2011 Ice Age Solar variation  

2011 - Enabling the Inevitable

Ice Age by Solar Winds

NASA image shows the Sun as viewed by the Soft X-Ray Telescope (SXT) 
onboard the orbiting Yohkoh satellite.

    The solar activity is never constant
consequently, neither is the heliosphere
and with it the climate on the Earth


How solar variation cause mayor climate variation?

Since the Sun has been proven to be constantly changing, it is not unreasonable to assume that the long-term climate changes, such as the ice ages, are effects of major, long-term solar activity variances. If the power flowing into the Sun is fluctuating, its  associated  'space weather' pattern is also fluctuating. The Sun creates its own 'weather' as it were, determined by the intensity of the solar winds that flow out from it, resulting from the energetic, electric reaction that lights up the Sun.

The space weather is contained within the solar-created environment called the heliosphere. As the solar winds flows away from the Sun, they are electromagnetically accelerated  to  speeds greater than a million kilometers per hour. Near the interstellar medium  app. ten billion kilometers distant, the solar winds slow down. The zone where this happens is called the " termination shock." 

solar map

The point where the interstellar medium and solar wind pressures come into balance, whereby the solar winds are stopped, is termed the "heliopause."  The final zone, further away, where the interstellar medium, moving in the opposite direction, begins to slow and collide with the heliosphere, is termed the "bow shock." 

This three-layer zone, far past the orbit of Pluto, is critical for our climate on earth, because it is here where the interstellar cosmic background radiation, consisting of immensely energetic protons, electrons, and ions (the cosmic rays) becomes attenuated. The density of the termination shock, the heliopause, and the bow shock determines the density of the cosmic-ray flux that penetrates this barrier. When the solar power activity is high, the barrier is more dense, and correspondingly fewer cosmic rays get past the barrier. Inversely, when the solar power activity is low, the solar wind pressure is lower, the barrier is weaker, and penetrating cosmic-ray flux is stronger. 

Studies have revealed patterns of cyclical variations in cosmic-ray flux that peak in synchronism with the deep glaciation periods of 450, 300, and 150 million years ago, and also with the modern glaciation period.


 The Milankovitch (26/41/100,000-year) Cycles
 The active climate factor: Cosmic-Ray density
 What causes unpredictable short term temperature swings?
 How solar variation cause mayor climate variation?
 Of critical importance for our climate on Earth.
 CO2 and the Ice Ages
 No manmade global warming 
 Mass Protest by the Scientific Community
 If we err by not making the preparations
 The moral imperative
 The coming Ice Age Renaissance

Ice Age - Home Page

Also see: 


 Rolf Witzsche, author of books and novels on Christian Science, politics, science, and, love, and economics

Rolf Witzsche

My published books, research, novels, science,

spirituality, civilization, poetry, photography, peace and humanity

Home Index

Please consider a donation - Thank You

Published by Cygni Communications Ltd. North Vancouver, BC, Canada - (C) - public domain - Rolf A. F. Witzsche

Agape Research

About Cygni

Webmaster Resources