Tectonic geomorphology of the Serranía de San Lucas (Central Cordillera): Regional implications for active tectonics and drainage rearrangement in the Northern Andes

“…New faults were also identified based on field observations, Hack profile, and SL-indices in Chitwan dun, central Nepal. OSL dating derived ages of the landforms support distinct climate-tectonic coupling events responsible for landscape evolution in Chitwan dun García-Delgado and Velandia (2020) Structural and geomorphic indices-based study indicates greater tectonic activity and uplift rates for the northern San Lucas Range, in the Northern Andes Transform setting Arrowsmith and Zielke (2009) Field evidences, paleoseismic analysis, and high-resolution LiDAR DEM were used to trace the active Cholame segment of San Andreas Fault (SAF) to understand tectonic geomorphology of SAF Softa et al (2018) Transpressional deformation zone, the Eastern Pontides (EP), is the active deformation zone and has a "push-up" geometry in conjunction with the North Anatolian Fault high. The EP exhibits high tectonic activity based on geomorphic indices and more than 0.5 mm/yr upliftment along the thrust faults of the Black Sea Fault (BSF) and Borjomi-Kazbegi Fault (BKF) in the active mountain belt…”

Tectonic Geomorphology

“…New faults were also identified based on field observations, Hack profile, and SL-indices in Chitwan dun, central Nepal. OSL dating derived ages of the landforms support distinct climate-tectonic coupling events responsible for landscape evolution in Chitwan dun García-Delgado and Velandia (2020) Structural and geomorphic indices-based study indicates greater tectonic activity and uplift rates for the northern San Lucas Range, in the Northern Andes Transform setting Arrowsmith and Zielke (2009) Field evidences, paleoseismic analysis, and high-resolution LiDAR DEM were used to trace the active Cholame segment of San Andreas Fault (SAF) to understand tectonic geomorphology of SAF Softa et al (2018) Transpressional deformation zone, the Eastern Pontides (EP), is the active deformation zone and has a "push-up" geometry in conjunction with the North Anatolian Fault high. The EP exhibits high tectonic activity based on geomorphic indices and more than 0.5 mm/yr upliftment along the thrust faults of the Black Sea Fault (BSF) and Borjomi-Kazbegi Fault (BKF) in the active mountain belt…”

Tectonic Geomorphology

“…New faults were also identified based on field observations, Hack profile, and SL-indices in Chitwan dun, central Nepal. OSL dating derived ages of the landforms support distinct climate-tectonic coupling events responsible for landscape evolution in Chitwan dun García-Delgado and Velandia (2020) Structural and geomorphic indices-based study indicates greater tectonic activity and uplift rates for the northern San Lucas Range, in the Northern Andes Transform setting Arrowsmith and Zielke (2009) Field evidences, paleoseismic analysis, and high-resolution LiDAR DEM were used to trace the active Cholame segment of San Andreas Fault (SAF) to understand tectonic geomorphology of SAF Softa et al (2018) Transpressional deformation zone, the Eastern Pontides (EP), is the active deformation zone and has a "push-up" geometry in conjunction with the North Anatolian Fault high. The EP exhibits high tectonic activity based on geomorphic indices and more than 0.5 mm/yr upliftment along the thrust faults of the Black Sea Fault (BSF) and Borjomi-Kazbegi Fault (BKF) in the active mountain belt…”

Tectonic Geomorphology

“…Éste es un sistema de fallas de cabalgamiento regionales con predominante vergencia al Oeste y que pone en contacto rocas del Cretácico superior y Paleógeno con otras de edad Mioceno-Oligoceno (Sarmiento et al, 2015) El límite occidental de la cuenca es la estructura monoclinal de la Cordillera Central constituida por material de basamento que fue levantado, y está marcado por la presencia de la Falla Palestina. La Falla Palestina es una falla regional de rumbo con movimiento dextral, actualmente reportada como inactiva a pesar de su expresión topográfica y algunos rasgos geomorfológicos que podrían indicar lo contrario (Sarmiento et al, 2015;García-Delgado & Velandia, 2020). Asociado a la Falla de Palestina en el frente de deformación de Cordillera Central, se observan unos cabalgamientos NE-SO de alto ángulo, buzando al Oeste, (Gómez et al, 2005,a;Cabello et al, 2018), como se observa en el perfil de la Figura 2-8, a).…”

“…En el sector norte de la cuenca se encuentra la Falla de Cimitarra la cual presenta una dirección NE-SW y un desplazamiento de rumbo dextral, posiblemente asociado a la Falla Palestina. Así mismo, la Falla de Cimitarra es el límite sur de la Serranía de San Lucas con dirección N60°E y buzamiento subvertical con movimiento dextral (Sarmiento et al, 2015;Servicio Geológico Colombiano, 2015;García-Delgado & Velandia, 2020).…”

“…A pesar de que la cuenca del VMM es una de las más prolíficas para la extracción de petróleo y gas en Colombia, la variabilidad de estilos estructurales y su relación con el complejo marco tectónico regional no ha permitido un total entendimiento de su evolución al día de hoy. Múltiples estudios han analizado el complejo proceso compresivo que enmarca el levantamiento de los flancos de la cuenca generando varias hipótesis (Montes et al, 2005;Mora et al, 2013;Velandia & Bermúdez, 2018;García-Delgado & Velandia, 2020;). Una etapa importante de deformación, corresponde a periodo de inversión tectónica, el cual se ha sugerido como predominante durante el Paleoceno (Cooper et al, 1995;Garavito-Cubillos, 2008;Mora et al, 2013;Moreno et al, 2013;Cetina et al, 2019;).…”

The transpressive southern termination of the Bucaramanga fault (Colombia): Insights from geological mapping, stress tensors, and fractal analysis