- E-postRolf.Mjelde@uib.no
- Telefon+47 55 58 28 79
- BesøksadresseAllégaten 41Realfagbygget5007 BergenRom2G16a - 2134A
- PostadressePostboks 78035020 Bergen
Marin Geofysikk. Hovedsaklig havbunnseismikk på jordkskorpeskala i områdene: midt-Norge, Barentshavet, Jan Mayen, sprederygger i Nord Atlanteren. Ansvarlig for innsamling og modellering av data. Hovedformålet med forskningen er å forstå utviklingen av Nord Atlanteren og samspillet mellom platetektonikk og islandvarmflekken.
Populærvitenskapelig bok: Jordkloden lever (Tapir forlag, 2002).
Foreleser halvparten av GEOV113: Innsamling og prosessering av seismiske data, samt halvparten av GEO210: Platetektonikk.
Masterprosjekter: Prosessering og tolkning av multikanals, seismiske data. Modellering av havbunnsseismiske data på jordskorpeskala.
Har vært hovedveileder for 40+ masterstudenter og 10 PhD studenter.
- (2017). Crustal structure and evolution of the Arctic Caledonides: Results fromcontrolled-source seismology. Tectonophysics. 9-24.
- (2016). Relative seismic receiver coupling estimation: a method using a probabilistic approach. Marine Geophysical Research. 1-12.
- (2016). Crustal composition of the Møre Margin and compilation of a conjugate Atlantic margin transect. Tectonophysics. 144-157.
- (2015). Vp/Vs-ratios and anisotropy on the northern Jan Mayen Ridge, North Atlantic, determined from ocean bottom seismic data. Polar Science. 293-310.
- (2011). The extension of the Vøring margin (NE Atlantic) in case of different degrees of magmatic underplating. Basin Research. 83-100.
- (2010). Preliminary Analysis of the 21 February 2008 Svalbard (Norway) Seismic Sequence. Seismological Research Letters. 63-75.
- (2010). Global pulsations of intraplate magmatism through the Cenozoic. Lithosphere. 361-376.
- (2010). Crustal structure of the ultra-slow spreading Knipovich Ridge, North Atlantic, along a presumed ridge segment center. Marine Geophysical Research. 173-195.
- (2009). Variation of Icelandic and Hawaiian magmatism: evidence for co-pulsation of mantle plumes? Marine Geophysical Research. 61-72.
- (2009). Structure and evolution of the Bellsund Graben between Forlandsundet and Bellsund (Spitsbergen) based on marine seismic data. Norsk Geologisk Tidsskrift. 215-228.
- (2009). Structural segmentation between Forlandsundet and Van Mijenfjorden (Spitsbergen) based on marine seismic data. Norsk Geologisk Tidsskrift. 215-228.
- (2009). Burial of the Mohn-Knipovich seafloor spreading ridge by the Bear Island Fan: Time constraints on tectonic evolution from seismic stratigraphy. Tectonics. 14 sider.
- (2008). Structure and evolution of the continental margin off Norway and the Barents Sea. Episodes. 82-91.
- (2008). Structure and evolution of the continental margin off Norway and Barents Sea. Episodes.
- (2008). Semiperiodic chirp sequences reduce autocorrelation side lobes of pulsed signals. Geophysics. Q19-Q27.
- (2008). Seismic crustal structure along the deep transect Horsted`05, Sval-bard. Polish Polar Research. 279-290.
- (2008). Neogene magmatism northeast of the Aegir and Kolbeinsey ridges, NE Atlantic: Spreading ridge-mantle plume interaction? Geochemistry Geophysics Geosystems. 15 sider.
- (2008). Magmatic and tectonic evolution of the North Atlantic. Journal of the Geological Society. 31-42.
- (2008). East Greenland Ridge in the North Atlantic Ocean: An integrated geophysical study of a continental silver in a boundary transform fault setting. Journal of Geophysical Research (JGR): Solid Earth. 33 sider.
- (2008). Crustal transect across the North Atlantic. Marine Geophysical Research. 73-87.
- (2008). Crustal structure of the ultra-slow spreading Knipovich Ridge, North Atlantic, along a presumed amagmatic portion of oceanic crustal formation. Marine Geophysical Research. 109-134.
- (2008). A seismic field test with a low-level acoustic combustion source and pseudo-noise codes. Journal of Applied Geophysics.
- (2007). The transition from the continent to the ocean: a deeper view on the Norwegian margin. Journal of the Geological Society. 855-868.
- (2007). Marine seismics with a pulsed combustion source and Pseudo Noise codes. Marine Geophysical Research. 109-117.
- (2007). Gravity and S-wave modelling across the Jan Mayen Ridge, North Atlantic; implications for crustal lithology. Marine Geophysical Research. 27-41.
- (2006). Rates of continental breakup magmatism and seafloor spreading in the Norway Basin-Iceland plume interaction. Journal of Geophysical Research (JGR).
- (2006). Crustal structure and evolution of the southern Vøring basin and Vøring transform margin, NE Atlantic. Tectonophysics. 167-202.
- (2006). Asymmetric plume-ridge interaction around Iceland: The Kolbeinsey Ridge Iceland Seismic Experiment. Geochemistry Geophysics Geosystems. 26 sider.
- (2005). Caledonide development offshore-onshore Svalbard based on ocean bottom seismometer, conventional seismic, and potential field data. Tectonophysics. 79-117.
- (1998). Structure of the Jan Mayen microcontinent and implications for its evolution. Geophysical Journal International. 383-400.
- (1998). Structure of a Volcanic Continental Margin derived from ocean bottom seismographic data: the Northern Vøring margin, off Norway. Pure and Applied Geophysics (PAGEOPH). 1-21.
- (1998). Precise positioning of Ocean Bottom Seismometer by Using Acoustic Transponder and CTD. Marine Geophysical Research. 199-209.
- (1998). Evolution of oceanic crust on the Kolbeinsey Ridge, north of Iceland, over the past 22 myr. Terra Nova. 27-31.
- (1998). Crustal structure of the northern part of the Vøring Basin, mid-Norway margin, from wide-angle seismic and gravity data. Tectonophysics. 175-205.
- (1998). A regional shear-wave velocity model in the central Vøring Basin, N. Norway, using three-component Ocean Bottom Seismographs. Tectonophysics. 157-174.
- (1997). The continent/ocean transition of the Lofoten volcanic margin, N Norway. Journal of Geodynamics. 189-206.
- (1997). Crustal structure of the central part of the Vøring Basin, mid-Norway margin, from ocean bottom seismographs. Tectonophysics. 235-257.
- (1997). Crustal structure of the central part of the Voring Basin, midNorway margin, from ocean bottom seismographs. Tectonophysics. 235-257.
- (1997). Crustal structure of the Kolbeinsey Ridge, North Atlantic, obtained by use of ocean bottom seismographs. Journal of Geophysical Research (JGR). 3131-3151.
- (1997). Crustal structure of the Kolbeinsey Ridge, N. Atlantic, obtained by use of Ocean Bottom Seismographs. Journal of Geophysical Research (JGR). 3131-3151.
- (1997). Comparison between a regional and semi-regional crustal OBS model in the Voring Basin, mid-Norway margin. Pure and Applied Geophysics (PAGEOPH). 641-665.
- (1997). Comparison between a regional and a semi-regional crustal strcture OBS-model in the Voring basin, Mid-Norway Margin. Pure and Applied Geophysics (PAGEOPH). 641-665.
- (1997). Application of the single-bubble airgun technique for OBS-data acquisition across the Jan Mayen Ridge, North Atlantic. Marine Geophysical Research. 94-96.
- (1997). Application of the single bubble-air gun technique for OBS-data acquisition across the Jan Mayrn Ridge, North Atlantic. Marine Geophysical Research. 81-96.
- (1996). The continent/ocean transition of the Lofoten volcanic margin, N. Norway. Journal of Geodynamics. 189-206.
- (1996). S-wave structure of the Lofoten Margin, N. Norway, from the wide angle seismic data: A review. Norsk Geologisk Tidsskrift. 231-243.
- (1996). Modelling shear waves in OBS data from the Vøring Basin (Northern Norway) by 2-D ray-tracing. Pure and Applied Geophysics (PAGEOPH). 611-629.
- (1996). Modelling of S-waves from an area covered with flood-basalt off Lofoten, N. Norway. Geophysical Transactions. 95-117.
- (1996). Crustal transect across the Lofoten volcanic passive continental margin, N. Norway, obtained by use of ocean bottom seismographs, and implications for its evolution. Journal of physics of the earth. 729-745.
- (1996). Crustal structure of Lofoten, N. Norway, from normal incidence and wide-angle seismic data: A review. Norsk Geologisk Tidsskrift. 187-198.
- (1996). An extensive ocean bottom survey in the Vøring basin, N. Norway. First Break. 247-256.
- (1995). S-wave anisotropy off Lofoten, Norway, indicative of fluids in the lower continental crust? Geophysical Journal International. 87-96.
- (1993). Seismic anisotropy inferred from wide-angle reflections off Lofoten, Norway, indicative of shear-aligned minerals in the upper mantle. Tectonophysics. 21-32.
- (1993). Seismic anisotropy inferred from wide-angle reflections off Lofoten, Norway, indicative of shear-aligned minerals in the upper mantle. Tectonophysics. 21-32.
- (1993). Possible shallow crustal shearwave anisotropy off Lofoten, inferred from three-component Ocean Bottom Seismographs. Geophysical Journal International. 159-167.
- (1993). Possible shallow crustal shear-wave anisotropy off Lofoten inferred from three-component Ocean Bottom Seismographs. Geophysical Journal International. 159-167.
- (1993). Ocean Bottom Seismographs used in crustal mapping in an area covered with early Eocene flood-basalt off Lofoten, N. Norway. Terra Nova. 76-84.
- (1993). Ocean Bottom Seismographs used in crustal mapping in an area covered with early Eocene flood-basalt off Lofoten, N. Norway. Terra Nova. 76-84.
- (1993). Crustal structure under Lofoten, N. Norway, from vertical incidence and wide-angle seismic data. Geophysical Journal International. 116-126.
- (1993). Crustal structure under Lofoten, N. Norway from vertical incidence and wide-angle data. Geophysical Journal International. 116-126.
- (1993). A short note on further studies of tube waves. Journal of Seismic Exploration.
- (1993). A short note on further studies of tube waves. Journal of Seismic Exploration. 275-286.
- (1992). Shear-waves from 3-Component Ocean Bottom Seismographs off Lofoten, Norway indicative of anisotropy in the lower crust. Geophysical Journal International. 283-296.
- (1992). Reflection and polarization of tube-waves as seen in VSP data. Geophysical Prospecting. 605-617.
- (1992). Ocean Bottom Seismographs used in crustal mapping in an area covered with early Eocene flood-basalt off Lofoten, N. Norway. Terra Nova.
- (1992). A crustal study off Lofoten, N. Norway by use of 3-C ocean bottom seismographs. Tectonophysics. 269-288.
- (2017). Origin of the Vøring Plateau, offshore Norway – interplay between timing of rifting and emplacement of plume material.
- (2016). Lower crustal high-velocity bodies along North Atlantic passive margins, and their link to Caledonian suture zone eclogites and Early Cenozoic magmatism.
- (2016). Barents Sea Paleozoic basement and basin configurations: Crustal structure from deep seismic and potential field data.
- (2016). Barents Sea Crustal and Upper Mantle Structure from Deep Seismic and Potential Field Data.
- (2016). Barents Sea Crustal and Upper Mantle Structure from Deep Seismic and Potential Field Data.
- (2015). Eastern Barents Sea: crustal structure of the craton-shelf transition.
- (2015). Constraining formation of the Eggvin Bank (West of Jan Mayen, N. Atlantic) from OBS data.
- (2015). Complexities in rift initiation and development within the Iceland Plateau, North-Atlantic.
- (2014). Structure and degree of magmatism of North and South Atlantic rifted margins.
- (2014). Crustal structure in the southeastern part of the Norwegian Barents Sea, from wide-angle data.
- (2014). Crustal structure in the Eastern Barents Sea from a new wide-angle seismic profile.
- (2014). Azimuth-depending multi-component receiver coupling to the seafloor.
- (2013). Nature of the seismic crust at the Aegir Ridge: A downward continuation approach.
- (2013). Magmatic development of the outer Vøring Margin.
- (2013). Lower Crustal Reflectivity bands and Magma Emplacement in Norwegian Sea, NE Atlantic.
- (2012). The trace and Pb isotope chemistry of the Jan Mayen Fracture Zone and the extinct Aegir Ridge.
- (2012). Geometries of igneous intrusions in Inner Isfjorden, Svalbard: implications for fluid flow and CO2 storage.
- (2012). Crustal structure across the land-ocean ytansition off Møre, mid-Norway, from wide-angle seismic and gravity data.
- (2011). Geochemistry and Pb Isotopes from the Jan Mayen Fracture Zone and the Extinct Aegir Ridge.
- (2010). The Norwegian volcanic margin revisited.
- (2010). Northern Barents Sea Evolution Linked to the Arctic Ocean.
- (2009). The Northern Boundary of the Jan Mayen Microcontinent, North Atlantic determined from ocean bottom seismic, multichannel seismic, and gravity data.
- (2009). The IPY Project The Dynamic Continental Margin between the Mid-Atlantic-Ridge system (Mohns Ridge, Knipovich Ridge) and the Bear Island Region.
- (2009). Seismic studies along the western shelf of Spitsbergen and the adjacent area of West Spitsbergen Fold and Thrust Belt (Isfjorden).
- (2009). Seismic studies along the western shelf of Spitsbergen and Isfjorden areas.
- (2009). Seismic research along the western shelf of Spitsbergen and Isfjorden areas.
- (2009). Rift basin architecture and crustal thinning in the southwestern Barents Sea.
- (2009). Rift Basin Evolution of the SW Barents Sea.
- (2009). Oceanic Intraplate Magmatism Off The Vøring Volcanic Passive Margin, Norway – Constraints On Origin From Seismic Velocity Structure.
- (2009). Northeast Atlantic Igneous Province volcanic margin development.
- (2009). Multi-stage rift evolution of the SW Barents Sea from wide-angle seismic velocity modeling.
- (2009). Late Mesozoic-Cenozoic Evolution of the Conjugate Lofoten-Vesterålen (Nordland VI-VII) and NE Greenland Continental Margins: Implications for the Potentially Developed Petroleum System.
- (2009). Deep structure of the northern Barents Sea passive margin from integrated analysis of seismic and gravity data.
- (2009). Crustal Architecture of the Northern Barents-Kara Sea Continental Margin.
- (2009). Crustal Architecture of the Northern Barents-Kara Sea Continental Margin.
- (2009). Conjugate volcanic margin breakup of the mid-Norwegian and East Greenland Margins –using crustal scale velocity and thickness data to determine breakup style.
- (2008). Ultra-slow spreading and hydrogen-based deep biosphere: Objectives and preliminary results of the H2DEEP project.
- (2008). The IPY project 'The dynamic continental margin between the Mid-Atlantic-Ridge system (Mohns Ridge, Knipovich Ridge) and the Bear Island Region'.
- (2008). IODP Drilling of Conjugate North Atlantic Volcanic Rifted Margins, Causes and Implications of Excess Magmatism.
- (2008). Enigmatic Neogene magmatism NE of Iceland - major magmatic underplating off the Norwegian margin.
- (2008). Enigmatic Neogene magmatism NE of Iceland - Major magmatic underplating off the Norwegian margin.
- (2008). Determining volcanic continental margin breakup style on the Norwegian Margin - which criteria are important and can they be generalized?
- (2008). Determining volcanic continental margin breakup style on the Norwegian Margin - Which criteria are important and can they be generalized?
- (2008). Basin evolution at the Norwegian-Greenland margins in the NE Atlantic.
- (2008). Basin evolution at the Norwegian-Greenland conjugate margins in the NE Atlantic.
- (2007). Timing of Continental breakup at the mid-Norwegian margin, Euromargins 2003 OBS Experiment.
- (2007). The dynamics of continental breakup-related magmatism on the Norwegian volcanic margin.
- (2007). The dynamics of continental breakup-related magmatism on the Norwegian volcanic margin.
- (2007). The continent-ocen transition at the Norwegian Margin - constraints from 3D modelling.
- (2007). The East Greenland Ridge and Boreas Basin: New insights into the North Atlantic plate tectonic realm from integrated seismic and potential field modelling.
- (2007). Structure and evolution of the northern Vøring and Lofoten-Vesterålen margins, and their conjugate NE Greenland margin.
- (2007). Influence of lower crustal flow on the post-rift subsidence of a basin.
- (2007). Crustal structure, continental breakup and magmatism at the Lofoten-Vesterålen margin, off Norway, constrained by the Euromargins 2003 OBS Experiment.
- (2007). Continental breakup and magmatic development of the mid-Norwegian margin, Euromargins 2003 OBS Experiment.
- (2006). The COT at the Norwegian margin - constraints from 3D structural and gravity modeling.
- (2006). Tectonic development and temperature history of the Vøring area, mid Norway - Task Seismic wave field modelling along deep-seismic transects.
- (2006). Subsidence analysis based on a 3D structural model of the Voring Margin.
- (2006). Sub-basalt imaging on the mid-Norwegian margin, using OBS data.
- (2006). Stacking of wide-angle OBS data as multichannel data – outer Vøring Margin.
- (2006). Seismic evidence for the Barents Sea-Svalbard Calodonides.
- (2006). Seismic evidence for the Barents Sea - Svalbard Caledonides.
- (2006). Results from 3D structural modelling of the Norwegian Margin.
- (2006). Results from 3D structural modelling of the Norwegian Margin.
- (2006). Results from 3D structural modeling of the Norwegian margin.
- (2006). Results from 2D/3D structural modeling of the Norwegian margin.
- (2006). Results from 2D/3D structural modeling of the Norwegian margin.
- (2006). OBS data constrain the crustal structure of the Lofoten-Vesterålen margin, off Norway.
- (2006). OBS data constrain the crustal structure of the Lofoten – Vesterålen margin, off mid-Norway.
- (2006). Magma-starved seafloor accretion in the Norway Basin caused by the Iceland hotspot.
- (2006). Magma-starved accretion in the Norway Basin caused by the Iceland hotspot.
- (2006). MORB-hijacking by the Iceland Plume.
- (2006). Fra Jordskjelvstasjonen til Geovitenskap.
- (2006). Evolution of the Norwegian Margin, NE Atlantic, from Japanese-Norwegain OBS-cooperation.
- (2006). Evolution of a divergent plate boundary; from the active Kolbeinsey ridge, N-Iceland to the exteinct Aegir ridge, Norwegain sea.
- (2006). Deep structure of the Barents Sea from wide-angle seismic data.
- (2006). Crustal transect across the North Atlantic.
- (2006). Crustal transect across the North Atlantic.
- (2006). Crustal structure, continental breakup and magmatism at the Lofoten-Vesteraalen margin, off mid-Norway, constrained by Euromargins 2003 OBS experiment.
- (2006). Crustal structure of the Lofoten-Vesterålen margin, off mid-Norway, constrained by new OBS-data.
- (2006). Crustal structure of the Lofoten-Vesterålen margin, off Norway, constrained by new OBS data.
- (2006). Crustal structure and deep basin configuration - key observations and modelling constraints.
- (2006). Crustal profile across the North Atlantic.
- (2006). Crustal profile across the North Atlantic.
- (2006). Continental breakup magmatism at the mid-Norwegian margin.
- (2006). Continental breakup and magmatism at the mid-Norwegian margin, Euromargins 2003 OBS Experiment.
- (2006). Continental breakup and magmatic development of the mid-Norwegian margin, Euromargins 2003 OBS experiment.
- (2006). Continental breakup and magmatic development of the mid-Norwegian margin, Euromargins 2003 OBS Experiment.
- (2006). COT at the northern Vøring Margin, Norway, Euromargins 2003 OBS experiment.
- (2006). A regional 3D model of the crustal architecture and evolution of the mid-Norwegian continental margin.
- (2005). Tectono-magmatic evolution of the southern Vøring Basin and Vøring transform margin from 2D and 3D OBS-data.
- (2005). Slow to ultraslow seafloor spreading in the Norway basin under influence of the Iceland hotspot.
- (2005). Polish-Norwegian Polar Research.
- (2005). Polar Ocean Gateways: The keys to understanding long-term global change.
- (2005). New OBS data constrain, the crustal structure of the Lofoten-Vesterålen margin off Norway.
- (2005). NE Atlantic breakup and evolution of the Norwegian-Greenland Conjugate Volcanic margins: Field Evidence to the Great Plume Debate.
- (2005). NE Atlantic breakup and evolution of the Norwegian-Greenland Conjugate Volcanic Margins: Field evidence to the great plume debate.
- (2005). NE Atlantic Breakup and Evolution of the Norwegian-Greenland Conjugate Volcanic Margins.
- (2005). Late Miocene magmatic underplating of the oceanic crust at the outer Vøring Margin, Norway,Euromargins 2003 OBS experiment.
- (2005). Illuminating sub-seafloor structures in 3D with Swath-Seismic mapping.
- (2005). Fyrer vi oss til døde?
- (2005). Evolution of the Vøring margin from 2D OBS-profiles.
- (2005). EUROMARGINS research on the Norwegian continental margin – towards a regional 3D model of the crustal architecture and evolution.
- (2005). EUROMARGINS research on the Norwegian continental margin - towards a regional 3D model of the crustal architecture and evolution.
- (2005). Dynamics of conjugate volcanic margins.
- (2005). Deformation at the Norwegian continental Margin.
- (2005). Deformation at the Norwegian Continental Margin.
- (2005). Crustal structure of the Lofoten-Vesterålen continental margin off Norway.
- (2005). Crustal structure of the Lofoten-Vesterålen continental margin off Norway.
- (2005). Continent-Ocean-Transition on the Vøring Plateau, NE Atlantic; a tectonomagmatic model derived from densely sampled OBS-data.
- (2004). Structure of the crystalline basement and deep horizons of sediment deposits as a result of regional investigations.
- (2004). OBS-results from the Vøring Margin.
- (2004). OBS results from the mid-Norwegian margin, an overview.
- (2004). Late Miocene magmatic underplating of oceanic crust at the outer Vøring margin, Norway, Euromargins 2003 OBS experiment.
- (2004). Illuminating sub-seafloor structures in 3D with Swath-Seismic mapping: The Euromargins SWATHSEIS project.
- (2004). EUROMARGINS research on the Norwegian continental margin - towards a regional 3D model of the crustal architecture and evolution.
- (2004). EOROMARGINS research on the Norwegian continental margin.
- (2004). Crustal structure across the Trøndelag Platform, off Norway, from MCS and OBS data.
- (1999). Svalbard Airborne Gravity Project 1998.
- (1999). Seismic volcanostratigraphy of the outer Vøring margin.
- (1999). Seismic volcanostratigraphic of the outer Voring Margin.
- (1999). Modelling of OBS-data from the Voring Margin.
- (1999). Modelling of OBS-data at the More- and Voring Margins.
- (1999). High P-wave velocity of sill intrusions within the Hel Gaben in the Vøring basin.
- (1999). "High P-wave velocity of sill intrusions within the Hel Graben in the Vøring Basin.".
- (1998). Geometries of crustal underplating along the Vøring margin - significance for basin evolution models.
- (1998). Geometries of crustal underplating along the Vøring margin - significance for basin evolution models.
- (1998). Geometries of crustal underplating along the Vøring margin - significance for basin evolution models.
- (1997). Modelling of OBS-data from the outer Voring Margin, mid-Norway margin.
- (1996). Tidlig teriær "big-bang" vulkanisme utenfor norskekysten.
- (1996). Fluid imaging using densely spaced OBS-data from the Vøring basin.
- (2009). DEEP STRUCTURE OF THE NORTHERN BARENTS SEA PASSIVE MARGIN FROM INTEGRATED ANALYSIS OF SEISMIC AND GRAVITY DATA. NGF abstracts and proceedings. 71.
- (2008). Linking deep structures and basin formation in the Barents Sea. 33rd International Geological Congress, Abstracts.
- (2016). Late Cenozoic global pulsations in hotspot magmatism and their possible interplay with plate tectonics, Earth's core and climate. Current Science. 823-835.
- (2007). Continent-ocean-transitions: Review, and a new tectono-magmatic model of the Voring Plateau, NE Atlantic. Journal of Geodynamics. 374-392.
Se fullstendig oversikt over publikasjoner i CRIStin.
Noen utvalgte publikasjoner 2016--:
Mjelde, R., Kvarven, T., Faleide, J.I. and Thybo, H. 2016. Lower crustal high-velocity bodies along North Atlantic passive margins, and their link to Caledonian suture zone eclogites and Early Cenozoic magmatism. Tectonophysics, 670, 16-29, doi: 10.1016/j.tecto.2015.11.021.
Mjelde, R. 2016. Late Cenozoic global pulsations in hotspot magmatism and its possible interplay with plate tectonics, Earth's core and climate. Current Science, 111, No.5, 823-835.
Landschulze, M. and Mjelde, R. 2016. Relative seismic receiver coupling estimation, a method using a probabilistic approach. Marine Geophysical Researches, 37, 245-256, doi: 10.1007/s11001-016-9282-3.
Pingchuan, T., Breivik, A.J., Trønnes, R.G., Mjelde, R., Azuma, R. and Eide, S. 2017. Crustal structure and origin of the Eggvin Bank west of Jan Mayen, NE Atlantic. Journal of Geophysical Research, 10.1002/2016JB013495.
Aarseth, I., Mjelde, R., Breivik, A.J., Minakov, A., Faleide, J.I., Flueh, E.R. and Huismans, R.S. 2017. Crustal Structure and Evolution of the Arctic Caledonides: Results from Controlled-Source Seismology. Tectonophysics, doi: j.tecto.2017.04.022.
Breivik, A,J., Faleide, J.I., Mjelde, R., Flueh, E. R. and Murai, Y. 2017. A new tectono-magmatic model for the Lofoten/Vesterålen Margin at the outer limit of the Iceland Plume influence. Tectonophysics, 718, 25-44.
Pingchuan, T., Breivik, A.J., Mjelde, R. 2019. Dynamic topography development north of Iceland from subaerial exposure of the igneous Logi Ridge, NE Atlantic. Journal of Geophysical Research, 124, 10799-10822.
Sydnes, M., Fjeldskaar, W., Grunnaleite, I., Løtveit, I.F., Mjelde, R. 2019. The influence of magmatic intrusions on diagenetic processes and stress accumulation. Geosciences, 9, 477; doi:10.3390/geosciences9110477.
Breivik, A.J., Faleide, J.I., Mjelde, R., Flueh, E. R. and Murai, Y. 2020. Crustal structure and erosion of the Lofoten/Vesterålen shelf, northern Norwegian margin. Tectonophysics, 776; doi: 10.1016/j.tecto.2020.228318.
Shulgin, A., Faleide, J.I., Mjelde, R., Breivik, A.J., Huismans, R. 2020. Crustal domains in the Western Barents Sea. Geophysical Journal International, 221, 2155-2169.
Se forøvrig CRISTIN.
Det meste av arbeidet er utført innefor rammen av NFR- og industriprosjekter, noen med EU støtte.
Viktigste pågående prosjekter:
Analyse av OBS data innsamlet i 2019 ved Knipovichryggen, i samarbeid med Polish Academy of Science.
Vitenskapelig koordinator for GoNorth (Geosciences in the northern Arctic, et norsk program for geofaglig utforskning av polhavet (under utvikling).
Professor.