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| Fig. 2. Superposed epoch analyses of daily values of NAO (a) and (d), AO (b) and (e) and the SWS [solar wind speed] itself in km/s (c) and (f), with the key days being minima in the SWS in winters (Nov.–March). The low-volcanic eras (1967-1983, 1985-1993 and 1995-2011) are on the left (a)–(c) and the high volcanic eras (Nov. 1963-March 1966, Nov. 1983-March 1985, Nov.1993-Mar. 1995) are on the right (d)-(f). The solid lines are the mean of parameters of all the events and the dashed lines are the error of the mean value. |
Effects on winter circulation of short and long term solar wind changes
- Limin Zhoua,
, - Brian Tinsleyb,
, , - Jing Huanga
- a Key Laboratory of Geographic Information Science, East China Normal University, China
- b University of Texas at Dallas, Richardson, TX, 75080, USA
Highlights
- •
Day-to-day changes in the Arctic Oscillation and North Atlantic Oscillation correlate with relativistic electron precipitation, as do interannual changes.- •
A connection via the global atmospheric electric circuit and cloud microphysical changes is suggested.
Abstract
Indices of the North Atlantic Oscillation and the Arctic Oscillation show correlations on the day-to-day timescale with the solar wind speed (SWS). Minima in the indices were found on days of SWS minima during years of high stratospheric aerosol loading. The spatial distribution of surface pressure changes during 1963-2011 with day-to-day changes in SWS shows a pattern resembling the NAO. Such a pattern was noted for year-to-year variations by Boberg and Lundstedt (2002), who compared NAO variations with the geo-effective solar wind electric field (the monthly average SWS multiplied by the average southward component, i.e., negative Bz component, of the interplanetary magnetic field). The spatial distribution of the correlations of geopotential height changes in the troposphere and stratosphere with the SWS; the geoeffective electric field (SWS∗Bz); and the solar 10.7 cm flux suggests that solar wind inputs connected to the troposphere via the global electric circuit, together with solar ultraviolet irradiance acting on the stratosphere, affect regional atmospheric dynamics.
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