PUBLICACIÓN

ARTÍCULO

Active sinking at the bottom of the Rincon de Parangueo Maar (Guanajuato, Mexico) and its probable relation with subsidence faults at Salamanca and Celaya

Aranda-Gomez Jose Jorge, Levresse, Gilles, Pacheco-Martinez Jesus, Ramos-Leal, Jsose Alfredo, Carrasco-Nunez Gerardo, Chacon-Baca, Elizabeth, Gonzalez-Naranjo Gildardo, Chavez-Cabello Gabriel, Vega-Gonzalez Marina, Origel Gabriel, Noyola-Medrano Cristina
Boletin de la Sociedad Geologica Mexicana, 65(1), 169-188., 2013.

ABSTRACT:

Rincon de Parangueo is a Quaternary maar that had a perennial lake until the 1980s. The lake was gradually desiccated as a consequence of drawdown in the Salamanca-Valle de Santiago regional aquifer and now functions as a playa-lake. In contrast with the features observed in other crater-lakes in the region (La Alberca, Cíntora, and San Nicolás), which also dried up at the same time, the bottom of the Rincón crater displays clear evidence of active deformation associated with mass movement of lake sediments towards the depocenter inside the crater. The most conspicuous topographic feature is a 10 – 12 m high scarp parallel to the former lake coast. The scarp is produced by an annular shaped normal fault system, down towards the depocenter. Evidence of active mass movement is observed along the topographic scarp. Rotational slides associated with rollover anticlines and local grabens produced by antithetic faults are common on the eastern and northern parts of the scarp. Planar slides with open folds at their base occur at western part of the lake basin. Evaporites (trona, thermonatrite, eitelite, halite, and silvite) are abundant in the playa-lake sediments. Their presence makes us believe that a mass removal process is acting as a consequence of salt dissolution and infiltration of the brine towards the aquifer. This process, probably in conjunction with lake sediment compaction and/or diatreme subsidence, may explain the significantly higher fault displacement rate observed inside the crater ( ≈ 50 cm/year ) in comparison with active faults elsewhere in the Salamanca-Valle de Santiago aquifer ( ≈ 6 cm/year ).