Research report

• Richard Davy (2025). Climate futures for Reisa National Park. (external link)
• Ola M Johannessen; Lasse H Pettersson; Igor Esau et al. (2016). Climate variability and change in the Eurasian Arctic in the 21st Century (NORUSS-CLIMARC). (external link)
• Igor Esau; Richard Davy; Lars H. Smedsrud et al. (2018). BASIC:-Boundary Layers in the Arctic Atmosphere, Seas and Ice Dynamics - SKD Strategic Project January 2015 – December 2017. (external link)
• Richard Davy; Igor Esau (2014). Planetary boundary layer depth in Global climate models induced biases in surface climatology. (external link)
• Richard Davy (2025). Climate futures for Pasvik Nature Reserve. (external link)
• Lasse H Pettersson; Natalia Gnaituk; Richard Davy (2019). The international interdisciplinary PhD and Post-Doc research school - Observing and Modelling the Arctic Environment - Climate processes, prediction and projection - Daily student blog and Program. (external link)

Conference poster

• Richard Davy (2012). Co-variability of temperature fluctuations across timescales. (external link)
• Edson Silva; Francois Stephane Counillon; Julien Brajard et al. (2024). The impact of future climate change on the frequency of harmful algae blooms in high latitudinal regions: the influence of temperature, salinity, and mixed layer depth. (external link)
• Richard Davy; Stephen Outten; Linling Chen et al. (2015). Re-visiting our understanding of surface temperature response to climate forcing. (external link)
• Jonathan Winfield Rheinlænder; Heather Regan; Pierre Rampal et al. (2024). Breaking the Ice: Exploring the Changing Dynamics of Winter Breakup Events in the Beaufort Sea. (external link)
• Edson Silva; Francois Stephane Counillon; Julien Brajard et al. (2024). The impact of future climate change on the frequency of harmful algae blooms in high latitudinal regions: the influence of temperature, salinity, and mixed layer depth. (external link)
• Jonathan Winfield Rheinlænder; Richard Davy; Einar Örn Olason et al. (2024). How good are CMIP6 models at representing coastal polynyas in the Arctic?. (external link)
• Jonathan Winfield Rheinlænder; Anton Korosov; Einar Olason et al. (2022). Simulating extreme winter sea-ice breakup in the Beaufort Sea. (external link)
• Jonathan Winfield Rheinlænder; Richard Davy; Einar Olason et al. (2022). Breaking Up is Hard to Do – Simulating Extreme Sea-Ice Breakup in the Beaufort Sea. (external link)
• Basile de Fleurian; Richard Davy; Petra Langebroek (2021). The meltwater feedbacks on ice dynamics, influence of melt amplitude, duration and extent.. (external link)

Academic article

• Richard Davy; Erik Kusch (2021). Reconciling high resolution climate datasets using KrigR. (external link)
• Mikhail M. Latonin; Leonid Bobylev; Igor L. Bashmachnikov et al. (2022). Dipole pattern of meridional atmospheric internal energy transport across the Arctic gate. (external link)
• Natalia V. Gnatiuk; Iuliia V. Radchenko; Richard Davy et al. (2025). Which Climate Model Evaluation Methods Can Consistently Select Skillful Models from the CMIP6 Ensemble?. (external link)
• Mikhail Varentsov; Pavel Konstantinov; Alexander Baklanov et al. (2018). Anthropogenic heating strongly amplifies the urban heat island in Arctic cities. (external link)
• Peter Thorne; M. J. Menne; C.N. Willliams et al. (2016). Reassessing changes in Diurnal Temperature Range: A new dataset and characterization of data biases.. (external link)
• Richard Davy; A Chernokulsky; Stephen Outten et al. (2016). Diurnal asymmetry to the observed global warming. (external link)
• Stephen Outten; Camille Li; Martin Peter King et al. (2023). Reconciling conflicting evidence for the cause of the observed early 21st century Eurasian cooling. (external link)
• Richard Davy; Linling Chen; Edward Hanna (2018). Arctic amplification metrics. (external link)
• Richard Davy; Natalia Gnatiuk; Lasse H Pettersson et al. (2017). Climate change impacts on wind energy potential in the European domain with a focus on the Black Sea. (external link)
• Jonathan Winfield Rheinlænder; Heather Regan; Pierre Rampal et al. (2023). Breaking the Ice: Exploring the Changing Dynamics of Winter Breakup Events in the Beaufort Sea. (external link)
• Dmitry Pozdnyakov; Natalia Gnatiuk; Richard Davy et al. (2021). The Phenomenon of Emiliania Huxleyi in Aspects of Global Climate and the Ecology of the world ocean.. (external link)
• Jonathan Winfield Rheinlænder; Richard Davy; Einar Olason et al. (2022). Driving Mechanisms of an Extreme Winter Sea Ice Breakup Event in the Beaufort Sea. (external link)
• Richard Davy; Stephen Outten (2020). The Arctic Surface Climate in CMIP6: Status and Developments since CMIP5. (external link)
• Alla Yu. Yurova; Leonid Bobylev; Yali Zhu et al. (2018). Atmospheric heat advection in the Kara Sea region under main synoptic processes. (external link)
• Richard Davy; Igor Esau (2016). Differences in the efficacy of climate forcings explained by variations in atmospheric boundary layer depth. (external link)
• Peter Thorne; M Donat; R J H Dunn et al. (2016). Reassessing changes in Diurnal Temperature Range: Intercomparison and evaluation of existing global dataset estimates.. (external link)
• Stephen Outten; Richard Davy; Igor Esau (2013). Eurasian Winter Cooling: Intercomparison of Reanalyses and CMIP5 Data Sets. (external link)
• Mikhail M. Latonin; Igor L. Bashmachnikov; Leonid P. Bobylev et al. (2021). Multi-model ensemble mean of global climate models fails to reproduce early twentieth century Arctic warming. (external link)
• Peter Thorne; Fabio Madonna; Jörg Bernhard Schulz et al. (2017). Making better sense of the mosaic of environmental measurement networks: a system-of-systems approach and quantitative assessment. (external link)
• Richard Davy; Igor Esau (2014). Surface air temperature variability in global climate models. (external link)
• Richard Davy; Igor Esau (2016). Surface air temperature changes in the high-latitude boundary layer. (external link)
• Igor Esau; Jon Erik Bergh; Richard Davy et al. (2012). Micro-climate on MEGA-computers. (external link)
• Erik Kusch; Richard Davy (2022). KrigR-a tool for downloading and statistically downscaling climate reanalysis data.. (external link)
• Igor Esau; Richard Davy; Stephen Outten (2012). Complementary explanation of temperature response in the lower atmosphere. (external link)
• Tian Tian; Richard Davy; Leandro Ponsoni et al. (2025). Impact of modulating surface heat flux through sea ice leads on Arctic sea ice in EC-Earth3 in different climates. (external link)
• Richard Davy; Heather Regan; Anton Korosov et al. (2025). A Fair Assessment of Sea Ice Age Reduces Bias and Gives New Insight to Arctic Sea Ice Dynamics. (external link)
• Erik Kusch; Richard Davy; Alistair William Robin Seddon (2022). Vegetation-memory effects and their association with vegetation resilience in global drylands. (external link)
• Dandan Tao; Camille Li; Richard Davy et al. (2025). Arctic-Atlantic Cyclones: Variability in Thermodynamic Characteristics, Large-Scale Flow, and Local Impacts. (external link)
• Richard Davy; Igor Esau (2014). Global climate models' bias in surface temperature trends and variability. (external link)
• Stephen Outten; Richard Davy (2024). Changes in the North Atlantic Oscillation over the 20th century. (external link)
• Ferdinando Boero; S. Foglini; P. Frachetti et al. (2017). CoCoNet: Towards Coast to Coast Networks of Marine Protected Areas (from the shore to the high and deep sea), coupled with Sea-Based Wind Energy Potential.. (external link)
• Richard Davy (2018). The Climatology of the Atmospheric Boundary Layer in Contemporary Global Climate Models. (external link)
• Igor Esau; Richard Davy; Stephen Outten et al. (2013). Structuring of turbulence and its impact on basic features of Ekman boundary layers. (external link)
• Peter Thorne; Matthew J. Menne; Claude N. Williams et al. (2016). Reassessing changes in diurnal temperature range: A new data set and characterization of data biases. (external link)
• Mikhail Varentsov; Pavel Konstantinov; Alexander Baklanov et al. (2018). Anthropogenic and natural drivers of a strong winter urban heat island in a typical Arctic city. (external link)
• Alexander Chernokulsky; Igor Esau; Olga N Bulygina et al. (2017). Climatology and interannual variability of cloudiness in the Atlantic Arctic from surface observations since the late nineteenth century. (external link)
• Edson Silva; Francois Stephane Counillon; Julien Brajard et al. (2025). Warming and freshening coastal waters impact harmful algal bloom frequency in high latitudes. (external link)
• Natiala Gnatiuk; Iuliia Radchenko; Richard Davy et al. (2020). Simulation of factors affecting Emiliania huxleyi blooms in Arctic and sub-Arctic seas by CMIP5 climate models: model validation and selection.. (external link)
• Igor Esau; Victoria Miles; Richard Davy et al. (2016). Trends in the normalized difference vegetation index (NDVI) associated with urban development of Northern West Siberia. (external link)
• Jonathan Winfield Rheinlænder; Heather Regan; Pierre Rampal et al. (2024). Breaking the Ice: Exploring the Changing Dynamics of Winter Breakup Events in the Beaufort Sea. (external link)
• Richard Davy; Philipp Griewank (2023). Arctic amplification has already peaked. (external link)
• Stephen Outten; Richard Davy; Linling Chen (2019). Eurasian Cooling Patterns in the CMIP5 Climate Models. (external link)
• Basile de Fleurian; Richard Davy; Petra Langebroek (2022). Impact of runoff temporal distribution on ice dynamics. (external link)

Conference lecture

• Richard Davy; Igor Esau; Stephen Outten (2013). Asymmetry of the surface air temperature response on climatologic heat imbalance due to differences in the planetary boundary layer height. (external link)
• Camille Li; Stephen Outten; Martin Peter King et al. (2022). Reconciling conflicting evidence for the cause of the observed early 21st century Eurasian Cooling. (external link)
• Jonathan Winfield Rheinlænder; Einar Olason; Richard Davy et al. (2022). Breaking Up is Hard to Do – Simulating Extreme Sea-Ice Breakup Events in the Beaufort Sea. (external link)
• Jonathan Winfield Rheinlænder; Einar Olason; Heather Regan et al. (2022). Breaking up is hard to do – Simulating extreme sea-ice breakup events in the Arctic. (external link)
• Edson Silva; Francois Stephane Counillon; Julien Brajard et al. (2024). Harmful algae bloom frequency response to climate change along the Norwegian coast. (external link)
• Jonathan Winfield Rheinlænder; Heather Regan; Pierre Rampal et al. (2024). Breaking the ice: Exploring the changing dynamics of winter breakup events in the Beaufort Sea. (external link)
• Basile de Fleurian; Petra Langebroek; Richard Davy (2022). Long or strong, which changes in melt season has the most impact on ice dynamics. (external link)
• Martin Peter King; Stephen Outten; Camille Li et al. (2022). Reconciling conflicting evidence for the cause of the observed early 21st century Eurasian Cooling. (external link)
• Jonathan Winfield Rheinlænder; Heather Regan; Pierre Rampal et al. (2024). Breaking the Ice: Exploring the Changing Dynamics of Winter Breakup Events in the Beaufort Sea. (external link)
• Jonathan Winfield Rheinlænder; Heather Regan; Guillaume Boutin et al. (2023). Simulating Winter Sea-ice Breakup in the Beaufort Sea from 2000–2018 - Implications for sea-ice transport . (external link)
• Richard Davy; Igor Esau (2014). Biases in the surface climatology from Global Climate Models due to the representation of the Planetary Boundary Layer. (external link)
• Richard Davy (2020). How well does CMIP6 capture the Arctic and what does it tell us about the future? . (external link)
• Edson Silva; Francois Stephane Counillon; Julien Brajard et al. (2024). Climate Change and the Frequency of Toxic Algae Blooms in a Polar Region: The Effect of Warming and Freshening of Coastal Waters. (external link)
• Stephen Outten; Richard Davy (2024). Atmospheric patterns over the North Atlantic and their links to European precipitation in CMIP6 climate models. (external link)
• Igor Esau; Victoria Miles; Richard Davy (2017). Land surface temperature for urban heat island studies in the Arctic. (external link)
• Yongling Zhao; D. Strebel; Richard Davy et al. (2023). Linking surface energy budget of heat islands and the dynamics of the overlying planetary boundary layer. (external link)
• Richard Davy; Stephen Outten (2021). Shifting modes of variability in our key region. (external link)
• Richard Davy (2020). The Arctic surface climate in CMIP6. (external link)
• Richard Davy; Igor Esau (2014). Biases in Global Climate Models due to PBL Parameterization. (external link)
• Richard Davy (2024). Bias in low level clouds and the effect on circulation in a climate model. (external link)
• Igor Esau; Richard Davy (2014). Planetary boundary layer dept as an essential climate variable, Atmosphere-hydrosphere interaction in the Baltic Basin and Arctic Seas. (external link)
• Dandan Tao; Camille Li; Richard Davy et al. (2023). The thermodynamic differences between winter cyclones from midlatitudes and high latitudes. (external link)
• Dandan Tao; Camille Li; Shengping He et al. (2022). Thermodynamics of winter cyclones entering the Barents Sea. (external link)
• Igor Esau; Richard Davy (2014). Planetary boundary layer depth as an essential climate variable. (external link)
• Richard Davy; Igor Esau (2014). Climate models' bias in surface temperature trends and variability due to treatment of boundary layer. (external link)
• Richard Davy; Francois Stephane Counillon; Tarkeshwar Singh et al. (2024). Reducing biases in low cloud cover over the tropical Atlantic in the Norwegian Earth System Model. (external link)
• Stephen Outten; Richard Davy; Igor Esau (2013). Eurasian Winter Cooling: Intercomparison of Reanalyses and CMIP5 data sets. (external link)
• Jonathan Winfield Rheinlænder; Heather Regan; Guillaume Boutin et al. (2024). Simulating Arctic Sea-Ice Breakup and Lead Formation with the neXtSIM Model. (external link)

Academic book chapter

• Richard Davy; Igor Esau (2008). Planetary boundary layer as an essential component of the earth's climate system. (external link)
• S. Chatterjee; Roshin Pappukutty Raj; Antonio Bonaduce et al. (2022). Arctic Sea-Level Change in Remote Sensing and New Generation Climate Models. (external link)
• Igor Esau; Richard Davy (2015). The climate role of shallow stably stratified atmospheric boundary layers. (external link)
• Ola M Johannessen; Stein Sandven; Richard Davy et al. (2020). Marginal Ice Zone and Ice-Air-Ocean Interactions. (external link)

Media interview

• Richard Davy (2016). World's hottest nights and highest minimum temperature measured in 2016. (external link)
• Richard Davy (2016). Understanding why nights are getting warmer faster than days.. (external link)
• Richard Davy (2016). Remember when nights were cool? Here's why they are getting increasingly warmer. (external link)
• Richard Davy (2016). Natten varmes raskere enn dagen. (external link)
• Richard Davy (2016). Nights are getting hotter: Scientist discover temperatures during the hours of darkness are rising faster than in the daytime.. (external link)
• Richard Davy (2016). Night Sweats. (external link)
• Richard Davy (2016). Når nettene blir varme. (external link)
• Richard Davy (2016). Nattetemperaturen påvirkes mest av global oppvarming. (external link)
• Richard Davy (2012). Uneven climate change due to atmospheric heat capacity. (external link)
• Richard Davy (2022). The Arctic is heating up nearly four times faster than the whole planet, study finds. (external link)
• Richard Davy (2015). Climate models underestimate temperature variability. (external link)
• Richard Davy (2016). Night sweets. (external link)
• Richard Davy; Igor Esau (2016). Hvorfor noen klimaprosesser er mer effektive for oppvarming enn andre.. (external link)

Lecture

• Basile de Fleurian; Richard Davy; Petra Langebroek (2022). Is longer or warmer melt season a more important driver of ice dynamics.. (external link)
• Richard Davy (2023). Reducing biases in low cloud cover over the tropical Atlantic in the Norwegian Earth System Model. (external link)

Academic literature review

• Michelle Fernandes; Kabir Rasouli; Pavel Golubkin et al. (2022). Comparing recent changes in the Arctic and the Third Pole: linking science and policy. (external link)
• Jun-ichi Yano; Michal Ziemianski; M Cullen et al. (2018). Scientific challenges of convective-scale numerical weather prediction. (external link)

Conference abstract

• Richard Davy; Igor Esau; Stephen Outten (2013). Asymmetry of the surface air temperature response on climatologic heat imbalance due to differences in the planetary boundary layer height. (external link)

See a complete overview of publications in NVA.