Hjem
  • E-postStephanie.Mayer@uib.no
  • Telefon+47 55 58 87 13
  • Besøksadresse
    Allegt. 55
  • Postadresse
    Postboks 7800
    5007 BERGEN

Småskala meteorologi

Vitenskapelig artikkel
  • 2018. Innovative strategies for observations in the Arctic atmospheric boundary layer (ISOBAR)—The Hailuoto 2017 Campaign. Atmosphere. 29 sider.
  • 2018. An Evolving Framework for Advancing Climate Services in Norway . EOS.
  • 2017. Land-atmosphere coupling in EURO-CORDEX evaluation experiments. Journal of Geophysical Research (JGR): Atmospheres. 79-103.
  • 2017. Downscaling an intense precipitation event in complex terrain: the importance of high grid resolution. Tellus. Series A, Dynamic meteorology and oceanography. 1-15.
  • 2015. Regional climate hindcast simulations within EURO-CORDEX: Evaluation of a WRF multi-physics ensemble. Geoscientific Model Development. 603-618.
  • 2015. Identifying added value in high-resolution climate simulations over Scandinavia. Tellus. Series A, Dynamic meteorology and oceanography. 1-18.
  • 2013. The simulation of European heat waves from an ensemble of regional climate models within the EURO-CORDEX project. Climate Dynamics. 2555-2575.
  • 2012. Profiling the arctic stable boundary layer in Advent Valley, Svalbard : measurements and simulations. Boundary-layer Meteorology. 507-526.
  • 2012. FLOHOF 2007: an overview of the mesoscale meteorological field campaign at Hofsjokull, Central Iceland. Meteorology and atmospheric physics (Print). 1-13.
  • 2012. Atmospheric profiling with the UAS SUMO: A new perspective for the evaluation of fine-scale atmospheric models. Meteorology and atmospheric physics (Print). 15-26.
  • 2012. A ´no-flow-sensor` wind estimation algorithm for Unmanned Aerial Systems. International Journal of Micro Air Vehicles. 15-29.
  • 2009. The Small Unmanned Meteorological Observer SUMO: A new tool for atmospheric boundary layer research. Meteorologische Zeitschrift. 141-147.
  • 2008. SUMO: A Small Unmanned Meteorological Observer for atmospheric boundary layer research. IOP Conference Series: Earth and Environmental Science (EES). 10 sider.
Rapport
  • 2020. Analyse av klimautvikling i kyst- og innlandsregionen i Rogaland – temperatur, nedbør og vind. .
  • 2019. Climate in Svalbard 2100 . 1/2019. 1/2019. .
  • 2018. Climatic changes in short duration extreme precipitation and rapid onset flooding - implications for design values. .
  • 2017. Climate in Norway 2100 - a knowledge base for climate adaptation. .
  • 2015. Klima i Norge 2100 - Kunnskapsgrunnlag for klimatilpasning oppdatert 2015. .
Faglig foredrag
  • 2019. National Climate Services in Norway.
  • 2017. The Isobar project - Observations on the stable polar Atmospheric Boundary Layer from Remotely Piloted Aircraft Systems.
  • 2016. The ISOBAR project (2016–2018) – Observations on the stable polar Atmospheric Boundary Layer from Remotely Piloted Aircraft Systems.
  • 2016. Climate in Norway 2100.
Vitenskapelig foredrag
  • 2019. Climate Change Impacts on Norwegian Nature based Tourism. The case of Tourism Transport Infrastructure.
  • 2018. The ISOBAR project on stable boundary layers – The two campaigns on Hailuoto 2017 and 2018.
  • 2016. The ISOBAR project (2016-2018) - Observations on the stable polar Atmospheric Boundary Layer from Remotely Piloted Aircraft Systems.
  • 2011. TheUAS SUMO: A successful story of an alternative tool foratmospheric boundary layer studies.
  • 2010. The UAS SUMO: A new tool for boundary layer research.
  • 2009. Simultaneous profiling of the Arctic Atmospheric Boundary Layer.
  • 2008. SUMO: A Small Unmanned Meteorological observer for atmospheric boundary layer research.
  • 2008. SUMO: A Small Unmanned Meteorological Observer for atmospheric boundary layer research.
  • 2008. SUMO: A Small Unmanned Meteorological Observer for atmospheric boundary layer research.
Populærvitenskapelig artikkel
  • 2018. Ekstremnedbør i et klima i forandring. Naturen. 246-251.
  • 2016. Norges klimafremtid: Varmere og enda våtere. Naturen. 12-20.
Doktorgradsavhandling
  • 2011. Application and Improvement of the Unmanned Aerial System SUMO for atmospheric boundary layer studies.
Poster
  • 2019. Using and developing climate indices for nature-based tourism in Norway .
  • 2017. Downscaling an intense precipitation event in complex terrain: The importance of high grid resolution.
  • 2017. Climate Services at the Bjerknes Centre.
  • 2016. The ISOBAR project (2016–2018) – Observations on the stable polar Atmospheric Boundary Layer from Remotely Piloted Aircraft Systems.
  • 2016. Non-­stationary extreme value analysis for precipitation over Norway.
  • 2014. Validation of two high-resolution climate simulations over Scandinavia.
  • 2014. Validation of soil moisture and surface fluxes in EURO-CORDEX simulations as part of land-atmosphere coupling analysis.
  • 2014. Identifying added value in two high-resolution climate simulations over Scandinavia.
  • 2014. Evaluation of a WRF-hindcast ensemble within EURO-CORDEX.
  • 2013. Identification of robust climate change patterns in Euro- CORDEX simulations for Europe at +2°C global warming.
  • 2013. Evaluation of regional climate impacts of the North Atlantic Oscillation in the Bjerknes Centre's CORDEX-Europe simulations.
  • 2013. Assessing projected changes in heat waves over Northern Europe using two regional climate models at 8-km resolution.
  • 2012. The Unmanned Aerial System SUMO: an alternative measurement tool for polar boundary layer studies.
  • 2012. Assessment of extreme precipitation over Northern Europe using WRF as a regional climate model within the RiskChange-project.
  • 2011. Risk-based design principles for energyinstallations due to climate change effects in the North Sea: Afirst validation of the ADAPT-Petromaks WRF climateruns.
  • 2010. Investigating the early springtime stable atmospheric boundary layer in Adventdalen (Spitsbergen).
  • 2009. The meteorological UAV SUMO: A new perspective for the evaluation of atmospheric boundary layer schemes in fine-scale atmospheric models.

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