Denise Christina Ruther

Arbeids- og kompetanseområde

Eg undervisar i bachelorprogrammet Geologi og geofare, det internasjonale semesterprogrammet Geofarar og klimaendringar og masterprogrammet Climate Change Management. Eg har emneansvar i Sedimentologi og Snø og snøskred. Mi forsking faller inn under kvartær sedimentologi og geomorfologi samt skredprosessar. 

Fagfelle vurderte publikasjoner

[19] Engen, S., Gjerde, M., Scheiber, T., Seier, G., Elvehøy, H., Abermann, J., Nesje, A., Winkler, S., Haualand, K.F., Rüther, D.C., Maschler, A., Robson, B.A. and Yde, J.C. (2024): Investigation of the 2010 rock avalanche onto the regenerated glacier Brenndalsbreen, Norway. In Review in Landslides.

[18] Rüther, D.C., Lindsay, E. and Slåtten, M.S. (2024): Landslide inventory: 'Hans' storm southern Norway, August 7-9, 2023. Landslides. https://doi.org/10.1007/s10346-024-02222-y View-only version: https://rdcu.be/dzhtq

[17] Rüther, D.C., Rubensdotter, L. and Hefre, H. (2023): Extreme precipitation on dry ground in western Norway – characteristics of induced landslides call for adaptation of the Norwegian practice in landuse planning. E3S Web of Conf., 415 (2023) 05023.

[16] Nesje, A., Rüther, D.C. and Yde, J.C. (2023): Stratigraphy and age of a Neoglacial sedimentary succession of proglacial outwash and an alluvial fan in Langedalen, Veitastrond, western Norway. Boreas, 52(2), 194-205.

[15] Rüther, D.C., Hefre, H. and Rubensdotter, L. (2022): Extreme precipitation induced landslide event on 30 July 2019 in Jølster, western Norway. Norwegian Journal of Geology, 102(18), 26pp.

[14] Lindsay, E., Frauenfelder, R., Rüther, D.C., Nava, L., Rubensdotter, L., Strout, J.M. and Nordal, S. (2022): Multi-Temporal Satellite Image Composites in Google Earth Engine for Improved Landslide Visibility: A Case Study of a Glacial Landscape. Remote Sensing 14, 25.A.

[13] Nordengen, S., Rüther, D.C., Riiser, A., Andersen, L.B. and Solbraa, A.K. (2019): Correlates of Commuter Cycling in Three Norwegian Counties. International Journal of Environmental Research and Public Health (IJERPH) 16, 18.

[12] Llopart, J., Urgeles, R., Forsberg, C.F., Camerlenghi, A., Vanneste, M., Rebesco, M., Lucchi, R.G., Rüther, D.C. and Lantzsch, H. (2019): Fluid flow and pore pressure development throughout the evolution of a trough mouth fan, western Barents Sea. Basin Research 31, 487.

[11] Rüther, D.C., Winsborrow, M., Andreassen, K. and Forwick, M. (2017): Grounding line proximal sediment characteristics at a marine-based, late-stage ice stream margin. Journal of Quaternary Science 32, 463.

[10] Andreassen, K., Bjarnadóttir, L.R., Rüther, D.C. and Winsborrow, M. (2016): Retreat patterns and dynamics of the former Bear Island Trough Ice Stream. In Atlas of Submarine Glacial landforms: Modern, Quaternary and Ancient (Geological Society of London), p. 445-452.

[9] Rüther, D.C., Andreassen, K. and Spagnolo, M. (2016): Aligned glacitectonic rafts on the floor of the central Barents Sea. In Atlas of Submarine Glacial landforms: Modern, Quaternary and Ancient (Geological Society of London), p. 189-190.

[8] Rebesco, M., Özmaral, A., Urgeles, R., Accettella, D. Lucchi, R.G., Rüther, D.C., Winsborrow, M., Llopart, J., Caburlotto, A., Lantzsch, H. and Hanebuth, T.J.J. (2016):  Evolution of a high-latitude sediment drift inside a glacially-carved trough based on high-resolution seismic stratigraphy (Kveithola, NW Barents Sea). Quaternary Science Reviews 147, 178.

[7] Hillier, J. K. et al., (2015): Manual mapping of drumlins in synthetic landscapes to assess operator effectiveness. Journal of Maps 11, 719.

[6] Andreassen, K., Winsborrow, M., Bjarnadóttir, L.R. and Rüther, D.C. (2014): Ice stream retreat dynamics inferred from an assemblage of landforms in the northern Barents Sea. Quaternary Science Reviews 92, 246.

[5] Rüther, D. C., Andreassen, K. and Spagnolo, M. (2013): Aligned glaciotectonic rafts on the central Barents Sea seafloor revealing extensive glacitectonic erosion during the last deglaciation. Geophysical Research Letters 40, 6351.

[4] Bjarnadóttir, L.R., Rüther, D.C., Winsborrow, M. and Andreassen, K. (2013): Grounding-line dynamics during the last deglaciation of Kveithola, W Barents Sea, as revealed by seabed geomorphology and shallow seismic stratigraphy. Boreas 42, 84.

[3] Rüther, D.C., Bjarnadóttir, L.R., Junttila, J., Husum, K., Rasmussen, T.L., Lucchi, R.G. and Andreassen, K. (2012): Pattern and timing of the northwestern Barents Sea Ice Sheet deglaciation and indications of episodic Holocene deposition. Boreas 41, 494.

[2] Rüther, D.C., Mattingsdal, R., Andreassen, K., Forwick, M. and Husum, K. (2011): Seismic architecture and sedimentology of a major grounding zone system deposited by the Bjørnøyrenna Ice Stream during Late Weichselian deglaciation. Quaternary Science Reviews 30, 2776.

[1] Dypvik, H., Riber, L., Burca, F., Rüther, D.C., Jargvoll, D., Nagy, J. and Jochmann, M. (2011): The Paleocene-Eocene thermal maximum (PETM) in Svalbard - clay mineral and geochemical signals. Palaeogeography, Palaeoclimatology, Palaeoecology 302, 156.