Search Results - "Osmundsen, T"

Styles of extension offshore mid-Norway and implications for mechanisms of crustal thinning at passive margins by Osmundsen, P. T., Ebbing, J.

“…Eocene magmatic breakup along the mid‐Norway rifted margin was preceded by extreme Jurassic‐Cretaceous crustal thinning in a magma‐poor environment. Along the…”
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Segmentation of the Caledonian orogenic infrastructure and exhumation of the Western Gneiss region during transtensional collapse by Wiest, J. D, Jacobs, J, Fossen, H, Ganerod, M, Osmundsen, P. T

“…The (ultra)high-pressure Western Gneiss Region (WGR) of the Norwegian Caledonides represents an archetypical orogenic infrastructure of a continent-continent…”
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Controlling emerging infectious diseases in salmon aquaculture by Pettersen, J M, Osmundsen, T, Aunsmo, A, Mardones, F O, Rich, K M

“…In this paper, the authors review the impacts of diseases facing salmon aquaculture, drawing lessons from terrestrial animal diseases. They discuss the…”
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The role of fault reactivation and growth in the uplift of western Fennoscandia by Redfield, Tim F, Osmundsen, P. T, Hendriks, B. W. H

“…New structural data, published AFT data, and topographic data suggest that the latest Cretaceous-Cenozoic uplift of western Norway was associated with normal…”
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Crustal‐Scale Fault Interaction at Rifted Margins and the Formation of Domain‐Bounding Breakaway Complexes: Insights From Offshore Norway by Osmundsen, P. T., Péron‐Pinvidic, G.

“…The large‐magnitude faults that control crustal thinning and excision at rifted margins combine into laterally persistent structural boundaries that separate…”
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Kinematics of the Hoybakken detachment zone and the More-Trondelag fault complex, central Norway by Osmundsen, Per T, Eide, E. A, Haabesland, N. E, Roberts, D, Andersen, T. B, Kendrick, M, Bingen, B, Braathen, A, Redfield, T. F

“…The tectonic disintegration of the Caledonian orogen through combined extension, contraction and strike-slip was characterized by spatial and temporal strain…”
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Fault-controlled alpine topography in Norway by Osmundsen, Per Terje, Redfield, T. F, Hendriks, B. H. W, Bergh, S, Hansen, J, Henderson, I. H. C, Dehls, J, Lauknes, T. R, Larsen, Y, Anda, E, Davidsen, B

“…Alpine topography in Norway is largely fault-controlled. Linear and asymmetric ranges developed in the footwalls of normal faults that were reactivated after…”
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3D Evolution of Detachment Fault Systems in Necking Domains: Insights From the Klakk Fault Complex and the Frøya High, Mid‐Norwegian Rifted Margin by Gresseth, J. L. S., Osmundsen, P. T., Péron‐Pinvidic, G.

“…Detachment fault systems typically record displacements in the order of 10s of kilometers. The principles that control the growth of smaller magnitude normal…”
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Fault growth and orthogonal shortening in transtensional supradetachment basins: Insights from the ‘Old Red’ of western Norway by Osmundsen, P. T., Svendby, A. K., Braathen, A., Bakke, B., Andersen, T. B.

“…For basins that evolve adjacent to large‐magnitude normal faults, tectonic controls on sedimentation involve isostatic back rotation of an exhuming footwall…”
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Deep Crustal Flow Within Postorogenic Metamorphic Core Complexes: Insights From the Southern Western Gneiss Region of Norway by Wiest, J. D., Osmundsen, P. T., Jacobs, J., Fossen, H.

“…Viscous crustal flow can exhume once deeply buried rocks in postorogenic metamorphic core complexes (MCCs). While migmatite domes record the flow dynamics of…”
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From Caledonian Collapse to North Sea Rift: The Extended History of a Metamorphic Core Complex by Wiest, J. D., Wrona, T., Bauck, M. S., Fossen, H., Gawthorpe, R. L., Osmundsen, P. T., Faleide, J. I.

“…Extensional systems evolve through different stages due to changes in the rheological state of the lithosphere. It is crucial to distinguish ductile structures…”
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The Devonian Nesna shear zone and adjacent gneiss-cored culminations, north-central Norwegian Caledonides by Osmundsen, P. T, Braathen, A, Nordgulen, O, Roberts, D, Meyer, G. B, Eide, E

“…The Early to Mid-Devonian strain distribution in the Norwegian Caledonides was characterized by large-magnitude extension, extension-normal shortening and…”
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Tidal amplification and along‐strike process variability in a mixed‐energy paralic system prograding onto a low accommodation shelf, Edgeøya, Svalbard by Anell, Ingrid, Zuchuat, Valentin, Röhnert, Anna Daniela, Smyrak‐Sikora, Aleksandra, Buckley, Simon, Lord, Gareth, Maher, Harmon, Midtkandal, Ivar, Ogata, Kei, Olaussen, Snorre, Osmundsen, Per T., Braathen, Alvar

“…The study describes the depositional development and sediment partitioning in a prograding paralic Triassic succession. The deposits are associated with the…”
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Fault-induced deformation in a poorly consolidated, siliciclastic growth basin: A study from the Devonian in Norway by Braathen, A., Osmundsen, P.T., Hauso, H., Semshaug, S., Fredman, N., Buckley, S.J.

“…The extensional Berge fault (Devonian Kvamshesten Basin, West Norway) displays 430m of syntectonic stratigraphy with fluvial sandstones and red fines exposed…”
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The Tjellefonna fault system of Western Norway: Linking late-Caledonian extension, post-Caledonian normal faulting, and Tertiary rock column uplift with the landslide-generated tsunami event of 1756 by Redfield, T.F., Osmundsen, P.T.

“…On February 22, 1756, approximately 15.7 million cubic meters of bedrock were catastrophically released as a giant rockslide into the Langfjorden…”
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Controlling emerging infectious diseases in salmon aquaculture: EN- -FR- Contrôle des maladies infectieuses émergentes dans les salmonicultures -ES- Lucha contra las enfermedades infecciosas emergentes en la acuicultura salmonera by PETTERSEN, J.M., OSMUNDSEN, T., AUNSMO, A., MARDONES, F.O., RICH, K.M.

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The middle Devonian basins of western Norway: sedimentary response to large-scale transtensional tectonics? by Osmundsen, P.T., Andersen, T.B.

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Late Mesozoic to Early Cenozoic components of vertical separation across the Møre–Trøndelag Fault complex, Norway by Redfield, T.F., Braathen, A., Gabrielsen, R.H., Osmundsen, P.T., Torsvik, T.H., Andriessen, P.A.M.

“…Low temperature apatite fission track (AFT) data from two horizontal transects across the Møre–Trøndelag Fault Complex (MTFC) and along the coast of the Fosen…”
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The proximal domain of the Mid-Norwegian rifted margin: The Trøndelag Platform revisited by Peron-Pinvidic, G., Osmundsen, P.T., Bunkholt, H.

“…Located along the coast of Norway, the Trøndelag Platform area corresponds to the proximal domain of the Mid Norwegian Vøring rifted margin. We investigated…”
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Permian and Mesozoic extensional faulting within the Caledonides of central south Norway by Andersen, Torgeir B, Torsvik, Trond H, Eide, Elizabeth A, Osmundsen, Per Terje, Faleide, Jan I

“…Palaeomagnetic data from fault rocks along major faults in the Laerdal-Gjende Fault System cutting the Caledonian structure in the Jotunheimen area of central…”
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