A statistical analysis of lunisolar-earthquake connections.
Despite over a century of study, the relationship between lunar cycles and earthquakes remains controversial and difficult to quantitatively investigate. Perhaps as a consequence, major earthquakes around the globe are frequently followed by 'prediction' claims, using lunar cycles, that ge...
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ndltd-canterbury.ac.nz-oai-ir.canterbury.ac.nz-10092-74352015-03-30T15:31:07ZA statistical analysis of lunisolar-earthquake connections.Rüegg, Christian Michael-AndréDespite over a century of study, the relationship between lunar cycles and earthquakes remains controversial and difficult to quantitatively investigate. Perhaps as a consequence, major earthquakes around the globe are frequently followed by 'prediction' claims, using lunar cycles, that generate media furore and pressure scientists to provide resolute answers. The 2010-2011 Canterbury earthquakes in New Zealand were no exception; significant media attention was given to lunarderived earthquake predictions by non-scientists, even though the predictions were merely 'opinions' and were not based on any statistically robust temporal or causal relationships. This thesis provides a framework for studying lunisolar earthquake temporal relationships by developing replicable statistical methodology based on peer reviewed literature. Notable in the methodology is a high accuracy ephemeris, called ECLPSE, designed specifically by the author for use on earthquake catalogs, and a model for performing phase angle analysis. The statistical tests were carried out on two 'declustered' seismic catalogs, one containing the aftershocks from the Mw7.1 earthquake in Canterbury, and the other containing Australian seismicity from the past two decades. Australia is an intraplate setting far removed from active plate boundaries and Canterbury is proximal to a plate boundary, thus allowing for comparison based on tectonic regime and corresponding tectonic loading rate. No strong, conclusive, statistical correlations were found at any level of the earthquake catalogs, looking at large events, onshore events, offshore events, and the fault type of some events. This was concluded using Schuster's test of significance with α=5% and analysis of standard deviations. A few weak correlations, with p-5-10% of rejecting the null hypothesis, and anomalous standard deviations were found, but these are difficult to interpret. The results invalidate the statistical robustness of 'earthquake predictions' using lunisolar parameters in this instance. An ambitious researcher could improve on the quality of the results and on the range of parameters analyzed. The conclusions of the thesis raise more questions than answers, but the thesis provides an adaptable methodology that can be used to further investigation the problem.University of Canterbury. Geological Sciences2013-02-21T23:43:10Z2013-02-21T23:43:10Z2012Electronic thesis or dissertationTexthttp://hdl.handle.net/10092/7435enNZCUCopyright Christian Michael-André Rüegghttp://library.canterbury.ac.nz/thesis/etheses_copyright.shtml |
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en |
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description |
Despite over a century of study, the relationship between lunar cycles and earthquakes remains
controversial and difficult to quantitatively investigate. Perhaps as a consequence, major earthquakes around the globe are frequently followed by 'prediction' claims, using lunar cycles, that generate
media furore and pressure scientists to provide resolute answers. The 2010-2011 Canterbury
earthquakes in New Zealand were no exception; significant media attention was given to lunarderived
earthquake predictions by non-scientists, even though the predictions were merely 'opinions' and were not based on any statistically robust temporal or causal relationships. This thesis provides a
framework for studying lunisolar earthquake temporal relationships by developing replicable
statistical methodology based on peer reviewed literature. Notable in the methodology is a high
accuracy ephemeris, called ECLPSE, designed specifically by the author for use on earthquake
catalogs, and a model for performing phase angle analysis. The statistical tests were carried out on
two 'declustered' seismic catalogs, one containing the aftershocks from the Mw7.1 earthquake in
Canterbury, and the other containing Australian seismicity from the past two decades. Australia is an
intraplate setting far removed from active plate boundaries and Canterbury is proximal to a plate
boundary, thus allowing for comparison based on tectonic regime and corresponding tectonic loading
rate. No strong, conclusive, statistical correlations were found at any level of the earthquake catalogs,
looking at large events, onshore events, offshore events, and the fault type of some events. This was
concluded using Schuster's test of significance with α=5% and analysis of standard deviations. A few
weak correlations, with p-5-10% of rejecting the null hypothesis, and anomalous standard deviations
were found, but these are difficult to interpret. The results invalidate the statistical robustness of
'earthquake predictions' using lunisolar parameters in this instance. An ambitious researcher could
improve on the quality of the results and on the range of parameters analyzed. The conclusions of the
thesis raise more questions than answers, but the thesis provides an adaptable methodology that can
be used to further investigation the problem. |
author |
Rüegg, Christian Michael-André |
spellingShingle |
Rüegg, Christian Michael-André A statistical analysis of lunisolar-earthquake connections. |
author_facet |
Rüegg, Christian Michael-André |
author_sort |
Rüegg, Christian Michael-André |
title |
A statistical analysis of lunisolar-earthquake connections. |
title_short |
A statistical analysis of lunisolar-earthquake connections. |
title_full |
A statistical analysis of lunisolar-earthquake connections. |
title_fullStr |
A statistical analysis of lunisolar-earthquake connections. |
title_full_unstemmed |
A statistical analysis of lunisolar-earthquake connections. |
title_sort |
statistical analysis of lunisolar-earthquake connections. |
publisher |
University of Canterbury. Geological Sciences |
publishDate |
2013 |
url |
http://hdl.handle.net/10092/7435 |
work_keys_str_mv |
AT rueggchristianmichaelandre astatisticalanalysisoflunisolarearthquakeconnections AT rueggchristianmichaelandre statisticalanalysisoflunisolarearthquakeconnections |
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1716799598754791424 |