• Wang, H., R. Huismans and S. Rondenay, Water migration in the subduction mantle wedge: a two-phase flow approach, submitted.
  • Mann, M.E., G.A. Abers, K. Crosbie, K. Creager, C. Ulberg, S. Moran and S. Rondenay, Imaging subduction beneath Mount St. Helens: implications for slab dehydration and magma transport, submitted.
  • Halpaap, F., S. Rondenay, A. Perrin, S. Goes, L. Ottemöller, H. Austrheim, R. Shaw and T. Eeken, Earthquakes track subduction fluids from slab source to mantle wedge sink, in revision.
  • Schiffer, C., T. Eken, S. Rondenay and T. Taymaz, Localised crustal deformation along the central North Anatolian Fault Zone revealed by joint inversion of P-receiver functions and P-wave polarisations, Geophys. J. Int., in revision.
  1. Perrin, A., S. Goes, J. Prytulak, S. Rondenay and D. Rhodri Davies, Mantle wedge temperatures and their potential relation to volcanic arc location, EPSL, 501, 67-77, 2018. link and summary
  2. Halpaap, F., S. Rondenay and L. Ottemöller, Seismicity, deformation and metamorphism in the Western Hellenic Subduction Zone – New constraints from tomography, J. Geophys. Res., 123, 3000-3026, 2018. link and summary
  3. Spieker, K, S. Rondenay, R. Ramalho, C. Thomas and G. Helffrich, Constraints on the structure of the crust and lithosphere beneath the Azores Islands from teleseismic receiver functions, Geophys. J. Int, 212,824-835, 2018. link
  4. Beinlich, A., H. Austrheim, V. Mavromatis, B. Grguric, C.V. Rutnis, A. and Putni, Peridotite weathering is the missing ingredient of Earth’s continental crust, Nature Communications, 9, doi: 6 10.1038/s41467-18-03039-9.34, 2018. link
  5. Janots, E., H. Austrheim, C. Spandler, J. Hammerli, C.A. Trepmann, J. Berndt, V. Magnin and A.I.S. Kemp, Rare earth elements and Sm-Nd isotope redistribution in apatite and accessory minerals in retrogressed lower crust material, Chemical Geology, 484, 120-135, 2018. link
  6. Engvik, A.K., H. Taublad, A. Solli, T. Grenne, H. and Austrheim, Dynamic metamorphism: stable isotopes, fluid evolution, and deformation of albitite and sapolite metagabbro, Geofluids, doi: 10.1155/2018/9325809, 2018. link
  7. Centrella, S., A. Putnis, P. Lanari and H. Austrheim, 2018. Textural and chemical evolution of pyroxene during hydration and deformation: a consequence of retrograde metamorphism. Lithos, 296, 245-264, 2018. link
  8. Rondenay, S., K. Spieker, L. Sawade, F. Halpaap and M. Farestveit, GLImER – A new global database of teleseismic receiver functions for imaging Earth structure, Seismol. Res. Lett., 88, 39-48, 2017. link
  9. Boyce A., I.D. Bastow, S. Rondenay and R. van der Hilst, From relative to absolute teleseismic travel-times: the Absolute Arrival-time Recovery Method (AARM), Bull. Seismol. Soc. Am., 107(5), 2511-2520, 2017. link
  10. Porter, J.K and H.O. Austrheim, Sulfide formation from granulite-facies S-rich scapolite breakdown, Terra Nova, 29, 29-35, 2017.
  11. Jamtveit B., H. Austrheim, A. Putnis, Disequilibrium metamorphism of stressed lithosphere, Earth Science Review, 154, 1-13, 2016.
  12. Centrella S., H. Austrheim and A. Putnis, Coupled mass transfer through a fluid phase and volume preservation during the hydration of granulite: An example from the Bergen Arcs, Norway, Lithos, 236, 245-255, 2015.


  1. Sawade, Lucas, Global Common Conversion Point Stacking and its Applications, Masters thesis, University of Bergen, 2018.
  2. Spieker, Kathrin, Imaging of Crust and Mantle using receiver function analysis, PhD thesis, University of Bergen, 2018.
  3. Veim, Maren Kjos, The Cascadia subduction zone: Kinky or not? An implementation of a 2D background velocity model in teleseismic scattered-wave inversion, Masters thesis, University of Bergen, 2017.
  4. Tse, K.M.D., Linking earthquakes and serpentinization of the oceanic lithosphere, Masters thesis, University of Oslo, 2014.

Subduction zone Water and Metamorphism: a Modelling and Imaging Study