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Clio Michel

Researcher
  • E-mailClio.Michel@uib.no
  • Phone+47 55 58 38 24
  • Visitor Address
    Allégaten 70
    5007 Bergen
  • Postal Address
    Postboks 7803
    5020 Bergen
Academic article
  • Show author(s) (2021). Dynamical drivers of Greenland blocking in climate models. Weather and Climate Dynamics (WCD). 1131-1148.
  • Show author(s) (2021). Characterization of the atmospheric environment during extreme precipitation events associated with atmospheric rivers in Norway - Seasonal and regional aspects. Weather and Climate Extremes. 15 pages.
  • Show author(s) (2020). The Change in the ENSO Teleconnection under a Low Global Warming Scenario and the Uncertainty due to Internal Variability. Journal of Climate. 4871-4889.
  • Show author(s) (2020). Control of Barents Sea wintertime cyclone variability by large-scale atmospheric flow. Geophysical Research Letters. 1-11.
  • Show author(s) (2018). Polar Mesoscale Cyclone Climatology for the Nordic Seas Based on ERA-Interim. Journal of Climate. 2511-2532.
  • Show author(s) (2018). Midlatitude atmospheric circulation responses under 1.5°C and 2.0°C warming and implications for regional impacts. Earth System Dynamics. 359-382.
  • Show author(s) (2016). Forward and reverse shear environments during polar low genesis over the North East Atlantic. Monthly Weather Review. 1341-1354.
Lecture
  • Show author(s) (2019). Warming and cooling in the Arctic: what can we learn from the past 100 years.
  • Show author(s) (2019). Investigating the ENSO teleconnection response to global warming using a multi-model large-ensemble experiment.
  • Show author(s) (2018). Tørke i Sør-Europa: forskjeller mellom 1.5 og 2.0 graders global oppvarming.
  • Show author(s) (2018). Atmospheric variability in the subpolar North Atlantic: a long-term perspective.
  • Show author(s) (2017). The link between eddy-driven jet variability and weather regimes in the North Atlantic-European sector.
  • Show author(s) (2017). The HAPPI project - Looking for midlatitude circulation changes under 1.5C and 2.0C warming.
  • Show author(s) (2016). Polar low dynamics: conducive environments and the role of moisture.
  • Show author(s) (2016). Polar Low Climatologies for the Nordic Seas.
  • Show author(s) (2016). Climatology and Impact of Polar Lows in the North Atlantic: Present and Future.
  • Show author(s) (2016). Climatology and Genesis Environments of Polar Lows in the Northeast Atlantic.
  • Show author(s) (2015). Polar Low development in forward and reverse shear Arctic moist-baroclinic environments.
  • Show author(s) (2015). Polar Low development in forward and reverse shear Arctic moist-baroclinic environments.
  • Show author(s) (2015). Environmental Conditions for Polar Lows in the Nordic Seas.
  • Show author(s) (2015). Climatology of Polar Lows over the Nordic Seas.
  • Show author(s) (2015). Atmospheric conditions associated with polar low genesis in the North-East Atlantic.
  • Show author(s) (2015). Atmospheric Conditions associated with Polar Low Genesis in the North-East Atlantic.
  • Show author(s) (2014). The dynamics of reverse shear polar lows.
  • Show author(s) (2014). The Dynamics of Polar Lows.
  • Show author(s) (2014). Polar lows climatology.
  • Show author(s) (2014). Environmental Conditions for Polar Low Formation.
Academic lecture
  • Show author(s) (2022). Control of North Atlantic cyclone variability and impacts by the large-scale atmospheric flow.
  • Show author(s) (2021). EMULATE (Enhancing Mechanistic Understanding of midlatitude LArge-scale circulaTion Errors).
  • Show author(s) (2020). Understanding cyclone variability in the Barents Sea.
  • Show author(s) (2020). The link between the North Atlantic storm track and the polar regions across time scales.
  • Show author(s) (2020). The link between jet stream variability, storm tracks, and high-latitude weather and climate.
  • Show author(s) (2019). Impact of sea ice on cyclone frequency in the Barents-Kara Seas in the HAPPI ensemble.
  • Show author(s) (2019). North Atlantic jet stream variability across weather to climate time scales.
  • Show author(s) (2018). Sensitivity of high-latitude ENSO teleconnection to global warming.
  • Show author(s) (2018). North Atlantic jet variability over the 20th century.
  • Show author(s) (2016). Polar Lows, forward and reverse shear conditions and diabatic intensification.
  • Show author(s) (2016). Dynamics and Predictability of Arctic Extremes and the Influence of Air-Sea Interactions on their Evolution.
  • Show author(s) (2015). Polar Lows: impact, current understanding, and challenges ahead.
  • Show author(s) (2015). Polar Lows: impact, current understanding, and challenges ahead.
  • Show author(s) (2015). Polar Lows: Recent research on the dynamics of intense high-latitude cyclones.
  • Show author(s) (2015). Polar Lows.
Masters thesis
  • Show author(s) (2016). Climatology of polar lows impacting Norway.
Programme participation
  • Show author(s) (2020). Using large ensembles to investigate the atmospheric response to El Niño Southern Oscillation.
Poster
  • Show author(s) (2019). Investigating the ENSO teleconnection response to global warming using a multi-model large-ensemble experiment.
  • Show author(s) (2019). How does the atmospheric ENSO teleconnection change with global warming?
  • Show author(s) (2018). Polar Mesoscale Cyclone Climatology for the Nordic Seas.
  • Show author(s) (2018). Assessing the impacts of mid-latitude circulation changes under +1.5ºC and +2ºC warming.
  • Show author(s) (2017). Assessing the impacts of mid-latitude circulation changes under +1.5ºC and +2ºC warming.
  • Show author(s) (2016). Climatology and Genesis Environment of North Atlantic Polar Lows.
  • Show author(s) (2015). Present and future climatologies of polar lows over the Norwegian Sea.
  • Show author(s) (2015). Environmental Conditions for Polar Lows in the Nordic Seas.
  • Show author(s) (2014). Climatology and dynamical aspects of polar lows over the Nordic Seas.
Errata
  • Show author(s) (2019). Corrigendum: Polar mesoscale cyclone climatology for the Nordic seas based on ERA-Interim. [J. Climate, 31, (2018) (2511-2532) doi: 10.1175/JCLI-D-16-0890.1. Journal of Climate. 973-974.

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