Showing results 61 - 70 out of 139
2015
Dielforder A, Vollstaedt H, Vennemann T, Berger A, Herwegh M. Linking megathrust earthquakes to brittle deformation in a fossil accretionary complex. Nature Communications. 2015;2015(6, 7504). doi: 10.1038/ncomms8504
Gerya TV, Stern RJ, Baes M, Sobolev SV, Whattam SA. Plate tectonics on the Earth triggered by plume-induced subduction initiation. NATURE. 2015. doi: 10.1038/nature15752
Gerya TV, Stern RJ, Baes M, Sobolev SV, Whattam S. Plume-induced subduction and crustal growth in Precambrian Earth. In Goldschmidt, 25th Anniversary. Prague, Czech Republic. 2015
Gerya TV, Stern RJ, Baes M, Sobolev SV, Whattam S. Plume-induced subduction initiation: dynamics and significance for modern and early Earth. In EGU 2015. 2015
Gerya TV, Stern RJ, Baes M, Fischer R, Sizova E, Sobolev SV et al. Plume tectonics and cratons formation in the early Earth. In AGU 2015. 2015
Gerya TV, Stern RJ, Fischer R, Sizova E, Baes M, Sobolev SV et al. Plume tectonics and subduction in the early Earth. In GeoBerlin 2015. 2015
Hampel A, Hetzel R, Maniatis G. Comment on "stress and fault parameters affecting fault slip magnitude and activation time during a glacial cycle" by Steffen et al. TECTONICS. 2015;34(6):1348-1353. doi: 10.1002/2014tc003772
Hampel A, Hetzel R. Horizontal surface velocity and strain patterns near thrust and normal faults during the earthquake cycle: The importance of viscoelastic relaxation in the lower crust and implications for interpreting geodetic data. TECTONICS. 2015 Apr 1;34(4):731-752. doi: 10.1002/2014TC003605
Shoorcheh B, Motagh M, Baes M, Bahroudi A. Fault Slip Rate of the Kazerun Fault System (KFS), Iran, Investigated Using Finite Element Modeling. Pure and applied geophysics. 2015. doi: 10.1007/s00024-015-1070-5
Turpeinen H, Maniatis G, Hampel A. Slip on normal faults induced by surface processes after the cessation of regional extension-Insights from three-dimensional numerical modelling. Geomorphology. 2015 May 5;237:79-87. doi: 10.1016/j.geomorph.2013.12.008