Analysis of strong motion data form Costa Rica for the generation of attenuation models: 1998 to 2021 period

 

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Autores: Schmidt-Díaz, Víctor, Esquivel-Salas, Luis C.
Formato: artículo original
Estado:Versión publicada
Fecha de Publicación:2022
Descripción:Seismic waves attenuation models are obtained from accelerographic data and represent one of the most important inputs for seismic hazard studies, which are essential for the design of increasingly efficient seismic-resistant structures and systems. Given that the recording of new earthquakes provides extremely valuable information to update these models and studies, it is necessary that both be reviewed and reconsidered periodically. In this work, a descriptive analysis of accelerographic data recorded in stations in Costa Rica until the year 2021 is presented, as a basis for the subsequent development of attenuation models for the country. The research is motivated by the large number of accelerographic data recorded in the last 11 years, thanks to the densification of the instrument network managed by the Seismic Engineering Laboratory of the University of Costa Rica. This means that, at the present time, there is a sufficiently broad and robust accelerographic database to be able to generate ground motion prediction equations, known as GMPEs, that represent the attenuation in the three tectonic regimes present in the country: crustal, interphase subduction and intraslab subduction. In this stage of the investigation, a total of 3,192 records associated with 245 earthquakes are analyzed, obtained after applying a series of selection filters on a database initially composed of 3,981 records. The analysis has consisted of obtaining the distributions of the number of events and the number of records based on the magnitude, depth, tectonic regime and type of soil at the recording station, classifying it following the criteria of the Seismic Code of Costa Rica (CFIA , 2010). Among the main results of this research, which will condition the ranges of applicability of the models that are developed later, are (1) the identification of a scarcity of records in conditions of hard soil or rock (S1), as well as of high magnitudes at short hypocentral distances and low magnitudes at long distances.; (2) The range of hypocentral distances from the available records is (5-300 km) for crustal earthquakes, (15-300 km) for interphase subduction, and (40-400 km) for intraslab subduction. Finally, two distance measurements were estimated for extended sources, called rupture, R RUP, and Joyner and Boore, R J&B, used when the rupture cannot be considered punctual. These distances have been calculated from the distances for point sources, epicentral and hypocentral, R EPI and R HYPO respectively, following the methodology proposed by Thompson y Worden (2018).
País:Portal de Revistas UCR
Institución:Universidad de Costa Rica
Repositorio:Portal de Revistas UCR
Lenguaje:Español
OAI Identifier:oai:portal.ucr.ac.cr:article/52286
Acceso en línea:https://revistas.ucr.ac.cr/index.php/geologica/article/view/52286
Palabra clave:Earthquakes
Attenuation
Soils
Magnitude
Distance
PGA
Peak accelerations
Hypocenter
Sismos
Atenuación
Suelos
Magnitud
Distancia
Aceleraciones pico
Hipocentro