Meaning search as a mediator between post-traumatic stress symptoms and burnout in the long-term recovery phase after the 2023 Kahramanmaraş earthquakes. [PDF]
Front Public HealthÇınaroğlu M, Yılmazer E.
europepmc +1 more source
Seismic rhythms: Earthquake response to tectonic, hydrological, and tidal forcing in California. [PDF]
Sci AdvSirorattanakul K, Avouac JP.
europepmc +1 more source
Vibration error correction in absolute gravity measurement using BP neural network. [PDF]
Sci RepNiu Y, Wu Q, Zhang Y, Li Z.
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Abstract Earthquake Environmental Effects (EEEs) identified in the source region of the 20th May 2016 intraplate moment magnitude (Mw) 6.1 Petermann earthquake in Central Australia are described and classified using the Environmental Seismic Intensity (ESI-07) scale.
Tamarah King, Mark Quigley, Dan Clark
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The earthquake environmental effects (EEEs) of the 6th February 2018, Hualien earthquake (Mw=6.4): A contribution to the seismic hazard estimation in the epicentral area [PDF]
Quaternary International, 2023 The macroseismic intensity of the February 6, 2018, Mw 6.4, Hualien earthquake, which caused extensive damage around the Hualien area of eastern Taiwan is reassessed using the Environmental Seismic Intensity (ESI07) scale. We compiled data on earthquake environmental effects (EEEs) caused by the 2018 Hualien earthquake, which includes surface ruptures,
Sambit Prasanajit Naik a +8 more
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EEE Catalogue: A Global Database of Earthquake Environmental Effects
, 2014 The recent destructive earthquakes that occurred in Japan (2011; e.g., Lay et al. 2013) and New Zealand (2010–2011 earthquake sequence; e.g., Quigley et al. 2012) have clearly pointed out that traditional seismic hazard assessment based only on vibratory
Luca Guerrieri +2 more
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, 2015 The dreadful scenarios of effects caused by the recent catastrophic seismic events in very different parts of the world (from Eastern Asia to Chile and Haiti) are renewing the longlasting global debate among seismologists, geologists and engineers about the best practices and tools to achieve the most complete and reliable seismic hazard assessment. In
SERVA L +9 more
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Mapping and cataloguing earthquake environmental effects for seismic hazard assessment: the contribute of remote sensing techniques [PDF]
, 2009 The traditional approach for seismic intensity assessment based mostly on effects on humans and manmade structures often results poorly constrained, especially in the epicentral area of strong-to-large earthquakes (intensity degree >IX) when the intensity scales are afflicted by saturation, and in sparsely populated areas. The application of the recent
L Guerrieri +7 more
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Earthquake environmental effects and intensity assessment: the INQUA scale project
, 2007 Earthquake Environmental Effects (EEEs) are any phenomena generated in the natural environment by a seismic event. An earthquake intensity scale (INQUA scale) based on EEEs was presented in MICHETTI et alii (2004). The use of this new scale, combined and integrated with traditional macroseismic scales, is recommended for many reasons including: i) the ...
GUERRIERI L +7 more
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To test the relationship not yet explored before among earthquake and related environmental factors, low-density lipoprotein receptor (LDLR) and posttraumatic stress disorder (PTSD), the genetic variation of LDLR rs5925 was selected and PTSD was examined by PTSD Checklist-Civilian Version (PCLC) in adolescents with different genotypes of LDLR rs5925 ...
Xu Chen +8 more
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