A Displaced Polar Vortex and Its Causes

It’s the Sun stupid. And Leif Svalgaard is flat out wrong.

Forget about headings the title and switch of the sound. Just watch:

Ha! I was a little too absolute with my comment but I believe the evidence for solar-induced stratospheric warmings is a fair bit weightier than ‘speculative’ and the article is slightly misleading in this respect adding undue weight to the fact that Svalgaard has challenged the link. He has invalidly challenged it of course.

It’s complex with Rossby waves, phenomena like the Quasi-biennial Oscillation and many other factors but Solar activity is definitely one of them, not so much TSI but periods of inactivity punctuated by coronal and sunspot events that correlate with these SSWs. There seems to be a move to dismiss the sun amongst alarmists as anything else can be linked to CO2.

I find the article to be strangely contradictory
“A third potential factor in Polar Vortex behavior is that “geomagnetic activity (used as a measure of solar wind parameters)”
and
“However, potential influences of Solar activity on Polar Vorticity are speculative”
It slyly references all influence by the solar wind as ‘geomagnetic activity’ throughout the article, slightly misleading, despite not being incorrect.
Here’s an interesting paper:
http://www.researchgate.net/publication/4670901_The_sun-weather_connection_-_Sudden_stratospheric_warmings_correlated_with_sudden_commencements_and_solar_proton_events

Lief Svalgaard said:
Indeed, they only occur during winter [and generally only in the Northern Hemisphere] when there is no sunlight at the pole, so there you have clear evidence that the Sun [or perhaps the lack of Sun] is involved.
>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
But isn’t winter also the period when the Northern Lights are at their highest activity?
which is caused by the solar wind is it not?? Which is at its highest speed between September and March, so the sun has some influence in even in winter when sunlight is not directly involved, If Ozone can affect weather patterns why can’t Plasma (ionized gas)

“But I digress, there are two key weaknesses in the Wobbly Jet Steam hypothesis. Firstly, there does not appear to be a correlation between Sea Ice Area and Extent and the Cold Air Outbreaks. Secondly, it seems highly suspect that the extent of Arctic Sea Ice in September and October could have a significant impact on Stratospheric Polar Vortex behavior in January.”
The second reason is sound. Also remember there is no cause and effect in weather. Solar is a key potential factor, but not a cause. Weather leads to weather in the troposphere and stratosphere. Stratospheric weather affects tropospheric and vice versa. An “extreme” weather event like the polar vortex elongation and subsequent surface cold blast requires a month or more of setup followed by a particular coincidence of weather events. The potential solar contribution, labeled “speculative” in the head post, is a coincident factor to the rest of the weather factors, possibly not necessary, definitely not sufficient, but it also cannot be ignored.
Contrary to Francis, the stratospheric polar vortex is likely to speed up due to enhanced contrast between the troposphere and stratosphere in the Arctic in fall and early winter. That is the positive AO predicted by most long run climate models (again contrary to Francis). See http://yly-mac.gps.caltech.edu/Reprintsyly/z%20Yung%202012%20biblio%20Irene%20%20copy/N173Limpasuvan_2005.pdf for this explanation “The gross behavior of the composite VI event is similar in shape but opposite in sign to that associated with sudden stratospheric warming events (SSWs).”
Essentially what happens is a month or more of positive AO (see chart in head post) building up momentum in the polar vortex and also building up surface cold air. Second, there was a persistent eastern pacific ridge that pumped cold air down into central Canada which built up snow cover froze over lakes. That was the primer for the cold surface air.
Then there was a partial SSW (technically not called an SSW in that case). That elongated the polar vortex and pushed it into the upper midwest. Remember that the vortex had built up momentum during December leading to a stronger push which it finally pushed south. Remember too that the cold air had built up in December in central Canada so the low level air masses had no chance of moderating on their way south.
Then there was the coincident surface weather, 100% necessary but not sufficient for this event to happen. One was a deepening trough, but obviously causing surface weather effects deepening from feedback from that same surface weather. There was a upper strong shortwave rounding the base of the trough. There was a surface low spawned in the lee of the Rockies that dipped down into Texas then came up through the eastern plains. The surface low met up with and helped pinch off an upper low in Ontario. That stacked low then pulled the surface air south in tandem with the vortex. The intrusion of the vortex is not uncommon but does not often align with the tropospheric weather as perfectly.
Finally, I come full circle to the comment that I quoted. The temperature of the Arctic this past January was not warmer in winter due to “Arctic amplification”. It was warmer overall due to weather (with a possible minor contribution by some of the worldwide warming) and some regions were colder due to weather. It is weather (mainly the jet stream) that controls the temperature of the arctic not the other way around.

SO what caused the wobbly polar vortex in 85? 73? 78?
Was the polar ice hiding deep in the ocean then?

Yes, I think they have that one pretty much backwards. It is much more likely that SSW’s are one of the causes and not an effect of increased snow cover. Most likely there other factors causing both. That said, there is always feedback from weather in the troposphere to every stratospheric event and snow cover affects the weather to some extent.
But like most manmade warming / cooling / whatever causes “Extreme XYZ” theories, it falls on its face because most of the effects of CO2 are static, e.g. a bit of extra warming here and there. But most extreme events are dynamic, not in the sense of energetic (an incorrect warmist meme) but in the sense that all the dynamical weather has to line up, mostly by coincidence, to cause the extreme event.

Funny how that polar vortex looks a lot like spiral galaxy. Maybe there’s a connection, like electricity.

R. de Haan says:
February 1, 2014 at 2:01 pm
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Ok, I watched. Now you watch the SAMPEX and tell me where the tail at the equator is coming from..
Movie of the changing radiation belts as measured by SAMPEX/LICA from January 1, 1998 to March 1, 2005.

check that SAMPEX animation of the radiation belts out JTF. Wish it was a bit slower so you could get a better feel for all the penetration locations. Also, wishing we could see the SAMPEX version of the radiation belts through solar cycle 24. SAMPEX came down the same year the Van Allen Belt Probles went up? I think..
“”and the Magnetosphere was rocking and rolling:”””
And if this action of the Van Allen Radiation belts is related to the above magnetopause region, that would be solar induced wave action and reconnection and much more..like heavy wet blankets overhead.
If Dr. S. is lurking nearby … found a couple of articles about bipolar regions and strangely tilt angles.. of these bipolar regions…and vertical magnetic fields and MRI on flux transportation..
“”A new dynamo pattern revealed by the tilt angle of bipolar
sunspot groups””
The above article was interesting, but on a different scale the article below says .. not it all .. but lots of it..
“”TURBULENCE IN THE OUTER REGIONS OF PROTOPLANETARY DISKS.
II. STRONG ACCRETION DRIVEN BY A VERTICAL MAGNETIC FIELD””
Jacob B. Simon1, Xue-Ning Bai2,3, Philip J. Armitage1,5, James M. Stone4, and Kris Beckwith1,6
Draft version August 14, 2013
We carry out a series of local, vertically stratified shearing box simulations of protoplanetary disks
that include ambipolar diffusion and a net vertical magnetic field. The ambipolar diffusion profiles we
employ correspond to 30AU and 100AU in a minimum mass solar nebula (MMSN) disk model, which
consists of a far-UV-ionized surface layer and low-ionization disk interior. These simulations serve as
a follow up to Simon et al. (2013), in which we found that without a net vertical field, the turbulent
stresses that result from the magnetorotational instability (MRI) are too weak to account for observed
accretion rates. The simulations in this work show a very strong dependence of the accretion stresses
on the strength of the background vertical field; as the field strength increases, the stress amplitude
increases….
…Furthermore,
the stress has a non-negligible component due to a magnetic wind. For sufficiently strong vertical
field strengths, MRI turbulence is quenched, and the flow becomes largely laminar, with accretion
proceeding through large scale correlations in the radial and toroidal field components as well as
through the magnetic wind. In all simulations, the presence of a low ionization region near the disk
mid-plane, which we call the ambipolar damping zone, results in reduced stresses there….

Darn a’s and i’s. They are not even close on the keyboard. Sorry.

lsvalgaard on February 1, 2014 at 8:44 pm
“while the Sun shines during the day when it is light anyway”
– LOL!

Nice work, I had asked for more weather information here a while ago and you have delivered.

“So Planetary Waves, Eddy Heat, Geomagnetic Storms or Sea Ice, what do you think caused the weakening and displacement the Northern Stratospheric Polar Vortex in January 2014?”
It has been one strong PV to break down, and maybe by the end of this week, a true SSW (not sure if it will make it a technical Major SSW though) will occur around the 5th, just looking at berlin ecmwf strat forecasts. We have been seeing a 1-2 punch from wave1 and 2 for several weeks now and the PV has slowly taken the punches, and kept its form for the most part. If not, then we could be looking for a Early Final Warming event later in the month.

Joel O’Bryan says:
@goldminor
The serious physical problem you would have to overcome with your Moon phase observation-explanation is that lunar tidal forces diminish rapidly toward the poles (cosine of lat).
===
Not at all. Tidal effects are global , the usual trivial account being two opposing “bulges” on each side of the planet. For a high tide to occur at some location water has to come from somewhere else. Tides are mostly a _horizontal_ bulk displacement of water, a longitudinal wave.
Water has different temperature in different places, so tides also represent bulk displacement of energy.
Currently with the sun close to its annual extreme, the lunar declination also hits an extreme. Combine this with lunar eccentricity (perigee/apogee) being at an extreme.
Lunar distance changes by up to 15% . Since tidal forces are inv. r^3 that implies a change of 40% , a huge change.
All these factor come into play to produce the once in 18.6 year extreme tides such as the one that coincided with Sandy hitting NY coast. Early Jan storms in UK also hit an unusually strong high tide. (The perigee pattern peaks about twice a year and is stronger in winter when perihelion increases lunar eccentricity).
The atmosphere also experiences tidal forces, so it is probably no coincidence that these storms and tides happened at the same time.
In relation to polar vortex, the wavenumber=2 pattern is also typical of tidal influence.

I am amazed that in the polar vortex reference there is no discussion of plasma interactions.
has anybody checked to see if the Polar Plasma Fountain and the Polar vortex are lined up??
Especially considering that there are Birkeland Currents.
“A Birkeland current is a set of currents which flow along geomagnetic field lines connecting the Earth’s magnetosphere to the Earth’s high latitude ionosphere. In the Earth’s magnetosphere, the currents are driven by the solar wind and interplanetary magnetic field and by bulk motions of plasma through the magnetosphere (convection which is indirectly driven by the interplanetary environment).”
And the Polar Fountain.
“Polar wind or plasma fountain is the permanent outflow of ionized gas (plasma) from the polar regions of the magnetosphere,[2] caused by the interaction between the solar wind and the Earth’s atmosphere. The solar wind ionizes gas molecules in the upper atmosphere to such high energy that some of them reach escape velocity and pour into space. A considerable percentage of these ions remain bound inside Earth’s magnetic field where they form part of the radiation belts.”
And the Aurora.
“Auroras are now known to be caused by the collision of charged particles (e.g. electrons), found in the magnetosphere, with atoms in the Earth’s upper atmosphere (at altitudes above 80 km). These charged particles are typically energized to levels between 1 thousand and 15 thousand electronvolts and, as they collide with atoms of gases in the atmosphere, the atoms become energized. ”
All connected by Sprites and other types of electrical discharges…
“Sprites are sometimes inaccurately called upper-atmospheric lightning. However, sprites are cold plasma phenomena that lack the hot channel temperatures of tropospheric lightning, so they are more akin to fluorescent tube discharges than to lightning discharges.”
Connected to the sun by a Flux tube that is modulated by flux transfer events causing the magnetosphere to ring making substoms and plasmoids in the magnetotail. all of this affecting the climate and weather on earth….

Polar spacecraft measures “auroral fountain” flowing out as solar wind flows in…
“On Sept. 23, though, nature and NASA’s planners were on the same schedule. On Sept. 22, the sun belched forth a CME, a roiling bubble of plasma (electrified gases) that sailed along with the solar wind on a collision course with Earth. TIDE’s plasma gun already had been scheduled to be operating, and Polar’s orbital position was above the northern hemisphere, when the CME arrived.
“The amount of upwelling ions is a function of solar wind pressure or activity,” Spann said.
The Earth’s plasma “fountain” So when the CME hit, it squeezed Earth’s magnetic field, squirting particles stored in the magnetotail up the field lines towards the Earth’s poles.
Left: The polar auroral fountain sprays ions – oxygen, helium, and hydrogen – from Earth’s upper ionosphere into deep space. The loss is miniscule compared to the immense ocean of air covering our world, but is significant in terms of what drives space weather around our world. (NASA)
As UVI showed an explosion in auroral brightness, TIDE measured a significant increase in oxygen and hydrogen ions rising from the Earth.
“What we are finding is that the magnetosphere, the space environment within Earth’s magnetic field, is usually indirectly driven,” Spann said. “When that energy is released and it rushes forward there is a time delay.
However, “with these large pressure pulses from CMEs, we are seeing the magnetosphere respond practically instantly. It’s like you hit it with a bat. Everything rings at the same time.”
http://science1.nasa.gov/science-news/science-at-nasa/1998/ast08dec98_1/

John F. Hultquist says:
February 1, 2014 at 9:14 pm
*******************
thats not the one I saw but seems to match what I had understood, thanks.
yay…although presently we are warm now so may not be any worse than normal.
oh well, feb in Maine is always cold so not a huge issue, was just trying to think/plan ahead as I sometimes have to leave water running.

lsvalgaard says:
February 1, 2014 at 3:59 pm
If solar activity were a primary factor in Stratospheric Warmings [SSW] one would expect that to occur in both the northern and the southern polar caps as solar-induced geomagnetic activity occurs equally in both hemispheres [being global and occurring at the same time in both polar caps]. However, SSW are almost exclusively a Northern Hemisphere phenomenon [I know of only one case of a southern SSW].
—————-
Why should one expect solar-induced geomagnetic activity to occur equally in both hemispheres when (a) the planet does not have two North (or South) magnetic poles, and (b) the solar wind is not electrically neutral? Is this not a case of fiat definition conveniently dissolving the scientific problem?

Luther Bl’t says: February 2, 2014 at 1:03 pm
You must have been reading my mind – we said the same thing – LOL.

Bob Weber says:
February 2, 2014 at 1:06 pm
I agree with ren, Carla, Stephen Wilde, Brent Ra, and a few others – who are on the right road that only leads to solar activity as the cause. On the other hand, there’s this one solar scientist guy…
lsvalgaard says:@ February 1, 2014 at 3:59 pm
“If solar activity were a primary factor in Stratospheric Warmings [SSW] one would expect that to occur in both the northern and the southern polar caps as solar-induced geomagnetic activity occurs equally in both hemispheres [being global and occurring at the same time in both polar caps]. However, SSW are almost exclusively a Northern Hemisphere phenomenon [I know of only one case of a southern SSW].”
————————–
Sudden stratospheric warmings of late.. are a combination of solar activity and warmed areas of the planet due to mankinds error.. Like for instance that Asian sector where in that quadrant you have the most populated area of the planet. India, China etc., well its observed that there is a contribution from this sector and when the sun belts the equator with a solar storm it puffs up the atmosphere and waves carry the agw with it.
You know, without the solar activity to push the agw around, it would seem that agw is on pause..

As an observer to the above discussions – in particular, the development of intense high and low pressure systems above North America and the consequent polar vortex – might I inject another possible trigger. It seems to me that there has been a significant rise in both sea and land surface temperatures in the NW corner of the North America continent during the summer and autumn months of 2012 and 2013. These increases have been particularly evident along the west coast of the USA, western Canada and Alaska and coincide with the intensification of stationary high pressure systems centered on the Bering Sea.
Now, high pressure systems are usually accompanied by clear skies and sinking air – which inevitably lead to atmospheric warming. When the high pressure system remains stationary for a protracted period of time, this can lead to a significant increase in surface temperature. However, the absence of cloud cover should counter this trend because there is no natural barrier to trap rebounded long-wave radiation. So what is driving the current temperature increases?
Between the 1960s and 1990s jet aircraft routes were primarily between the USA and Japan on the one hand and to Europe on the other. Most aircraft were limited in range and hence refueling stopovers were made in Alaska en route to Japan and Europe. Accordingly, aircraft movements across the Arctic Ocean were confined to those proceeding to Europe. Following the development of long-range jet aircraft the need for an intermediate stopover in Alaska was effectively eliminated. Concurrent with the development of these long-range aircraft, routes broadened across the entire Arctic Ocean – this being due to the opening of markets in SE Asia and, particularly, China and India. Could this be driving the observed “heating” of the Arctic region, Alaska and western Canada?
Now jet aircraft travelling at cruising altitude often produce condensation trails. These vapor trails intensify as one moves from the tropics to high latitudes and can drive the formation of a cirrus-like cloud in the lower stratosphere. Such “clouds” can trap rebounded radiation; leading to an artificial heating of regions beneath the dispersed vapors.
Also, polar routes become increasingly problematic as one moves from summer to winter. It becomes necessary for aircraft to travel at progressively lower altitudes as winter approaches in order to avert problems with fuel supply. Is it possible that an artificial “heat-trap” is being created as a consequence of aircraft movements between the USA and SE Asia/China and that this trap intensifies in winter as cruising altitudes drop during the winter months?
Could such a “trap” account (in part), for (1) the heating that we are witnessing along the west coast of the USA, western Canada and Alaska and (2) the intensification of the high pressure system along this spine?
Greg Beasley
(Prospect, NSW)

lsvalgaard says:
February 2, 2014 at 3:39 pm
Carla says:
February 2, 2014 at 2:54 pm
I agree with ren, Carla, Stephen Wilde, Brent Ra, and a few others – who are on the right road that only leads to solar activity as the cause.
If solar activity is the primary cause of SSWs then we should observe those equally in both hemisphere and we do not, so ‘the right road’ appears to be falsified. Of course, what is a little falsification for true believers?
———————————-
How long have we known about SSW in any hemisphere? The space age or period of mankinds history when the solar cycle was in a medium high phase of solar activity? Do they begin to occur early in their season and with more frequency during extended periods of years, of higher solar activity? During times when the atmosphere is already jet puffed up and out by solar storms, seems more likely suitable for any wave, solar, lunar, planetary or combination thereof to do the job.
little bipolar spots and their tilt angles suggestive of changes in solar differential rotation.
MRI shearing through horizontal magnetic laminate sheet, preventing rise (buoyancy damping) of vertical magnetic fields, keeping us in little bipolar spots and specs on the sun?

lsvalgaard says:
February 2, 2014 at 3:39 pm
‘If solar activity is the primary cause of SSWs then we should observe those equally in both hemisphere and we do not…”
It is my understanding (limited as it is) that SSW occurs in winter. Could the fact that currently during SH winter Earth is farthest from the Sun and the lower energy received due to this extra distance would be reason for the lack of SSW in the SH?

Dr. S., do the sector boundarys form a hour glass like shape around the solar disk? Like a baseball seams?

“lsvalgaard says:
February 2, 2014 at 3:39 pm
Carla says:
February 2, 2014 at 2:54 pm
I agree with ren, Carla, Stephen Wilde, Brent Ra, and a few others – who are on the right road that only leads to solar activity as the cause.
If solar activity is the primary cause of SSWs then we should observe those equally in both hemisphere and we do not, so ‘the right road’ appears to be falsified. Of course, what is a little falsification for true believers?”
Show me a electrical dynamic plasma pumping system that is symmetrical….. The SSW’s are a cyclical events and I doubt they are driven “directly” by the sun but the energy certainly comes from the sun.. I am however certain that if one were to look closely one would find a basic rhythm if you will, that is driven by the sun as a resonant system.

I think that individual SSW events are more akin to weather than climate change.
However, the frequency and intensity of SSW events changing over decades and centuries in response to changing solar effects on the balance of the ozone creation / destruction process would lead to climate change.
One only needs a small change in the gradient of tropopause height between equator and poles to produce the climate variations that we observe.

Let me get this straight..
Warm air moves to the north pole. The air cools and and and becomes more dense. This cold air has to go some where right???
Maybe just maybe a elongation and subsequent disruption in the ‘polar vortex’ is one of the mechanisms for heat and mass exchange between the warmer tropics and the cooler arctic.
It would be interesting to a see a 3 dimensional representation of the airflow immediately preceding, when the polar vortex and following the elongation and subsequent splitting of the polar vortex.