Hjem
Tore Fureviks bilde

Tore Furevik

Professor, Direktør Bjerknessenteret for klimaforskning
  • E-postTore.Furevik@uib.no
  • Telefon+47 55 58 26 91
  • Besøksadresse
    Geofysisk Institutt
    Allegt 70
    5007 Bergen
  • Postadresse
    Postboks 7803
    5020 BERGEN
  • Klimavariabilitet og klimaendringar, med fokus på Nord-Atlanteren, Nordiske Hav og Arktis
  • Havets respons på atmosfæriske pådriv 
  • Luft/hav/is vekselverknad
  • Prosessar i havet på høge breidder
Vitenskapelig artikkel
  • 2020. Oceanic forcing of the global warming slowdown in multi-model simulations . International Journal of Climatology.
  • 2020. Eurasia Cooling Linked to the Vertical Distribution of Arctic Warming. Geophysical Research Letters.
  • 2019. Strengthened linkage between midlatitudes and Arctic in boreal winter. Climate Dynamics. 3971-3983.
  • 2018. Weaker connection between the Atlantic Multidecadal Oscillation and Indian summer rainfall since the mid-1990s. Atmospheric and Oceanic Science Letters. 37-43.
  • 2018. The connection between the Atlantic Multidecadal Oscillation and the Indian Summer Monsoon since the Industrial Revolution is intrinsic to the climate system. Environmental Research Letters. 1-9.
  • 2018. Teleconnection between sea ice in the Barents Sea in June and the Silk Road, Pacific–Japan and East Asian rainfall patterns in August. Advances in Atmospheric Sciences. 52-64.
  • 2018. Quantifying Atlantic Water transport to the Nordic Seas by remote sensing. Remote Sensing of Environment. 758-769.
  • 2018. Evidence for Predictive Skill of High-Latitude Climate Due to Midsummer Sea Ice Extent Anomalies. Geophysical Research Letters. 9114-9122.
  • 2018. Arctic warming hotspot in the northern Barents Sea linked to declining sea-ice import. Nature Climate Change. 634-639.
  • 2017. The connection between the Atlantic Multidecadal Oscillation and the Indian Summer Monsoon in the CMIP5 models. Climate Dynamics. 1-17.
  • 2017. Skillful prediction of northern climate provided by the ocean. Nature Communications. 1-11.
  • 2016. Simulation by CMIP5 models of the Atlantic Multidecadal Oscillation and its climate impacts. Advances in Atmospheric Sciences. 1329-1342.
  • 2016. Arctic layer salinity controls heat loss from deep Atlantic layer in seasonally ice-covered areas of the Barents Sea. Geophysical Research Letters. 5233-5242.
  • 2015. Observed anomalous atmospheric patterns in summers of unusual Arctic sea ice melt. Journal of Geophysical Research (JGR): Atmospheres. 2595-2611.
  • 2015. Air–sea coupling enhances the East Asian winter climate response to the Atlantic Multidecadal Oscillation. Advances in Atmospheric Sciences. 1647-1659.
  • 2014. Modulation of the Pacific Decadal Oscillation on the summer precipitation over East China: a comparison of observations to 600-years control run of Bergen Climate Model. Climate Dynamics. 475-494.
  • 2014. Arctic sea ice and Eurasian climate: A review. Advances in Atmospheric Sciences. 92-114.
  • 2014. A signal of persistent Atlantic multidecadal variability in Arctic sea ice. Geophysical Research Letters. 463-469.
  • 2013. Teleconnection between Winter Arctic Oscillation and Southeast Asian Summer Monsoon in the Pre-Industry Simulation of a Coupled Climate Model. Atmospheric and Oceanic Science Letters. 349-354.
  • 2013. Anthropogenic agent implicated as a prime driver of shift in precipitation in eastern China in the late 1970s. Atmospheric Chemistry and Physics. 12433-12450.
  • 2013. Anthropogenic Forcing Agents and the “Southern Flood and Northern Drought” in Eastern China. Atmospheric Chemistry and Physics Discussions. 11997-12032.
  • 2012. Variability of the Atlantic inflow to the Nordic Seas and its causes inferred from observations of sea surface height. Journal of Geophysical Research (JGR): Oceans. 12 sider.
  • 2012. Mechanisms for decadal scale variability in a simulated Atlantic Meridional Overturning Circulation. Climate Dynamics. 77-93.
  • 2012. A New Method for Predicting the Decadal Component of Global SST. Atmospheric and Oceanic Science Letters. 521-526.
  • 2011. The connection between the Atlantic Multidecadal Oscillation and the Indian Summer Monsoon in Bergen Climate Model Version 2.0. Journal of Geophysical Research (JGR): Atmospheres. 9 sider.
  • 2011. The connection between the Atlantic Multidecadal Oscillation and the Indian Summer Monsoon in Bergen Climate Model Version 2.0. Journal of Geophysical Research (JGR): Atmospheres.
  • 2011. North Atlantic 20th century multidecadal variability in coupled climate models: Sea surface temperature and ocean overturning circulation. Ocean Science. 389-404.
  • 2011. Heat and freshwater budgets of the Nordic seas computed from atmospheric reanalysis and ocean observations. Journal of Geophysical Research (JGR): Oceans. 17 sider.
  • 2010. Computing cross-isotherm volume transports from ocean temperature observations and surface heat fluxes, with application to the Barents Sea inflow. Continental Shelf Research. 1830-1839.
  • 2009. Effect of wintertime low-pressure systems on the Atlantic inflow to the Nordic seas. Journal of Geophysical Research (JGR): Oceans.
  • 2008. Relation between the wind stress curl in the North Atlantic and the Atlantic inflow to the Nordic Seas. Journal of Geophysical Research (JGR). 16 sider.
  • 2006. Towards a more saline North Atlantic and a fresher Arctic under global warming. Geophysical Research Letters. L21712.
  • 2005. Effects of simulated natural variability on Arctic temperature projections. Geophysical Research Letters.
  • 2004. Simulated variability of the Atlantic meridional overturning circulation. Climate Dynamics. 701-720.
  • 2004. Coherent variability of the Norwegian Atlantic Slope Current from TOPEX/ERS altimeter data. Geophysical Research Letters.
  • 2003. Wave Height Variations in the North Sea and on the Norwegian Continental Shelf, 1881 to 1999. Continental Shelf Research. 251-263.
  • 2003. Simulated variability of the Atlantic meridional overturning circulation. Climate Dynamics.
  • 2003. Simulated North Atlantic-Nordic Seas Water Mass Exchanges in an Isopycnic Coordinate OGCM. Geophysical Research Letters. 4 sider.
  • 2003. Description and Evaluation of the Bergen Climate Model: ARPEGE coupled with MICOM. Climate Dynamics. 27-51.
  • 2002. Temporal and spatial variability of the sea surface salinity in the Nordic Seas. Journal of Geophysical Research (JGR).
  • 2002. Interannual Scale Adjustment of the North Atlantic Thermohaline Circulation to the Atmospheric Forcing in a Global Air-Sea Coupled Model. Journal of Climate.
  • 2002. Basin and Local-Scale Variability Modes of the Atlantic Thermohaline Circulation in a Global Air-Sea Coupled Model. Geophysical Research Letters.
  • 2001. Annual and interannual variability of Atlantic Water temperatures in the Norwegian and Barents Seas: 1980-1996. Deep Sea Research Part I: Oceanographic Research Papers. 383-404.
  • 2000. On anomalous sea surface temperatures in the Nordic Seas. Journal of Climate. 1044-1053.
  • 2000. On anomalous sea surface temperatures in the Nordic Seas. Journal of Climate. 1-12.
  • 2000. On Atlantic Water temperatures in the Nordic Seas (submitted). Deep Sea Research Part I: Oceanographic Research Papers. 1-20.
  • 1996. Stability at M2 critical latitude in the Barents Sea. Journal of Geophysical Research (JGR). 8823-8837.
Faglig foredrag
  • 2018. Teleconnection between Arctic warming and Eurasian cooling.
  • 2018. New insights into the Arctic warming - Eurasian cooling teleconnection.
  • 2018. Evidence for predictive skill of high‐latitude climate due to midsummer sea‐ice extent anomalies.
Populærvitenskapelig foredrag
  • 2010. Global oppvarming og klimautfordringar.
  • 2010. Global oppvarming - kvifor hastar det med å få på plass ein avtale?
  • 2007. Klimaendringar – er dagens klima del av naturleg variabilitet eller er det menneskeskapt?
  • 2007. Hvilke klimaendringer må vi forvente oss - og er vi forberedt?
  • 2007. Bjerknessenteret og klimaendringar.
  • 2005. Vil Golfstraumen forsvinna?
  • 2005. Teleconnections.
  • 2005. Klimascenarier for Vestlandet 2005-2050.
Vitenskapelig foredrag
  • 2018. Atlantic multi-decadal variability and the Indian summer monsoon in CMIP5 models.
  • 2016. Are we doing all we can to prepare for future changes in climate?
  • 2013. Mer ekstremt vær med mindre is i Arktis?
  • 2012. Research at the Bjerknes Centre for Climate Research - Relevance for Vietnam.
  • 2012. Mechanisms for decadal scale variability in the North Atlantic Ocean circulation in the Bergen Climate Model (talk).
  • 2012. Global warming, climate threats and the need for disaster risk reduction.
  • 2012. Global consequences of sclimate change.
  • 2012. Global consequences of climate change and changes in the Arctic, symposium on climate change.
  • 2012. Den blir skrint i jordas brødkurv.
  • 2012. Climate change, effects on agriculture and food production.
  • 2011. SEnter for klimadynamikk ved Bjerknessenteret.
  • 2011. Nye resultat med den norske jordsystemmodellen.
  • 2011. New results with the Norwegian Earth System Model.
  • 2011. Mechanisms for decadal scale variability in the North Atlantic Ocean circulation in the Bergen Climate Model.
  • 2011. Klimamodellering og klimatilpasning i utviklingsland.
  • 2011. Hvordan kan forskerskolen i klima bidra til at vi blir kompetansemessig rustet til å møte klimaendringene.
  • 2011. Global warming and the need for climate change adaptation and disaster risk reduction.
  • 2011. Global oppvarming som pådriver for nytenkning og innovasjon.
  • 2011. Downscaling of future climate projections with WRF model.
  • 2011. Climate research in Bergen, Norway and relevance for CRES.
  • 2010. Writing training in the natural sciences: Activities within the Norwegian Research School in Climate Dynamics.
  • 2010. The human induced climate change - evidence and impacts.
  • 2010. The human induced climate change - evidence and impacts.
  • 2010. The Norwegian research school in climate dynamics- a multi disciplinary, multi-institutional approach.
  • 2010. Reduced Arctic Sea Ice - consequences for air-sea interaction, vertical mixing and atmosphere-oceancirculation.
  • 2010. Heat and freshwater budgets of the Nordic Seas.
  • 2010. Formidling i klimaforskninga - har etikken drukna i skyttergravskrig og politisk aktivisme?
  • 2010. Climate coupling between high and low latitudes - mechanism for forcing from the North.
  • 2010. Climate change over Central and South Asia.
  • 2010. Arctic Integration.
  • 2009. The relation between the wind stress (curl) in the North Atlantic and the Atlantic inflow to the Nordic Seas.
  • 2009. Overview RG2 - activities.
  • 2009. North Atlantic 20th century climate variability in coupled climate models.
  • 2009. Cross-isotherm currents in the southwestern part of the Barents Sea: flow field derived from ocean temperature observations and surface heat fluxes.
  • 2009. Changing climate of the Northeast Atlantic: Status, trends and impacts, Symposium at the Runde environmental centre opening.
  • 2009. Changing climate of the Northeast Atlantic: Status, trends and impacts.
  • 2008. Mot eit blått arktisk.
  • 2008. Introduction to the climate update session.
  • 2008. Climate couplings between low and high latitudes - the role of the ocean circulation on decadal to multidecadal time scales.
  • 2008. Climate change - evidence and impacts.
  • 2008. Bjerknes collaboration – the climate dimension of Bergen marine research cluster.
  • 2008. Arctic sea ice - already passed the tipping point.
  • 2008. Arctic Sea Ice loss and feedbacks to atmosphere and ocean – Faster than anticipated?
  • 2007. Projected changes in the climate of the Barents Sea region in the 21st century.
  • 2007. Changing Atlantic-Arctic climate, uncertainties and impacts.
  • 2007. Changing Arctic Climate, driving forces, feedbacks and impacts.
  • 2007. Changes of Arctic ice observed from satellites.
  • 2007. Arctic Climate Variability and Climate Change.
  • 2006. Wind-driven inflow to the Nordic Seas.
  • 2006. Ocean gyres and the thermohaline circulation: Processes and implications for heat transports.
  • 2006. Key gaps in our understanding of the Arctic climate system.
  • 2006. Cetennial Nordic Seas ocean acidification, aragonite saturation, pelagic calcifiers and cold water reefs.
  • 2006. Atmospheric forcing of the oceanic heat transport to northern Europe and Arctic.
  • 2006. Atmospheric forcing of the oceanic heat transport to northern Europe and Arctic.
  • 2005. Tracing out the export pathways and overflows of the Nordic Seas.
  • 2005. The international polar year, Scientific Challenges and opportunities.
  • 2005. The effect of sea ice changes on the ocean circulation.
  • 2005. Large-Scale atmospheric forcing of the Nordic Seas Ocean Circulation.
  • 2005. High lattitude climate variability and atmospheric forcing. Introduction and overview.
  • 2005. High latitude climate variability and atmospheric forcing of the ocean - Introduction and overview.
  • 2005. Feedbacks in the climate system and implications for future climate projections.
  • 2004. The Sensitivity of Arctic Climate Projections to Natural Variability.
  • 2004. On the recent time history and forcing of the inflow of Atlantic Water to the Arctic Mediterranean.
  • 2004. Large-Scale Variability in the Nordic Seas: Natural Variability or Climate Change?
  • 2004. Large-Scale Atmospheric Circulation Impacts on the Nordic Seas Ocean Climate.
  • 2004. Climate scenarios and uncertainties in high-northern latitudes.
  • 2004. Century scale climate changes in Northern Europe and the Nordic Seas during the last 10.000 years � a result of changing equator-pole temperature gradients or variations in the phase of dominant climate modes?
  • 2003. Variability of the Atlantic Meridional Overturning Circulation.
  • 2003. Variability and trends in the Arctic climate a simulated with the Bergen Climate Model.
  • 2003. Variability and trends in the Arctic Climate as Simulated with the Bergen Climate model.
  • 2003. The ventilation, pathways and overflows of the Nordic Seas - Challenges as seen from a Bjerknes Centre Climate Modellling perspective.
  • 2003. The sensitivity of Arctic Climate Projections to the Initial state and fate of the thermohaline circulation.
  • 2003. Temporal and spatial variability of the sea surface salinity in the Nordic Seas.
  • 2003. Simulated North Atlantic-Nordic Seas water mass ewchanges in an isopycnic coordinate OGCM.
  • 2003. Results from CMIP2 ensemble simulations with the Bergen Climate Model (BCM).
  • 2003. North Atlantic-Nordic Seas water mass exchanges in an isopycnic coordinate OGCM.
  • 2003. Kva skjer med havstraumane og det Arktiske isdekket under global oppvarmning?
  • 2003. Bergen climate model: Some results from a 300 years control integration.
  • 2003. Atmosphere forcing of the Nordic Seas climate.
  • 2003. An overview of the large-scale modelling activity in Berge: with focus on the role of fresh water on the Atlantic Meridional Overtyrning Circulation (AMOC).
  • 2003. An overview of modeling activities at the Bjerknes Centre for Climate Research.
  • 2002. The Bergen Climate Model: Results from a CMIP2 integration - regional aspects.
  • 2002. The Bergen Climate Model: Results from a CMIP2 integration - regional aspects.
  • 2002. The Bergen Climate Model - results from a 300 years control integration.
  • 2002. Simulated influence of increased greenhouse gas forcing on the North Atlantic Oscillation.
  • 2002. NAO/AO variability in the coupled Bergen Climate Model.
  • 2002. Highlights from the climate modelling in Bergen.
  • 2002. Highlights from the Bergen Climate model: Results from a 300-years control integration,and from a 80-years integration with 1% increase in CO2.
  • 2002. Can atmospheric reanalysis data explain the observed changes in the Arctic?
  • 2002. Atmospheric forcing of the Nordic Seas region.
  • 2001. Variability in a 300 years integration with the Bergen Climate Model.
  • 2001. The NAO/AO signal in the fully coupled Bergen Climate Model.
  • 2001. THE NAO/AO SIGNAL IN THE BERGEN CLIMATE MODEL: ARPEGE COUPLED TO MICOM.
  • 2001. Scenarier for klimaendringer i våre område.
  • 2001. Decadal to century scale climate variability in the North Atlantic and Nordic Seas during the late Glacial and the Holocene - IMAGES results.
  • 2001. An overview of the Bergen Climate Model.
  • 2000. Technical Coupling of ARPEGE/MICOM.
  • 2000. Propagation of heat anomalies towards the Arctic Ocean.
  • 2000. Preliminary results from a coupled atmosphere-ocean-sea ice model.
Vitenskapelig antologi/Konferanseserie
  • 2005. The Nordic Seas - An Integrated Perspective. American Geophysical Union (AGU).
  • 2004. Climate variability in th Nordic Seas. American Geophysical Union (AGU).
Populærvitenskapelig artikkel
  • 2016. Tre feil om klimaendringer. NRK Ytring.
  • 2015. Vestlandsregnet - blir det våtere enn før? Årbok for Universitetsmuseet i Bergen.
  • 2014. “Svakere vinder kan redde Sydhavsøyene – enn så lenge”. Bergens Tidende. 16-17.
  • 2014. Arven fra polene. Dagens næringsliv. 46-46.
  • 2010. Studerer klimavariasjoner i Asia. Klima. 30-31.
  • 2010. Studerer klimavariasjonar i Asia. Klima.
  • 2007. Varmare enn venta. Hubro. Magasin for Universitetet i Bergen. 10-11.
  • 2005. Omfattende arbeid med bedre klimamodeller. Cicerone. 22-23.
  • 2005. Et klima i endring, i: I Bakketeig, I., Dommasnes, A., Føyn, L., Haug, T., Iversen S.A., Røttingen, I., Svendsen, E., Torstensen, E. (Eds.) Havets Ressurser og miljø 2005. Fisken og Havet, Særnummer. 183-185.
  • 2004. Variasjoner i den norske atlanterhavsstraumen. Cicerone. 22-24.
  • 2004. Dei varme ettersomrane. Cicerone. 28-29.
  • 2003. Den kalde og tørre forvinteren. Cicerone. 25-27.
  • 2002. Økt CO2 gir forandring i sirkulasjonsmønsteret. Cicerone. 30-31.
  • 2002. Variasjoner i Atlanterhavets dypvannssirkulasjon er styrt av Labradorhavet. Cicerone. 23-27.
  • 2002. Lovende resultater for nyutviklet klimamodell. Cicerone. 16-19.
  • 2002. Climate-fish relations in Norwegian waters. Fisken og Havet.
  • 2002. Anticipated Changes in the Nordic Seas Marine Climate. Fisken og Havet. 1-13.
  • 2000. Ny modell gir mer realistiske klimaberegninger. Cicerone. 28-31.
  • 2000. Mot et isfritt Arktis ? Cicerone. 19-23.
  • 1999. Havstrømmer i Nord-Atlanteren endres ved økt drivhuseffekt. Cicerone. 1-4.
  • 1999. Havsirkulasjonene i Nord-Atlanteren under global oppvarming. Cicerone. 26-28.
Kronikk
  • 2017. Ideer verdt å forsvare. Dagens næringsliv. 1 sider.
  • 2012. Mindre mat i eit varmare klima. På Høyden ( UiBs nettavis).
  • 2012. Det blir skrint i jordas brødkorg. Bergens Tidende.
  • 2010. Skjerp klimaspråket! Bergens Tidende.
  • 2010. Skjerp klimaspråket. Skjerp klimaspråket.
  • 2001. Vestlandsveret. Bergens Tidende.
Doktorgradsavhandling
  • 2018. The northern Barents Sea during 1970–2016: From seabed to surface in the Arctic warming hotspot.
  • 2015. Linking Northern High-Latitude Cryospheric Changes to Large-Scale Atmospheric Circulation.
  • 2014. The circulation of the Norwegian Sea - An investigation from space and ocean.
  • 2005. The effect of climate on Arcto-Norwegian cod - a model approach.
  • 1998. On the Atlantic Water Flow in the Nordic Seas. Bifurcation and Variability. -.
Vitenskapelig Kapittel/Artikkel/Konferanseartikkel
  • 2008. Volume and heat transports to the Arctic Ocean via the Norwegian and Barents Seas. 20 sider.
  • 2008. Simulating the terms in rhe arctic hydrological budget. 22 sider.
  • 2007. The Flow of Atlantic Water to the Nordic Seas and Arctic Ocean. 24 sider.
  • 2005. The Nordic Seas: An overview. 10 sider.
  • 2005. Response of the Surface Ocean CO2 System in the Nordic Seas and Northern North Atlantic to Climate Change. 10 sider.
  • 2005. Pathways and export of Greenland Sea water. 16 sider.
  • 2005. Large-Scale Atmospheric Circulation Variability and its Impacts on the Nordic Seas Ocean Climate - a review. 32 sider.
Vitenskapelig oversiktsartikkel/review
  • 2009. Impacts of the oceans on climate change. 1-150.
Brosjyre
  • 2010. Sjøisen i Arktis.

Se fullstendig oversikt over publikasjoner i CRIStin.

  1. (1)    Lei Yu, Tore Furevik,  Odd Helge Ottera and Yongqi Gao, 2014: Modulation of the Pacific Decadal Oscillation on the summer precipitation over East China: a comparison of observations to 600-years control run of Bergen Climate Model, Clim Dyn DOI 10.1007/s00382-014-2141-5

  2. (2)Miles, M.W., Divine, D.V., Furevik, T., Jansen, E., Moros, M., and Ogilvie, A.E.J., 2014:  Signal of persistent multidecadal variability in arctic sea ice.  Geophys. Res. Lett. 41, 2013GL058084

  3. (3)Wang, T., H. J. Wang, O. H. Otterå, Y. Q. Gao, L. L. Suo, T. Furevik, and L. Yu (2013): Anthropogenic agent implicated as a prime driver of shift in precipitation in eastern China in the late 1970s. Atmos. Chem. Phys., 13, 12433–12450, 2013

  4. (4)Wang, Y.T., H.J. Yang, and T. Furevik (2013): What determines the amplitude of ENSO events. Atmos. Oceanic Sci. Lett 6, 90-96

  5. (5)Ui, X.D, Y. Gao, D. Gong, D. Guo, T. Furevik (2013): Teleconnection between Winter Arctic Oscillation and Southeast Asian Summer Monsoon in the Pre-Industry Simulation of a Coupled Climate Model . Atmos. Oceanic Sci. Lett., 6(5), 349-354, doi: 10.3878/j.issn.1674-2834.12.0114 

  6. (6)Medhaug, I., Langehaug, H., Eldevik, T., Furevik, T., and Bentsen, M. (2012), Mechanisms for decadal scale variability in a simulated Atlantic Meridional Overturning Circulation, Clim. Dyn., doi: 10.1007/s00382-011-1124-z 

  7. (7)Luo, F., S Li, Y Gao, T Furevik (2012): A New Method for Predicting the Decadal Component of Global SST, Atmospheric and Oceanic Science Letters, Vol 5, No. 6, pp 514-520

  8. (8)Richter, K., Segtnan OHA, and Furevik, T. (2012): Variability of the Atlantic inflow to the Nordic Seas and its causes inferred from observations of sea surface height,  J. Geophys. Res. Oceans, doi:10.1029/2011JC007719, online 2/2012

  9. (9)Luo, F., Li, S., and Furevik, T. (2011): The connection between the Atlantic Multidecadal Oscillation and the Indian Summer Monsoon in Bergen Climate Model Version 2.0, J. Geophys. Res. Atmos., 116, D19117, doi: 10.1029/2011JD015848, 2011 

  10. (10)Segtnan, O.H.A., Furevik, T., and Jenkins A.D. (2011), Heat and freshwater budgets of the Nordic Seas computed from atmospheric reanalysis and direct ocean observations, J. Geophys. Res. Oceans, 116, C11003, doi: 10.1029/2011JC006939 

  11. (11)Medhaug, I. and T. Furevik (2011), North Atlantic 20th century multidecadal variability in coupled climate models: Sea surface temperature and ocean overturning circulation, Ocean Science, 8: 353-396, doi: 10.5194/osd-8-353-2011D 

  12. (12)Segtnan, O.H.A., Furevik, T., and Jenkins A.D. (2010), Cross-isotherm currents in the southwestern part of the Barents Sea: Flow field estimated indirectly from ocean temperature observations and surface heat fluxes, Continental Shelf Research (2010), doi:10.1016/j.csr.2010.08.009 

  13. (13)Reid, Philip C., et al (2009), Impacts of the oceans on climate change, in Sims, David W (ed.), Advances in Marine Biology, Vol 56, London, UK, Academic Press, 1-150.

  14. (14)Richter, K., T. Furevik, and K. A. Orvik (2009), Effect of wintertime low-pressure systems on the Atlantic inflow to the Nordic seas, J. Geophys. Res., 114, C09006, doi:10.1029/2009JC005392

  15. (15)Sandø, A.B. and Furevik, T. (2008). Relation between the wind stress curl in the North Atlantic and the Atlantic inflow to the Nordic Seas, J. Geophys. Res., 113, C06028, doi:10.1029/2007JC004236.

  16. (16)Skagseth, O., Furevik, T., Ingvaldsen, R., Loeng, H., Mork, K.A., Orvik, K.A., and Ozhigin, V. (2008).Volume and heat transports to the Arctic Ocean via the Norwegian and Barents Seas,  in Arctic - Subarctic Ocean Fluxes (R. Dickson, J. Meincke, and P. Rhines, Eds.) Springer Verlag, pp 25-64. 

  17. (17)Wu, P., Haak, H., Wood, R., Jungclaus, J., and Furevik, T. (2008). Simulating the terms in the Arctic hydrological budget, in Arctic - Subarctic Ocean Fluxes (R. Dickson, J. Meincke, and P. Rhines, Eds.) Springer Verlag, pp 363-384. 

  18. (18)Furevik, T., Mauritzen, C., and Ingvaldsen, R. (2007): The Flow of Atlantic Water to the Nordic Seas and Arctic Ocean,  in Arctic-Alpine Ecosystems and People in a Changing Environment (J.B. Ørbæk, R Kallenborn, I Tombre, E Nøst Hegseth, S Falk-Petersen, A.H. Hoel, Eds.), Springer Verlag, pp 123-146.

  19. (19)Bethke, I., Furevik, T., and Drange, H. (2006). Towards a more saline North Atlantic and a fresher Arctic under global warming,  Geophys. Res. Lett., 33, L21712, doi:10.1029/2006GL027264.

  20. (20) Sorteberg, A., Furevik, T., Drange, H., and Kvamsto, N.G. (2005): Simulated sensitivity of Arctic climate projections to natural variability, Geophys. Res. Lett.,  32 (18), L18708 doi:10.1029/2005GL023404 

  21. (21)Drange, H., Dokken, T., Furevik, T., Gerdes, R., and Berger, W, editors (2005): The Nordic Seas: An Integrated Perspective, preface, AGU Monograph 158, American Geophys. Union, Wash. DC, vii-viii

  22. (22)Drange, H., Dokken, T., Furevik, T., Gerdes, R., Berger, W., Nesje, A., Orvik, K. A., Skagseth, Û., Skjelvan, I., and Ûsterhus, S. (2005): The Nordic Seas: An overview, in The Nordic Seas: An Integrated Perspective (H. Drange, T. Dokken, T. Furevik, R. Gerdes and W. Berger, Eds.), AGU Monograph 158, American Geophys. Union, Wash. DC, 1-10. 

  23. (23)Furevik, T. and Nilsen, J.E.O. (2005): Large-Scale Atmospheric Circulation Variability and its Impacts on the Nordic Seas Ocean Climate - a review, in The Nordic Seas: An Integrated Perspective (H. Drange, T. Dokken, T. Furevik, R. Gerdes and W. Berger, Eds.), AGU Monograph 158, American Geophys. Union, Wash. DC, 105-136.

  24. (24) Bellerbye, R.G.J., Olsen A., Furevik, T., and Anderson, L.G. (2005): Response of the surface ocean CO2 system in the Nordic Seas to climate change, in The Nordic Seas: An Integrated Perspective (H. Drange, T. Dokken, T. Furevik, R. Gerdes and W. Berger, Eds.), AGU Monograph 158, American Geophys. Union, Wash. DC, 189-197.

  25. (25) Eldevik, T., Straneo, F., Sando A.B., and Furevik, T. (2005): Pathways and export of Greenland Sea water, in The Nordic Seas: An Integrated Perspective (H. Drange, T. Dokken, T. Furevik, R. Gerdes and W. Berger, Eds.), AGU Monograph 158, American Geophys. Union, Wash. DC, 89-103. 

  26. (26)Skagseth O., Orvik, K.A., and Furevik, T. (2004): Coherent variability of the Norwegian Atlantic slope current determined by using TOPEX/ERS altimeter data, Geophys. Res. Lett., 31, L14304, doi:10.1029/2004GL020057.

  27. (27) Bentsen, M., Drange, H., Furevik, T., and Zhou, T. (2004): Variability of the Atlantic meridional overturning circulation in an isopycnic coordinate OGCM, Clim. Dyn., 22: 701û720, doi:10.1007/s00382-004-0397-x. 

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Klima, klimaendringer, Nord-Atlanteren, Nordiske Hav, Arktis, Hav,

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