Also on Google Scholar.
Carchedi C.J.W., J.B. Gaherty, J.S. Byrnes, S. Rondenay, M.S. Steckler, R. Ajala, P. Persaud, E.A. Sandvol, Md.S. Alim, S. Singha and S.H. Akhter, Evolving Sediment Structure and Lithospheric Architecture Across the Indo-Burman Forearc Margin From the Joint Inversion of Surface- and Scattered-Wave Seismic Constraints, JGR, 130, e2024JB030050, 2025. [link]
Halpaap F., L. Ottemöller, H.A. Shiddiqi and S. Rondenay, Lifecycle of an isolated seismic swarm in continental southern Norway from nucleation, acceleration, and yielding to the demise of fault slip, SRL, 96, 1631-1644, 2025. [link]
Luo Y., M.D. Long, S. Rondenay, S.D. King, S.E. Mazza and J. Wolf, Mantle transition zone‐penetrating upwellings beneath the eastern North American margin and beyond, JGR, 130, e2024JB030005, 2025. [link]
Marck A., L. Ottemöller, S. Rondenay and H. Fossen, Intraplate seismicity in southwestern Norway: enhanced catalogue highlights diffusive earthquake occurrence linked to inherited weakness zones, GJI, 240, 2006-2022, 2025. [link]
Rossetti F., M. G. Fellin, P. Ballato, C. Faccenna, M. L. Balestrieri, B. Muceku, S. Rondenay, F. E. Maesano, S. Crosetto, C. Durmischi, C. Bazzucchi and C. Maden, Building the Albanides by Deep Underplating, Tectonics, 43, e2024TC008506, 2024. [link]
Schiffer C., S. Rondenay, Z.H. Shomali, Seismic probing of buried ancient terrane boundaries-insight into Fennoscandia’s Palaeoproterozoic continental formation, Precambrian Research, 405, 107376, 2024. [link]
Luo Y., M.D. Long, P. Karabinos, S. Rondenay and R. Masis Arce, First‐order transition in Appalachian orogenic processes revealed by along‐strike variation of the Moho geometry, JGR, 128, e2023JB027024, 2023. [link]
Millet, F., S. Rondenay, T. Bodin and C. Tape, Seismic imaging of the westward transition from Yakutat to Pacific subduction in southern Alaska, G-Cubed, 24, e2022GC010374, 2023. [link]
Shiddiqi, H.A., L. Ottemöller, S. Rondenay, S. Custódio et al., Seismicity modulation due to hydrological loading in a stable continental region: a case study from the Jektvik swarm sequence in Northern Norway, GJI, 235, 231–246, 2023. [link]
Bai Y., J. Yao, S. Wu, S. Wei, Y. Wang, S. Rondenay, Y. He, Y. Ai, P. Tong, and M. Jiang, Rapid along-strike variations of shallow crustal structure in response to Indo-Burma subduction: Constraints from multi-type passive seismic data, EPSL, 610, doi:10.1016/j.epsl.2023.118105, 2023. [link]
Schiffer, C., S. Rondenay, L. Ottemöller and A. Drottning, The Moho Architecture and Its Role for Isostasy—Insights From the Lofoten-Vesterålen Rifted Margin, Norway, JGR, e2022JB025983, 2023. [link]
Shiddiqi, H.A., L. Ottemöller, S. Rondenay, S. Custódio, F. Halpaap, and V.K. Gahalaut, Comparison of Earthquake Clusters in a Stable Continental Region: A Case Study from Nordland, Northern Norway, Seismological Research Letters, doi: 10.1785/ 0220220325, 2023. [link]
Shiddiqi, H.A., L. Ottemöller, S. Rondenay, F. Halpaap, S. Gradmann and J. Michálek, Crustal structure and intraplate seismicity in Nordland, Northern Norway: insight from seismic tomography, GJI, 230, 813-830, 2022. [link]
Luo, Y., M.D. Long, S. Rondenay, P. Karabinos and Y.D. Kuiper, Wavefield migration imaging of Moho geometry and upper mantle structure beneath southern New England, GRL, 49, e2022GL099013, 2022. [link]
Schiffer, C., A. Peace, S. Jess and S. Rondenay, The crustal structure in the Northwest Atlantic region from receiver function inversion – Implications for basin dynamics and magmatism, Tectonophysics, 825, 229235, 2022. [link]
Halpaap, F., S. Rondenay, Q. Liu, F. Millet and L. Ottemöller, Toward waveform-based characterization of slab and mantle wedge (SAM) earthquakes, JGR, 126, e2020JB021573, 2021. [link]
Luo, Y., M.D. Long, P. Karabinos, Y.D. Kuiper, S. Rondenay, J.C. Aragon, L. Sawade and P. Makus, High-Resolution Ps Receiver Function Imaging of the Crust and Mantle Lithosphere Beneath Southern New England and Tectonic Implications, JGR, 126, e2021JB022170, 2021. [link]
Karlowska, E., I.D. Bastow, S. Rondenay, R. Martin-Short, R.M. Allen, The Development of Seismic Anisotropy Below South-Central Alaska: Evidence from Local Earthquake Shear-Wave Splitting, GJI, 225, 548-554, 2020. [link]
Boyce, A., I.D. Bastow, E.M. Golos, S. Rondenay, S. Burdick and R.D. van der Hilst, Variable modification of continental lithosphere during the Proterozoic Grenville orogeny: Evidence from teleseismic P-wave tomography, EPSL, 525, 2019. [link]
Ogden, C.S., I.D. Bastow, A. Gilligan and S. Rondenay, A Reappraisal of the H-κ stacking technique: Implications for global crustal structure, GJI, 219, 1491-1513, 2019. [link]
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, Science Advances, 5, eaav7369, 2019. [link]
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, GJI, 217, 682-702, 2019. [link]
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, GRL, 46, 3163-3171, 2019. [link]
Wang, H., R. Huismans and S. Rondenay, Water migration in the subduction mantle wedge: a two-phase flow approach, JGR, 124, 9208-9225, 2019. [link]
Millet, F., T. Bodin and S. Rondenay, Multi-mode 3D Kirchhoff migration of receiver functions at continental scale, JGR, 124, 8953-8980, 2019. [link]
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]
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]
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].
Boyce A., I.D. Bastow, S. Rondenay and R. van der Hilst, From relative to absolute arrival-times, Bull. Seismol. Soc. Am., 107(5), 2511-2520, 2017. [link]
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]
Hopper, E., K.M. Fischer, S. Rondenay, R.B. Hawman and L.S. Wagner, Imaging crustal structure beneath the southern Appalachians with wavefield migration, Geophys. Res. Lett., 43, 12054-12062, 2016. [link]
McGary, R.S., R.L. Evans, P.E. Wannamaker, J. Elsenbeck and S. Rondenay, Pathway from subducting slab to surface for melt and fluids beneath Mount Rainier, Nature, 511, 338-340, 2014. [link]
Kim Y., G.A. Abers, J. Li, D. Christensen, J. Calkins, and S. Rondenay, Alaska Megathrust 2: Imaging the megathrust zone and Yakutat/Pacific plate interface in the Alaska subduction zone, J. Geophys. Res., 119, 1924-1941, 2014. [link]
Seher, T., S. Rondenay, and H. Djikpesse, Tube wave to shear wave conversion at borehole plugs, Geophysical Prospecting, in press, 2014. [pdf]
Olive, J.-A., F. Pearce, S. Rondenay, and M.D. Behn, Pronounced zonation of seismic anisotropy in the Western Hellenic subduction zone and its geodynamic significance, Earth Planet. Sc. Lett, 391, 100-109, 2014. [pdf]
Unsworth, M., and S. Rondenay, Mapping the distribution of fluids in the crust and lithospheric mantle utilizing geophysical methods, solicited chapter in “Metasomatism and the Chemical Transformation of Rock: The role of fluids in terrestrial and extraterrestrial processes”, edited by D. Harlov and H. Austrheim, 535-598, Lecture Notes in Earth System Sciences, Springer, 2013. [pdf]
Pearce, F.D., S. Rondenay, M. Sachpazi, M. Charalampakis, and L.H. Royden, Seismic investigation of the transition from continental to oceanic subduction along the western Hellenic Subduction Zone, J. Geophys. Res., 117, B07306, doi:10.1029/2011JB009023, 2012. [link]
Poliannikov, O.V., S. Rondenay, and L. Chen, Interferometric imaging of the underside of a subduction crust, Geophys. J. Int., 189, 681-690, 2012. [pdf]
Perozzi, L, E. Gloaguen, S. Rondenay, A. Leite, G. McDowell and R. Wheeler, Using Stochastic Crosshole Seismic Velocity Tomography and Bayesian Simulation to Estimate Ni Grades: Case Study from Voysey~Rs Bay, Canada, J. App. Geophys., 78, 85-93, 2012. [pdf]
Klemd, R., T. John, E.E. Scherer, S. Rondenay, and J. Gao, Changes in dip of subducted slabs at depths: petrological and geochronological evidence from HP-UHP rocks (Tianshan, NW-China), Earth Planet. Sc. Lett., 310, 9-20, 2011. [pdf]
Calkins, J.A., G.A. Abers, G. Ekström, K.C. Creager, and S. Rondenay, Shallow structure of the Cascadia subduction zone beneath western Washington from spectral ambient noise correlation, J. Geophys. Res., 116, B07302, doi:10.1029/2010JB007657, 2011. [pdf]
MacKenzie, L., G.A. Abers, S. Rondenay, and K.M. Fischer, Imaging a steeply dipping subducting slab in southern Central America, Earth Planet. Sc. Lett, 296, 459-468, 2010. [link]
Rondenay, S., L.G.J. Montési, and G.A. Abers, New geophysical insight into the origin of the Denali volcanic gap, Geophys. J. Int., 182, 613-630, 2010. [pdf][supplement]
Chen, C.-W., D.E. Miller, H.A. Djikpesse, J.B.U. Haldorsen, and S. Rondenay, Array-conditioned deconvolution of multiple component teleseismic recording, Geophys. J. Int., 182, 967-976, 2010. [pdf]
Rondenay, S., V.F. Cormier, and E.M. Van Ark, SKS and SPdKS sensitivity to two-dimensional ultra-low velocity zones, J. Geophys. Res., 115, B04311, doi:10.1029/2009JB006733, 2010. [pdf][supplement]
Chen, C.-W., S. Rondenay, R.L. Evans, and D.B. Snyder, Geophysical detection of relict metasomatism from an Archean (ca 3.5 Ga) subduction zone, Science, 326, 1089-1091, 2009. [pdf][supplement]
Bleibinhaus, F., and S. Rondenay, Effects of Surface Scattering in Full-Waveform Inversion, Geophysics, 74 (6), WCC69-WCC77, 2009. [pdf]
Abers, G.A., L.S. MacKenzie, S. Rondenay, Z. Zhang, A.G. Wech, and K.C. Creager, Imaging the source region of Cascadia tremor and intermediate-depth earthquakes, Geology, 37, 1119-1122, 2009. [pdf]
Rondenay, S., Upper mantle imaging with array recordings of converted and scattered teleseismic waves, Surv. Geophys., 30, 377-405, 2009. [link]
Suckale, J., S. Rondenay, M. Sachpazi, M. Charalampakis, A. Hosa, and L.H. Royden, High-resolution seismic imaging of the western Hellenic subduction zone using teleseismic scattered waves, Geophys. J. Int, 178, 775-791, 2009. [pdf]
Rondenay, S., G.A. Abers, and P.E. van Keken, Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278, 2008. [pdf][supplement]
Xu, L., S. Rondenay, and R.D. van der Hilst, Structure of the crust beneath the Southeastern Tibetan Plateau from teleseismic receiver functions, Phys. Earth Planet. Int., 165, 176-193, 2007. [pdf]
Frederiksen, A.W., S.-K. Miong, F.A. Darbyshire, D.W. Eaton, S. Rondenay, and S. Sol, Lithospheric Variations Across the Superior Province, Ontario, Canada: Evidence from Tomography and Shear-Wave Splitting, J. Geophys. Res, 112 (B7),B07318, doi:10.1029/2006JB004861, 2007. [pdf]
Rychert, C.A., S. Rondenay, and K.M. Fischer, P-to-S and S-to-P imaging of a sharp lithosphere-asthenosphere boundary beneath eastern North America, J. Geophys. Res, 112 (B8), B08314, doi:10.1029/2006JB004619, 2007. [pdf]
Chen, C.-W., S. Rondenay, D. Weeraratne, and D.B. Snyder, New constraints on the upper mantle structure of the Slave craton from Rayleigh wave inversion, Geophys. Res. Lett., 34, L10301, doi:10.1029/2007GL029535, 2007. [link]
Fouch, M.J., and S. Rondenay, Seismic anisotropy beneath stable continental interiors, Phys. Earth Planet. Int., 158, 292-320, 2006. [pdf]
Rossi, G., G.A. Abers, S. Rondenay, and D.H. Christensen, Unusual mantle Poisson~Rs ratio, subduction and crustal structure in central Alaska, J. Geophys. Res, 111, B09311, doi:10.1029/2005JB003956, 2006. [pdf]
Rondenay, S., Bostock, M.G., and Fischer K.M., Multichannel inversion of scattered teleseismic body waves: practical considerations and applicability, in Seismic Earth: Array analysis of broadband seismograms, edited by A. Levander and G. Nolet, AGU Geophysical Monograph Series, 157, 2005. [pdf]
Rychert, C.A., K.M. Fischer, and S. Rondenay, A sharp lithosphere asthenosphere boundary imaged beneath eastern North America, Nature, 436, 542-545, 2005. [pdf]
Snyder, D.B., S. Rondenay, M.G. Bostock and G.D. Lockhart, Mapping the Mantle Lithosphere for Diamond Potential, Lithos, 77, 859-872, 2004. [pdf]
Rondenay, S., and Fischer K.M., Constraints on localized CMB structure from multichannel, broadband SKS-coda analysis, J. Geophys. Res., 108 (B11), 2537, 2003. [pdf]
Bostock, M. G., R. D. Hyndman, S. Rondenay, and S. M. Peacock, An inverted continental Moho and serpentinization of the forearc mantle, Nature, 417, 536-538, 2002. [pdf]
Bostock, M. G., S. Rondenay, and J. Shragge, Multiparameter two-dimensional inversion of scattered teleseismic body waves, 1, Theory for oblique incidence, J. Geophys. Res., 106, 30,771-30,782, 2001. [pdf]
Shragge, J., M. G. Bostock, and S. Rondenay, Multiparameter two-dimensional inversion of scattered teleseismic body waves, 2, Numerical examples, J. Geophys. Res., 106, 30,783-30,794, 2001. [pdf]
Rondenay, S., M. G. Bostock, and J. Shragge, Multiparameter two-dimensional inversion of scattered teleseismic body waves, 3, Application to the Cascadia 1993 data set, J. Geophys. Res., 106, 30,795-30,808, 2001. [pdf]
Rondenay, S., M. G. Bostock, T. M. Hearn, D. J. White and R. M. Ellis, Lithospheric assembly and modification of the SE Canadian Shield: Abitibi-Grenville Teleseismic Experiment, J. Geophys. Res., 105, 13,735-13,754, 2000. [pdf]
Rondenay, S., M. G. Bostock, T. M. Hearn, D. J. White, H. Wu, G. Sénéchal, S. Ji, M. Mareschal, Teleseismic studies of the lithosphere below the Lithoprobe Abitibi-Grenville Transect, Can. J. Earth Sci., 37, 415-426, 2000. [pdf]
Bostock, M. G. and S. Rondenay, Migration of scattered teleseismic body waves, Geophys. J. Int., 137, 732-746, 1999. [pdf]
Crumeyrolle, P., P. Imbert, O. Plisson and S. Rondenay, Le Cône sous-marin actuel du Rhône; un modèle architectural pour l~Rexploration des réservoirs profonds (Modern Rhone submarine fan; an architectural model for deep reservoir exploration), Pétrole et Techniques, 407, 21-22, 1997.
Sénéchal, G., S. Rondenay, M. Mareschal, J. Guilbert and G. Poupinet, Seismic and electrical anisotropies in the lithosphere across the Grenville Front, Canada, Geophys. Res. Lett., 23, 2255-2258, 1996. [pdf]
Ji, S., S. Rondenay, M. Mareschal and G. Sénéchal, Obliquity between seismic and electrical anisotropies as a potential indicator of movement sense for ductile shear zones in the upper mantle, Geology, 24, 1033-1036, 1996. [pdf]
Boerner, D. E., R. D. Kurtz, J. A. Craven, S. Rondenay and W. Quian, Buried Proterozoic foredeep under Western Canada Sedimentary Basin?, Geology, 23, 297-300, 1995. [link]