21.15109/ARP/OWOMYL Békési, Eszter0000-0003-3561-1656(Institute of Earth Physics and Space Science)Van Wees, Jan Diederik(Department of Earth Sciences, Utrecht University)Porkoláb, Kristóf0000-0001-7470-8296(Institute of Earth Physics and Space Science)Berkesi, Márta0000-0001-7470-8296(Institute of Earth Physics and Space Science)Hencz, Mátyás0000-0001-9716-5714(Institute of Earth Physics and Space Science) ARP 2025 hdl:21.15109/ARP/OWOMYL/6GKHJXhdl:21.15109/ARP/OWOMYL/7FZRMGhdl:21.15109/ARP/OWOMYL/RNFQ23hdl:21.15109/ARP/OWOMYL/F962D7hdl:21.15109/ARP/OWOMYL/FXSE8Mhdl:21.15109/ARP/OWOMYL/6IWLHGhdl:21.15109/ARP/OWOMYL/E56TBPhdl:21.15109/ARP/OWOMYL/AACIA2hdl:21.15109/ARP/OWOMYL/L9HMIIhdl:21.15109/ARP/OWOMYL/ZZSNMAhdl:21.15109/ARP/OWOMYL/HHEYKD 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., 2025. Hencz, Mátyás(Institute of Earth Physics and Space Science)