CLIMATE OSCILLATIONS (MJO, ENSO & PDO) CONSIDERED WITH VALIDATION OF EARTH ENDOGENOUS ENERGY THEORY
The Earth’s magnetic moment % decay over the past century reflects 30-year weakening-trends and 30-year strengthening-trends of solar magnetic field, exhibiting the same periods (60-years) well correlated to the Pacific Decadal Oscillation (PDO).
the MaddenJulian Oscillation (MJO) 40-day power-spectrum correlates with the period in which Earth experiences a complete solar rotation and interestingly also a north-south oscillation of earthquakes along the Western Pacific rim (Krishnamurti, 2009).
A review of the literature indicates that El Niño’s have 6-month earthquake precursors (Walker, 1995).
Earth also experiences electromagnetic (e.m.) induction charging, mostly from southern plasma ring-currents coupled to telluric currents in the ridge encircling Antarctica. This transformer effect from the south-pole exerts climate control over the planet via aligned tectonic vortex structures along the Western Pacific rim, electrically connected to the core.
well that part is interesting
Climate oscillations with periods ~20 and ~60-years, appear synchronized to Jupiter (12-years) and Saturn (29years) orbital periods, while Moon’s orbital cycle appears synchronized to an Earthy 9.1-year temperature cycle (Scafetta, 2010).
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Climate oscillations with periods ~20 and ~60-years, appear synchronized to Jupiter (12-years) and Saturn (29years) orbital periods, while Moon’s orbital cycle appears synchronized to an Earthy 9.1-year temperature cycle (Scafetta, 2010). The Earth’s magnetic moment % decay over the past century reflects 30-year weakening-trends and 30-year strengthening-trends of solar magnetic field, exhibiting the same periods (60-years) well correlated to the Pacific Decadal Oscillation (PDO). In addition, magnetic trends exhibit 3 smaller inflection changes during the 30-year trends which appears correlated: (i) with the 9.1-year Moon orbital cycle and (ii) with El Niño Southern Oscillation (ENSO) patterns overprinted with the 22-year Hale Cycle, more closely associated with a Jupiter affect. Finally the MaddenJulian Oscillation (MJO) 40-day power-spectrum correlates with the period in which Earth experiences a complete solar rotation and interestingly also a north-south oscillation of earthquakes along the Western Pacific rim (Krishnamurti, 2009). A review of the literature indicates that El Niño’s have 6-month earthquake precursors (Walker, 1995). In addition the Nation Earthquake information Center database reveals that large 9.0+ earthquakes only occur along the 30-year cooling trend during solar magnetic field strengthening. During this same period Earth also experiences electromagnetic (e.m.) induction charging, mostly from southern plasma ring-currents coupled to telluric currents in the ridge encircling Antarctica. This transformer effect from the south-pole exerts climate control over the planet via aligned tectonic vortex structures along the Western Pacific rim, electrically connected to the core. This is consistent with the “Earth Endogenous Energy” theory (Gregori, 2002 - Earth as a rechargeable battery/capacitor).
4. Conclusions
In conclusion, investigating the geophysical, electrical, gravitational, and magnetic teleconnection signals of large scale tectonic features (Fig. 2) may unravel local teleconnection to climate influences such as the monsoons MJO, ENSO and NPO/PDO climate change anomalies.
Consider Earth endogenous energy generation using the 40 day solar rotation earthquake driver hypothesis. North-south oscillation of earthquakes with a 40 day power spectrum are suspected to drive the MJO (Leybourne et. al., 2011). While Hale cycle Sun spot correlations may drive clustered earthquake events triggering large Sea Surface Temperature anomalies resulting in El Niño (Leybourne et al., 2005).
In this respect, two crucial drivers are to be considered: (i) the non-neutral electric charge of the solar wind, which implies a non-neutral corpuscular local precipitation of particle above the ionosphere (the ionosphere has a very low electrical conductivity, and electric charge re-distribution requires some long time lag), and (ii) the role of the “Cowling dynamo” with energy supplied by thermal convection in the atmosphere (which is controlled by endogenous energy exhalation into the atmosphere) (Gregori and Leybourne, 2014).
All aforementioned concepts also apply to the longer term Milankovitch Orbital Cycles. Explaining relationships between major climate change and the 3 main orbital frequencies of eccentricity, obliquity, and precession. The overall explanation opens a unification conceptual framework.
