2016
DOI: 10.5194/angeo-34-1191-2016
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Stability of solar correction for calculating ionospheric trends

Abstract: Abstract. Global climate change affects the whole atmosphere, including the thermosphere and ionosphere. Calculations of long-term trends in the ionosphere are critically dependent on solar activity (solar cycle) correction of ionospheric input data. The standard technique is to establish an experimental model via calculating the dependence of ionospheric parameter on solar activity from the whole analysed data set, subtract these model data from observed data and analyse the trend of residuals. However, if th… Show more

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Cited by 21 publications
(18 citation statements)
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“…This means that for fo F 2 we may use equation that the solar activity quite dominantly controls the yearly values of fo F 2 and that the dependence of yearly values of fo F 2 on solar activity is highly linear. Table also shows that 99% of the total variance of fo E is described by F 10.7 for the first period (1976–1995) and it indicates some data problems for the second period (1996–2014) as discussed later, among others an outlier‐like value of fo E for Juliusruh in 2011 as already mentioned by Laštovička et al (). Nevertheless, Table indicates usability of equation also for fo E .…”
Section: Resultssupporting
confidence: 66%
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“…This means that for fo F 2 we may use equation that the solar activity quite dominantly controls the yearly values of fo F 2 and that the dependence of yearly values of fo F 2 on solar activity is highly linear. Table also shows that 99% of the total variance of fo E is described by F 10.7 for the first period (1976–1995) and it indicates some data problems for the second period (1996–2014) as discussed later, among others an outlier‐like value of fo E for Juliusruh in 2011 as already mentioned by Laštovička et al (). Nevertheless, Table indicates usability of equation also for fo E .…”
Section: Resultssupporting
confidence: 66%
“…Mostly more than 95% of the total variance of yearly values, particularly for fo F 2, is described by equation and can be attributed to solar activity (mainly solar EUV flux variability). Star (*) indicates data problems (see discussion related to Figure and Laštovička et al, ).…”
Section: Methodsmentioning
confidence: 99%
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“…It has been repeatedly stressed that only smoothed (normally 11 year smoothing is applied) observations could be used for long‐term trend analyses. As an example, it may be considered the recent paper by Laštovička et al []. The main result of their study is “the finding that the solar activity correction used in calculating ionospheric long‐term trends need not be stable, as was assumed in all previous investigations of ionospheric trends.” This means that the ionosphere reacts differently to solar activity during various historical periods.…”
Section: Discussionmentioning
confidence: 71%
“…Many insights have been gained based on this kind of methods on the topics of both hysteresis (e.g., Elias, 2014;Kane, 1992;Ozguc et al, 2008;Perna & Pezzopane, 2016) and long-term trends (e.g., Laštovička et al, 2016;Pham Thi Thu et al, 2016). In previous studies, yearly mean (or running) average methods are usually employed to smooth out the short-term, cyclic variations.…”
Section: Introductionmentioning
confidence: 99%