Philipp Balling

Wissenschaftlicher Mitarbeiter, (MSc 2014 Universität Potsdam).
Philipp vor Velebit Philipp vor Velebit Foto: Philipp Balling

Forschungsinteressen

Ich erforsche die tektonische Entwicklung der Dinariden und habe eine Schwäche für die dortige Velebit-Brekzie und die Promina-Schichten, welche Ablagerungen eines flexurellen Vorlandbeckens darstellen. Meine Arbeit ist stark geländebasiert und ich arbeite sehr viel mit der Software MOVE an bilanzierten Profilen.

Darüberhinaus interessiere ich mich für das Iranische Plateau und die Apenninen.

Veröffentlichungen

Heubeck, C., Thomsen, T. B., Heredia, B. D., Zeh, A., & Balling, P. (2022). The Malolotsha Klippe: Large‐scale subhorizontal tectonics along the southern margin of the Archean Barberton Greenstone Belt, Eswatini. Tectonics, e2022TC007359. doi:10.1029/2022TC007359Externer Link

Balling, P., Grützner, C., Tomljenović, B., Spakman, W. & Ustaszewski, K. (2021). Post-collisional mantle delamination in the Dinarides implied from staircases of Oligo-Miocene uplifted marine terracesExterner Link. Sci Rep 11, 2685.

Balling, P., Tomljenović, B., Schmid, S.M., Ustaszewski, K. (2021): Contrasting along-strike deformation styles in the central external Dinarides assessed by balanced cross-sections: implications for the tectonic evolution of its Paleogene flexural foreland basin system, Global and Planetary Change, 205, 103587, doi: 10.1016/j.gloplacha.2021.103587Externer Link.

Löwe, G., Schneider, S., Sperner, B., Balling, P., Pfänder, J.A. & Ustaszewski, K. (2021): Torn between two plates: exhumation of the Cer Massif (internal Dinarides) as a far-field effect of Carpathian slab rollback inferred from 40Ar/39Ar dating and cross section balancing. Tectonics, 40, e2021TC006699, doi: 10.1029/2021TC006699Externer Link.

Löwe, G., Schneider, S., Sperner, B., Balling, P., Pfänder, J. A., & Ustaszewski, K. (2021): Supplementary material to: "Torn between two plates: exhumation of the Cer Massif (internal Dinarides) as a far-field effect of Carpathian slab rollback inferred from 40Ar/39Ar dating and cross section balancing", doi: dx.doi.org/10.5281/zenodo.4678734Externer Link.

Zebari, M., Balling, P., Grützner, C., Navabpour, P., Witte, J., & Ustaszewski, K. (2020). Structural style of the NW Zagros Mountains and the role of basement thrusting for its Mountain Front Flexure, Kurdistan Region of IraqExterner Link. Journal of Structural Geology, 104206, doi:10.1016/j.jsg.2020.104206.

Ballato, P., Cifelli, F., Heidarzadeh, G., Ghassemi, M. R., Wickert, A. D., Hassanzadeh, J., Dupont‐Nivet, G., Balling, P., Sudo, M., Zeilinger, G., Schmitt, A. K., Mattei, M., & Strecker, M. R. (2017). Tectono‐sedimentary evolution of the northern Iranian Plateau: insights from middle–late Miocene foreland‐basin depositsExterner Link. Basin Research, 29(4), 417-446.

Balling, P., Maystrenko, Y., & Scheck-Wenderoth, M. (2013). The deep thermal field of the Glueckstadt GrabenExterner Link. Environmental Earth Sciences, 70(8), 3505-3522.