Hjem
Universitetet i Bergen
Tor Eldeviks bilde

Tor Eldevik

Instituttleder, professor storskala oseanografi / dekadisk klimadynamikk
Geofysisk institutt Bjerknessenteret for klimaforskning
Vis CV
  • E-posttor.eldevik@uib.no
  • Telefon+47 55 58 87 31+47 934 94 038
  • Besøksadresse
    Allégaten 70 – Geofysen
    5008 Bergen
    Rom 
    231, "Midtbygget"
  • Postadresse
    Postboks 7803
    5020 Bergen

Research interests:

  • The role of the northern seas in climate - past, present, future
  • The (possible) interannual to decadal predictability of climate 
  • Structure and variability of ocean circulation
  • Arctic sea ice cover, how and why it changes
  • Barents Sea ice cover, climate, and ecosystem
  • Open ocean convection
  • Mesoscale eddies and frontal dynamics, incl. “spiral eddies”

using theory, observations, and models.

 

 

  •  

 

GEOF 210 Dataanalyse i meteorologi og oseanografi (høst 2010, 2011, 2012, vår 2017)

Nyere publikasjoner:

Dörr, J., M. Årthun, D. Docquier, C. Li, and T. Eldevik, 2024:Causal Links Between Sea-Ice Variability in the Barents-Kara Seas and Oceanic and Atmospheric Drivers. Geophys. Res. Lett., 51, e2024GL108195.

Dörr, J., M. Årthun, T. Eldevik, and A.B. Sandø, 2024: Expanding Influence of Atlantic and Pacific Ocean Heat Transport on Winter Sea-Ice Variability in a Warming Arctic. J. Geophys. Res., 129, e2023JC019900.

Asbjørnsen, H., T. Eldevik, J. Skrefsrud, H.L. Johnson, and A. Sanchez-Franks, 2023: Observed change and the extent of coherence in the Gulf Stream system. Ocean Sci. Discuss.

Gerland, S., R.B. Ingvaldsen, M. Reigstad, A. Sundfjord, B. Bogstad, M. Chierici, H. Hop, P.E. Renaud, L.H. Smedsrud, L.C. Stige, M. Årthun, J. Berge, B.A. Bluhm, K. Borgå, G. Bratbak, D.V. Divine, T. Eldevik, E. Eriksen, I. Fer, A. Fransson, R. Gradinger, M.A. Granskog, T. Haug, K. Husum, G. Johnsen, M.O. Jonassen, L.L. Jørgensen, S. Kristiansen, A. Larsen, V.S. Lien, S. Lind, U. Lindstrøm, C. Mauritzen, A. Melsom, S.H. Mernild, M. Müller, F. Nilsen, R. Primicerio, J.E. Søreide, G.I. van der Meeren, and P. Wassmann, 2023: Still Arctic?—The changing Barents Sea. Elementa, 11, 00088.

Passos, L., H.R. Langehaug, M. Årthun, T. Eldevik, I. Bethke, and M. Kimmritz, 2023: Impact of initialization methods on the predictive skill in NorCPM: an Arctic–Atlantic case study. Clim. Dyn., 60, 2061–2080

Risebrobakken, B., M.F. Jensen, H.R. Langehaug, T. Eldevik, A.B. Sandø, C. Li, A. Born, E.L. McClymont, U. Salzmann, and S. De Schepper, 2023: Buoyancy forcing: a key driver of northern North Atlantic sea surface temperature variability across multiple timescales. Clim. Past, 19, 1101–1123.

Efstathiou, E., T. Eldevik, M. Årthun, and S. Lind, 2022: Spatial patterns, mechanisms and predictability of Barents Sea ice change. J. Clim., 35, 2961–2973.

Smedsrud L.H., M. Muilwijk, A. Brakstad, E. Madonna, S.K. Lauvset, C. Spensberger, A. Born, T. Eldevik, H. Drange, E. Jeansson, C. Li, A. Olsen, Ø. Skagseth, D.A. Slater, F. Straneo, K. Våge, and M. Årthun, 2022: Nordic Seas heat loss, Atlantic inflow, and Arctic sea ice cover over the last century. Rev. Geophys., 60, e2020RG000725.

Bethke, I., Y. Wang, F. Counillon, N. Keenlyside, M. Kimmritz, F. Fransner, A. Samuelsen, H. Langehaug, L. Svendsen, P.-G. Chiu, L. Passos, M. Bentsen, C. Guo, A. Gupta, J. Tjiputra, A. Kirkevåg, D. Olivié, Ø. Seland, J. S. Vågane, Y. Fan, and T. Eldevik, 2021: NorCPM1 and its contribution to CMIP6 DCPP. Geosci. Model Dev., 14, 7073–7116.

Dörr, J., M. Årthun, T. Eldevik, and E. Madonna, 2021: Mechanisms of regional winter sea-ice variability in a warming Arctic. J. Climate, 34, 8635–8653.

Eldevik, T., J.-M. Beckers, B. Hansen, P. Uotila, J.-C. Duplessy, J. Deshayes, M. Visbeck, F. Dias, G. McCarthy, E. van Sebille, L.H. Smedsrud, B. Balino, H. Asbjørnsen, H. Cabral, M. Estrada Miyare, L.G. Anderson, T.N. Palmer, L. Walløe, M. Norton, 2021: A sea of change: Europe’s future in the Atlantic realm. EASAC policy report 42

Årthun, M., I.H. Onarheim, J. Dörr, and T. Eldevik, 2021: The seasonal and regional transition to an ice‐free Arctic. Geophys. Res. Lett., 48, e2020GL090825.

Asbjørnsen, H., M. Årthun, Ø. Skagseth, and T. Eldevik, 2020: Mechanisms underlying recent Arctic Atlantification. Geophys. Res. Lett., 47, e2020GL088036.

Eldevik, T., and P.M. Haugan, 2020: That's a lot of water. Nature Physics, 16, 496–496.

Eldevik, T., L.H. Smedsrud, C. Li, M. Årthun, E. Madonna, and L. Svendsen, 2020: The Arctic Mediterranean. Interacting Climates of Ocean Basins: Observations, Mechanisms, Predictability, and Impacts, C.R. Mechoso, Ed., CUP.

Skagseth, Ø., T. Eldevik, M. Årthun, H. Asbjørnsen, V. Lien, and L.H. Smedsrud, 2020: Reduced efficiency of the Barents Sea cooling machine. Nature Clim. Change, 10, 661–666.

Yu, J.-Y., E. Campos, Y. Du, T. Eldevik, S.T. Gille, T. Losada, M.J. McPhaden, and L.H. Smedsrud, 2020: Variability of the oceans. Interacting Climates of Ocean Basins: Observations, Mechanisms, Predictability, and Impacts, C.R. Mechoso, Ed., CUP.

Asbjørnsen, H., M. Årthun, Ø. Skagseth, and T. Eldevik, 2019: Mechanisms of ocean heat anomalies in the Norwegian SeaJ. Geophys. Res., 124, 2908–2923.

Årthun, M., T. Eldevik, and L.H. Smedsrud, 2019: The role of Atlantic heat transport in future Arctic winter sea ice lossJ. Climate32, 3327–3341.

Bringedal, C., T. Eldevik, Ø. Skagseth, M. Spall, and S. Østerhus, 2018: Structure and forcing of observed exchanges across the Greenland-Scotland RidgeJ. Climate31, 9881–9901.

Lambert, E., T. Eldevik, and M. Spall, 2018: On the dynamics and water mass transformation of a boundary current connecting alpha- and beta- oceansJ. Phys. Oceanogr.48, 2457–2475.

Onarheim, I.H., T. Eldevik, L.H. Smedsrud, and J.C. Stroeve, 2018: Seasonal and regional manifestation of Arctic sea ice lossJ. Climate31, 4917–4932. 

Årthun, M., E.W. Kolstad, T. Eldevik, and N.S. Keenlyside, 2018: Time scales and sources of European temperature variabilityGeophys. Res Lett., 45, 3597–3604.

Ferreira, D., P. Cessi, H. Coxhall, A. de Boer, H.A. Dijkstra, S.S. Drijfhout, T. Eldevik, N. Harnik, J.F. McManus, D.P. Marshall, J. Nilsson, F. Roquet, T. Schneider, and R.C. Wills, 2018: Atlantic-Pacific Asymmetry in Deep-Water FormationAnn. Rev. Earth Pl. Sci.46:1.

Årthun, M., T. Eldevik, E. Viste, H. Drange, T. Furevik, H.L. Johnson, and N.S. Keenlyside, 2017: Skillful prediction of northern climate provided by the ocean. Nature Communications, 8, DOI: 10.1038/ncomms15875.

Eide, M., A. Olsen, U. Ninnemann, and T. Eldevik, 2017: A global estimate of the full oceanic 13C Suess effect since the preindustrial. Global Biogeochem. Cycles, 31, DOI 10.1002/2016GB005473.

Langehaug, H.R., D. Matei, T. Eldevik, K. Lohmann, and Y. Gao, 2017: On model differences and skill in predicting sea surface temperature in the Nordic and Barents seas. Clim. Dyn., 48, 913–933. 

Vitenskapelig artikkel
  • Vis forfatter(e) (2024). Expanding Influence of Atlantic and Pacific Ocean Heat Transport on Winter Sea-Ice Variability in a Warming Arctic. Journal of Geophysical Research (JGR): Oceans.
  • Vis forfatter(e) (2024). Causal Links Between Sea-Ice Variability in the Barents-Kara Seas and Oceanic and Atmospheric Drivers. Geophysical Research Letters.
  • Vis forfatter(e) (2023). Buoyancy forcing: A key driver of northern North Atlantic sea surface temperature variability across multiple timescales. Climate of the Past. 1101-1123.
  • Vis forfatter(e) (2022). Spatial Patterns, Mechanisms, and Predictability of Barents Sea Ice Change. Journal of Climate. 2961-2973.
  • Vis forfatter(e) (2022). Impact of initialization methods on the predictive skill in NorCPM: an Arctic–Atlantic case study. Climate Dynamics. 20 sider.
  • Vis forfatter(e) (2021). The Seasonal and Regional Transition to an Ice-Free Arctic. Geophysical Research Letters.
  • Vis forfatter(e) (2021). NorCPM1 and its contribution to CMIP6 DCPP. Geoscientific Model Development. 7073-7116.
  • Vis forfatter(e) (2021). Mechanisms of regional winter sea-ice variability in a warming arctic. Journal of Climate. 8635-8653.
  • Vis forfatter(e) (2020). That’s a lot of water. Nature Physics.
  • Vis forfatter(e) (2020). Reduced efficiency of the Barents Sea cooling machine. Nature Climate Change. 661-666.
  • Vis forfatter(e) (2020). Mechanisms underlying recent Arctic atlantification. Geophysical Research Letters. 1-9.
  • Vis forfatter(e) (2019). The Role of Atlantic Heat Transport in Future Arctic Winter Sea Ice Loss . Journal of Climate. 3327-3341.
  • Vis forfatter(e) (2019). Mechanisms of Ocean Heat Anomalies in the Norwegian Sea. Journal of Geophysical Research (JGR): Oceans. 2908-2923.
  • Vis forfatter(e) (2018). Time Scales and Sources of European Temperature Variability. Geophysical Research Letters. 3597-3604.
  • Vis forfatter(e) (2018). Structure and forcing of observed exchanges across the Greenland-Scotland Ridge. Journal of Climate. 9881-9901.
  • Vis forfatter(e) (2018). Seasonal and regional manifestation of Arctic sea ice loss. Journal of Climate. 4917-4932.
  • Vis forfatter(e) (2018). On the Dynamics and Water Mass Transformation of a Boundary Current Connecting Alpha and Beta Oceans. Journal of Physical Oceanography. 2457-2475.
  • Vis forfatter(e) (2017). Skillful prediction of northern climate provided by the ocean. Nature Communications. 1-11.
  • Vis forfatter(e) (2017). A global estimate of the full oceanic 13C Suess effect since the preindustrial. Global Biogeochemical Cycles. 492-514.
  • Vis forfatter(e) (2016). Quantifying mesoscale eddies in the Lofoten Basin. Journal of Geophysical Research (JGR): Oceans. 4503-4521.
  • Vis forfatter(e) (2016). On the reconstruction of ocean circulation and climate based on the "Gardar Drift". Paleoceanography. 399-415.
  • Vis forfatter(e) (2016). On model differences and skill in predicting sea surface temperature in the Nordic and Barents Seas. Climate Dynamics. 913-933.
  • Vis forfatter(e) (2016). On anomalous ocean heat transport toward the Arctic and associated climate predictability. Journal of Climate. 689-704.
  • Vis forfatter(e) (2016). How northern freshwater input can stabilise thermohaline circulation . Tellus A: Dynamic Meteorology and Oceanography. 1-16.
  • Vis forfatter(e) (2015). The Lofoten Vortex of the Nordic Seas. Deep Sea Research Part I: Oceanographic Research Papers. 1-14.
  • Vis forfatter(e) (2015). Skillful prediction of Barents Sea ice cover. Geophysical Research Letters. 5364-5371.
  • Vis forfatter(e) (2015). Holocene multidecadal- to millennial-scale variations in Iceland-Scotland overflow and their relationship to climate. Paleoceanography. 558-569.
  • Vis forfatter(e) (2014). A brief history of climate e the northern seas from the last Glacial Maximum to global warming. Quaternary Science Reviews. 225-246.
  • Vis forfatter(e) (2013). The Arctic-Atlantic thermohaline circulation. Journal of Climate. 8698-8705.
  • Vis forfatter(e) (2012). Water mass transformation and the North Atlantic Current in three multicentury climate model simulations. Journal of Geophysical Research (JGR): Oceans. 22 sider.
  • Vis forfatter(e) (2012). Quantifying the influence of Atlantic heat on Barents Sea ice variability and retreat. Journal of Climate. 4736-4743.
  • Vis forfatter(e) (2012). Mechanisms for variable North Atlantic-Nordic seas exchanges. Journal of Geophysical Research (JGR): Oceans.
  • Vis forfatter(e) (2012). Mechanisms for decadal scale variability in a simulated Atlantic Meridional Overturning Circulation. Climate Dynamics. 77-93.
  • Vis forfatter(e) (2012). Arctic/Atlantic exchanges via the Subpolar Gyre. Journal of Climate. 2421-2439.
  • Vis forfatter(e) (2011). The Nordic Seas carbon budget: Sources, sinks, and uncertainties. Global Biogeochemical Cycles. 16 sider.
  • Vis forfatter(e) (2011). Significant role of the North Icelandic Jet in the formation of Denmark Strait overflow water. Nature Geoscience. 723-727.
  • Vis forfatter(e) (2009). Observed sources and variability of Nordic seas overflow. Nature Geoscience. 405-409.
  • Vis forfatter(e) (2009). Dense overflow from an Arctic fjord: Mean seasonal cycle, variability and wind influence. Continental Shelf Research. 2110-2121.
  • Vis forfatter(e) (2008). A Greenland Sea Perspective on the Dynamics of Postconvective Eddies. Journal of Physical Oceanography. 2755-2771.
  • Vis forfatter(e) (2006). Gas exploration beyond the shelf break: An oceanographic challenge. Environmental Modelling & Software. 136-141.
  • Vis forfatter(e) (2005). On radar imaging of current features: 2. Mesoscale eddy and current front detection. Journal of Geophysical Research (JGR). 14 sider.
  • Vis forfatter(e) (2005). Intermediate water from the Greenland Sea in the Faroe Bank Channel: spreading of released sulphur hexafluoride. Deep Sea Research Part I: Oceanographic Research Papers. 279-294.
  • Vis forfatter(e) (2004). Intermediate water from the Greenland Sea in the Faroe Bank Channel: spreading of released sulphur hexafluoride. Deep Sea Research Part I: Oceanographic Research Papers. 279-294.
  • Vis forfatter(e) (2002). Spiral Eddies. Journal of Physical Oceanography. 851-869.
  • Vis forfatter(e) (2002). On frontal dynamics in two model oceans. Journal of Physical Oceanography. 2915-2925.
Faglig foredrag
  • Vis forfatter(e) (2024). Forskning og utdanning rundt havvind .
  • Vis forfatter(e) (2022). How to link your project proposal to current and future challenges.
  • Vis forfatter(e) (2022). Arven etter Nansen - Orientering for det interdepartementale polarutvalg.
  • Vis forfatter(e) (2020). The Nansen Legacy project - presentation to NFR’s Climate and Polar Portfolio Board.
  • Vis forfatter(e) (2020). Iskanten og iskantsonen - innledning på tema for regjeringspartienes Stortingsgrupper (V, KrF, H) på Stortinget.
  • Vis forfatter(e) (2020). Arctic Frontiers side event FROM NANSEN LEGACY SCIENCE TO USEFUL KNOWLEDGE FOR SOCIETY.
  • Vis forfatter(e) (2019). The Nansen Legacy project.
  • Vis forfatter(e) (2019). The Nansen Legacy.
  • Vis forfatter(e) (2019). Blir det hvit jul neste år?
  • Vis forfatter(e) (2019). Arven etter Nansen.
  • Vis forfatter(e) (2018). The Nansen Legacy project.
  • Vis forfatter(e) (2018). The Nansen Legacy project.
  • Vis forfatter(e) (2018). The Nansen Legacy - An interdisciplinary research project on the climate and ecosystem of the Barents Sea – a gateway to a changing Arctic .
  • Vis forfatter(e) (2018). Arven etter Nansen. Presentasjon for styret i Petromaks.
  • Vis forfatter(e) (2018). Arven etter Nansen.
Populærvitenskapelig foredrag
  • Vis forfatter(e) (2020). Bidrag til Arctic Frontiers 2020 “pub-debatt” om «Vekst eller vern» i nord.
  • Vis forfatter(e) (2019). Teknologioptimisme vs tøffe valg.
  • Vis forfatter(e) (2019). Det grønne skiftet - hva nå?
  • Vis forfatter(e) (2012). Oseanografi.
  • Vis forfatter(e) (2010). Klimaforskernes krystallkule.
  • Vis forfatter(e) (2007). Vær og klima fram mot 2100.
  • Vis forfatter(e) (2007). (Ekstrem)vær og klima fram mot 2100.
  • Vis forfatter(e) (2006). The G.C. Rieber Climate institute.
  • Vis forfatter(e) (2006). Om global oppvarming og ekstremvær.
Vitenskapelig foredrag
  • Vis forfatter(e) (2024). Quantifying the causal links between sea-ice variability in the Barents-Kara Seas and oceanic and atmospheric drivers.
  • Vis forfatter(e) (2023). The Nansen Legacy. Compiling results on the changing Arctic climate and ecosystem responses.
  • Vis forfatter(e) (2023). The Nansen Legacy.
  • Vis forfatter(e) (2023). Structure and sensitivity of the North Atlantic circulation system.
  • Vis forfatter(e) (2023). Present and Future Influence of Ocean Heat Transport on Winter Arctic Sea-Ice Variability.
  • Vis forfatter(e) (2023). Observed changes and coherence in the Gulf Stream system.
  • Vis forfatter(e) (2023). Observed changes and coherence in the Gulf Stream system.
  • Vis forfatter(e) (2023). How Atlantic Heat Makes Arctic Sea Ice Retreat .
  • Vis forfatter(e) (2023). Arctic sea ice variability and retreat.
  • Vis forfatter(e) (2022). Present and future influence of ocean heat transport on winter Arctic sea-ice variability.
  • Vis forfatter(e) (2022). On the structure and sensitivity of North Atlantic thermohaline circulation.
  • Vis forfatter(e) (2022). Observed changes and coherence in the Gulf Stream system.
  • Vis forfatter(e) (2022). Observed changes and coherence in the Gulf Stream system.
  • Vis forfatter(e) (2021). Atmospheric and oceanic drivers of regional Arctic winter sea-ice variability in present and future climates.
  • Vis forfatter(e) (2020). The new Arctic require new knowledge built on new collaborations.
  • Vis forfatter(e) (2020). The dominant spatial patterns of Barents Sea ice variance.
  • Vis forfatter(e) (2020). How Atlantic heat makes Arctic sea ice retreat.
  • Vis forfatter(e) (2019). The role of Atlantic heat in Arctic sea ice retreat.
  • Vis forfatter(e) (2019). The Barents Sea cooler in a warming ocean.
  • Vis forfatter(e) (2019). How Atlantic heat makes Arctic sea ice retreat.
  • Vis forfatter(e) (2019). Anvendelsen av matematikk i hav- og klimaforskning.
  • Vis forfatter(e) (2018). The Nansen Legacy: A new project for scientific exploration and sustainable management beyond the ice edge.
  • Vis forfatter(e) (2018). The Nansen Legacy project.
  • Vis forfatter(e) (2018). Sea Ice Variability and Predictability in the Nansen Basin .
  • Vis forfatter(e) (2018). Sea Ice Variability and Predictability in the Nansen Basin.
  • Vis forfatter(e) (2018). Review on status and changes of the Barents Sea System.
  • Vis forfatter(e) (2018). A simple physical model of the Atlantic inflow in the Nansen Basin.
  • Vis forfatter(e) (2017). Global ocean climatology of the 13C suess effect and preindustrial δ13C.
  • Vis forfatter(e) (2016). Natural variability in Nordic Seas overflows: Toward a mechanistic understanding of proxy records.
  • Vis forfatter(e) (2015). A brief history of climate – the northern seas from the Last Glacial Maximum to global warming.
  • Vis forfatter(e) (2015). A brief history of climate – the northern seas from the Last Glacial Maximum to global warming.
  • Vis forfatter(e) (2014). The Arctic-Atlantic Thermohaline Circulation.
  • Vis forfatter(e) (2014). Smelting og ferskvann svekker ikke nødvendigvis Atlanterhavsstrømmen.
  • Vis forfatter(e) (2014). Decadal predictability of SST in the North Atlantic sector in three CMIP5 models.
  • Vis forfatter(e) (2014). A brief history of climate – the northern seas from the Last Glacial Maximum to global warming.
  • Vis forfatter(e) (2013). Water mass transformation in the North Atlantic.
  • Vis forfatter(e) (2012). Water mass transformation and the North Atlantic Current in three multi-century climate model simulations (talk).
  • Vis forfatter(e) (2012). Water mass transformation and the North Atlantic Current in three multi-century climate model simulations.
  • Vis forfatter(e) (2012). The role of the Barents Sea in the climate system.
  • Vis forfatter(e) (2012). Sources and propagation of anomalous freshwater content in the Nordic Seas.
  • Vis forfatter(e) (2012). Sources and propagation of anomalous freshwater content in the Nordic Seas.
  • Vis forfatter(e) (2012). Quantifying the influence of Atlantic heat on Barents Sea ice variability and retreat.
  • Vis forfatter(e) (2012). Quantifying the influence of Atlantic heat on Barents Sea ice variability and retreat.
  • Vis forfatter(e) (2012). Northern constraints on the Atlantic thermohaline circulation.
  • Vis forfatter(e) (2012). Nordic Seas overflows—the last two millennia.
  • Vis forfatter(e) (2012). Nordic Seas freshwater anomalies tracked back to the Atlantic inflow?
  • Vis forfatter(e) (2012). Mechanisms for decadal scale variability in the North Atlantic Ocean circulation in the Bergen Climate Model (talk).
  • Vis forfatter(e) (2012). Atlantic origin of Nordic Seas freshwater anomalies.
  • Vis forfatter(e) (2012). A new overturning loop for the formation of Denmark Strait Overflow Water.
  • Vis forfatter(e) (2012). A carbon budget for the Nordic Seas.
  • Vis forfatter(e) (2012). A brief history of climate - the northern seas from Last Glacial Maximum to global warming. Climate Change at high latitudes.
  • Vis forfatter(e) (2011). formation of Denmark STrait Overflow Water via boundary currents and transformation in the central Iceland Sea.
  • Vis forfatter(e) (2011). Quantifying the influence of Atlantic heat on sea ice variability and retreat in the Barents Sea.
  • Vis forfatter(e) (2011). Quantifying the influence of Atlantic heat on Barents Sea ice variability and retreat.
  • Vis forfatter(e) (2011). Predictability of Arctic/North Atlantic climate.
  • Vis forfatter(e) (2011). On the possible predictability of Barents sea ice cover and regional climate.
  • Vis forfatter(e) (2011). Northern constraints to the Atlantic thermohaline circulation.
  • Vis forfatter(e) (2011). Northern constraints on the Atlantic thermohaline circulation.
  • Vis forfatter(e) (2011). Mechanisms for decadal scale variability in the North Atlantic Ocean circulation in the Bergen Climate Model.
  • Vis forfatter(e) (2011). Klimaforskernes krystallkule.
  • Vis forfatter(e) (2011). Formation of Denmark Strait Overflow Water via boundary currents and transformation in the central Iceland Sea.
  • Vis forfatter(e) (2011). Formation of Denmark Strait Overflow Water via boundary currents and transformation in the central Iceland Sea.
  • Vis forfatter(e) (2010). Variability in Northern Deep Water Masses on Decadal scale.
  • Vis forfatter(e) (2010). The Nordic Seas Carbon Budget: Sources, Sinks And Uncertainties.
  • Vis forfatter(e) (2010). Sources and sinks for heat and salt in the Arctic Mediterranean via exchanges at the Greenland-Scotland Ridge.
  • Vis forfatter(e) (2010). Open-ocean Deep Convection in Climate Models.
  • Vis forfatter(e) (2010). On the predictability of Arctic/North Atlantic climate.
  • Vis forfatter(e) (2010). On the persistence and possible prediction of the Arctic/Atlantic THC.
  • Vis forfatter(e) (2010). Observed Sources and Variability of Nordic Seas overflow.
  • Vis forfatter(e) (2010). Northern deep-water formation and relations to the large-scale circulation.
  • Vis forfatter(e) (2010). Northern constraints on the Atlantic thermohaline circulation.
  • Vis forfatter(e) (2010). Distribution of the Northern Water Mass Formation completing the Atlantic Meridional Overturning Circulation.
  • Vis forfatter(e) (2010). Decadal-Millennial Scale Variability in the Nordic Seas overflows and their relationship to climate during the Holocene.
  • Vis forfatter(e) (2010). Constraining the Arctic/Atlantic thermohaline circulation.
  • Vis forfatter(e) (2009). Variability and constraints of the Arctic-North Atlantic thermohaline circulation.
  • Vis forfatter(e) (2009). Summary - RG3 in BCCR: high relevance, low impact?
  • Vis forfatter(e) (2009). Nordic recipes: constraining the thermohaline circulation's northern limb.
  • Vis forfatter(e) (2009). Nordic recipes: constraining the ocean’s northern overturning.
  • Vis forfatter(e) (2009). Nordic Recipes.
  • Vis forfatter(e) (2009). Nordic Recipes.
  • Vis forfatter(e) (2009). Hvordan varierer havstrømmene mellom Nordatlanteren og Arktis?
  • Vis forfatter(e) (2009). Constraining the Arctic/North Atlantic Circulation.
  • Vis forfatter(e) (2009). BIAC working theme 4: Contribution to the Atlantic thermohaline circulation and consequences for climate.
  • Vis forfatter(e) (2007). The Greenland Sea does not control the overflows feeding the Atlantic conveyor.
  • Vis forfatter(e) (2007). The Greenland Sea does not control the overflows feeding the Atlantic conveyor.
  • Vis forfatter(e) (2007). The Greenland Sea and the Atlantic Conveyor.
  • Vis forfatter(e) (2006). Little trace of the Greenland Sea in the Atlantic Conveyor.
  • Vis forfatter(e) (2006). Is the Greenland Sea a major part of the Atlantic Conveyor?
  • Vis forfatter(e) (2006). Introduction to session on Process and feedbacks.
  • Vis forfatter(e) (2005). Tracing out the export pathways and overflows of the Nordic Seas.
  • Vis forfatter(e) (2005). Tracing out mixing, pathways, and export of the Nordic Seas.
  • Vis forfatter(e) (2004). On reconstructing the thermocline in the Faroe-Shetland Channel from paleo proxies, and estimating the associated fluxes.
  • Vis forfatter(e) (2004). On linking the internal circulation of the Nordic Seas with the overflows. What can we learn from the 1996 SF6 release in the central Greenland Sea?
  • Vis forfatter(e) (2003). On long-lived convective eddies in the Greenland Sea.
  • Vis forfatter(e) (2002). Resolved and parameterized convective eddies in the Greenland Sea.
  • Vis forfatter(e) (2002). Convective Submesoscale Coherent Vortices in the Greenland Sea.
Populærvitenskapelig artikkel
  • Vis forfatter(e) (2021). Recruitment of a new generation of polar researchers. Fram Forum. 58-63.
  • Vis forfatter(e) (2019). The Nansen Legacy. Fram Forum. 100-105.
  • Vis forfatter(e) (2019). Klimavarsling - en arv etter Nansen. Bjerknessenteret News.
  • Vis forfatter(e) (2019). Hvor går grensen for iskanten . Dagens næringsliv.
  • Vis forfatter(e) (2016). Norskehavets hukommelse gjør klimavarsling mulig. Naturen. 42-47.
  • Vis forfatter(e) (2015). Et sted må grensen gå. Magasinet 2ºC.
  • Vis forfatter(e) (2014). En kort historie om klima – de nordlige hav fra siste istid til global oppvarming. Nansen Minneforelesning. Årbok / Det norske videnskaps-akademi. 349-361.
  • Vis forfatter(e) (2011). Smi mens reaktoren er varm- debattinnlegg. Bergens Tidende.
  • Vis forfatter(e) (2005). Klimatiske veivalg i Norskehavet. Cicerone. 22-24.
  • Vis forfatter(e) (2004). Spredning av SF6 i Grønlandshavet. Cicerone. 21-24.
  • Vis forfatter(e) (2003). Viktige klimaprosesser i De Nordiske Hav. Cicerone. 20-22.
  • Vis forfatter(e) (2002). Dypvannsdannelse i ny form. Cicerone. 20-22.
Kronikk
  • Vis forfatter(e) (2014). Arven etter Nansen. Bergens Tidende.
  • Vis forfatter(e) (2009). Klima i de lange linjers perspektiv. Forskning.no.
  • Vis forfatter(e) (2006). En ny istid truer? Dagbladet.
  • Vis forfatter(e) (2004). Klimaet og The Day After Tomorrow. Bergens Tidende.
Doktorgradsavhandling
  • Vis forfatter(e) (2024). Present and future drivers of Arctic sea ice variability.
  • Vis forfatter(e) (2023). Arctic-Atlantic Climate Variability and Predictability in Observations and in a Dynamical Prediction System.
  • Vis forfatter(e) (2017). Regional, seasonal, and predictable Arctic sea ice change.
  • Vis forfatter(e) (2017). On freshwater and the density-driven circulation in the northern seas.
  • Vis forfatter(e) (2014). The circulation of the Norwegian Sea - An investigation from space and ocean.
  • Vis forfatter(e) (2000). On spiral eddies in the ocean.
Intervju
  • Vis forfatter(e) (2009). Et skritt mot bedre klimavarsling.
  • Vis forfatter(e) (2006). Golfstrømmen stanset ikke.
Vitenskapelig Kapittel/Artikkel/Konferanseartikkel
  • Vis forfatter(e) (2006). Coastal Physical and Biochemical Processes.
  • Vis forfatter(e) (2005). Pathways and export of Greenland Sea water. 16 sider.
  • Vis forfatter(e) (2005). Convective Chimneys and Plumes in the Northern Greenland Sea. 22 sider.
Errata
  • Vis forfatter(e) (2021). Erratum: The role of Atlantic heat transport in future Arctic winter sea ice loss (J. Climate (2019) 32 (3327–3341) DOI: 10.1175/JCLI-D-18-0750.1). Journal of Climate. 3271.
  • Vis forfatter(e) (2016). Mesoscale ocean eddy dataset in the Lofoten Basin from Satellite Altimetry. Journal of Geophysical Research (JGR): Oceans. 4503-4521.
Vitenskapelig oversiktsartikkel/review
  • Vis forfatter(e) (2023). Still Arctic? — The changing Barents Sea. Elementa: Science of the Anthropocene. 1-62.
  • Vis forfatter(e) (2022). Nordic Seas Heat Loss, Atlantic Inflow, and Arctic Sea Ice cover over the last century. Reviews of Geophysics.
  • Vis forfatter(e) (2018). Atlantic-Pacific Asymmetry in Deep Water Formation. Annual Review of Earth and Planetary Science. 327-352.
  • Vis forfatter(e) (2014). Atlantic origin of observed and modelled freshwater anomalies in the Nordic Seas. Nature Geoscience. 801-805.
  • Vis forfatter(e) (2013). The role of the Barents Sea in the arctic climate system. Reviews of Geophysics. 415-449.
Brosjyre
  • Vis forfatter(e) (2010). Golfstrømmen og vårt milde klima.

Se fullstendig oversikt over publikasjoner i CRIStin.

Smi mens turbinen er varm. Dagens Næringsliv, 21/3/2024

Etisk skivebom av Stølen. Khrono, 14/2/2024

Ikke gjøre skade. Aftenposten, 16/12/2023

Hvem styrer Forskningsrådet? Khrono, 14/12/2023

De måske egnede. Khrono, 14/3/2023

Målet for tilslagsprosenten er for høytKhrono, 8/2/2023

Å selge skinnet før bjørnen er evaluertKhrono, 18/1/2023

Forskning, en julefortelling. Dagens Næringsliv, 25/12/2022

Borten Moes analyse har de grunnleggende fakta mot segDagens Næringsliv, 11/4/2022

For enkelt fra Hatlen-utvalgetKhrono, 23/3/2022

Å beregne verdenKhrono, 23/10/2021

Fra det moderne Norges åndsliv. Khrono, 28/9/2021

Hundreårs stormflo fra Atlanterhavet årlig eller hvert femte år? Dagens Næringsliv, 8/6/2021

Norges siste valgte rektor? Khrono, 22/3/2021

Iskanten: Femten er ikke midt mellom tredve og aldri. Dagens Næringsliv, 6/6/2020

Slapt om slappe studenterKhrono, 23/12/2019

Hvor går grensen for iskanten? Dagens Næringsliv, 5/7/2019

Vi må ha kutt og nedrustning av møtevirksomhetKhrono, 4/7/2019

Plan A. Morgenbladet, 11/1/2019

Fisk i olje – med omdømmet i behold? Dagens Næringsliv, 23/8/2018

Hva er vi for når vi hele tiden er mot? Morgenbladet, 11/5/2018

Når substansen skal sjekkes. Morgenbladet, 8/12/2017

Forskergrupper