Gulfstream Goes Verticle To Troposphere

[cyclonebuster]

The "Tunnels" have direct control of this heat flow to the troposphere thus they can regulate climate conditions both regionally and globally by regulating SSTs in the Gulfstream. Computer modeling will prove this!! See Links:

 

http://www.sciam.com/gallery_directory.cfm...3BF0906D192C107

 

http://environment.newscientist.com/articl...of-hot-air.html

 

;):eek_big:

[cyclonebuster]

What's with all the views and no replies? Speak out man!!

[DougF]

cyclonebuster,

I can't get your links to work.

 

But I would like to see more on this.

[cyclonebuster]

The Gulf Stream Goes Vertical

 

GULF STREAM, MEET JET STREAM: A new study finds that the warm Atlantic Ocean current known as the Gulf Stream could influence the climate of remote regions by pumping heat high into the atmosphere above it. The powerful current, which flows up from the Gulf of Mexico along the U.S. east coast and across the Atlantic to western Europe, is known to influence the formation of cyclones and clouds as well as to moderate the climates of the regions it touches. But Japanese researchers wondered if it had further-reaching effects. Combining high-resolution satellite data with water analyses, they discovered a pattern of airflow that reaches seven miles (10 kilometers) high, well into the upper part of the troposphere, the lowest and most massive layer of Earth's atmosphere. Winds blow toward the warm Gulf Stream from the colder waters on its western edge, causing a warm updraft and a consequent narrow rainy region along the current. The upward airflow (depicted in this image as vertical streaks) generates clouds in the upper troposphere that branch out and travel toward Europe. Reporting in Nature, the researchers note that this pattern suggests a way that the Gulf Stream might influence both local and distant climatesgood to know in case global warming hits the brakes on the current as it is expected to do.

http://www.sciam.com/media/img_gallery/C368916F-CC58-DAC9-03BF0906D192C107.jpg

[cyclonebuster]

Gulf Stream's secret is a load of hot air

 

It could be the end of preparing for a balmy European summer only to be met with rain and freezing temperatures. After years of mystery surrounding the Gulf Stream, researchers have finally worked out how it affects European weather. The key, they say, is a corridor of warm air that rises up from the Gulf Stream into the atmosphere.

 

Shoshiro Minobe of Hokkaido University in Japan describes the North Atlantic warm current – which is famous for bringing tropical waters to European shores – as a poorly understood "black box".

 

"It is widely accepted that its heat transport is important for the climate, especially for warm climate in Europe," he explains. "However, it is not known how the Gulf Stream actually influences the atmosphere."

 

Minobe and colleagues now say they have identified the key influence – a corridor of warm air that rises from the Gulf Stream up to 11 kilometres above the ocean's surface.

 

This altitude is where planetary waves, also known as "Rossby waves", are triggered by rising warm air. These waves cause changes in the atmosphere over thousands of kilometres via high-altitude westerly winds.

 

"The waves are efficiently excited by deep [high-altitude] heating of the atmosphere, but not by shallow [low-altitude] heating because, near the surface, the westerly wind jet is weak and friction is strong," says Shan-Ping Xie of the University of Hawaii, US, who collaborated with Minobe.

 

'Better forecasting'

Together with colleagues, Minobe and Xie used high-resolution satellite data gathered by NASA to show that a narrow rain band frequently hovers directly above the warm, northernmost flank of the Gulf Stream.

 

In this region, the warm temperatures of the Gulf Stream contrast sharply with the cold waters of the North Atlantic. The resolution of computer models currently used to predict the weather is too low to show this sharp temperature gradient, which extends over just tens of kilometres – current models cannot resolve anything smaller than about 150 kilometres.

 

Yet, according to Minobe's research, this sharp gradient produces upwelling wind currents that carry the warmth of the Gulf Stream deep into the troposphere.

 

To test this theory, the team used a higher resolution model. When the temperature gradient was sharp, the computer model was able to reproduce the rain seen in the NASA images. When the researchers smoothed the gradient over larger distances, it could not.

 

Current predictions are "not a exact science", says Adam Scaife of the Hadley Centre, the UK Met Office's research centre. And, he says it remains to be seen whether the next generation of supercomputers, expected for 2009, can handle the sheer volume of calculations needed to run such high-resolution models frequently. "If this process were properly represented in high-resolution models, we could see a jump in seasonal forecasting skill," he told New Scientist.

[cyclonebuster]

Gulf Stream Leaves Its Signature Seven Miles High