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  • E-mailFumiaki.Ogawa@uib.no
  • Phone+47 55 58 21 46
  • Visitor Address
    Allegt. 70
  • Postal Address
    Postboks 7803
    5020 BERGEN
Academic article
  • 2020. Oceanic forcing of the global warming slowdown in multi-model simulations . International Journal of Climatology.
  • 2020. Factors affecting extreme rainfall events in the South Pacific. Weather and Climate Extremes.
  • 2019. Strengthened linkage between midlatitudes and Arctic in boreal winter. Climate Dynamics. 3971-3983.
  • 2019. Prevailing Surface Wind Direction during Air-Sea Heat Exchange. Journal of Climate. 5601-5617.
  • 2019. Key Role of the Ocean Western Boundary currents in shaping the Northern Hemisphere climate. Scientific Reports.
  • 2019. Impact of ocean and sea ice initialisation on seasonal prediction skill in the Arctic. Journal of Advances in Modeling Earth Systems. 4147-4166.
  • 2018. Multiscale characteristics of an extreme precipitation event over Nepal. Quarterly Journal of the Royal Meteorological Society. 179-196.
  • 2018. Impact of Arctic sea ice variations on winter temperature anomalies in northern hemispheric land areas. Climate Dynamics. 1-27.
  • 2018. Evaluating Impacts of Recent Arctic Sea Ice Loss on the Northern Hemisphere Winter Climate Change. Geophysical Research Letters. 3255-3263.
  • 2017. Impact of Oceanic Front on the Tropospheric Climatic Trend Induced by Ozone Depletion. CLIVAR Newsletter Exchanges. 37-42.
  • 2016. Importance of mid-latitude oceanic frontal zones for the annular-mode variability: Inter-basin differences in the Southern Annular-Mode signature. Journal of Climate. 6179-6199.
  • 2015. Ozone-induced climate change propped up by the Southern Hemisphere oceanic front. Geophysical Research Letters. 10056-10063.
  • 2012. Dependence of the climatological axial latitudes of the tropospheric westerlies and storm tracks on the latitude of an extratropical oceanic front. Geophysical Research Letters.
Academic lecture
  • 2020. Southern Hemisphere jet stream: emergent constraints on future shift in zonally varying framework.
  • 2020. Influence of mid-latitude oceanic fronts on the atmospheric water cycle.
  • 2018. Evaluating impacts of the Arctic sea ice loss and variation on the northern hemisphere climate.
  • 2018. Evaluating impacts of recent Arctic sea-ice loss on the northern hemisphere winter climate change.
  • 2018. Driver of the recent decadal warming over Greenland and Northern Canada.
  • 2018. Difference between Mean and Instantaneous Wind Direction associated with Air-Sea Fluxes.
  • 2018. Difference between Mean and Instantaneous Wind Direction associated with Air-Sea Fluxes.
  • 2017. Impacts of sea ice / SST changes for the observed climate change -GREENICE project.
  • 2017. Impact of Sea Ice/SST Changes for the Observed Climate Change.
  • 2017. Impact of Arctic sea ice variations on winter temperature anomalies in northern hemisphere land areas in multi-model ensemble simulations.
  • 2017. Difference between Mean and Instantaneous Wind Direction associated with Air-Sea Fluxes.
  • 2017. Air-Sea Interaction Regimes and their Synoptic and Climatological Interpretation.
  • 2017. A coordinated multi-model study on the impacts of recent Arctic sea ice loss on northern hemisphere climate changes.
  • 2017. A coordinated multi-model study on the impacts of recent Arctic sea ice loss on northern hemisphere climate changes.
  • 2016. Importance of mid-latitude oceanic frontal zone and associated baroclinic eddies on the ozone-induced stratosphere/troposphere coupling.
  • 2016. Impacts of sea ice / SST changes for the observed climate change –GREENICE project–.
  • 2015. Role of the Midlatitude Oceanic Front in the Ozone-induced Climate Change in the Southern Hemisphere as Revealed by Aqua Planet experiments.
  • 2015. Potential Importance of a Midlatitude Oceanic Frontal Zone in the Annular-Mode Variability and Relevant Climate Change as Revealed in Aqua Planet Experiments.
  • 2015. Impacts of sea ice / SST changes for the observed climate change –GREENICE project–.
  • 2013. Potential importance of midlatitude oceanic frontal latitude on the atmospheric annular mode variability as revealed from aqua-planet experiments.
  • 2013. Potential importance of midlatitude oceanic frontal latitude on the atmospheric annular mode variability as revealed from aqua-planet experiments.
  • 2012. A numerical study of the climatological dependence of westerly jets and storm tracks on the latitude of a SST front.
  • 2012. A numerical study of the climatological dependence of storm tracks and westerly jets on the latitude of a SST front.
  • 2011. Climatological dependence of the tropospheric zonal-mean circulation and eddy activity on the position of a midlatitude SST front as revealed from idealized experiments.
  • 2010. Climatological dependence of the tropospheric zonal-mean circulation and eddy activity on the position of a midlatitude SST front as revealed from aqua-planet experiments.
Database
  • 2018. The outputs from GREENICE coordinated AGCM hindcast experiments driven by NOAA OI SST and sea ice data.
Poster
  • 2019. Strengthened Linkage between Midlatitudes and Arctic in Boreal Winter.
  • 2019. Investigating drivers of midlatitude circulation biases in a hierarchy of climate prediction ensembles.
  • 2019. A big data approach towards the emergent constraint of the future climate change in the Southern Hemisphere in CMIP5 models.
  • 2018. The impact of the Arctic sea ice loss and variation on lower latitudes.
  • 2018. Difference between Mean and Instantaneous Wind Direction associated with Air-Sea Fluxes.
  • 2017. Influence of the Gulf Stream Sea Surface Temperature Front on the evolution of Storms.
  • 2016. Impacts of sea ice / SST changes for the observed climate change –GREENICE project–.
  • 2016. Impacts of sea ice / SST changes for the observed climate change –GREENICE project–.
  • 2016. Extratropical frontal- and meso-scale air-sea interaction: Impact of oceanic front on the tropospheric winter-time signature of the Southern Annular Mode.
  • 2016. Extratropical frontal- and meso-scale air-sea interaction: Impact of oceanic front on the northern hemispheric coupled stratosphere/troposphere-system.
  • 2016. Extratropical frontal- and meso- scale air-sea interaction: Impact of oceanic front on the ozone-induced stratosphere/troposphere coupling of the Southern Annular Mode.
  • 2015. Role of the Midlatitude Oceanic Front in the Ozone-induced Climate Change in the Southern Hemisphere as Revealed in Aqua Planet Experiments.
  • 2015. Impacts of sea ice / SST changes for the observed climate change –GREENICE project–.
  • 2015. Impacts of sea ice / SST changes for the observed climate change –GREENICE project–.
  • 2014. The role of the mid-latitude oceanic front in the ozone-induced climate change in the Southern Hemisphere as revealed in aqua planet experiments.
  • 2014. Role of the Mid-latitude Oceanic Front in the Ozone-induced Climate Change in the Southern Hemisphere as Revealed in Aqua Planet Experiments.
  • 2012. Dependence of the axes of tropospheric westerlies and storm-tracks on the latitude of an extratropical oceanic front.

More information in national current research information system (CRIStin)

GREENICE