Even more: Abstract: In order to prove that meridional flow changes into zonal flow as a result of auroral electrons and bremsstrahlung leading to an increase in temperature and pressure even in the troposphere, the relations between corpuscular (geomagnetic) activity and atmospheric pressure were statistically investigated in the northern hemisphere at the 500 hPa level. Correlation coefficients for daily, monthly and yearly values have confirmed that fluctuations in climate and weather including zonal and meridional circulations, blocking, invasions of arctic air and southern oscillation can be accounted for by the processes in the auroral oval
still more:
Results substantiated by statistical tests show that both long-term and short-term fluctuations of the climate and weather could be accounted for by a mechanism based on connections between (1) corpuscular activity and (2) changes in atmospheric circulation due to processes occurring in the auroral oval. The differences in the signs of temperature anomalies in the outer part of the auroral oval and in the polar area due to the penetration of auroral electrons can be explained; the total effect evidently has a global character. The highest correlation coefficient between the geomagnetic activity and temperature in Central Europe proved the time lag of 27 days to be most frequent in years with enhanced corpuscular radiation.
More more and more:
The increase in solar (geomagnetic) activity, in global-mean air temperature at the surface of the earth as well as in CO2 concentration during the past 100 years were studied with the aim to distinguish between the anthropogenic effect and natural climatic fluctuations influencing biological systems. The short-term fluctuations in geomagnetic activity connected with the solar cyclic influence processes in the auroral oval which modulate the alternation of the meridional and zonal type of atmospheric circulation and temperature changes. The variation of the eccentricity of the earth's orbit with a period of about 100,000 years and the precession of the earth's axis with a period of 16-30,000 years seem to influence the changes in the earth's magnetic field through the processes in the earth's interior. Movements of the geomagnetic pole as a center of the auroral oval influence the shift of the auroral oval and thus participate in long-term changes of climate including glacial-interglacial periods. Show less
Article · Dec 1991 · Advances in Space Research
Even more: Abstract: In order to prove that meridional flow changes into zonal flow as a result of auroral electrons and bremsstrahlung leading to an increase in temperature and pressure even in the troposphere, the relations between corpuscular (geomagnetic) activity and atmospheric pressure were statistically investigated in the northern hemisphere at the 500 hPa level. Correlation coefficients for daily, monthly and yearly values have confirmed that fluctuations in climate and weather including zonal and meridional circulations, blocking, invasions of arctic air and southern oscillation can be accounted for by the processes in the auroral oval
still more:
Results substantiated by statistical tests show that both long-term and short-term fluctuations of the climate and weather could be accounted for by a mechanism based on connections between (1) corpuscular activity and (2) changes in atmospheric circulation due to processes occurring in the auroral oval. The differences in the signs of temperature anomalies in the outer part of the auroral oval and in the polar area due to the penetration of auroral electrons can be explained; the total effect evidently has a global character. The highest correlation coefficient between the geomagnetic activity and temperature in Central Europe proved the time lag of 27 days to be most frequent in years with enhanced corpuscular radiation.
More more and more:
The increase in solar (geomagnetic) activity, in global-mean air temperature at the surface of the earth as well as in CO2 concentration during the past 100 years were studied with the aim to distinguish between the anthropogenic effect and natural climatic fluctuations influencing biological systems. The short-term fluctuations in geomagnetic activity connected with the solar cyclic influence processes in the auroral oval which modulate the alternation of the meridional and zonal type of atmospheric circulation and temperature changes. The variation of the eccentricity of the earth's orbit with a period of about 100,000 years and the precession of the earth's axis with a period of 16-30,000 years seem to influence the changes in the earth's magnetic field through the processes in the earth's interior. Movements of the geomagnetic pole as a center of the auroral oval influence the shift of the auroral oval and thus participate in long-term changes of climate including glacial-interglacial periods. Show less
Article · Dec 1991 · Advances in Space Research
Global warming was created by mann