Thermal state of the lithosphere in the Danube Basin and its relation to tectonics

  • Dušan MAJCIN Earth Science Institute, Slovak Academy of Sciences
  • Dušan BILČÍK Earth Science Institute, Slovak Academy of Sciences
  • Tomáš KLUČIAR Faculty of Natural Sciences, Comenius University
Keywords: Western Carpathians, Danube Basin, geothermal field, tectonics, thermal modelling

Abstract

The area of the Danube Basin is interesting in the light of the evaluation both of the lithosphere structure and of various theories of Carpathian-Pannonian region tectonic evolution. The aim of this paper is to analyse both the thermal conditions in the Danube Basin and the mutual relations to geological structure and tectonic development of the region under study. First the improved distributions of the terrestrial heat flow density and of the lithosphere thickness were constructed using recently gained geophysical and geological knowledge. Then the critical analysis of existing models of the tectonic development of the region under study was carried out. The tectono-thermal interpretation activities were accomplished by new geothermal modelling approach for transient regime which utilizes also the backstriped sedimentology data as a control parameter of model. Finally the McKenzie’s “pure-shear” model of the Danube basin was constructed as acceptable conception for used geothermal and tectonic data. The determined stretching parameter has an inhomogeneous horizontal distribution and the thinning factors express the depth dependency for separate lithospheric layers.

Author Biographies

Dušan MAJCIN, Earth Science Institute, Slovak Academy of Sciences

Dúbravská cesta 9, Bratislava, Slovakia

Dušan BILČÍK, Earth Science Institute, Slovak Academy of Sciences

Dúbravská cesta 9, Bratislava, Slovakia

Tomáš KLUČIAR, Faculty of Natural Sciences, Comenius University

Mlynská dolina, Ilkovičova 6, 842 15 Bratislava, Slovakia

Published
2015-09-30
How to Cite
MAJCIN, D., BILČÍK, D., & KLUČIAR, T. (2015). Thermal state of the lithosphere in the Danube Basin and its relation to tectonics. Contributions to Geophysics and Geodesy, 45(3), 193-218. https://doi.org/10.1515/congeo-2015-0020
Section
original research papers