Abstract
On May 20 and May 29, 2012, earthquakes of magnitude MW 6.1 and 5.8, respectively, struck Emilia-Romagna of Italy. We present the results obtained from the US Navy VLF Transmitter’s NSY signal of 45.9 kHz transmitted from Niscemi, in the province of Sicily, Italy, and received at the Kiel Longwave Monitor, Germany, for 2012. We analyzed the terminator times, D-layer preparation and disappearance times and nighttime fluctuation parameters. We also analyzed trends, dispersion and nighttime fluctuation which gave us possible precursors to these earthquakes. Possible perturbations due to other factors were filtered. Moreover, the findings of these two earthquakes were compared to Central Italy EQ on August 24, 2016, and Tuscany EQ on June 21, 2013. Therefore, this manuscript is the overall analysis of four earthquakes, out of which two were already published before. As our TRGCP path is North–South, the sunrise and sunset times in transmitter and receiver places match making a pathway for VLF/LF smoother and therefore hoping to obtain more natural data. We found many clear anomalies (as precursors) in terminator times 5 days to 16 days before the earthquakes. Moreover, using nighttime fluctuation method, we found clear anomalies 5–13 days prior to main earthquakes. This exactly correlates with the findings of previous authors that ionospheric perturbations are seen from few days to few weeks before the seismic activity. In addition to this, we observed an unexpected decrease in dispersion on certain anomalies where it was supposed to increase, thereby not supporting our finding to some extent. To resolve this problem, we devised a new parameter called dispersion nighttime (dispersion*). On analyzing, this parameter decreases significantly on days of nighttime anomalies, thereby supporting our precursors to much extent.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Biagi PF, Maggipinto T, Schiavulli L, Ligonzo T, Ermini A, Martinelli G, Arabelos D (2013) The European VLF/LF radio network: advances and recent results. In: EGU general assembly conference abstracts, vol 15
Chakrabarti S (2007) Unusual behavior of D-region ionization time at 18.2 kHz during seismically active days. Indian J Phys 81:531–538
Chakrabarti SK, Saha M, Khan R, Mandai S, Acharyya K, Saha R (2005) Possible detection of ionospheric disturbances during the Sumatra-Andaman islands earthquakes of December, 2004. 91.30. Px; 94.30. Va; 95.85. bh; 96.35. Kx
Chakrabarti SK, Sasmal S, Chakrabarti S (2010) Ionospheric anomaly due to seismic activities–Part 2: evidence from D-layer preparation and disappearance times. Nat Hazards Earth Syst Sci 10:1751–1757
Clilverd MA, Thomson NR, Rodger CJ (1999) Sunrise effects on VLF signals propagating over a long north-south path. Radio Sci 34(4):939–948
Hayakawa M (2007) VLF/LF radio sounding of ionospheric perturbations associated with earthquakes. Sensors 7(7):1141–1158
Hayakawa M, Shvets AV, Molchanov OA, Miyaki K (2003) Subionospheric VLF monitoring for earthquake-related Ionospheric perturbation. In: EGS-AGU-EUG Joint Assembly
Hayakawa M, Kasahara Y, Nakamura T, Muto F, Horie T, Maekawa S, Hobara Y, Rozhnoi AA, Solovieva M, Molchanov OA (2010) A statistical study on the correlation between lower ionospheric perturbations as seen by subionospheric VLF/LF propagation and earthquakes. J Geophys Res Space Phys. https://doi.org/10.1029/2009JA015143
Hayakawa M, Raulin JP, Kasahara Y, Bertoni FCP, Hobara Y, Guevara-Day W (2011) Ionospheric perturbations in possible association with the 2010 Haiti earthquake, as based on medium-distance subionospheric VLF propagation data. Nat Hazards Earth Syst Sci 11(2):513
Hayakawa M, Hobara Y, Yasuda Y, Yamaguchi H, Ohta K, Izutsu J, Nakamura T (2012) Possible precursor to the March 11, 2011. Japan earthquake: ionospheric perturbations as seen by subionospheric very low frequency/low-frequency propagation. Annals Geophys. https://doi.org/10.4401/ag-5357
Inan US, Shafer DC, Yip WY, Orville RE (1988) Subionospheric VLF signatures of nighttime D region perturbations in the vicinity of lightning discharges. J Geophys Res Space Phys 93(A10):11455–11472
Inan US, Bell TF, Rodriguez JV (1991) Heating and ionization of the lower ionosphere by lightning. Geophys Res Lett 18(4):705–708
Kandel KP, Khadka B, Bhatta K, Schnoor PW, Ghimire BD (2017) On precursors to the Italy earthquake M. 6.2 using VLF signal of NSY (45.9 kHz) received at Kiel Longwave Monitor. Acta Geophys 65(6):1269–1276
Kasahara Y, Muto F, Hobara Y, Hayakawa M (2010) The ionospheric perturbations associated with Asian earthquakes as seen from the subionospheric propagation from NWC to Japanese stations. Nat Hazards Earth Syst Sci 10(3):581
Khadka B, Kandel KP, Pant S, Bhatta K, Ghimire BD (2017) VLF/LF amplitude perturbations before tuscany earthquakes, 2013. Nat Sci 9:437–456. https://doi.org/10.4236/ns.2017.912041
Kumar A, Kumar S, Hayakawa M, Menk F (2013) Subionospheric VLF perturbations observed at low latitude associated with earthquake from Indonesia region. J Atmos Sol Terr Phys 102:71–80. https://doi.org/10.1016/j.jastp.2013.04.011
Maekawa S, Hayakawa M (2006) A statistical study on the dependence of characteristics of VLF/LF terminator times on the propagation direction. IEEJ Trans Fundam Mater 126(4):220–226
Maekawa S, Horie T, Yamauchi T, Sawaya T, Ishikawa M, Hayakawa M, Sasaki H (2006a) A statistical study on the effect of earthquakes on the ionosphere, based on the subionospheric LF propagation data in Japan. In: Annales geophysicae, vol 24(8), pp 2219–2225. Copernicus GmbH
Maekawa S, Horie T, Yamauchi T, Sawaya T, Ishikawa M, Hayakawa M, Sasaki H (2006b) A statistical study on the effect of earthquakes on the ionosphere, based on the subionospheric LF propagation data in Japan. In: Annales geophysicae, vol 24(8), pp 2219–2225. Copernicus GmbH. https://doi.org/10.5194/angeo-24-2219-2006
Molchanov OA, Hayakawa M (1998) Subionospheric VLF signal perturbations possibly related to earthquakes. J Geophys Res Space Phys 103(A8):17489–17504
Molchanov OA, Hayakawa M, Oudoh T, Kawai E (1998) Precursory effects in the subionospheric VLF signals for the Kobe earthquake. Phys Earth Planet Inter 105(3):239–248
Ray S, Chakrabarti SK (2013) A study of the behavior of the terminator time shifts using multiple VLF propagation paths during the Pakistan earthquake (M = 7.2) of 18 January 2011. Nat Hazards Earth Syst Sci 13(6):1501–1506
Ray S, Chakrabarti SK, Sasmal S (2012) Precursory effects in the nighttime VLF signal amplitude for the 18th January, 2011 Pakistan earthquake. Indian J Phys 86(2):85–88. https://doi.org/10.1007/s12648-012-0014-5
Rozhnoi A, Solovieva MS, Molchanov OA, Hayakawa M (2004) Middle latitude LF (40 kHz) phase variations associated with earthquakes for quiet and disturbed geomagnetic conditions. Phys Chem Earth Parts A/B/C 29(4):589–598
Rozhnoi A, Solovieva M, Molchanov O, Schwingenschuh K, Boudjada M, Biagi P, Castellana L (2009) VLF signal precursor of L’Aquila earthquake. In JRA3/EMDAF kick-off meeting
Sharma G, Bhatta K, Ghimire BD, Schnoor PW, Khadka B, Chhettri MP, Kandel K (2015) A study on the final phase of the Bardarbunga Volcano Of 2015 using Vlf wave Of Nrk signal Of iceland received at Kiel Longwave monitor. Int J Sci Technol Res 4(8):1–6
Taranenko YN (1993) Interaction with the lower ionosphere of electromagnetic pulses from lightning: heating, attachment, ionization, and optical emissions. Stanford University Ca Department of Electrical Engineering, Stanford
Acknowledgements
We express our gratitude to Peter Wilhelm Schnoor, head of Kiel Long Wave Monitor, for providing us with the data without which this study would have been next to impossible. No words for the dedication and continuous efforts of all members and support of St. Xavier’s College. The abstract of this manuscript was presented in ICAEP 2018: 20th International Conference on Atmospheric and Environmental Physics. However, it has not been published anywhere till now.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Kandel, K.P., Khadka, B., Bhatta, K. et al. Precursors signatures of few major earthquakes in Italy using very low frequency signal of 45.9 kHz. Acta Geophys. 67, 1253–1263 (2019). https://doi.org/10.1007/s11600-019-00316-z
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11600-019-00316-z