Your search keyword '"Subduction zone"' showing total 4 results

1. Spatial variations of b-values in the subduction zone of Central America

Author

Ota Kulhánek and David A. Monterroso

Subjects

b-value, subduction zone, Central America, volcanic chain, stress, Geophysics. Cosmic physics, QC801-809

Abstract

Frequency-magnitude distribution along the Mid-American Trench (MAT) has been studied by means of 2345 earthquakes during the period 1964-1994. We used the regional MIDAS catalogue with a magnitude of completeness of 4.2. To resolve the b-value as a function of depth (one dimensional approach), we applied vertically sliding windows containing a constant number of events. To obtain more details in the b distribution, we projected catalogue hypocenters in three selected regions (approximately Guatemala and El Salvador, Nicaragua, Costa Rica), onto planes perpendicular to the trench. The b-values were calculated in sliding cylindrical volumes (two-dimensional approach) containing a constant number of earthquakes and centered at nodes of a 5 km x 5 km grid. The b-value varies significantly along a large part of MAT. High b-values were identified in the upper part of the slab at depths of 80-110 km beneath Guatemala-El Salvador and at depths 130-170 km beneath Nicaragua. Anomalous (high) b-values in the lower part of the slab were located at depths of 50-90 km and 50-160 km beneath Guatemala-El Salvador and Nicaragua, respectively. Anomalies observed at the upper part of the slab may be related to dehydration and successive increase in pore pressure in the down-going lithosphere, which may generate volcanism above the anomalies in the upper part of the slab. Anomalies on the lower surface of the Wadati-Benioff zone are likely to be associated with high thermal gradients between the slab and mantle.

Published

2003

2. Segmentación estructural del plano de subducción de la placa Caribe en las cuentas Guajira y Sinú Offshore

Author

Porras Morales, Sergio Alejandro, Alzate Rubio, Valentina, Duque Trujillo, José Fernando, and Beltrán Triviño, Alejandro Iván

Subjects

GEOLOGÍA - COLOMBIA - (MAGDALENA), Zona de subducción, Sinú basin, Structural geology, Placa Caribe, Colombian Caribbean offshore, Tectonostratigraphy, Guajira basin, Geología estructural, Focal mechanisms, Mecanismos focales, Modelamiento estructural, GEOMORFOLOGÍA, Subduction zone, CUENCAS SEDIMENTARIAS, Caribbean plate, TECTÓNICA DE PLACAS, Structural modeling, Tectonoestratigrafía, Caribe colombiano, Cuenca Guajira, Cuenca Sinú, GEOLOGÍA APLICADA

Abstract

Evidencias como la actividad sísmica, rasgos geomorfológicos como el diapirismo y vulcanismo de lodo, prismas acrecionarios y el análisis de datos geodéticos, etc. indican que el Caribe Colombiano está segmentado estructuralmente y que continúa operando una zona de subducción en un margen convergente oblicuo. Para verificar lo anterior, se llevó a cabo interpretación sísmica, modelamiento de superficies y cálculo de soluciones de mecanismos focales en el área comprendida entre las cuencas Sinú offshore y Guajira offshore. Los productos obtenidos reflejan diferentes regímenes de esfuerzo desde transtensivos a transpresivos a lo largo de la zona de estudio, dentro de la misma configuración tectónica convergente, cuya segmentación es representada por la zona de la Sierra Nevada de Santa Marta entre el sistema de fallas de Cuiza y el lineamiento en offhore del sistema de fallas Santa Marta-Bucaramanga. Por lo tanto, se pudo determinar que en el Caribe colombiano el plano de subducción de la placa Caribe se encuentra segmentado y subduciendo con una geometría compleja y de bajo ángulo bajo la placa Suramérica., Evidence such as seismic activity, geomorphological features such as diapirism and mud volcanism, accretionary prisms and the analysis of geodetic data, etc. indicate that the Colombian Caribbean is structurally segmented and that a subduction zone continues operating in an oblique convergent margin. To verify the above, seismic interpretation, surface modeling and calculation of focal mechanism solutions were carried out in the area between the offshore Sinú and offshore Guajira basins. The products obtained reflect different stress regimes from transtensive to transpressive throughout the study area, within the same convergent tectonic configuration, whose segmentation is represented by the Sierra Nevada de Santa Marta area between the Cuiza fault system and the offshore lineament of the Santa Marta-Bucaramanga fault system. Therefore, it was determined that in the Colombian Caribbean the subduction plane of the Caribbean plate is segmented and subducting at different shallow angles under the South American plate.

Published

2021

3. Protolith and metamorphic conditions of the metapelites from the Rio Claro Region (Antioquia Departament)

Author

Madrid Restrepo, Diana Carolina and Bustamante Londoño, Camilo

Subjects

PETROLOGÍA, Metamorphism, CORTEZA TERRESTRE, Zona de subducción, Protolito ígneo y sedimentario, Complejo Cajamarca, Metamorfismo, Igneous and sedimentary protolith, GEOMORFOLOGÍA, Subduction zone, Cajamarca Complex, MINERALOGÍA, TECTÓNICA DE PLACAS, GEOLOGÍA - COLOMBIA

Abstract

El Complejo Cajamarca se distribuye a lo largo de la Cordillera Central de Colombia, su formación se atribuye a una zona de subducción pérmica, magmatismo de arco volcánico, apertura y cierre de cuencas y acreción de terrenos. Las 16 muestras estudiadas en esta investigación afloran cerca de Rio Claro en el departamento de Antioquia. Los análisis se realizaron con 7 metasedimentarias, 2 metabásicas pertenecientes al Complejo Cajamarca y 7 pegmatitas relacionadas con el magmatismo del Batolito de Antioquia. Se realizó una petrografía detallada de las muestras y se realizó la geoquímica total de las rocas metamórficas para el análisis de los elementos principales y traza. Este estudio se enfoca en discutir el ambiente tectónico de formación de protolitos basado en diagramas de discriminación tectónica y condiciones P-T para metamorfismo, basado en reacciones mineralógicas. En el análisis N-MORB se muestra un enriquecimiento en el LILE y un agotamiento en el HFSE, de igual forma se observa una relación inversa de los elementos de tierras raras (REE) normalizados con el manto primitivo. Las rocas metasedimentarias están formadas principalmente por cuarzo, moscovita, biotita, grafito, andalusita y como minerales accesorios titanita y circón; los metabásicos se componen de epidota, actinolita, clorita, hornblenda y plagioclasa. Las condiciones de PT arrojan una presión de 6 a 4 kbar y una temperatura que no excede los 550 ° C. Esto representa un gradiente metamórfico de presión media y temperatura media que indica un paso a través del esquisto verde a la facies de epidota-anfibolita que está ligada a una Metamorfismo de tipo barroviano. Este tipo de metamorfismo regional condujo a una profundidad aproximada de 20 km. En este trabajo se sugiere que la formación del protolito sedimentario es en la cuña de acreción de una zona de subducción, a diferencia del protolito ígneo que sería parte de la formación de la corteza. oceánico; esto difiere de lo que Blanco-Quintero et al. (2014) propone al sur del Complejo Cajamarca. Esta corteza oceánica se subduciría más tarde al margen occidental paleo de América del Sur; donde finalmente se generaría el evento metamórfico., The Cajamarca Complex is distributed along the Central Cordillera of Colombia, its formation is attributed to a Permian subduction zone, volcanic arc magmatism, opening and closing of basins and accretion of terrenes. The 16 samples studied in this research crop out near Rio Claro in the department of Antioquia. The analyzes were made with 7 metasedimentary, 2 metabasic belonging to the Cajamarca Complex and 7 pegmatites related to the magmatism of the Antioquia Batholith. Detailed petrography of the samples was performed and did total rock geochemistry for metamorphic rocks for analysis of major and trace elements. This study focuses on discussing the tectonic environment of protolith formation based on tectonic discrimination diagrams and P-T conditions for metamorphism, based on mineralogical reactions. In the N-MORB analysis it shows an enrichment in the LILE and a depleting in the HFSE, in the same way an inverse relationship is observed of the rare earth elements (REE) normalized with the primitive mantle. The metasedimentary rocks are mainly formed by quartz, muscovite, biotite, graphite, Andalusite and as accessory minerals titanite and zircon; the metabasics are composed of epidote, actinolite, chlorite, hornblende, and plagioclase. The P-T conditions yields a pressure of 6 to 4 kbar and a temperature that did not exceed 550 ° C. This represents a metamorphic gradient of medium pressure and medium temperature indicating a passage through the green schist to epidote-amphibolite facies which is linked to a Barrovian type metamorphism. This type of regional metamorphism led toward a depth approximately of 20 km. In this work it is suggested that the formation of the sedimentary protolith is in the accretion wedge of a subduction zone, unlike the igneous protolith that would be part of the formation of the crust. oceanic; this differs from what Blanco-Quintero et al. (2014) proposes south of the Cajamarca Complex. This oceanic crust would later subduct to the paleo western margin of South America; where the metamorphic event would finally be generated.

Published

2021

4. Analysis of the seismic activity in the Tehuantepec Gulf (Middle America Trench, Mexico):high-magnitude earthquakes related to normal faults, aftershocks and seismotectonics implications

Author

Amador Luna, David, Alonso Chaves, Francisco Manuel|||0000-0002-7079-2539, Fernández Rodríguez, Carlos|||0000-0001-5135-7972, and García Navarro, Encarnación|||0000-0001-6270-9101

Subjects

Sismotectónica, Subduction zone, Zona de subducción, Golfo de Tehuantepec, México, Tehuantepec Gulf, Seismotectonics, Seismic activity, Actividad sísmica

Abstract

En este trabajo se describe la serie sísmica producida entre septiembre de2017 y febrero de 2018 en México, que incluye un terremoto de Mw=8.2 yotros dos de magnitud superior a 7.0. El estudio detallado de los mecanismosfocales de los eventos analizados, de la distribución espacial de los focos de losterremotos principales y de sus réplicas permite una primera interpretación sis-motectónica. Se sugiere que, en el contexto de la subducción de la placa deCocos bajo la Norteamericana, cerca de la unión triple con la placa Caribe, elslabsubducente estaría sometido en la zona del Golfo de Tehuantepec a unfuerte estiramiento (quizá debido a un proceso de slab roll-backo a una granactividad de la fuerza de slab pull), dando lugar al evento principal. La actividadsísmica producida posteriormente en la placa Norteamericana habría estadodesencadenada por dicho evento principal This work describes the seismic series occurred between September2017 and February 2018 in Mexico, which includes an earthquake ofMw=8.2, and another two of magnitude greater than 7.0. The detailed studyof their focal mechanisms, and the spatial distribution of the mainearthquakes and their aftershocks, allow a seismotectonic interpretation ofthis seismic activity. It is here suggested that, in the general setting of thesubduction of the Cocos Plate under the North America Plate, close to theirtriple junction with the Caribbean Plate, the subducting slab is subjected toa strong stretching below the Tehuantepec Gulf (probably due to a slab rollback process or to a great activity of the slab pull force), which gave rise tothe main event. The subsequent seismic activity that affected the NorthAmerica Plate would have been triggered by that main event

Published

2018