TITLE:
Earth’s Diminishing Magnetic Dipole Moment is Driving Global Carbon Dioxide Levels and Global Warming
AUTHORS:
David A. E. Vares, Michael A. Persinger
KEYWORDS:
CO2, Global Warming, Geomagnetic Field, Magnetic Dipole, Energy, Quantification
JOURNAL NAME:
International Journal of Geosciences,
Vol.6 No.8,
August
7,
2015
ABSTRACT: Although there are
powerful models that couple human activity with elevated atmospheric carbon
dioxide levels and global warming, the relationships are still based upon
correlations rather than causation. Consequently, there is always the
probability of a third factor that produces both. Analyses of the diminishing
magnetic dipole moment of the earth and the increased carbon dioxide levels and
global temperature within the last 40 years revealed correlations of -0.99 and -0.90, respectively. This powerful
association has been reported by other researchers. Why it has been ignored by
the scientific community is not clear. The sources of the shift in average
geomagnetic (magnetic dipole) intensity have not been identified but these
relatively rapid decreases and increases have occurred historically with onsets
of periods of warming and cooling, including glacier formation. If the
long-time quasi-periodicity of the earth’s magnetic dipole moment is coupled to
alterations in solar activity as the system moves around the galactic center,
then attribution of elevated carbon dioxide-temperature to human sources rather
than actual etiologies can be counterproductive to adaptation.