Flexural and gravity modelling of the Mérida Andes and Barinas–Apure Basin, Western Venezuela期刊界 All Journals 搜尽天下杂志传播学术成果专业期刊搜索期刊信息化学术搜索

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Flexural and gravity modelling of the Mérida Andes and Barinas–Apure Basin, Western Venezuela

Authors:	Luis Chacín María I Jcome Carlos Izarra

Institution:	Departamento de Ciencias de la Tierra, Edificio de Física y Electrónica II, Universidad Simón Bolívar, Valle de Sartenejas, Baruta, Caracas, Venezuela, CP 89000

Abstract:	The kinematic evolution of the Barinas–Apure Basin and the southern Mérida Andes from Lower Miocene to the Present is numerically modelled using flexural isostatic theory and geophysical and geological data. Two published regional transects are used to build up a reference section, which is then used to constrain important parameters (e.g. shortenings and sedimentary thicknesses) for the flexural modelling. To control the location of the main fault system in the flexural model earthquake information is also used. The estimated flexural elastic thickness of the South American lithosphere beneath the Barinas–Apure Basin and the Mérida Andes Range is 25 km. The value for the final total shortening is 60 km. The flexural isostatic model shows that the Andean uplift has caused the South American lithosphere subsidence and the development of the Barinas–Apure Basin.In addition, gravity modelling was used to understand deep crustal features that could not be predicted by flexural theory. Consequently, the best-fit flexural model is used to build a gravity model across the Mérida Andes and the Barinas–Apure Basin preserving the best-controlled structural features from the flexural modelling (e.g. basin wavelength and depth) and slightly changing the main bodies density values and deep crustal structures. The final gravity model is intended to be representative of the major features affecting the gravity field in the study area. The predicted morphology in the lower crustal level of the final gravity model favours the hypothesis of a present delamination or megathrust of the Maracaibo crust over the South American Shield. This process would use the Conrad discontinuity as a main detachment surface within an incipient NW dipping continental subduction.

Keywords:	Mé rida Andes Barinas– Apure Basin Flexural isostatic modelling Gravity modelling A-type subduction Subsidence
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