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Exploring E Turkey: Rainfall Precursor Predicts 100% Earthquake in a Consistent Manner in Just 2 Weeks

DOI: 10.4236/ijg.2013.44069, PP. 759-765

Keywords: Earthquake Prediction, Earthquake Precursor, Rainfall Predicts Earthquakes, Weather Predicts Earthquakes

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Abstract:

Rainfall event is the very specific, reliable unambiguous precursor for the earthquake event. Over the years scientists have hunted for some signal—a precursory sign, however faint—that would allow forecasters to pin-point exactly where and when the big ones will hit. After decades spent searching in vain, many seismologists now doubt whether such a signal even exists. But in a great surprise to everyone, from an ordinary lay man to eminent scientists, 100% earthquakes occur after rainfalls! Though I have the findings for the entire regions of the world, here E Turkey are the region for submission for the period Jan-November, 2012 to study the strong correlation and show the strong evidence to prove that the 100% earthquakes after rainfall in a consistence manner. Anyone can very easily verify the validity of the findings for any forthcoming earthquakes for any regions of E Turkey in just two weeks of period. Nature does not give two different results for the same phenomena, for two different observers. Though there exists a very strong relation between the rainfalls and the earthquakes, scientists and seismologists have not been able to detect and identify this rainfall precursory signal for hundreds of years that consistently occurs before earthquakes. The methodology of rainfall event before earthquakes, even works consistently for earthquake prediction purpose, especially in any regions of the world. Rainfall type precursor is the best approach to predict specific earthquakes, which provide the potential for estimating the epicenter and magnitude of any moderate to strong earthquakes. Earthquakes are more likely when there is rain than it is not. The magnitudes of a resulting individual earthquake depend on the severity of the weather changes. However, in a very few cases the time scales

References

[1]  H. Kanamori, “Earthquake Prediction: An Overview,” Internationl Handbook of Earthquake and Engineering Seismology, Vol. 616, 2003, pp. 1205-1216.
[2]  A. K. Saraf and S. Choudhury, “Satellite Detects Surface Thermal Anomalies Associated with the Algerian Earthquakes of May 2003,” International Journal of Remote Sensing, Vol. 26, No. 13, 2005, pp. 2705-2713. doi:10.1080/01431160310001642359
[3]  A. K. Saraf and S. Choudhury, “SSM/I Applications in Studies of Thermal Anomalies Associated with Earthquakes,” International Journal Geoinformatics, Vol. 2, No. 3, 2005, pp. 197-207.
[4]  A. K. Saraf and S. Choudhury, “NOAA-AVHRR Detects Thermal Anomaly Associated with 26 January, 2001 Bhuj Earthquake, Gujarat, India,” International Journal of Remote Sensing, Vol. 26, No. 6, 2005, pp. 1065-1073. doi:10.1080/01431160310001642368
[5]  M. S. Vassiliou and H. Kanamori, “The Energy Release in Earthquakes,” Bulletin of the Seismological Society of America, Vol. 72, No. 2, 1982, pp. 371-387.
[6]  H. Kanamori, “The Energy Release in Great Earthquakes,” Journal of Geophysical Research, Vol. 82, No. 20, 1977, pp. 2981-2876. doi:10.1029/JB082i020p02981
[7]  Q. Schiermeier, “Climate and Weather: Extreme Measures,” Nature, Vol. 477, 2011, pp. 148-149. doi:10.1038/477148a
[8]  M. Blackett, M. J. Wooster and B. D. Malamud, “Exploring Land Surface Temperature Earthquake Precursors: A Focus on the Gujarat (India) Earthquake of 2001,” Geophysical Research Letters, Vol. 38, 2011, Article ID: L15303. doi:10.1029/2011GL048282
[9]  Detecting Earthquake Precursor, “A Thermal Remote Sensing Approach Arun K. Saraf,” Map India, 2008.
[10]  http://severe.worldweather.wmo.int/rain/b3/index.html
[11]  http://earthquake.usgs.gov/

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