Biblio
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Anthropogenic and natural drivers of a strong winter urban heat island in a typical Arctic city. Atmospheric Chemistry and Physics 18, (2018).
Anthropogenic heating strongly amplifies the urban heat island in Arctic cities. Atmospheric Chemistry and Physics 18, (2018).
The Arctic Surface Climate in CMIP6: Status and Developments since CMIP5. Journal of Climate 33, (2020).
Asymmetry of the surface air temperature response on climatologic heat imbalance due to differences in the planetary boundary layer height. Geophysical Research Abstracts 15, (2013).
Atmospheric heat advection in the Kara Sea region under main synoptic processes. International Journal of Climatology 39, (2018).
Climate change impacts on wind energy potential in the European domain with a focus on the Black Sea. Renewable & Sustainable Energy Reviews 81, (2017).
The Climatology of the Atmospheric Boundary Layer in Contemporary Global Climate Models. Journal of Climate 31, (2018).
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. SCIRES-IT : SCIentific RESearch and Information Technology 6, (2016).
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. SCIRES-IT SCIentific RESearch and Information Technology 6, (2017).
Complementary explanation of temperature response in the lower atmosphere. Environmental Research Letters 7, (2012).
Differences in the efficacy of climate forcings explained by variations in atmospheric boundary layer depth. Nature Communications 7, (2016).
Diurnal asymmetry to the observed global warming. International Journal of Climatology (2015).
Eurasian Cooling Patterns in the CMIP5 Climate Models. Izvestiya, Atmospheric and Oceanic Physics (2019).
Eurasian Winter Cooling: Intercomparison of Reanalyses and CMIP5 Data Sets. Atmospheric and Oceanic Science Letters 6, (2013).
Global climate models' bias in surface temperature trends and variability. Environmental Research Letters 9, (2014).
Making better sense of the mosaic of environmental measurement networks: a system-of-systems approach and quantitative assessment. Geoscientific Instrumentation, Methods and Data Systems 6, (2017).
Micro-climate on MEGA-computers. META (2012).
Reassessing changes in diurnal temperature range: A new data set and characterization of data biases. Journal of Geophysical Research (JGR): Atmospheres 121, (2016).
Reassessing changes in Diurnal Temperature Range: A new dataset and characterization of data biases. Journal of Geophysical Research (JGR): Atmospheres 121, (2016).
Reassessing changes in Diurnal Temperature Range: Intercomparison and evaluation of existing global dataset estimates. Journal of Geophysical Research (JGR): Atmospheres 121, (2016).
Scientific challenges of convective-scale numerical weather prediction. Bulletin of The American Meteorological Society - (BAMS) (2018).doi:10.1175/BAMS-D-17-0125.1 Abstract
