Solid Earth Discussions
www.solid-earth-discuss.net
1869-9537
4
1
2012
10.5194/sed-4-33-2012
http://www.solid-earth-discuss.net/4/33/2012/
http://www.solid-earth-discuss.net/4/33/2012/sed-4-33-2012.html
http://www.solid-earth-discuss.net/4/33/2012/sed-4-33-2012.pdf
33
130
2012-01-19
Earth's rotation variations and earthquakes 2010–2011
L. Ostřihanský
ostrih@tiscali.cz
Nad Palatou 7, 150 00 Prague 5 – SmÃchov, Czech Republic
In contrast to unsuccessful searching (lasting over 150 years)
for correlation of earthquakes with biweekly tides, the author
found correlation of earthquakes with sidereal 13.66 days
Earth's rotation variations expressed as length of a day (LOD)
measured daily by International Earth's Rotation
Service. After short mention about earthquakes M 8.8 Denali Fault
Alaska 3 November 2002 triggered on LOD maximum and
M 9.1 Great Sumatra earthquake 26 December 2004 triggered on LOD
minimum and the full Moon, the main object of this paper are
earthquakes of period 2010–June 2011: M 7.0 Haiti (12 January
2010 on LOD minimum, M 8.8 Maule Chile 12 February 2010 on LOD
maximum, map constructed on the Indian plate revealing 6
earthquakes from 7 on LOD minimum in Sumatra and Andaman Sea
region, M 7.1 New Zealand Christchurch 9 September 2010 on LOD
minimum and M 6.3 Christchurch 21 February 2011 on LOD maximum,
and M 9.1 Japan near coast of Honshu 11 March 2011 on LOD
minimum. It was found that LOD minimums coincide with full or
new Moon only twice in a year in solstices. To prove that
determined coincidences of earthquakes and LOD extremes stated
above are not accidental events, histograms were constructed
of earthquake occurrences and their position on LOD graph
deeply in the past, in some cases from the time the IERS (International Earth's
Rotation Service)
started to measure the Earth's rotation variations in
1962. Evaluations of histograms and the Schuster's test have
proven that majority of earthquakes are triggered in
both Earth's rotation deceleration and acceleration. Because
during these coincidences evident movements of lithosphere
occur, among others measured by GPS, it is concluded that
Earth's rotation variations effectively contribute to the
lithospheric plates movement. Retrospective overview of past
earthquakes revealed that the Great Sumatra earthquake 26
December 2004 had its equivalent in the shape of LOD graph,
full Moon position, and character of aftershocks 19 years earlier in
difference only one day to 27 December 1985 earthquake, proving
that not only sidereal 13.66 days variations but also that the
19 years Metons cycle is the period of the earthquakes occurrence. Histograms
show the regular change of earthquake positions on branches of
LOD graph and also the shape of histogram and number of
earthquakes on LOD branches from the mid-ocean ridge can show
which side of the ridge moves quicker.
Böhm von Böhmersheim,~A.: Abplattung und Gebirgsbildung, Franz Deuticke, Leipzig und Wien, 1910.
Bostrom,~R C.: Westward displacement of the lithosphere, Nature, 234, 536–538, 1971.
BurÅ¡a, M.: Secular tidal and non-tidal variations in the Earth’s rotation, Studia geoph et geodet., 31, 219–224, 1987.
Cathles,~L M.: The viscosity of the Earth's mantle, Princeton Press, Princeton,~NJ, 1975.
Chebanenko,~I I.: Osnovnye zakonomernosti rozlomnoy tektoniki zemnoy kori, Izd. AN USSR, Kiev, 1963.
Cochran,~E S., Vidale,~T E., and Tanaka,~S.: Earth tides can trigger shallow thrust fault earthquakes, Science, 306, 1164–1166, 2004.
Cochran,~E S. and Vidale,~J L.: Comments on "Tidal synchronicity of 26 December 2004 Sumatran earthquake and its aftershocks" by Crockett,~R G M., Gilmore, G. K., Phillips, P. S., and Gilbertson, D. D., Geophys. Res. Lett., 34(L04302), 1–2, 2007.
Crespi,~M., Cuffaro,~M., Doglioni,~C., Giannone,~F., and Riguzzi,~F.: Space geodesy validation of the global lithospheric flow, Geophys J. Int., 168, 491–506, 2007.
Crockett,~R G., Gilmore,~G K., Phillips,~P S., and Gilbertson,~D D.: Tidal synchronicity of the 26 December 2004 Sumatran earthquake and its aftershocks, Geophys. Res. Lett., 33, L19302, http://dx.doi.org/10.1029/2006GL027074doi:10.1029/2006GL027074, 2006.
Darwin,~G H.: On the tidal friction of a~planet attended by several satellites and on the evolution of the solar system, Philos. Trans., 172, 491–435, 1881.
Doglioni,~C., Carminati,~E., Cuffaro, and Srocca,~D.: Subduction kinematics and dynamic constraints, Earth Sci. Rev., 83, 125–175, 2007.
Eötvös,~L.: Verhandlungen der 17. Algem. Konferenz d. Internat. Erdmessungen, Part 1, Astronomische Gesellschaft Hamburg, 111 pp., 1913.
Hey,~R N. and Vogt,~P R.: Spreading centers jumps near the Galapagos hotspot, Tectonophysics, 37, 41–52, 1977.
Hide,~R.: Rotation of the atmospheres of the Earth and planets, Philos. T. Roy. Soc. Lond.,~313, 107–121, 1984.
Holmes,~A.: Radioactivity and the Earth movement, Trans. Geol. Soc. Glasg., 28, 559–606, 1939.
Jordan,~T H.: Some comments on tidal drag as a~mechanism for driving plate motions,~J. Geophys. Res., 79, 2141–2142, 1974.
Kalenda,~P., Neumann,~L., Skalsk\'y,~L., Ost\vrihansk\'y,~L., Kopf,~T., and Croll,~J.: Vertical static pendulums, earthquake prediction and global tectonics, Monography issued by International Academy, 1. vydán\'i, prosinec 2011, ISBN: 978–80–905126–0–3, 2010.
Knopoff,~L. and Leeds,~A.: Lithospheric momenta and the deceleration of the Earth, Nature, 237, 93–95, 1972.
Madariaga,~R., Ruegg,~J C., Vigny,~C., Mettois,~M., Campos,~J., and Kausel,~E.: The Mw 8.8 Maule earthquake of 27 February 2010, a~tale of a~long expected earthquake, Abstract EGU2010-15700, in: Large Magnitude Earthquakes and Tsunami Activity in 2010: Views on the Haiti and Chile events, edited by: Bezzeghoud,~M., convenor. EGU General Assembly, Vienna 2010.
MacDonald,~G J F.: The deep structure of the continents, Rev. Geophys., 1, 587–665, 1963.
McKenzie,~D. and Weiss,~N.: Speculations on the thermal and tectonic history of the Earth, Geophys J Roy. Astr. S., 42, 131–174, 1975.
Moore,~G W.: Westward tidal drag as the driving force of plate tectonics, Geology, 1, 99–100, 1973.
Munk,~W H. and MacDonald,~G J F.: The rotation of the Earth, University Press, Cambridge, 1960.
NASA ARIA Preliminary Coseismic Displacement, 11 March 2011 Sendai-Oki earthquake.
Ost\vrihansk\'y,~L.: Forces causing the movement of plates, poster presented at IUGG XX. General Assembly, Vienna, 11–21 August 1991.
Ost\vrihansk\'y,~L.: The causes of lithospheric plates movements, Charles University Prague, Chair of Geography and Geoecology, available at: http://geo.mff.cuni.cz/~ostrihansky/, last access: December 2011, 1997.
Ost\vrihansk\'y,~L.: Plate movements, earthquakes and variations of the Earth's rotation, Acta Univ. Carol.-Geol., 48, 89–98, 2004.
Ost\vrihansk\'y,~L.: Lithospheric resonances of the Earth's rotation, Abstract EGU2010-1715, in: Unresolved problems in plate tectonics: kinematic reconstructions, plate driving forces, and plate boundary interactions, edited by: Doglioni,~C., convener, EGU General Assembly, Vienna 2010.
Ranalli,~G.: Westward drift of the lithosphere: not a~result of rotational drag, Geophys J. Int., 141, 535–537, 2002.
Reasenberg,~P.: Second-order moment of central California seismicity 1969–1982,~J. Geophys. Res., 90, 5479–5495, 1985.
Report from Wired Science, available at: http://www.wired.com/wiredscience/2010/03/chile-earthquake-moved-entire-city-10-feet-to-the-west/#ixzz0hr4xF7ZM, 2010.
Rosen,~R D., Salstein,~D A., Eubanks,~T M., Dickey,~J D., and Steppe,~J A.: El Nino signal in atmospheric angular momentum and Earth rotation, Science, 225, 411, 1984.
Schmidt,~R E.: Die Geomechanik des Erdinneren und ihre Auswirkung auf die Erdkruste, Relationes Annuae Instituti Geologici Publici Hungarici,~B. Disputationes, 159–231, 1948.
Schuster,~A.: On lunar and solar periodicities of earthquakes, P R Soc. London, 61, 445–465, 1897.
Schuster,~A.: Some problems of seismology, B. Seismol. Soc. Am., 1, 97–100, 1911.
Stacey, F. D.: Physics of the Earth, John Willey & Sons, 2~Edn., 1977.
Stovas,~M.,~V.: Neronomirnost obertanya Zemli, kak planetarnogeomorfologichnye tak geotektonichnye faktori, Geol. Zh. t., XVII, 3, 58–69, 1957.
SOEST News, Preliminary Coseismic Displacement Field M 8.8 Maule Earthquake, Chile, 27 February 2010.
USGS Poster of the Haiti Earthquake of 12 January 2010 – Magnitude 7.0, available at: http://earthquake.usgs.gov/earthquakes/eqarchives/poster/2010/20100112.php, 2010.
Tanaka,~S., Ohtake,~M., and Sato,~H.: Evidence for tidal triggering of earthquakes as revealed from statistical analysis of global data,~J. Geophys. Res., 107(B10), 2211, http://dx.doi.org/10.1029/2001JB001577doi:10.1029/2001JB001577, 2002.
Varga,~P. and Denis,~C.: Geodetic aspects of seismological phenomena,~J. Geod., 84, 107–121, http://dx.doi.org/10.1007/s00190-009-0350-1doi:10.1007/s00190-009-0350-1, 2010.
Veronnet,~A.: Rotation de l'elipsoide heterogene et figure exacte de la Terre, J. Math. Pure. Appl., 6(VIII), 331–463, 1912.
Veronnet,~A.: Constitution et evolution d'univers, Gaston Doin et Cie., Paris, 62–63, 1927.
Vine,~F J. and Matthews,~D H.: Magnetic anomalies over oceanic ridges, Nature, 228, 947–949, 1963.
Wahr,~J M.: The Earth's rotation, Ann. Rev. Earth Planet. Sci., 16, 231–249, 1988.
Weems,~R E. and Perry,~W H.: Strong correlation of major earthquakes with solid-earth tides in part of United States, Geology, 17(7), 661–664, 1989.
Wilcock,~W S D.: Tidal triggering of earthquakes in the Northeast Pacific Ocean, Geophys~J. Int., 179, 1055–1070, http://dx.doi:10.1111/j.1366-246X.2009.04319.xdoi:10.1111/j.1366-246X.2009.04319.x, 2009.