Geomorphological evidence of the influence of pre-volcanic basement structure on emplacement and deformation of volcanic edifices at the Cofre de Perote-Pico de Orizaba chain and implications for avalanche generation
Por:
Concha-Dimas A., Cerca M., Rodríguez S.R., Watters R.J.
Publicada:
1 ene 2005
Resumen:
Pre-volcanic structure of the basement influences volcanism distribution and avalanche generation in volcanic edifices. Therefore, systematic studies of basement structure below volcanic chains are necessary to understand the deformation effects observed in the surface and vice versa. Based on a compilation of pre-existing data, interpretation of aerial photographs and satellite images, and a collection of structural data we analyzed morphological and structural features of the Cofre de Perote-Pico de Orizaba (CP-PO) volcanic chain and its basement. We have identified three sets of regional lineaments that are related to basement trends. (1) NW 55° SE fractures are parallel to anticline folds observed in Cretaceous rocks that originated during Laramide shortening. These folds present an abrupt morphology observed only in the eastern flank but that is likely to continue below the volcanic chain. (2) NE 55° SW fractures are parallel to normal faults at the basement. We infer that these basement faults confine the CP-PO chain within a stepped graben with a total normal displacement of about 400 m. These faults have been active through time since they have affected volcanic deposits and induced the emplacement of monogenetic vents. Notably, lineaments of monogenetic vents concentrate where the basement is relatively shallow. (3) Another set of faults, oriented N-S, has been observed affecting the scarce basement outcrops at the western flank of the chain covered by lacustrine deposits. Lineaments measured in the volcanic edifice of Pico de Orizaba correlate with the regional trends. In particular, the NE 55° SW alignment of monogenetic vents and fractures at Pico de Orizaba suggest that the same dike trend exists within the volcanic edifice. A normal fault with similar orientation was documented at the NE continuation of an alignment crossing the volcanic edifice along the Jamapa canyon. In the absence of magmatic activity related to collapses, the displacement of NE 55° SW faults represents a potential triggering mechanism for generating avalanches at Pico de Orizaba volcano. Instability is enhanced by the presence of N-S trending fractures crossing the entire volcanic edifice and E-W fractures affecting only the present day cone. We conclude that mechanical instability of the volcanic c
Filiaciones:
Concha-Dimas A.:
Instituto de Geología, UNAM, México D.F. 04510, Mexico
Cerca M.:
Instituto de Geología, UNAM, México D.F. 04510, Mexico
Centro de Geociencias, UNAM Campus Juriquilla, A.P. 1-742, Querétaro 76001, Mexico
Rodríguez S.R.:
Instituto de Geología, UNAM, México D.F. 04510, Mexico
Centro de Ciencias de la Tierra, Universidad Veracruzana, Francisco J. Moreno 207, Xalapa 91090 Veracruz, Mexico
Watters R.J.:
Mackay School of Earth Sciences and Engineering, University of Nevada, Reno, NV 89557-0138, United States
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