Lithosphere temperature models for NW Hungary
Description
The dataset contains lithospheric scale thermal models for the Hungarian part the NW Pannonian basin. Models provide past and present-day temperature predictions, considering the transient thermal effects of lithosphere extension and sedimentation associated with the formation of the Pannonian Basin. Models were built in the Hungarian coordinate system (HD72 / EOV) with a horizontal resolution of ~ 3 km and a vertical resolution of 200 m for the uppermost 5 km and 2.5 km down to 135 km depth. For more detailed description of the methodology and results, we refer to Békési et al., under review. References: Békési, E., van Wees, J.-D., Porkoláb, K., Hencz, M., and Berkesi, M.: Modelling transient thermal processes in the lithosphere: application to the NW Pannonian basin, EGUsphere [preprint], https://doi.org/10.5194/egusphere-2024-308, 2024. Dövényi, P., and Horváth, F., 1988, A Review of Temperature, Thermal Conductivity, and Heat Flow Data for the Pannonian Basin: Chapter 16. doi:https://doi.org/10.1306/M45474C16 Dövényi, P., Horváth, F., Liebe, P., Gálfi, J., and Erki, I., 1983, Geothermal conditions of Hungary: Geophys. Transactions, v. 29/1, p. 3–114. Hantschel, T., and Kauerauf, A. I., 2009, Fundamentals of basin and petroleum systems modeling, Springer Science & Business Media. Limberger, J., van Wees, J.-D., Tesauro, M., Smit, J., Bonté, D., Békési, E., Pluymaekers, M., Struijk, M., Vrijlandt, M., Beekman, F., and Cloetingh, S., 2018, Refining the thermal structure of the European lithosphere by inversion of subsurface temperature data: Global and Planetary Change, v. 171, p. 18-47. doi:https://doi.org/10.1016/j.gloplacha.2018.07.009 OGRe, 2020, Geothermals Information System, MBFSZ, https://map.mbfsz.gov.hu/ogre/.
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Steps to reproduce
The detailed description of the modelling workflow, as well as input parameters and datasets are described in Békési et al. (2024).