Biblio
Filtre: Forfatter er Otterå, Odd Helge [Slett Alle Filtre]
Modelling late Cenozoic isostatic elevation changes in the Barents Sea and their implications for oceanic and climate regimes: preliminary results. Quaternary Science Reviews 21, 1643-1660 (2002).
Interannual to decadal climate predictability: A multi-perfect-model-ensemble study. Journal of Climate 19, 1195-1203 (2006).
The Atlantic multidecadal oscillation: its manifestations and impacts with special emphasis on the Atlantic region north of 60°N. Journal of Marine Systems 133, (2014).
The Atlantic multidecadal oscillation: its manifestations and impacts with special emphasis on the Atlantic region north of 60°N. Journal of Marine Systems 133, (2013).
A brief history of climate e the northern seas from the last Glacial Maximum to global warming. Quaternary Science Reviews 106, (2014).
Regional hydrological cycle changes in response to an ambitious mitigation scenario. Climatic Change 120, (2013).
Bjerknes Centre for Climate Research - combining past, present and future climate change. Norwegian Journal of Geology 85, 33-44 (2005).
Climate change under aggressive mitigation: the ENSEMBLES multi-model experiment. Climate Dynamics 37, 1975 - 2003 (2011).
The effects of aggressive mitigation on steric sea level rise and sea ice changes. Climate Dynamics 40, (2013).
On the reconstruction of ocean circulation and climate based on the “Gardar Drift” (talk). Arctic Workshop 2015 (2015).
Northern water mass transformation and AMOC (poster). European Geophysical Union (2010).
Mechanisms for decadal scale variability in the North Atlantic Ocean circulation in the BCM (talk). Joint ASOF/THOR workshop (2011).
Distribution of the northern water mass formation completing the Atlantic Meridional Overturning Circulation (talk). American Geophysical Union Fall Meeting (2010).
Circulation and transformation of Atlantic and Arctic water masses in climate models. Doctoral thesis no. 94 180 (2011).på <http://hdl.handle.net/1956/5282>
On the reconstruction of ocean circulation and climate based on the "Gardar Drift". Paleoceanography 31, (2016).
Northern water masses and multidecadal climate variability (talk). International Polar Year Science Conference (2010).
The role of subpolar deep water formation and Nordic Seas overflows in simulated multidecadal variability of the Atlantic overturning. Ocean Science Discussions (2013).doi:10.5194/osd-10-1895-2013
Mechanisms for decadal scale variability in the North Atlantic Ocean circulation in the Bergen Climate Model (talk). European Geophysical Union (2012).
On the reconstruction of ocean circulation and climate based on the “Gardar Drift” (poster). The Past Earth Network (PEN) opening conference (2015).
The sensitivity of the North Atlantic-Arctic climate system to isostatic elevation changes, freshwater and solar forcings. Doctoral Thesis No. 41 (2003).
