Abstract
Rieger-type periods of the magnetic sunspot area time series have been found in two atmospheric time-series variables: neutron monitor count rate and atmospheric electric potential gradient. The data considered comprises two solar cycles (21, 22) and spans from 1978 to 1990. The study reveals the existence of similar and correlated features in sunspot area as well as neutron counts and atmospheric electric potential gradient, favoring the possibility that the Sun’s activity affects the Earth’s atmosphere and weather at a time scale between 150–300 days. Moreover, five different Rieger-type periods in the sunspot area time series are found, four of which are detected in the neutron monitor count rate, and three in the atmospheric electric potential gradient. These values are consistent with the periods predicted for stationary solar Rossby waves existing inside the Sun. The possibility is discussed that instabilities on the solar magnetic field caused by solar Rossby waves in the Sun’s interior might indirectly be affecting the activity of the heliosphere and the Earth’s atmosphere.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Arlt, R., Weiss, N.: Solar activity in the past and the chaotic behaviour of the dynamo. Space Sci. Rev. 186(1–4), 525–533 (2014)
Charbonneau, P.: Dynamo models of the solar cycle. Living Rev. Sol. Phys. 7, 3 (2010). http://www.livingreviews.org/lrsp-2010-3
Chowdhury, P., Jain, R., Awasthi, A.K.: Periodicities in the X-ray emission from the solar corona. Astrophys. J. 778(1), 28 (2013)
Chowdhury, P., Choudhary, D.P., Gosain, S., Moon, Y.-J.: Short-term periodicities in interplanetary, geomagnetic and solar phenomena during solar cycle 24. Astrophys. Space Sci. 356, 7 (2015)
Dimitropoulou, M., Moussas, X., Strintzi, D.: Enhanced Rieger-type periodicities’ detection in X-ray solar flares and statistical validation of Rossby waves’ existence. Mon. Not. R. Astron. Soc. 386, 2278 (2008)
Droege, W., Gibbs, K., Grunsfeld, J.M., et al.: A 153 day periodicity in the occurrence of solar flares producing energetic interplanetary electrons. Astrophys. J. 73, 279 (1990)
Gonzalez, A.L.C., Gonzalez, W.D., Dutra, S.L.G., Tsurutani, B.T.: Periodic variation in the geomagnetic activity: a study based on the Ap index. J. Geophys. Res. 98, 9215 (1993)
Gurgenashvili, E., Zaqarashvili, T.V., Kukhianidze, V., Oliver, R., Ballester, J.L., Ramishvili, G., Shergelashvili, B., Hanslmeier, A., Poedts, S.: Rieger-type periodicity during solar cycles 14–24: estimation of dynamo magnetic field strength in the solar interior. Astrophys. J. 826, 55 (2016)
Haigh, J.D.: The Sun and the Earth’s climate. Living Rev. Sol. Phys. 4, 2 (2007)
Harrison, R.G., Mãrcz, F.: Heliospheric timescale identified in surface atmospheric electricity. Geophys. Res. Lett. 34, L23816 (2007)
Harrison, R.G., Ambaum, M.H.P., Lockwood, M.: Cloud base height and cosmic rays. Proc. R. Soc. Lond. Ser. A, Math. Phys. Sci. 467, 2777 (2011)
Hathaway, D.H.: The solar cycle. Living Rev. Sol. Phys. 7, 1 (2010)
Hill, J.R.: Long term solar activity forecasting using high-resolution time spectral analysis. Nature 266, 151 (1977)
Kile, J.N., Cliver, E.W.: A search for the 154 day periodicity in the occurrence rate of solar flares using Ottawa 2.8 GHz burst data, 1955–1990. Astrophys. J. 370, 442 (1991)
Krivova, N.A., Solanki, S.K.: The 1.3-year and 156-day periodicities in sunspot data: wavelet analysis suggests a common origin. Astron. Astrophys. 394, 701 (2002)
Lean, J.L., Brueckner, G.E.: Intermediate-term solar periodicities—100–500 days. Astrophys. J. 337, 568 (1989)
Lockwood, M.: Solar influence on global and regional climates. Surv. Geophys. 33, 503 (2012)
Lomb, N.R.: Least-squares frequency analysis of unequally spaced data. Astrophys. Space Sci. 33, 503 (2012)
Lopes, I., Silva, H.G.: Looking for granulation and periodicities imprints in the sunspot time series. Astrophys. J. 804, 120 (2015)
Lopes, I., Passos, D., Nagy, M., Petrovay, K.: Oscillator models of the solar cycle. Space Sci. Rev. 186, 535 (2014)
Lucio, P.S.: Learning with solar activity influence on Portugal’s rainfall: a stochastic overview. Geophys. Res. Lett. 32, L23819 (2005)
Mareev, E.A., Volodin, E.M.: Variation of the global electric circuit and ionospheric potential in a general circulation model. Geophys. Res. Lett. 41, 9009 (2014)
Markson, R.: Modulation of the Earth’s electric field by cosmic radiation. Nature 291, 304 (1981)
Nicoll, K.A., Harrison, R.G.: Detection of lower tropospheric responses to solar energetic particles at midlatitudes. Phys. Rev. Lett. 112, 225001 (2014)
Owens, M.J., Scott, C.J., Lockwood, M., Barnard, L., Harrison, R.G., Nicoll, K., Watt, C., Bennett, A.J.: Modulation of UK lightning by heliospheric magnetic field polarity. Environ. Res. Lett. 9, 115009 (2014)
Papaloizou, J., Pringle, J.E.: Non-radial oscillations of rotating stars and their relevance to the short-period oscillations of cataclysmic variables. Mon. Not. R. Astron. Soc. 182, 423 (1978)
Potgieter, M.S.: Solar modulation of cosmic rays. Living Rev. Sol. Phys. 10, 3 (2013)
Press, W.H., Teukolsky, S.A., Vetterling, W.T., Flannery, B.P.: Numerical Recipes in FORTRAN. The Art of Scientific Computing, 2nd edn. University Press, Cambridge (1992)
Provost, J., Berthomieu, G., Rocca, A.: Low frequency oscillations of a slowly rotating star—quasi toroidal modes. Astron. Astrophys. 94, 126 (1981)
Richardson, I.G., Cane, H.V.: The \({\sim }150\) day quasi-periodicity in interplanetary and solar phenomena during cycle 23. Geophys. Res. Lett. 32, L02104 (2005)
Rieger, E., Kanbach, G., Reppin, C., et al.: A 154-day periodicity in the occurrence of hard solar flares? Nature 312, 623 (1984)
Saio, H.: R-mode oscillations in uniformly rotating stars. Astrophys. J. 256, 717 (1982)
Scargle, J.D.: Studies in astronomical time series analysis. II—Statistical aspects of spectral analysis of unevenly spaced data. Astrophys. J. 263, 835 (1982)
Scott, C.J., Harrison, R.G., Owens, M.J., Lockwood, M., Barnard, L.: Evidence for solar wind modulation of lightning. Environ. Res. Lett. 9, 055004 (2014)
Serrano, C., Reis, A.H., Rosa, R., Lucio, P.S.: Influences of cosmic radiation, artificial radioactivity and aerosol concentration upon the fair-weather atmospheric electric field in Lisbon (1955–1991). Atmos. Res. 81, 236 (2006)
Shoelson, B.: (2003). www.mathworks.com/matlabcentral
Silva, H.G., Lopes, I.: Phase-space representation of neutron monitor count rate and atmospheric electric field in relation to solar activity in cycles 21 and 22. Earth Planets Space 68, 119 (2016)
Silva, H.G., Conceicao, R., Melgao, M., Nicoll, K., Mendes, P.B., Tlemcani, M., Rei, A.H., Harrison, R.G.: Atmospheric electric field measurements in urban environment and the pollutant aerosol weekly dependence. Environ. Res. Lett. 9, 114025 (2014)
Solanki, S.K., Usoskin, I.G., Kromer, B., Schüssler, M., Beer, J.: Unusual activity of the Sun during recent decades compared to the previous 11,000 years. Nature 431, 1084 (2004)
Solanki, S.K., Krivova, N.A., Haigh, J.D.: Solar irradiance variability and climate. Annu. Rev. Astron. Astrophys. 51, 311 (2013)
Sturrock, P.A., Bertello, L.: Power spectrum analysis of Mount Wilson solar diameter measurements: evidence for solar internal R-mode oscillations. Astrophys. J. 725, 492 (2010)
Sturrock, P.A., Bush, R., Gough, D.O., Scargle, J.D.: Indications of R-mode oscillations in SOHO/MDI solar radius measurements. Astrophys. J. 804, 47 (2015)
Thomas, S.R., Owens, M.J., Lockwood, M.: The 22-year Hale cycle in cosmic ray flux—evidence for direct heliospheric modulation. Sol. Phys. 289, 407 (2014)
Torrence, C., Compo, G.P.: A practical guide to wavelet analysis. Bull. Am. Meteorol. Soc. 79, 61 (1998)
Verma, V.K., Joshi, G.C., Uddin, W., Paliwal, D.C.: Search for a 152–158 days periodicity in the occurrence rate of solar flares inferred from spectral data of radio bursts. Astron. Astrophys. 90, 83 (1991)
Zaqarashvili, T.V., Carbonell, M., Oliver, R., Ballester, J.L.: Magnetic Rossby waves in the solar tachocline and Rieger-type periodicities. Astrophys. J. 709, 749 (2010a)
Zaqarashvili, T.V., Carbonell, M., Oliver, R., Ballester, J.L.: Quasi-biennial oscillations in the solar tachocline caused by magnetic Rossby wave instabilities. Astrophys. J. 724, L95 (2010b)
Zaqarashvili, T.V., Oliver, R., Hanslmeier, A., et al.: Long-term variation in the Sun activity caused by magnetic Rossby waves in the tachocline. Astrophys. J. 805, L14 (2015)
Acknowledgements
Gratitude is expressed to Cláudia Serrano and Samuel Bárias for digitalizing the PG data recorded by Doctor Mário Figueira (former Portuguese Service of Meteorology). The authors are thankful to the Climax Neutron Counter Facility for access to the NC time series and to NOAA for making available the SSA data. Gratitude is also expressed for ELECTRONET (CA15211) COST-Action.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Silva, H.G., Lopes, I. Rieger-type periodicities on the Sun and the Earth during solar cycles 21 and 22. Astrophys Space Sci 362, 44 (2017). https://doi.org/10.1007/s10509-017-3020-4
Received:
Accepted:
Published:
DOI: https://doi.org/10.1007/s10509-017-3020-4