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The study of seismicity of Alborz (Northern Iran) and Zagros (Southern Iran) regions by using time series analysis

Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Since many years ago Iran faced multiple and sometimes destructive earthquakes because of its positions in seismic Alpidebelt, the regions of Alborz (in north of Iran) and Zagros (in south of Iran) are seismically important due to their dense population and the presence of economic and strategic organization in them, these zones with their high tectonic movements and their positions in seismic Alpide-belt have high potentials for large earthquakes, and 80% of Iran’s earthquakes happen in these zones. Time series analysis comprises methods for analyzing time series data in order to extract meaningful statistics and other characteristics of the data. Time series forecasting is the use of a model to predict future values based on previously observed values, in this study a proper model has been proposed for the earthquakes that occurred in two regions of Alborz and Zagros during 1900−2021, in all these regions time series are analyzed individually, and proper models are proposed for the prediction of empirical recurrence rate of the earthquake with magnitudes larger than 6.0 mb. Then, a compression was made between the proposed models and the earthquakes that occurred to determine their accuracy.
Czasopismo
Rocznik
Strony
27--37
Opis fizyczny
Bibliogr. 35 poz.
Twórcy
  • Department of Earth Sciences, College of Sciences, Tehran Science and Research Branch, Islamic Azad University, Tehran, Iran
autor
  • Department of Earth Sciences, College of Sciences, Shiraz University, Shiraz, Iran
  • Department of Earth Sciences, College of Sciences, Tehran Science and Research Branch, Islamic Azad University, Tehran, Iran
Bibliografia
  • 1. Alavi M (1991) Tectonics map of the Middle East, scale 1:5000000. Geological Survey of Iran, Tehran
  • 2. Ambraseys NN, Melville CP (1982) A history of Persian earthquakes. Cambridge University Press, Cambridge, p 219
  • 3. Berberian M (1981) Active faulting and tectonics of Iran. In: Gupta HK, Delany FM (eds) Zagros Hindu Kush Himalaya Geodynamic Evolution Geodynamic Series, Am, Geophys, Union, Washington, DC and Geol, Soc, Am, Boulder, CO, 3:33–69
  • 4. Berberian M, King GCP (1981) Towards a paleogeography and tectonic evolution of Iran. Can J Earth Sci 18(2):210–285
  • 5. Berberian M, Yeats RS (1999) Patterns of historical earthquake rupture in the Iranian Plateau. Bull Seismol Soc Am 89:120–139
  • 6. Berk KN (1987) Effective microcomputer statistical software. Am Stat 41:222–228
  • 7. Box GEP, Jenkins GM, Reinsel GC (2008) Time series analysis, forecasting and control
  • 8. Box GEP, Tiao GC (1975) Intervention analysis with applications to economic and environmental problems. J Am Stat Assoc 70:70–79
  • 9. Chandra U (1981) Focal mechanism solutions and their tectonic implications for the eastern Alpine- Himalayan region. In: Gupta HK, Delany FM (eds) Zagros Hindu Kush Himalaya Geodynamic Evolution, Geodynamic Series, Am. Geophy, Union, Washington, DC and Geol, Soc, Am, Boulder, CO, 3:243–271
  • 10. Engdahl ER, Jackson J, Myers SC, Bergman DA, Priestley K (2006) Relocation and assessment of seismicity in the Iran region. Geophys J Int 167:761–778
  • 11. Ho CH (2012) Time series analysis for predicting the occurrences of large scale earthquakes. Int J Appl Sci Technol 2(7):64–73
  • 12. IIEES (2021) International Institute of Earthquake Engineering and Seismology. Tehran, Iran
  • 13. ISC (2021) International Seismological Centre. Newbury, Berkshire, United Kingdom
  • 14. Jackson J (1980) Error in focal depth determination and the depth of seismicity in Iran and Turkey. Geophys J Roy Astron Soc 61:285–301
  • 15. Jackson JA, McKenzie D (1984) Active tectonics of the Alpine Himalayan belt between Turkey and Pakistan. Geophys J Roy Astron Soc Lond 77:185–264
  • 16. Jackson JA, Priestley K, Allen M, Berberian M (2002) Active tectonic of the south Caspian basin. Geophys J Int 148:214–245
  • 17. Kaviani A, Hatzfeld D, Paul A, Tatar M, Priestley K (2009) Shear-wave splitting, lithospheric anisotropy, and mantle deformation beneath the Arabia -Eurasia collision zone in Iran. Earth Planet Sci Lett 286:371–378
  • 18. Lee J, Strazicich MC (2002) Software review: ITSM 2000 professional version 6.0. Int J Forecast 18(3):455–459. https://doi.org/10.1016/S0169-2070(01)00138-8 (ISSN: 0169-2070)
  • 19. Ljung G, Box G (1978) Measure of lack of fit in time series models. Biometrika 65:297–303
  • 20. Mirzaie N (2003) Basic parameters of earthquake in Iran. Institute of Geophysics, Tehran
  • 21. Mirzaie N, Gao MT, Chen UT, Wang J (1997) A uniform catalog of earthquakes for hazard assessment in Iran. Acta Seismol Sin 10(6):713–726
  • 22. Ni J, Barazangi M (1986) Seismotectonics of Zagros continental collision zone and a comparison with the Himalayas. J Geophys Res 91(B8):8205–8218
  • 23. PDE, Preliminary Determination of Epicenters (2021) Monthly Listing, US Department of the Interior, National Earthquake Information Center, Denver, Colorado, USA
  • 24. Rustanovich DN, Shirakova EI (1964) Some results of a study of the Ashkabad earthquake of 1948. Izv Akad Nauk USSR Ser Geophiz 278(1275):1077–1080
  • 25. Sella GF, Dixon TH, Mao A (2002) A model for recent plate velocities from space geodesy. J Geophys Res. https://doi.org/10.1029/2000JB00033
  • 26. Sepehr M, Cosgrove JW (2005) Role of the Kazerun Fault Zone in the formation and deformation of the Zagros Fold-Thrust Belt, Iran. Tectonics. https://doi.org/10.1029/2004TC001725
  • 27. Stocklin J (1977) Structural correlation of the Alpine ranges between Iran and Central Asia. Me moire H series, Societe geologique de France 8:335–353
  • 28. Stocklin J (1966) Tectonics of Iran (in Russian). Geotektonika, USSR Academy of Sciences, Moscow 1:3–21
  • 29. Stocklin J (1968) Structural history and tectonics of Iran: a review. Bull Am Assoc Petrol Geol 52:1229–1258
  • 30. Tatar M, Hatzfeld D, Martinod J, Walpersdorf A, Ghafori-Ashtiany M, Chery J (2002) The present day deformation of the central Zagros from GPS measurements. Geophys Res Lett. https://doi.org/10.1029/2002/GL015427
  • 31. Tchalenko JS (1975) Seismicity and structure of the Kopet Dagh (Iran, U. S. S. R.). Phil Trans R Soc Lond Ser A 278:1–28
  • 32. Telesca L, Lovallo M, Pierini JO (2012) Visibility graph approach to the analysis of ocean tidal records. Chaos Solitons Fractals 45(9):1086–1091. https://doi.org/10.1016/j.chaos.2012.06.003
  • 33. Varotsos P, Sarlis N, Skordas E (2016) On the motivation and foundation of natural time analysis: useful remarks. Acta Geophys 64:841–852. https://doi.org/10.1515/acgeo-2016-0031
  • 34. Wei William WS (2006) Time series analysis: univariate and miltivariate methods, 2nd edn. Perason Addison Wesley, Boston
  • 35. Zamani B, Angelier J, Zamani A (2008) State of stress induced by plate convergence and stress partitioning in northeastern Iran, as indicated by focal mechanisms of earthquakes. J Geodyn 45:120–132
Uwagi
PL
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-bd1794c4-04ca-44cb-a3b9-e05d72f86021
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