Multi-spectral detection of statistically significant components in pre-seismic electromagnetic emissions related with Athens 1999, M=5.9 earthquake

“…At these CLs the MTM spectrum indicates spectral features at extra long-scales ( > 30 days), diurnal (24h) and semidiurnal (12h) terms are statistically significant, whereas spectral features at long-scales (2-10 days) are not statistical significant at the 95% CL based on a AR(1)+WH null. Our result is partially in agreement with the findings in [20]. Additionally, we find that most spectral features (except those at diurnal and semidiurnal hours) are not statistical significant in the MTM spectrum after applying the Bonferroni correction [22] by dividing the significance level (e.g., α = 0.05) by the number of tested data as in [7].…”

“…1(c) shows that extra long-scales variability modes (> 30 days) and oscillatory modes at 3-6 days vanish in the high activity epoch (98.5 ≤ DN ≤ 100.5) in the areawise significance test (α = 0.005), which are based on the area and shape of the significant regions proposed by Maraun et al [15] but modified here by just using the chi-square test (for details, see Equation (18) in TC98) but not the MC simulations to reduce the computation cost. In particular, oscillatory terms between 8 and 10 days become significant at about day number DN = 97, and not at DN = 76 as charmed by Kalimeris et al [20]. We also find that oscillatory terms between 8 and 10 days remain in the high activity scale for approximately 3 days after the main seismic shock occurred at DN = 100.498.…”

“…Furthermore, we find that the periodicities shorter than 45 min and the intermittent diurnal/semidiurnal oscillatory modes are still stable and significant. Based on these results, it seems plausible that the significant spectral features claimed by Kalimeris et al [20] are artifacts of a poor choice of null ''noise'' hypothesis and a lack of multiple test correction, and we led to the conclusion that the transition period (82.6 ≤ DN ≤ 90.2) before the Athens' earthquake (M = 5.9, 7 September 1999) defined by Kalimeris et al [20] may be unreliable. Anyway, our new results with those found in [20] can enhance the preseismic character of the recorded kHz EME time series.…”

“…As the first test case we revisit the kHz electromagnetic emission (EME) time series in North-South orientation associated with the Athens' earthquake (M = 5.9, 7 September 1999), which were acquired using a 10 kHz tuned loop antenna installed on a carefully selected mountainous site at Zakynthos Island (37.76 o N, 20.76 o E), Greece. Here we only focus on the filtered version (starts on 00:00:00 (UT) of May 30, 1999, and finishes on 23:59:59 (UT) of September 29, 1999, covering a period of 123 days with a time resolution of 10 min) of the original EME time series, which has been detailed discussed by Kalimeris et al [20] with ML96 and TC98 method against the hypothesis an AR(1) red noise. In this section, we reanalysis the EME time series (see Fig.…”

Detection Test for Periodic Signals Revisited Against Various Stochastic Models

“…At these CLs the MTM spectrum indicates spectral features at extra long-scales ( > 30 days), diurnal (24h) and semidiurnal (12h) terms are statistically significant, whereas spectral features at long-scales (2-10 days) are not statistical significant at the 95% CL based on a AR(1)+WH null. Our result is partially in agreement with the findings in [20]. Additionally, we find that most spectral features (except those at diurnal and semidiurnal hours) are not statistical significant in the MTM spectrum after applying the Bonferroni correction [22] by dividing the significance level (e.g., α = 0.05) by the number of tested data as in [7].…”

“…1(c) shows that extra long-scales variability modes (> 30 days) and oscillatory modes at 3-6 days vanish in the high activity epoch (98.5 ≤ DN ≤ 100.5) in the areawise significance test (α = 0.005), which are based on the area and shape of the significant regions proposed by Maraun et al [15] but modified here by just using the chi-square test (for details, see Equation (18) in TC98) but not the MC simulations to reduce the computation cost. In particular, oscillatory terms between 8 and 10 days become significant at about day number DN = 97, and not at DN = 76 as charmed by Kalimeris et al [20]. We also find that oscillatory terms between 8 and 10 days remain in the high activity scale for approximately 3 days after the main seismic shock occurred at DN = 100.498.…”

“…Furthermore, we find that the periodicities shorter than 45 min and the intermittent diurnal/semidiurnal oscillatory modes are still stable and significant. Based on these results, it seems plausible that the significant spectral features claimed by Kalimeris et al [20] are artifacts of a poor choice of null ''noise'' hypothesis and a lack of multiple test correction, and we led to the conclusion that the transition period (82.6 ≤ DN ≤ 90.2) before the Athens' earthquake (M = 5.9, 7 September 1999) defined by Kalimeris et al [20] may be unreliable. Anyway, our new results with those found in [20] can enhance the preseismic character of the recorded kHz EME time series.…”

“…As the first test case we revisit the kHz electromagnetic emission (EME) time series in North-South orientation associated with the Athens' earthquake (M = 5.9, 7 September 1999), which were acquired using a 10 kHz tuned loop antenna installed on a carefully selected mountainous site at Zakynthos Island (37.76 o N, 20.76 o E), Greece. Here we only focus on the filtered version (starts on 00:00:00 (UT) of May 30, 1999, and finishes on 23:59:59 (UT) of September 29, 1999, covering a period of 123 days with a time resolution of 10 min) of the original EME time series, which has been detailed discussed by Kalimeris et al [20] with ML96 and TC98 method against the hypothesis an AR(1) red noise. In this section, we reanalysis the EME time series (see Fig.…”

Detection Test for Periodic Signals Revisited Against Various Stochastic Models

“…The possible relation of the field-observed fracture-induced electromagnetic emissions (EME) in the frequency bands of MHz and kHz, associated with shallow EQs with magnitude 6 or larger that oc-curred inland or near the coast, has been examined in a series of publications in order to contribute to a better understanding of the underlying processes (e.g. Eftaxias et al, 2001Eftaxias et al, , 2004Eftaxias et al, , 2008Kapiris et al, 2004;Karamanos et al, 2006;Papadimitriou et al, 2008;Contoyiannis et al, 2005Contoyiannis et al, , 2013Potirakis et al, 2011Potirakis et al, , 2012aPotirakis et al, , b, c, 2013Potirakis et al, , 2015Minadakis et al, 2012a, b;Balasis et al, 2011Balasis et al, , 2013Donner et al, 2015;Kalimeris et al, 2016). Additionally, a four-stage model for the preparation of an EQ by means of its observable EM activity has been recently put forward Contoyiannis et al, 2015, and references therein).…”

Recent seismic activity at Cephalonia (Greece): a study through candidate electromagnetic precursors in terms of non-linear dynamics

Relationship Between Seismic Electric Signals and Tectonics Derived from Dense Geoelectric Observations in Taiwan