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Elazığ-Sivrice Depremi’nin (24 Ocak 2020) Öncül Belirtileri

Yıl 2022, Cilt: 4 Sayı: 2, 246 - 260, 13.12.2022
https://doi.org/10.46464/tdad.1180719

Öz

Bu çalışma kapsamında; büyük ölçekli depremler meydana gelmeden önce doğa, canlılar ve elektronik cihazlar üzerinde gözlemlenebilen anormal değişimlerin 24 Ocak 2020 Elazığ-Sivrice Depremi (Mw=6.8) ile ilişkisinin araştırılması amaçlanmıştır. Bu anormal değişimler; deprem sonrasında Elazığ ilinin merkezinde konuşlandırılan barınma alanlarındaki 127 gönüllü afetzede katılımcı üzerinde yüz yüze anket tekniği kullanılarak derlenmiştir. Katılımcılar tarafından insanlarda 117, hayvanlarda 214, gökyüzünde 147, hava durumunda 165, kaynak ve çeşme sularında 59, göl ve barajlarda 31 ve elektrik-elektronik cihazlarda toplam 73 sıra dışı gözlem yapılmıştır. Sonuç olarak, Elazığ Depremi meydana gelmeden önceki bir aylık zaman diliminde; doğanın, canlıların ve elektronik cihazların gözlemlenebilecek düzeyde sıra dışı değişimler sergilediği söylenebilir. Küresel ölçekte büyük depremler öncesinde de gözlemlenen bu anormal değişimlerin; depremlerin olası öncül belirtileri olarak kayda geçirilmesi yerel ölçekte deprem tahmin çalışmalarının ve erken uyarı sistemlerinin geliştirilmesine katkı sağlayacaktır.

Teşekkür

Elazığ-Sivrice ilçesine ait meteorolojik veri setlerinin bu çalışma kapsamında kullanılmasına izin veren T.C. Çevre, Şehircilik ve İklim Değişikliği Bakanlığı-Meteoroloji Genel Müdürlüğüne teşekkürlerimizi sunarız.

Kaynakça

  • AFAD, 2020. AFAD Deprem ve Risk Azaltma Genel Müdürlüğü-Deprem Dairesi Başkanlığı, Erişim adresi: https://deprem.afad.gov.tr/event-detail/63389
  • Alreck P.L., Settle R.B., 1995. The survey research handbook, McGraw-Hill Irwin, Chicago, 213 p.
  • Barnett V., 2002. Sample survey principles and methods, 3rd ed., London: Arnold, 31 p.
  • Bhargava N., Katiyar V.K., Sharma M.L., Pradhan P., 2009. Earthquake prediction through animal behavior: A review, Indian Journal of Biomechanics 78, 159-165
  • Biemer P.P., Groves R.M., Lyberg L.E., Mathiowetz N.A., Sudman S., 2004. Measurement Errors in Surveys, John Wiley & Sons, 367 p.
  • Davies G.F., Richards M.A., 1992. Mantle convection, The Journal of Geology 100(2), 151-206.
  • Fink A., 2017. How to conduct surveys: A Step-By-Step Guide, 6th ed., Sage Publications, California, 85 p.
  • Fowler F.J., 1995. Improving survey questions: Design and evaluation, Thousand Oaks, Sage, Newbury Park, 13 p.
  • Freund F.T., Kulahci I.G., Cyr G., Ling J., Winnick M., Tregloan-Reed J., Freund M.M., 2009. Air ionization at rock surfaces and pre-earthquake signals, Journal of Atmospheric and Solar-Terrestrial Physics 71(17-18), 1824-1834.
  • Geller R.J., 1997. Earthquake prediction: a critical review, Geophysical Journal International 131(3), 425-450.
  • Grant R.A., Halliday T., Balderer W.P., Leuenberger F., Newcomer M., Cyr G., Freund F.T., 2011. Ground water chemistry changes before major earthquakes and possible effects on animals, International Journal of Environmental Research and Public Health 8(6), 1936-1956.
  • Ikeya M., Yamanaka C., Mattsuda T., Sasaoka H., Ochiai H., Huang Q., Nakagawa T., 2000. Electromagnetic pulses generated by compression of granitic rocks and animal behavior, Episodes Journal of International Geoscience 23(4), 262-265.
  • Kamogawa M., 2006. Preseismic lithosphere‐atmosphere‐ionosphere coupling, Eos Transactions American Geophysical Union 87(40), 417-424.
  • Kondo G., 1966. The variation of the atmospheric electric field at the time of earthquake, Mem. Kakioka Magnet. Observ. 12, 11-23.
  • Liu J.Y., Chen Y.I., Chuo Y.J., Chen C.S., 2006. A statistical investigation of preearthquake ionospheric anomaly, Journal of Geophysical Research 111, 1-5.
  • MGM, 2020. Meteoroloji Genel Müdürlüğü, T.C. Çevre, Şehircilik ve İklim Değişikliği Bakanlığı, Ankara, Erişim adresi: https://www.mgm.gov.tr/
  • Morozova L.I., 2005. Satellite monitoring of earthquakes, Vladivostok, Dalnauka, 137 p.
  • Neuman W.L., 2006. Social research methods: Qualitative and quantitative approaches, 6th ed., Pearson Education, Boston, 46 p.
  • Nishimura T., Okano H., Tada H., Nishimura E., Sugimoto K., Mohri K., Fukushima M., 2010. Lizards respond to an extremely low-frequency electromagnetic field, Journal of Experimental Biology 213(12), 1985-1990.
  • Omori Y., Yasuoka Y., Nagahama H., Kawada Y., Ishikawa T., Tokonami S., Shinogi M., 2007. Anomalous radon emanation linked to preseismic electromagnetic phenomena, Natural Hazards and Earth System Sciences 7(5), 629-635.
  • Ondoh T., 2003. Anomalous sporadic-E layers observed before M7.2 Hyogo-ken Nanbu earthquake; Terrestrial gas emanation model, Adv. Polar Upper Atmos. Res. 17, 96-108.
  • Ouzounov D., Bryant N., Logan T., Pulinets S., Taylor P., 2006. Satellite thermal IR phenomena associated with some of the major earthquakes in 1999-2003, Physics and Chemistry of the Earth 31(4-9), 154-163.
  • Presser S., Couper M.P., Lessler J.T., Martin E., Martin J., Rothgeb J.M. and Singer E., 2004. Methods for Testing and Evaluating Survey Questions, Public Opinion Quarterly-Spring 2004 109-130.
  • Pulinets S.A., Dunajecka M.A., 2006. Specific variations of air temperature and relative humidity around the time of Michoacan earthquake M8.1 Sept. 19, 1985 as a possible indicator of interaction between tectonic plates, Tectonophysics 431(1-4), 221-230.
  • Pulinets S.A., Gaivoronska T.B., Contreras A.L., Ciraolo L., 2004. Correlation analysis technique revealing ionospheric precursors of earthquakes, Natural Hazards and Earth System Science 4(5/6), 697-702.
  • Pulinets S., Ouzounov D., 2011. Lithosphere-Atmosphere-Ionosphere Coupling (LAIC) model-An unified concept for earthquake precursors validation, Journal of Asian Earth Sciences 41(4-5), 371-382.
  • Qidong D., Pu J., Jones L.M., Molnar P., 1981. A preliminary analysis of reported changes in ground water and anomalous animal behavior before the 4 February 1975 Haicheng earthquake, Earthquake Prediction: An International Review 4, 543-565.
  • Rikitake T., Oshiman N., Hayashia M., 1993. Macro-anomaly and its application to earthquake prediction, Tectonophysics 222(1), 93-106.
  • St-Laurent F., 2000. The Saguenay, Québec, earthquake lights of November 1988-January 1989: A comparative study with reference to the geoatmospheric lights classification proposed by Montandon in 1948 and a description put forward by Yasui in 1968, Seismological Research Letters 71(2), 160-174.
  • TKD, 2021, Türkiye Kızılay Derneği, Afet Yönetimi Genel Müdürlüğü, Erişim adresi: https://afetyonetimi.kizilay.org.tr/tr/afet-yonetimi-gmy.html
  • Toutain J.P., Baubron J.C., 1999. Gas geochemistry and seismotectonics: a review, Tectonophysics 304(1-2), 1-27.
  • Turcotte D.L., 1991. Earthquake prediction, Annual Review of Earth and Planetary Sciences 19(1), 263-281.
  • Ulomov V.I., Mavashev B.Z., 1971. The Tashkent earthquake of 26 April 1966, Akad. Nauk. Uzbek SSR FAN 188-192.
  • Ulukavak M., Yalcinkaya M., 2017. Precursor analysis of ionospheric GPS-TEC variations before the 2010 M7.2 Baja California earthquake, Geomatics, Natural Hazards and Risk 8 (2), 295-308.
  • Ulusoy Ü., Ikeya M., 2000. ESR studies of sepiolites, Applied Magnetic Resonance 18(4), 537-548.
  • Whitehead N.E., Ulusoy Ü., 2013. Macroscopic anomalies before the September 2010 M= 7.1 earthquake in Christchurch, New Zealand, Natural Hazards & Earth System Sciences 13, 167-176.
  • Yamauchi H., Uchiyama H., Ohtani N., Ohta M., 2014. Unusual animal behavior preceding the 2011 earthquake off the pacific coast of Tohoku, Japan: A way to predict the approach of large earthquakes, Animals 4(2), 131-145.
  • Yao Y.B., Chen P., Wu H., Zhang S., Peng W., 2012. Analysis of ionospheric anomalies before the 2011 Mw 9.0 Japan earthquake, Chinese Science Bulletin 57(5), 500-510.
  • Yu F., Turco R.P., 2001. From molecular clusters to nanoparticles: Role of ambient ionization in tropospheric aerosol formation, Journal of Geophysical Research: Atmospheres 106(D5), 4797-4814.
  • Zhang Y., Guo X., Zhong M., Shen W., Li W., He B., 2010. Wenchuan earthquake: Brightness temperature changes from satellite infrared information, Chinese Science Bulletin 55(18), 1917-1924.

Precursors of The Elazig-Sivrice Earthquake (January 24th, 2020)

Yıl 2022, Cilt: 4 Sayı: 2, 246 - 260, 13.12.2022
https://doi.org/10.46464/tdad.1180719

Öz

The scope of this study is to investigate the relationship between the observable abnormal changes in the nature, animals, electronic devices and the large-scale earthquakes for the 24 January 2020 Mw=6.8 Elazig-Sivrice Earthquake. These abnormal changes were collected by using face-to-face survey technique on 127 volunteer disaster victims in the shelters located in the center of Elazig province after the earthquake. The questionnaire is applied to 127 disaster victims in different disaster relief shelter areas located in Elazig after the earthquake. According to the survey findings, a total of 117 unusual observations about humans, a total of 214 unusual observations about animals, a total of 147 unusual observations of the sky, a total of 165 unusual observations of the weather, a total of 59 unusual observations on spring waters and fountain, a total of 31 unusual observations on lakes and dams and a total of 73 extraordinary observations in electrical-electronic devices are observed. As a result, it can be said that the abnormalities in the nature, animals and electronic devices warm to us within the month before the Earthquakes. To record the abnormal changes, which are also observed before many major earthquakes on a global scale, as earthquake precursors are going to contribute to the development of earthquake prediction studies and early warning systems at local scale.

Kaynakça

  • AFAD, 2020. AFAD Deprem ve Risk Azaltma Genel Müdürlüğü-Deprem Dairesi Başkanlığı, Erişim adresi: https://deprem.afad.gov.tr/event-detail/63389
  • Alreck P.L., Settle R.B., 1995. The survey research handbook, McGraw-Hill Irwin, Chicago, 213 p.
  • Barnett V., 2002. Sample survey principles and methods, 3rd ed., London: Arnold, 31 p.
  • Bhargava N., Katiyar V.K., Sharma M.L., Pradhan P., 2009. Earthquake prediction through animal behavior: A review, Indian Journal of Biomechanics 78, 159-165
  • Biemer P.P., Groves R.M., Lyberg L.E., Mathiowetz N.A., Sudman S., 2004. Measurement Errors in Surveys, John Wiley & Sons, 367 p.
  • Davies G.F., Richards M.A., 1992. Mantle convection, The Journal of Geology 100(2), 151-206.
  • Fink A., 2017. How to conduct surveys: A Step-By-Step Guide, 6th ed., Sage Publications, California, 85 p.
  • Fowler F.J., 1995. Improving survey questions: Design and evaluation, Thousand Oaks, Sage, Newbury Park, 13 p.
  • Freund F.T., Kulahci I.G., Cyr G., Ling J., Winnick M., Tregloan-Reed J., Freund M.M., 2009. Air ionization at rock surfaces and pre-earthquake signals, Journal of Atmospheric and Solar-Terrestrial Physics 71(17-18), 1824-1834.
  • Geller R.J., 1997. Earthquake prediction: a critical review, Geophysical Journal International 131(3), 425-450.
  • Grant R.A., Halliday T., Balderer W.P., Leuenberger F., Newcomer M., Cyr G., Freund F.T., 2011. Ground water chemistry changes before major earthquakes and possible effects on animals, International Journal of Environmental Research and Public Health 8(6), 1936-1956.
  • Ikeya M., Yamanaka C., Mattsuda T., Sasaoka H., Ochiai H., Huang Q., Nakagawa T., 2000. Electromagnetic pulses generated by compression of granitic rocks and animal behavior, Episodes Journal of International Geoscience 23(4), 262-265.
  • Kamogawa M., 2006. Preseismic lithosphere‐atmosphere‐ionosphere coupling, Eos Transactions American Geophysical Union 87(40), 417-424.
  • Kondo G., 1966. The variation of the atmospheric electric field at the time of earthquake, Mem. Kakioka Magnet. Observ. 12, 11-23.
  • Liu J.Y., Chen Y.I., Chuo Y.J., Chen C.S., 2006. A statistical investigation of preearthquake ionospheric anomaly, Journal of Geophysical Research 111, 1-5.
  • MGM, 2020. Meteoroloji Genel Müdürlüğü, T.C. Çevre, Şehircilik ve İklim Değişikliği Bakanlığı, Ankara, Erişim adresi: https://www.mgm.gov.tr/
  • Morozova L.I., 2005. Satellite monitoring of earthquakes, Vladivostok, Dalnauka, 137 p.
  • Neuman W.L., 2006. Social research methods: Qualitative and quantitative approaches, 6th ed., Pearson Education, Boston, 46 p.
  • Nishimura T., Okano H., Tada H., Nishimura E., Sugimoto K., Mohri K., Fukushima M., 2010. Lizards respond to an extremely low-frequency electromagnetic field, Journal of Experimental Biology 213(12), 1985-1990.
  • Omori Y., Yasuoka Y., Nagahama H., Kawada Y., Ishikawa T., Tokonami S., Shinogi M., 2007. Anomalous radon emanation linked to preseismic electromagnetic phenomena, Natural Hazards and Earth System Sciences 7(5), 629-635.
  • Ondoh T., 2003. Anomalous sporadic-E layers observed before M7.2 Hyogo-ken Nanbu earthquake; Terrestrial gas emanation model, Adv. Polar Upper Atmos. Res. 17, 96-108.
  • Ouzounov D., Bryant N., Logan T., Pulinets S., Taylor P., 2006. Satellite thermal IR phenomena associated with some of the major earthquakes in 1999-2003, Physics and Chemistry of the Earth 31(4-9), 154-163.
  • Presser S., Couper M.P., Lessler J.T., Martin E., Martin J., Rothgeb J.M. and Singer E., 2004. Methods for Testing and Evaluating Survey Questions, Public Opinion Quarterly-Spring 2004 109-130.
  • Pulinets S.A., Dunajecka M.A., 2006. Specific variations of air temperature and relative humidity around the time of Michoacan earthquake M8.1 Sept. 19, 1985 as a possible indicator of interaction between tectonic plates, Tectonophysics 431(1-4), 221-230.
  • Pulinets S.A., Gaivoronska T.B., Contreras A.L., Ciraolo L., 2004. Correlation analysis technique revealing ionospheric precursors of earthquakes, Natural Hazards and Earth System Science 4(5/6), 697-702.
  • Pulinets S., Ouzounov D., 2011. Lithosphere-Atmosphere-Ionosphere Coupling (LAIC) model-An unified concept for earthquake precursors validation, Journal of Asian Earth Sciences 41(4-5), 371-382.
  • Qidong D., Pu J., Jones L.M., Molnar P., 1981. A preliminary analysis of reported changes in ground water and anomalous animal behavior before the 4 February 1975 Haicheng earthquake, Earthquake Prediction: An International Review 4, 543-565.
  • Rikitake T., Oshiman N., Hayashia M., 1993. Macro-anomaly and its application to earthquake prediction, Tectonophysics 222(1), 93-106.
  • St-Laurent F., 2000. The Saguenay, Québec, earthquake lights of November 1988-January 1989: A comparative study with reference to the geoatmospheric lights classification proposed by Montandon in 1948 and a description put forward by Yasui in 1968, Seismological Research Letters 71(2), 160-174.
  • TKD, 2021, Türkiye Kızılay Derneği, Afet Yönetimi Genel Müdürlüğü, Erişim adresi: https://afetyonetimi.kizilay.org.tr/tr/afet-yonetimi-gmy.html
  • Toutain J.P., Baubron J.C., 1999. Gas geochemistry and seismotectonics: a review, Tectonophysics 304(1-2), 1-27.
  • Turcotte D.L., 1991. Earthquake prediction, Annual Review of Earth and Planetary Sciences 19(1), 263-281.
  • Ulomov V.I., Mavashev B.Z., 1971. The Tashkent earthquake of 26 April 1966, Akad. Nauk. Uzbek SSR FAN 188-192.
  • Ulukavak M., Yalcinkaya M., 2017. Precursor analysis of ionospheric GPS-TEC variations before the 2010 M7.2 Baja California earthquake, Geomatics, Natural Hazards and Risk 8 (2), 295-308.
  • Ulusoy Ü., Ikeya M., 2000. ESR studies of sepiolites, Applied Magnetic Resonance 18(4), 537-548.
  • Whitehead N.E., Ulusoy Ü., 2013. Macroscopic anomalies before the September 2010 M= 7.1 earthquake in Christchurch, New Zealand, Natural Hazards & Earth System Sciences 13, 167-176.
  • Yamauchi H., Uchiyama H., Ohtani N., Ohta M., 2014. Unusual animal behavior preceding the 2011 earthquake off the pacific coast of Tohoku, Japan: A way to predict the approach of large earthquakes, Animals 4(2), 131-145.
  • Yao Y.B., Chen P., Wu H., Zhang S., Peng W., 2012. Analysis of ionospheric anomalies before the 2011 Mw 9.0 Japan earthquake, Chinese Science Bulletin 57(5), 500-510.
  • Yu F., Turco R.P., 2001. From molecular clusters to nanoparticles: Role of ambient ionization in tropospheric aerosol formation, Journal of Geophysical Research: Atmospheres 106(D5), 4797-4814.
  • Zhang Y., Guo X., Zhong M., Shen W., Li W., He B., 2010. Wenchuan earthquake: Brightness temperature changes from satellite infrared information, Chinese Science Bulletin 55(18), 1917-1924.
Toplam 40 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Mühendislik
Bölüm Araştırma Makalesi
Yazarlar

Seval Gürbüz 0000-0001-8032-7895

Yusuf Arif Kutlu 0000-0002-9393-7710

Yayımlanma Tarihi 13 Aralık 2022
Gönderilme Tarihi 27 Eylül 2022
Yayımlandığı Sayı Yıl 2022 Cilt: 4 Sayı: 2

Kaynak Göster

APA Gürbüz, S., & Kutlu, Y. A. (2022). Elazığ-Sivrice Depremi’nin (24 Ocak 2020) Öncül Belirtileri. Türk Deprem Araştırma Dergisi, 4(2), 246-260. https://doi.org/10.46464/tdad.1180719
AMA Gürbüz S, Kutlu YA. Elazığ-Sivrice Depremi’nin (24 Ocak 2020) Öncül Belirtileri. TDAD. Aralık 2022;4(2):246-260. doi:10.46464/tdad.1180719
Chicago Gürbüz, Seval, ve Yusuf Arif Kutlu. “Elazığ-Sivrice Depremi’nin (24 Ocak 2020) Öncül Belirtileri”. Türk Deprem Araştırma Dergisi 4, sy. 2 (Aralık 2022): 246-60. https://doi.org/10.46464/tdad.1180719.
EndNote Gürbüz S, Kutlu YA (01 Aralık 2022) Elazığ-Sivrice Depremi’nin (24 Ocak 2020) Öncül Belirtileri. Türk Deprem Araştırma Dergisi 4 2 246–260.
IEEE S. Gürbüz ve Y. A. Kutlu, “Elazığ-Sivrice Depremi’nin (24 Ocak 2020) Öncül Belirtileri”, TDAD, c. 4, sy. 2, ss. 246–260, 2022, doi: 10.46464/tdad.1180719.
ISNAD Gürbüz, Seval - Kutlu, Yusuf Arif. “Elazığ-Sivrice Depremi’nin (24 Ocak 2020) Öncül Belirtileri”. Türk Deprem Araştırma Dergisi 4/2 (Aralık 2022), 246-260. https://doi.org/10.46464/tdad.1180719.
JAMA Gürbüz S, Kutlu YA. Elazığ-Sivrice Depremi’nin (24 Ocak 2020) Öncül Belirtileri. TDAD. 2022;4:246–260.
MLA Gürbüz, Seval ve Yusuf Arif Kutlu. “Elazığ-Sivrice Depremi’nin (24 Ocak 2020) Öncül Belirtileri”. Türk Deprem Araştırma Dergisi, c. 4, sy. 2, 2022, ss. 246-60, doi:10.46464/tdad.1180719.
Vancouver Gürbüz S, Kutlu YA. Elazığ-Sivrice Depremi’nin (24 Ocak 2020) Öncül Belirtileri. TDAD. 2022;4(2):246-60.

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