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Solar activity impact on the Earth’s upper atmosphere
Author(s)
Language
English
Obiettivo Specifico
1.7. Osservazioni di alta e media atmosfera
Status
Published
JCR Journal
N/A or not JCR
Peer review journal
Yes
Title of the book
Issue/vol(year)
/ 3 (2013)
Publisher
EDP Sciences
Pages (printed)
A06
Issued date
December 2013
Abstract
The paper describes results of the studies devoted to the solar activity impact on the Earth’s upper atmosphere and ionosphere,
conducted within the frame of COST ES0803 Action.
Aim: The aim of the paper is to represent results coming from different research groups in a unified form, aligning their specific topics into the general context of the subject.
Methods: The methods used in the paper are based on data-driven analysis. Specific databases are used for spectrum analysis,
empirical modeling, electron density profile reconstruction, and forecasting techniques.
Results: Results are grouped in three sections: Medium- and long-term ionospheric response to the changes in solar and geomag-
netic activity, storm-time ionospheric response to the solar and geomagnetic forcing, and modeling and forecasting techniques.
Section 1 contains five subsections with results on 27-day response of low-latitude ionosphere to solar extreme-ultraviolet (EUV)
radiation, response to the recurrent geomagnetic storms, long-term trends in the upper atmosphere, latitudinal dependence of total electron content on EUV changes, and statistical analysis of ionospheric behavior during prolonged period of solar activity.
Section 2 contains a study of ionospheric variations induced by recurrent CIR-driven storm, a case-study of polar cap absorption
due to an intense CME, and a statistical study of geographic distribution of so-called E-layer dominated ionosphere.
Section 3 comprises empirical models for describing and forecasting TEC, the F-layer critical frequency foF2, and the height of
maximum plasma density. A study evaluates the usefulness of effective sunspot number in specifying the ionosphere state. An
original method is presented, which retrieves the basic thermospheric parameters from ionospheric sounding data.
conducted within the frame of COST ES0803 Action.
Aim: The aim of the paper is to represent results coming from different research groups in a unified form, aligning their specific topics into the general context of the subject.
Methods: The methods used in the paper are based on data-driven analysis. Specific databases are used for spectrum analysis,
empirical modeling, electron density profile reconstruction, and forecasting techniques.
Results: Results are grouped in three sections: Medium- and long-term ionospheric response to the changes in solar and geomag-
netic activity, storm-time ionospheric response to the solar and geomagnetic forcing, and modeling and forecasting techniques.
Section 1 contains five subsections with results on 27-day response of low-latitude ionosphere to solar extreme-ultraviolet (EUV)
radiation, response to the recurrent geomagnetic storms, long-term trends in the upper atmosphere, latitudinal dependence of total electron content on EUV changes, and statistical analysis of ionospheric behavior during prolonged period of solar activity.
Section 2 contains a study of ionospheric variations induced by recurrent CIR-driven storm, a case-study of polar cap absorption
due to an intense CME, and a statistical study of geographic distribution of so-called E-layer dominated ionosphere.
Section 3 comprises empirical models for describing and forecasting TEC, the F-layer critical frequency foF2, and the height of
maximum plasma density. A study evaluates the usefulness of effective sunspot number in specifying the ionosphere state. An
original method is presented, which retrieves the basic thermospheric parameters from ionospheric sounding data.
References
Altadill, D., and E.M. Apostolov, Time and scale size of planetarywave signatures in the ionospheric F region: Role of the
geomagnetic activity and mesosphere/lower thermosphere wind,J. Geophys. Res., 108, 1403, DOI: 10.1029/2003JA010015, 2003.
Altadill, D., E.M. Apostolov, J.G. Sole, and Ch. Jacobi, Origin and development of vertical propagating oscillations with periods of planetary waves in the ionospheric F region, Phys. Chem. Earth
Part C, 26, 387–393, 2001.
Altadill, D., J.M. Torta, and E. Blanch, Proposal of new models of the bottom-side B0 and B1 parameters for IRI, Adv. Space Res.,
43, 1825–1834, 2009.
Andonov, B., P. Mukhtarov, and D. Pancheva, Empirical model of the TEC response to the geomagnetic activity over the North
American region, Adv. Space Res., 48, 1041–1048,DOI: 10.1016/j.asr.2011.05.007, 2011.
Araujo-Pradere, E.A., T.J. Fuller-Rowell, and M.V. Codrescu,
STORM: an empirical storm-time ionospheric correction model,1, Model description, Radio Sci., 37, 5, 1070, DOI: 10.1029/2001RS002467, 2002.
Bartels, J., Twenty-seven day recurrences in terrestrial-magnetic and solar activity, 1923–1933, Terr. Magn. Atmos. Electr., 39 (3),201–202, DOI: 10.1029/TE039i003p00201, 1934.
Belehaki, A., P. Marinov, I. Kutiev, N. Jakowski, and S.M. Stankov,
Comparison of the topside ionosphere scale height determined by topside sounders model and bottomside digisonde profiles, Adv.
Space Res., 37, 963–966, 2006.
Bilitza, D., International reference ionosphere 2000, Radio Science,36 (2), 261–275, 2000.
Blanch, E., Typical behaviour of the ionospheric vertical structure
during quiet and disturbed conditions, Doctoral Thesis, Univ.Ramon Llull, Barcelona, Spain, 2009.
Blanch, E., and D. Altadill, Ionospheric peak height density disturbance in response to solar wind conditions: a potential empirical model, Paper presented at the COST ES0803 Work-shop, 1–3 April, Frascati, Italy, 2009a.
Blanch, E., and D. Altadill, Empirical model for the electron density peak height disturbance in response to solar wind conditions,Paper presented at the 6th General Assembly of the European Geosciences Union, Session ST12, EGU2009- 4568, Vienna,
Austria, 19-24 April, 2009b.
Blanch, E., and D. Altadill, Mid-latitude F-region peak heightchanges in response to interplanetary magnetic field conditions
and modeling results, J. Geophys. Res., 117, A12,DOI: 10.1029/2012JA018009, 2012.
Borovsky, J.E., and M.H. Denton, Differences between CME-driven storms and CIR-driven storms, J. Geophys. Res., 111, A07S08,
DOI: 10.1029/2005JA011447, 2006.
Bremer, J., J. Lasˇtovicˇka, A.V. Mikhailov, D. Altadill, P. Bencze, D.Buresˇova´, G. De Franceschi, C. Jacobi, S. Kouris, L.Perrone, and E. Turunen, Climate of the upper atmosphere, Ann. Geophys., 52(3/4), 273–299, 2009.
Dasso, S., C.H. Mandrini, B. Schmieder, H. Cremades, C. Cid, et al.,
Linking two consecutive nonmerging magnetic clouds with their solar sources, J. Geophys. Res., 114, A2, DOI: 10.1029/2008JA013102, 2009.
Denton, M.H., T. Ulich, and E. Turunen, Modification of midlatitude ionospheric parameters in the F2 layer by persistent high-speed solar wind streams, Space Weather, 7, S04006, DOI: 10.1029/2008SW000443, 2009.
Emmert, J.T., J.M. Picone, and R.R. Meier, Thermospheric global average density trends 1967–2007, derived from orbits of 5000
near-Earth objects, Geophys. Res. Lett., 35, L05101,DOI: 10.1029/2007GL032809, 2008.
Hall, C.M., K. Rypdal, and M. Rypdal, The E region at 69 N, 19 E: trends, significances, and detectability, J. Geophys. Res.,116, A05309, DOI: 10.1029/2011JA016431, 2011.
Heise, S., N. Jakowski, A. Wehrenpfennig, Ch. Reigber, and H.Luehr, Sounding of the topside ionosphere/plasmasphere based on GPS measurements from CHAMP: initial results, Geophys. Res.Lett., 29 (14), DOI: 10.1029/2002GL014738, 2002.
Jakowski, N., TEC monitoring by using satellite positioning systems, in Modern Ionospheric Science, edited by H. Kohl, R. Ru¨ster, and K. Schlegel, EGS, Katlenburg-Lindau, ProduServ
GmbH Verlagsservice, Berlin, pp. 371–390, 1996.
Jakowski, N., B. Fichtelmann, and A. Jungstand, Solar activity
control of ionospheric and thermospheric processes, J. Atmos.
Terr. Phys., 53, 1125–1130, 1991.
Jakowski, N., J. Mielich, C. Borries, L. Cander, A. Krankowski, B.
Nava, and S.M. Stankov, Large scale ionospheric gradients over
Europe observed in October 2003, J. Atmos. Sol. Terr. Phys., 70,15, DOI: 10.1016/j.jastp.2008.03.020, 2008.
Jakowski, N., C. Mayer, M.M. Hoque, and V. Wilken, TEC models and their use in ionosphere monitoring, Radio Sci., 46, RS0D18,
DOI: 10.1029/2010RS004620, 2011.
Koutroumbas, K., I. Tsagouri, and A. Belehaki, Time series autoregression technique implemented on-line in DIAS system for ionospheric forecast over Europe, Ann. Geophys., 26 (2), 371–386, 2008.
Kutiev, I., S. Watanabe, Y. Otsuka, and A. Saito, Total electron content
behavior over Japan during geomagnetic storms, J. Geophys. Res.,
110 (A1), A01308, DOI: 10.1029/2004JA010586, 2005.
Kutiev, I., Y. Otsuka, D. Pancheva, and R. Heelis, Response of low-
latitude ionosphere to medium-term changes of solar and geomagnetic activity, J. Geophys. Res., 117, A08330, DOI:10.1029/2012JA017641, 2012.
Lastovicka, J., Global pattern of trends in the upper atmosphere and ionosphere: recent progress, J. Atmos. Solar Terr. Phys., 71
(14-15), 1514–1528, 2009.
Lastovicka, J., R.A. Akmaev, G. Beig, J. Bremer, and J.T. Emmert,
Global change in the upper atmosphere, Science, 314, 1253–1254,
DOI: 10.1126/science.1135134, 2006.
Lastovicka, J., S.C. Solomon, and L. Qian, Trends in the neutral and ionized upper atmosphere, Space Sci. Rev., 168, 113–145,DOI: 10.1007/s11214-011-9799-3, 2012.
Lean, J.L., H.P. Warren, J.T. Mariska, and J. Bishop, A new model of solar EUV irradiance variability 2. Comparisons with empirical models and observations and implications for space weather, J.Geophys. Res., 108 (A2), 1059, DOI: 10.1029/2001JA009238,
2003.
Lei, J., J.P. Thayer, J.M. Forbes, E.K. Sutton, and R.S. Nerem,
Rotating solar coronal holes and periodic modulation of the upper atmosphere. Geophys. Res. Lett., 35, L10109,
DOI: 10.1029/2008GL033875, 2008.
Magdaleno, S., D. Altadill, M. Herraiz, E. Blanch, and B. de la Morena, Ionospheric peak height behaviour for low, middle and high latitudes, A potential empirical model for quiet conditions – Comparison with the IRI-2007 model, J. Atmos. Sol. Terr. Phys.,73 (13), 1810–1817, DOI: 10.1016/j.jastp.2011.04.019, 2011.
Mayer, C., and N. Jakowski, Enhanced E layer ionization in the auroral zones observed by radio occultation measurements onboard CHAMP and Formosat-3/COSMIC, Ann. Geophys., 27, 1207–1212, 2009.
Mayer, C., B. Belabbas, N. Jakowski, M. Meurer, and W. Dunkel,
Ionosphere threat space model assessment for GBAS, Proc. ION GNSS 2009, Savannah, GA, USA, 22–25 September, 2009.
Maunder, W.E., Magnetic disturbances, 1882 to 1903, as recorded at the Royal Observatory, Greenwich, and their association with-sunspots, Mon. Not. R. Astron. Soc., 65 (1), 2–34, 1904.
Mikhailov, A.V., A. Belehaki, L. Perrone, B. Zolesi, and I. Tsagouri,
Retrieval of thermospheric parameters from routine ionospheric
observations: assessment of method’s performance at mid-
latitudes daytime hours, J. Space Weather Space Clim., 2, A03,DOI: 10.1051/swsc/2012002, 2012.
Mlynczak, M.G., F.J. Martin-Torres, C.J. Mertens, B.T. Marshall, R.E.Thompson, J.U. Kozyra, E.E. Remsberg, L.L. Gordley, J.M.RusselIII, and T. Woods, Solar-terrestrial coupling evidenced byperiodic behavior in geomagnetic indexes and the infrared energy
budget of the thermosphere,Geophys. Res. Lett.,35, L05808, 2008. Mlynczak, M., L. Hunt, B.T. Marshall, F.J. Martin-Torres, C.J.
Mertens, et al., Observations of infrared radiative cooling in the thermosphere on daily to multiyear timescales from the TIMED/
SABER instrument, J. Geophys. Res., 115, A03309, DOI: 10.1029/2009JA014713, 2010.
Muhtarov, P., I. Kutiev, and L.R. Cander, Geomagnetically correlated autoregression model for short-term prediction of ionopsh-
eric parameters, Inverse Prob., 18, 49–65, 2002.
Mukhtarov, P., and D. Pancheva, Thermosphere-ionosphere coupling in response to recurrent geomagnetic activity, J. Atmos. Sol. Terr.
Phys., 74, 132–145, DOI: 10.1016/j.jastp.2012.02.013, 2012.
Mursula, K., and D. Martini, Centennial increase in geomagnetic
activity: Latitudinal difference and global estimates, J. Geophys.
Res., 111, A08209, DOI: 10.1029/2005JA011549, 2006.
Pancheva, D., and P. Mukhtarov, Wavelet analysis on transient behaviour of tidal amplitude fluctuations observed by meteor
radar in the lower thermosphere above Bulgaria, Ann. Geophys.,18, 316–333, 2000.
Pancheva, D., N. Mitchell, R.R. Clark, J. Drobjeva, and J.Lastovicka, Variability in the maximum height of the ionospheric
F2-layer over Millstone Hill (September 1998–March 2000);influence from below and above, Ann. Geophys., 20, 1807–1819,
2002.
Perrone, L., L. Alfonsi, V. Romano, and G. De Franceschi, Polar cap absorption events of Novembre 2001 at Terra Nova Bay,
Antartica, Ann. Geophys., 22, 1633–1648, 2004.
Perrone, L., M. Parisi, A. Meloni, M. Damasso, and M. Galliani,
Study on solar sources and polar cap absorption events recorded
in Antarctica, Adv. Space Res., 43 (11), 1660–1668, 2009.
Piggot, W.R., and K. Rawer, URSI Handbook of Ionograms
Interpretation and Reduction, 2nd edn. report UAG-23A, WDC-A for STP, Boulder, Co, 1972.
Qian, L., S.C. Solomon, R.G. Roble, and T.J. Kane, Model simulations of global change in the ionosphere, Geophys. Res.
Lett., 35, L07811, DOI: 10.1029/2007GL033156, (2008).
Qian, L., J. Lastovicka, R.G. Roble, and S.C. Solomon, Progress in
observations and simulations of global change in the upper
atmosphere, J. Geophys. Res., 116 (A4), A00H03,
DOI: 10.1029/2010JA016317, 2011.
Reinisch, B.W. and X. Huang, Automatic calculation of electron density profiles from digital ionoograms 3. Processing of bottomside ionograms, Radio Sci., 18 (3), 477–492, DOI:10.1029/RS18i003p00477, 1983.
Saiz, E., C. Cid, and Y. Cerrato, Forecasting intense geomagnetic activity using interplanetary magnetic field data, Ann. Geophys.,26, 3989–3998, 2008.
Solomon, S.C., T.N. Woods, L.V. Didkovsky, J.T. Emmert, and L.
Qian, Anomalously low solar extreme-ultraviolet irradiance and thermospheric density during solar minimum, Geophys. Res. Lett.,
37, L16103, DOI: 10.1029/2010GL044468, 2010.
Temmer, M., B. Vrsˇnak, and A.M. Veronig, Periodic appearance of
coronal holes and the related variation of solar wind parameters,Sol.
Phys., 241, 371–383, DOI: 10.1007/s11207-007-0336-1, 2007.
Thayer, J.P., J. Lei, J.M. Forbes, E.K. Sutton, and R.S. Nerem,
Thermospheric density oscillations due to periodic solar wind high-speed streams, J. Geophys. Res., 113, A06307, DOI:10.1029/2008JA013190, 2008.
Torrence, C., and G. Compo, A practical guide to wavelet analysis, Bull. Am. Meteorol. Soc., 79, 61–78, 1998.
Tsagouri, I., B. Zolesi, A. Belehaki, and L.R. Cander, Evaluation of the performance of the real-time updated simplified ionospheric regional model for the European area, J. Atmos. Sol.-Terr. Phys., 7 (12), 1137–1146, DOI: 10.1016/j.jastp.2005.01.012, 2005.
Tsagouri, I., Evaluation of the performance of DIAS ionospheric forecasting models, J. Space Weather Space Space Clim., 1, A02,
DOI: 10.1051/swsc/2011110003, 2011.
Tsagouri, I., and A. Belehaki, ‘‘A new empirical model of middle latitude ionospheric response for space weather applications, Adv.Space Res., 37 (2), 420–425, 2006.
Tsagouri, I., and A. Belehaki, An upgrade of the solar-wind-driven empirical model for the middle latitude ionospheric storm-time response, J. Atmos. Sol. Terr. Phys., 70 (16), 2061–2076, 2008.
Tsagouri, I., B. Zolesi, R. Cander Lj, and A. Belehaki, DIAS
effective sunspot number as an indicator of the ionospheric activity level over Europe, Acta Geophys.,
DOI: 10.2478/s11600-009-0045-2, 2009.
Tsurutani, B., W. Gonzalez, A. Gonzalez, A.L.C. Gonzalez,
F. Guarnieri, et al., Corotating solar wind streams and recurrent
geomagnetic: a review, J. Geophys. Res., 111, A07S01,
DOI: 10.1029/2005JA011273, 2006.
Vrsˇnak, B., M. Temmer, and A.M. Veroning, Coronal holes and solar with high-speed streams: I. Forecasting the solar wind parameters,
Sol. Phys., 240, 315–330, 2007.
Xie, H.N., N. Gopalswamy, P.K. Manoharan, A. Lara, S. Yashiro, and S. Lepri, Long-lived geomagnetic storms and corononal mass ejections, J. Geophys. Res, 111, A1,
DOI: 10.10129/2005JA011287, 2006.
Zolesi, B., A. Belehaki, I. Tsagouri, and L.R. Cander, Real-time updating of the simplified ionospheric regional model for operational applications, Radio Sci., 39, RS2011,DOI: 10.1029/2003RS002936, 2004.
Zhang, J., I.G. Richardson, D.F. Webb, N. Gopalswamy, E.Huttunen, Correction to Solar and interplanetary sources of major
geomagnetic storms (Dst �1000 nT) during 1996–2005,
J. Geophys. Res, 112, DOI: 10.10129/2007JA012891, 2007.
geomagnetic activity and mesosphere/lower thermosphere wind,J. Geophys. Res., 108, 1403, DOI: 10.1029/2003JA010015, 2003.
Altadill, D., E.M. Apostolov, J.G. Sole, and Ch. Jacobi, Origin and development of vertical propagating oscillations with periods of planetary waves in the ionospheric F region, Phys. Chem. Earth
Part C, 26, 387–393, 2001.
Altadill, D., J.M. Torta, and E. Blanch, Proposal of new models of the bottom-side B0 and B1 parameters for IRI, Adv. Space Res.,
43, 1825–1834, 2009.
Andonov, B., P. Mukhtarov, and D. Pancheva, Empirical model of the TEC response to the geomagnetic activity over the North
American region, Adv. Space Res., 48, 1041–1048,DOI: 10.1016/j.asr.2011.05.007, 2011.
Araujo-Pradere, E.A., T.J. Fuller-Rowell, and M.V. Codrescu,
STORM: an empirical storm-time ionospheric correction model,1, Model description, Radio Sci., 37, 5, 1070, DOI: 10.1029/2001RS002467, 2002.
Bartels, J., Twenty-seven day recurrences in terrestrial-magnetic and solar activity, 1923–1933, Terr. Magn. Atmos. Electr., 39 (3),201–202, DOI: 10.1029/TE039i003p00201, 1934.
Belehaki, A., P. Marinov, I. Kutiev, N. Jakowski, and S.M. Stankov,
Comparison of the topside ionosphere scale height determined by topside sounders model and bottomside digisonde profiles, Adv.
Space Res., 37, 963–966, 2006.
Bilitza, D., International reference ionosphere 2000, Radio Science,36 (2), 261–275, 2000.
Blanch, E., Typical behaviour of the ionospheric vertical structure
during quiet and disturbed conditions, Doctoral Thesis, Univ.Ramon Llull, Barcelona, Spain, 2009.
Blanch, E., and D. Altadill, Ionospheric peak height density disturbance in response to solar wind conditions: a potential empirical model, Paper presented at the COST ES0803 Work-shop, 1–3 April, Frascati, Italy, 2009a.
Blanch, E., and D. Altadill, Empirical model for the electron density peak height disturbance in response to solar wind conditions,Paper presented at the 6th General Assembly of the European Geosciences Union, Session ST12, EGU2009- 4568, Vienna,
Austria, 19-24 April, 2009b.
Blanch, E., and D. Altadill, Mid-latitude F-region peak heightchanges in response to interplanetary magnetic field conditions
and modeling results, J. Geophys. Res., 117, A12,DOI: 10.1029/2012JA018009, 2012.
Borovsky, J.E., and M.H. Denton, Differences between CME-driven storms and CIR-driven storms, J. Geophys. Res., 111, A07S08,
DOI: 10.1029/2005JA011447, 2006.
Bremer, J., J. Lasˇtovicˇka, A.V. Mikhailov, D. Altadill, P. Bencze, D.Buresˇova´, G. De Franceschi, C. Jacobi, S. Kouris, L.Perrone, and E. Turunen, Climate of the upper atmosphere, Ann. Geophys., 52(3/4), 273–299, 2009.
Dasso, S., C.H. Mandrini, B. Schmieder, H. Cremades, C. Cid, et al.,
Linking two consecutive nonmerging magnetic clouds with their solar sources, J. Geophys. Res., 114, A2, DOI: 10.1029/2008JA013102, 2009.
Denton, M.H., T. Ulich, and E. Turunen, Modification of midlatitude ionospheric parameters in the F2 layer by persistent high-speed solar wind streams, Space Weather, 7, S04006, DOI: 10.1029/2008SW000443, 2009.
Emmert, J.T., J.M. Picone, and R.R. Meier, Thermospheric global average density trends 1967–2007, derived from orbits of 5000
near-Earth objects, Geophys. Res. Lett., 35, L05101,DOI: 10.1029/2007GL032809, 2008.
Hall, C.M., K. Rypdal, and M. Rypdal, The E region at 69 N, 19 E: trends, significances, and detectability, J. Geophys. Res.,116, A05309, DOI: 10.1029/2011JA016431, 2011.
Heise, S., N. Jakowski, A. Wehrenpfennig, Ch. Reigber, and H.Luehr, Sounding of the topside ionosphere/plasmasphere based on GPS measurements from CHAMP: initial results, Geophys. Res.Lett., 29 (14), DOI: 10.1029/2002GL014738, 2002.
Jakowski, N., TEC monitoring by using satellite positioning systems, in Modern Ionospheric Science, edited by H. Kohl, R. Ru¨ster, and K. Schlegel, EGS, Katlenburg-Lindau, ProduServ
GmbH Verlagsservice, Berlin, pp. 371–390, 1996.
Jakowski, N., B. Fichtelmann, and A. Jungstand, Solar activity
control of ionospheric and thermospheric processes, J. Atmos.
Terr. Phys., 53, 1125–1130, 1991.
Jakowski, N., J. Mielich, C. Borries, L. Cander, A. Krankowski, B.
Nava, and S.M. Stankov, Large scale ionospheric gradients over
Europe observed in October 2003, J. Atmos. Sol. Terr. Phys., 70,15, DOI: 10.1016/j.jastp.2008.03.020, 2008.
Jakowski, N., C. Mayer, M.M. Hoque, and V. Wilken, TEC models and their use in ionosphere monitoring, Radio Sci., 46, RS0D18,
DOI: 10.1029/2010RS004620, 2011.
Koutroumbas, K., I. Tsagouri, and A. Belehaki, Time series autoregression technique implemented on-line in DIAS system for ionospheric forecast over Europe, Ann. Geophys., 26 (2), 371–386, 2008.
Kutiev, I., S. Watanabe, Y. Otsuka, and A. Saito, Total electron content
behavior over Japan during geomagnetic storms, J. Geophys. Res.,
110 (A1), A01308, DOI: 10.1029/2004JA010586, 2005.
Kutiev, I., Y. Otsuka, D. Pancheva, and R. Heelis, Response of low-
latitude ionosphere to medium-term changes of solar and geomagnetic activity, J. Geophys. Res., 117, A08330, DOI:10.1029/2012JA017641, 2012.
Lastovicka, J., Global pattern of trends in the upper atmosphere and ionosphere: recent progress, J. Atmos. Solar Terr. Phys., 71
(14-15), 1514–1528, 2009.
Lastovicka, J., R.A. Akmaev, G. Beig, J. Bremer, and J.T. Emmert,
Global change in the upper atmosphere, Science, 314, 1253–1254,
DOI: 10.1126/science.1135134, 2006.
Lastovicka, J., S.C. Solomon, and L. Qian, Trends in the neutral and ionized upper atmosphere, Space Sci. Rev., 168, 113–145,DOI: 10.1007/s11214-011-9799-3, 2012.
Lean, J.L., H.P. Warren, J.T. Mariska, and J. Bishop, A new model of solar EUV irradiance variability 2. Comparisons with empirical models and observations and implications for space weather, J.Geophys. Res., 108 (A2), 1059, DOI: 10.1029/2001JA009238,
2003.
Lei, J., J.P. Thayer, J.M. Forbes, E.K. Sutton, and R.S. Nerem,
Rotating solar coronal holes and periodic modulation of the upper atmosphere. Geophys. Res. Lett., 35, L10109,
DOI: 10.1029/2008GL033875, 2008.
Magdaleno, S., D. Altadill, M. Herraiz, E. Blanch, and B. de la Morena, Ionospheric peak height behaviour for low, middle and high latitudes, A potential empirical model for quiet conditions – Comparison with the IRI-2007 model, J. Atmos. Sol. Terr. Phys.,73 (13), 1810–1817, DOI: 10.1016/j.jastp.2011.04.019, 2011.
Mayer, C., and N. Jakowski, Enhanced E layer ionization in the auroral zones observed by radio occultation measurements onboard CHAMP and Formosat-3/COSMIC, Ann. Geophys., 27, 1207–1212, 2009.
Mayer, C., B. Belabbas, N. Jakowski, M. Meurer, and W. Dunkel,
Ionosphere threat space model assessment for GBAS, Proc. ION GNSS 2009, Savannah, GA, USA, 22–25 September, 2009.
Maunder, W.E., Magnetic disturbances, 1882 to 1903, as recorded at the Royal Observatory, Greenwich, and their association with-sunspots, Mon. Not. R. Astron. Soc., 65 (1), 2–34, 1904.
Mikhailov, A.V., A. Belehaki, L. Perrone, B. Zolesi, and I. Tsagouri,
Retrieval of thermospheric parameters from routine ionospheric
observations: assessment of method’s performance at mid-
latitudes daytime hours, J. Space Weather Space Clim., 2, A03,DOI: 10.1051/swsc/2012002, 2012.
Mlynczak, M.G., F.J. Martin-Torres, C.J. Mertens, B.T. Marshall, R.E.Thompson, J.U. Kozyra, E.E. Remsberg, L.L. Gordley, J.M.RusselIII, and T. Woods, Solar-terrestrial coupling evidenced byperiodic behavior in geomagnetic indexes and the infrared energy
budget of the thermosphere,Geophys. Res. Lett.,35, L05808, 2008. Mlynczak, M., L. Hunt, B.T. Marshall, F.J. Martin-Torres, C.J.
Mertens, et al., Observations of infrared radiative cooling in the thermosphere on daily to multiyear timescales from the TIMED/
SABER instrument, J. Geophys. Res., 115, A03309, DOI: 10.1029/2009JA014713, 2010.
Muhtarov, P., I. Kutiev, and L.R. Cander, Geomagnetically correlated autoregression model for short-term prediction of ionopsh-
eric parameters, Inverse Prob., 18, 49–65, 2002.
Mukhtarov, P., and D. Pancheva, Thermosphere-ionosphere coupling in response to recurrent geomagnetic activity, J. Atmos. Sol. Terr.
Phys., 74, 132–145, DOI: 10.1016/j.jastp.2012.02.013, 2012.
Mursula, K., and D. Martini, Centennial increase in geomagnetic
activity: Latitudinal difference and global estimates, J. Geophys.
Res., 111, A08209, DOI: 10.1029/2005JA011549, 2006.
Pancheva, D., and P. Mukhtarov, Wavelet analysis on transient behaviour of tidal amplitude fluctuations observed by meteor
radar in the lower thermosphere above Bulgaria, Ann. Geophys.,18, 316–333, 2000.
Pancheva, D., N. Mitchell, R.R. Clark, J. Drobjeva, and J.Lastovicka, Variability in the maximum height of the ionospheric
F2-layer over Millstone Hill (September 1998–March 2000);influence from below and above, Ann. Geophys., 20, 1807–1819,
2002.
Perrone, L., L. Alfonsi, V. Romano, and G. De Franceschi, Polar cap absorption events of Novembre 2001 at Terra Nova Bay,
Antartica, Ann. Geophys., 22, 1633–1648, 2004.
Perrone, L., M. Parisi, A. Meloni, M. Damasso, and M. Galliani,
Study on solar sources and polar cap absorption events recorded
in Antarctica, Adv. Space Res., 43 (11), 1660–1668, 2009.
Piggot, W.R., and K. Rawer, URSI Handbook of Ionograms
Interpretation and Reduction, 2nd edn. report UAG-23A, WDC-A for STP, Boulder, Co, 1972.
Qian, L., S.C. Solomon, R.G. Roble, and T.J. Kane, Model simulations of global change in the ionosphere, Geophys. Res.
Lett., 35, L07811, DOI: 10.1029/2007GL033156, (2008).
Qian, L., J. Lastovicka, R.G. Roble, and S.C. Solomon, Progress in
observations and simulations of global change in the upper
atmosphere, J. Geophys. Res., 116 (A4), A00H03,
DOI: 10.1029/2010JA016317, 2011.
Reinisch, B.W. and X. Huang, Automatic calculation of electron density profiles from digital ionoograms 3. Processing of bottomside ionograms, Radio Sci., 18 (3), 477–492, DOI:10.1029/RS18i003p00477, 1983.
Saiz, E., C. Cid, and Y. Cerrato, Forecasting intense geomagnetic activity using interplanetary magnetic field data, Ann. Geophys.,26, 3989–3998, 2008.
Solomon, S.C., T.N. Woods, L.V. Didkovsky, J.T. Emmert, and L.
Qian, Anomalously low solar extreme-ultraviolet irradiance and thermospheric density during solar minimum, Geophys. Res. Lett.,
37, L16103, DOI: 10.1029/2010GL044468, 2010.
Temmer, M., B. Vrsˇnak, and A.M. Veronig, Periodic appearance of
coronal holes and the related variation of solar wind parameters,Sol.
Phys., 241, 371–383, DOI: 10.1007/s11207-007-0336-1, 2007.
Thayer, J.P., J. Lei, J.M. Forbes, E.K. Sutton, and R.S. Nerem,
Thermospheric density oscillations due to periodic solar wind high-speed streams, J. Geophys. Res., 113, A06307, DOI:10.1029/2008JA013190, 2008.
Torrence, C., and G. Compo, A practical guide to wavelet analysis, Bull. Am. Meteorol. Soc., 79, 61–78, 1998.
Tsagouri, I., B. Zolesi, A. Belehaki, and L.R. Cander, Evaluation of the performance of the real-time updated simplified ionospheric regional model for the European area, J. Atmos. Sol.-Terr. Phys., 7 (12), 1137–1146, DOI: 10.1016/j.jastp.2005.01.012, 2005.
Tsagouri, I., Evaluation of the performance of DIAS ionospheric forecasting models, J. Space Weather Space Space Clim., 1, A02,
DOI: 10.1051/swsc/2011110003, 2011.
Tsagouri, I., and A. Belehaki, ‘‘A new empirical model of middle latitude ionospheric response for space weather applications, Adv.Space Res., 37 (2), 420–425, 2006.
Tsagouri, I., and A. Belehaki, An upgrade of the solar-wind-driven empirical model for the middle latitude ionospheric storm-time response, J. Atmos. Sol. Terr. Phys., 70 (16), 2061–2076, 2008.
Tsagouri, I., B. Zolesi, R. Cander Lj, and A. Belehaki, DIAS
effective sunspot number as an indicator of the ionospheric activity level over Europe, Acta Geophys.,
DOI: 10.2478/s11600-009-0045-2, 2009.
Tsurutani, B., W. Gonzalez, A. Gonzalez, A.L.C. Gonzalez,
F. Guarnieri, et al., Corotating solar wind streams and recurrent
geomagnetic: a review, J. Geophys. Res., 111, A07S01,
DOI: 10.1029/2005JA011273, 2006.
Vrsˇnak, B., M. Temmer, and A.M. Veroning, Coronal holes and solar with high-speed streams: I. Forecasting the solar wind parameters,
Sol. Phys., 240, 315–330, 2007.
Xie, H.N., N. Gopalswamy, P.K. Manoharan, A. Lara, S. Yashiro, and S. Lepri, Long-lived geomagnetic storms and corononal mass ejections, J. Geophys. Res, 111, A1,
DOI: 10.10129/2005JA011287, 2006.
Zolesi, B., A. Belehaki, I. Tsagouri, and L.R. Cander, Real-time updating of the simplified ionospheric regional model for operational applications, Radio Sci., 39, RS2011,DOI: 10.1029/2003RS002936, 2004.
Zhang, J., I.G. Richardson, D.F. Webb, N. Gopalswamy, E.Huttunen, Correction to Solar and interplanetary sources of major
geomagnetic storms (Dst �1000 nT) during 1996–2005,
J. Geophys. Res, 112, DOI: 10.10129/2007JA012891, 2007.
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