliminary tentative outlook is for very warm weather to come, refraction measurements of vertical sun disks also suggest this will be warmest year in history yet again. WD March 21 2021...
~Ongoing essay on predicting the location of the Cold Temperature North Pole
~ The most underrated weather factor, the location of the CTNP, in fact rules the world hemispheres weather.
~Locating where they will be basically enables long term weather projections to be easy.
~Short term wise as well
~Refraction techniques can laser predict wether the CTNP be, or not.
CTNP's are known to mainly slowly wobble, from one point to the next. Or surprisingly vanish only to reappear thousands of kilometers away. They basically control weather circulation of planetary waves, nothing more important weather or climate wise. The mystery is why do they wobble in the first place, rather than be moving around according to basic meteorological tenures;
The main problem with respect to predict where the CTNP will move is extremely complex. With numerous variables to consider. Probably the most complex component, on top of advection, clouds, radiation balance, presence or lack of precipitation, albedo, insolation, on top of all these, is surface properties. Not a black and white issue at all, water surface alone, is not as simple as a mirror lake, the waves, and there are many kinds of waves, the mixing going about, salt, fresh water, top it with ice, grey, fast, 1 year, multiyear, snow covered, hummocked, ridged, mix pans including all types, not forgetting ice and open water combinations. And we go to land, more complex than water surfaces, by wildly varying topographical features, what is on it, vegetation, rocks, a mix of both, flooding, snow, and snow cover is not uniform at all:
The 700 mb Low of 2680 meters is the CTNP.
Automatically changing the weather all around it. High altitude winds spin around it , in fact the jet stream is at the North Pole
There are 2 Polar Vortices at present 
There is a CTNP in NE Siberia, the two are close enough to cause this jet. (250 mb map).
