New paper: Tropical cyclone response to solar UV

DirkH
We are all doomed, at least statistically. The real question is: Shall we survive statistics?

So the ability of a cyclone to dump the earths heat into the stratosphere and outer space is subject to the random chance of dampening by high levls of UV?
Sound like a random walk, along the big heating cooling highway that the earth has.

Because of the tilting of this planet is in movement, ONLY one point on this planet recieves DIRECT sunlight. The rest of the planet the sunlight angles and travels further through the atmosphere. At the poles, the angle of sunlight to the surface is thousands of more miles both in mileage and through the atmosphere.
NOW, let us add cloud cover. Some clouds to the pole on an angle from the sun is now hundreds of miles long. More cooling, the denser the cloud cover towards the poles.

“An inverse relationship between hurricane activity over the Caribbean and the number of sunspots has recently been identified”
Not the Gulf of Mexico, not the Atlantic, not the Pacific, just the Caribbean.

Tom, just like Lockwood’s solar influences winters in the UK, only.

Anthony, you need to change the format of your blog to allow in-line comments.
The new Elsner paper is a statistical study, and the theory or meteorology content is rather light. Indeed, this is the case with many tropical climatology papers recently, not to pick on just Elsner’s work. This does not mean that the findings are incorrect, just that they are not fleshed out with appropriate additional testing such as modeling. This is one of the disadvantages of GRL journal. Stuff gets published quickly that is rather incomplete, but I guess that’s its mandate.
The upper-level temperature data is a bit sketchy as well considering it is the NCEP-Reanalysis. I have done a simple comparison with the ERA-Interim reanalysis for stratospheric temperatures and found the RMS difference between the two datasets on a monthly time scale quite large — larger than the signal that Elsner is correlating to. It is a cottage industry for folks to use the NCEP reanalysis datasets willy-nilly.
REPLY: Sorry, I have no control over making inline comments available to users, it’s an administrator privilege. Yeah I agree on the upper level NCEP issue. -A

Harry Lu
One obvious difference with UV is that it has the energy to breakup O2 to atomic O, which facilitates O3, which also absorbs uv… And from what i have read on the subject recently it should effect stratospheric temperatures… (and by extension global climate.) http://journals.ametsoc.org/doi/pdf/10.1175/1520-0469(1979)036%3C1084:TROSOI%3E2.0.CO;2
And this nasa article below also raises the question if reduced UV effects upper atmospheric temperatures. And points to some evidence to back it up.
http://www.nasa.gov/topics/earth/features/coolingthermosphere.html
I have no idea as to the effect on the troposphere, but the second law o thermodynamics suggest it should have some effect… just an area i have recently found interesting(thanks to science o doom)

There are NINE data points in this supposed connection between UV and Caribbean hurricanes.
What ever happened to out-of-sample testing? Or common sense?

Yeah but flip it on its head….
“Man made cyclones cause sun spots”.
We’d need a new branch of environmentalism for that, we’d end up with Gen Y kids painting their faces yellow, in support of the nearby star we’re polluting.
The WWF would come out and condemn us all for killing the ‘Lesser Spotted Sol’, the dark patches on its otherwise perfect orb show the impact of SUV’s, Air conditioners and Fast Food culture.
Millions would march on the worlds capitals, demanding we do something to save the Sun, and then someone would come up with a really expensive solution….hmmm.
/End Post Normal thought experiment.

http://www.realclimate.org scenario http://news.minnesota.publicradio.org

If one uses Birkeland’s little terrella experiment and connect the Earth’s surface electrically to the solar system and Sun, and assuming sunspots are electric discharges on the photosphere, then a reduction in those sunspots would suggest a dropping in current density producing them. As this would be linked to the electrical energy powering the solar system, then a reduction in overall power to the solar system would then produce a parallel feature as a decrease in earth surface discharge phenomena in the atmosphere – hurricanes/cyclones/typhoons. This might also be observed in “cosmic ray flux” (aka as electric current) to the Earth.
This is the Plasma Model explanation.

Leif Svalgaard (May 6 2010 3.00am)
Both explanations fit the observations but we each prefer a different explanation. I don’t accept arguments from authority given the immature state of the science and the lack of predictive ability.
The stratosphere should warm from more uv heating of the available ozone but it seems that the effect of a more positive polar oscillation may well have the power to more than offset that warming effect by reducing the quantity of ozone to cause a net cooling.
You inadvertently supported the concept when you stated elsewhere that the power of the polar oscillations (you said the Arctic Oscillation actually but no matter) was sufficient to account for observed climate variability. They can only do that if they affect the temperature and so the strength of the inversion at the tropopause and they can only do that if they can affect the temperature of the stratosphere.
To fit your view the polar oscillations would have to be driven wholly from below but they can’t be because there is no match to the behaviour of sea surface temperatures. The recent El Nino failed to push the jets as far poleward as they were pushed by similar El Ninos when the sun was more active. The negative AO prevented it. Thus I currently propose a countervailing process from above and that would be a solar induced effect on the energy flux from tropopause to space. An active sun lifts the ‘lid’ a bit allowing a greater upward flux but a quiet sun lowers the ‘lid’ a bit to restrain the upward flux. In each case the net global energy budget varies accordingly. At the same time the sea surfaces are doing their own similar flux varying thing but from below. Sometimes sun and oceans are offsetting one another and sometimes supplementing one another.
The behaviour of the polar oscillations over time will resolve the issue. The switch to a more negative AO at around the time the sun became less active is enough prima facie evidence for me at the moment. I certainly do not accept that past estimates of the scale or timing of the strength of the polar oscillations are accurate enough to be helpful. They are certainly far less well documented than variations in solar activity.

Tom in Florida
May 6 2010 5.26 am
Thanks Tom. Yes indeed, wind shear was in my mind when I wrote that.
Bear in mind that I see all the hurricanes and cyclones as just a part of the entire global convective energy transfer system so individual storms are not critically significant.
I’m sure they’ve got cause and effect hopelessly muddled in the article itself but I don’t have the inclination to resolve the muddle for them.
They suggest that the extra uv warms the upper troposphere but in practice uv is supposed to warm the stratosphere due to the response of ozone in the stratosphere. Then they confuse the issue by also postulating a warmed upper troposphere from the storms themselves.
A warmer stratosphere would lead to less storms and a more negative AO but a warmer upper troposphere could just be a reflection of more energy being pumped up from the oceans from greater convection caused by either or both of a warmer sea surface and a cooler stratosphere.
Unfortunately they make no attempt to follow the energy flux through the entire system or relate the local effects to a global whole.

Leif Svalgaard says:
May 6, 2010 at 7:31 am
The notions that electric currents from somewhere power the Sun and not nuclear fusion is absurd.
Doc Svalgaard, how can fusion works under extremely high pressures and high temps? Where does it have the space to slam together molecules? Is the sun not also rotating?
Density of gases and mass create two totally different reactions when rotated. Gases want to compress to the center and mass wants to escape and expand.
In a lab, has fusion been achieved under extreme heat, pressure and rotation? No.
It is guessed that our core is nickel and took 2 billion years later to form. Where was gravity and the magnetic field then? So this statement is incorrect. Like the sun, our core has to be a compressed gas as rotation WILL NOT ALLOW mass near the center.
So any fragment from space hitting the sun will not travel very far before being pushed out.

“”” Joe says:
May 5, 2010 at 3:38 pm
Because of the tilting of this planet is in movement, ONLY one point on this planet recieves DIRECT sunlight. The rest of the planet the sunlight angles and travels further through the atmosphere. At the poles, the angle of sunlight to the surface is thousands of more miles both in mileage and through the atmosphere. “””
Have you actually done calculations to verify that slant range ? The slant range (s) = (h) / Sin (a) where (h) is the height or thickness of the atmosphere, and (a) is the angluar altitude of the sun above the horizon.
So for the sun say 5 degrees above the horizon, sin (a) = 0.087 or 1/11.5 So 20 miles of atmospheric thickness and 5 deg altitude gets you 229.5 miles of slant range. 50 miles of atmosphere gets you 573.7 miles of slant range.
Well I ignored the earth surface curvature which will lengthen the slant range; but then I also ignored the atmospheric refraction due to the density gradient of the atmosphere; and that will lengthen the slant range.
So how do you get to “thousands of more miles” ?
But Joe; your point is valid; and the extra range is an important attenuator of the surface insolation. Don’t forget though that it increases the atmospheric solar warming.
Just don’t go exaggerating; the reality is significant enough.

There would have to be more than one type of fusion as in a lab is slamming molecules together and in nature it uses rotation for friction and super compression.

Joe
Fusion has been achieved just fine in the laboratory of earth without rotation…. think H bomb. You use a fission reaction to create the heat and pressure to compress H til it over comes electron repulsion. They work. (id assume they use heavy water as the hydrogen source to gain that lil bit o extra mass per H atom.)

Stephen Wilde says: (May 6, 2010 at 6:51 am)
“Actually isn’t the Caribbean near the end track for developing hurricanes coming in from West Africa ?”
Only later on in the hurricane season. Earlier, most of the storms originate in the Gulf of Mexico and the Caribbean.
“Thus one would generally on average expect to see weakening in the Caribbean area anyway compared to the cyclogenesis on the way to the Caribbean.”
The Caribbean is usually several degrees warmer than the Atlantic so the storms have a tendency to increase in intensity when the other conditions are right.
“In fact the Caribbean is usually a weak spot in the development track before cyclogenesis reinvigorates if the hurricane gets into the Gulf of Mexico.”
I wouldn’t call it a weak spot. Storms that get close to the islands of Hispaniola and Cuba weaken due to the higher elevations on those islands disrupting wind flow.
Our fear on the west coast of Florida are storms that come out of the western part of the Caribbean, that move northeast between Mexico and Cuba then enter the really warm waters of the Gulf of Mexico off the southwest coast of Florida. When they stay on that track they can slam directly into the west coast of Florida (where I live). Fortunately, not many do this.
While on the subject, I have always wondered why the area of the central west coast of Florida between Tampa Bay and Charlotte Harbor rarely, and I mean rarely, gets hit with storms. Is it possible that rising air from these large bodies of extremely warm water creates a lower pressure than the surrounding area which steers the storms towards them and away from me. In 2004, Hurricance Charlie was moving up the southwest coast of Florida, it’s eye wall very close to shore. When I saw it intensify to a Cat 4 just south of Ft Myers, I headed for the shelter as I live just north of there and less than a mile from the beach. If Charlie stayed on that track I am sure the eye wall would have made a direct pass over my house. But it didn’t stay on that track, at the last minute Charlie veered up Charlotte Harbor towards the center of the state. Path of least resistance? Anyone?