Rossi, Francesco PaoloSchito, AndreaManzi, VinicioRoveri, MarcoCorrado, SvevaLugli, StefanoReghizzi, Matteo2022-02-162022-02-162021-07Rossi, F P, Schito, A, Manzi, V, Roveri, M, Corrado, S, Lugli, S & Reghizzi, M 2021, 'Paleo‐thermal constraints on the origin of native diagenetic sulfur in the Messinian evaporites : The Northern Apennines foreland basin case study (Italy)', Basin Research, vol. 33, no. 4, pp. 2500-2516. https://doi.org/10.1111/bre.125660950-091XJisc: f6f7c70eaa9e4dd294b6834779661e5epublisher-id: bre12566Jisc: 401fd404c6ff425a89ec4251ae2beedchttps://hdl.handle.net/2164/18077This work has benefited from the equipment and frame-work of the COMP- HUB Initiative (University of Parma), funded by the Department of Excellence programme of the Italian Ministry for Education, University and Research (MIUR, 2018- 2022). This work has benefited from University of Roma Tre MIUR funds for the Department of Excellence. This work has benefited from the University of Parma FIL2016- 2018 responsible Professor Marco Roveri, University of Parma FIL2016- 2018 responsible Professor Vinicio Manzi, MIUR PhD scholarship 2016- 2019. Platte River Associates, Inc is kindly acknowledged for providing BasinMod2D® software for research purposes. Massimo Rossi (ENI S.p.A., Milano, Italy) is kindly acknowledged for his review of the manuscript172300503engBacterial Sulfate Reductiongypsum‐anhydrite transitionMessinian salinity crisissedimentary sulfurthermal modellingvitrinite reflectanceWEDGE-TOP BASINCARBONATESanhydrite transitionDEPOSITIONgypsum&#8208EVOLUTIONCLASTIC EVAPORITESSEDIMENTARYSALINITY CRISISSE SPAINHEAT-FLOWCARPATHIAN FOREDEEPQE GeologyOtherMIURSupplementary InformationQEJournal article10.1111/bre.12566334