Biblio

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2023
Miles, V., Esau, I. & Miles, M.W. The urban climate of the largest cities of the European Arctic. Urban Climate 48, (2023).
2022
Lappalainen, H.K., et al. Overview: Recent advances in the understanding of the northern Eurasian environments and of the urban air quality in China-a Pan-Eurasian Experiment (PEEX) programme perspective. 22, (2022).
Kähnert, M., et al. Spatial variability of nocturnal stability regimes in an operational weather prediction model. Boundary-Layer Meteorology 186, (2022).
2021
Wolf, T., Pettersson, L.H. & Esau, I. Dispersion of particulate matter (PM2.5) from wood combustion for residential heating: Optimisation of mitigation actions based on large-eddy simulations. Atmospheric Chemistry and Physics (ACP) 21, (2021). Abstract
Esau, I., et al. An enhanced integrated approach to knowledgeable high-resolution environmental quality assessment. Environmental Science and Policy 122, (2021).
Soromotin, A., Esau, I., Sizov, O., Lobotrosova, S. & Franke, K. Microclimatic properties of natural sand dunes in northern taiga ecotone of West Siberia. Russian Meteorology and Hydrology (2021).doi:10.52002/0130-2906-2021-8-88-100
Fedorov, R.Y., et al. Possibilities of applying the concept of “winter city” in the Russian Arctic (On the example of the city of Nadym). Arktika: Ekologija i ekonomika 11, (2021).
Lappalainen, H.K., et al. Recent advances on the understanding of the Northern Eurasian environments and of the urban air quality in China-Pan Eurasian Experiment (PEEX) program perspective. Atmospheric Chemistry and Physics (ACP) (2021).doi:10.5194/acp-2021-341
Esau, I., et al. Urban heat islands in the Arctic cities: an updated compilation of in situ and remote-sensing estimations. Advances in Science and Research 18, (2021). Abstract
Fedorov, R., et al. Zooming in on Arctic urban nature: green and blue space in Nadym, Siberia. Environmental Research Letters 16, (2021). Abstract
2020
Venter, Z.S., Brousse, O., Esau, I. & Meier, F. Hyperlocal mapping of urban air temperature using remote sensing and crowdsourced weather data. Remote Sensing of Environment 242, (2020). Abstract
Miles, V. & Esau, I. Surface urban heat islands in 57 cities across different climates in northern Fennoscandia. Urban Climate 31, (2020).
Wolf, T., Pettersson, L.H. & Esau, I. A very high-resolution assessment and modelling of urban air quality. Atmospheric Chemistry and Physics (ACP) 20, (2020). Abstract
Esau, I., et al. Warmer Climate of Arctic Cities. The Arctic: Current Issues and Challenges (2020).at <https://novapublishers.com/shop/the-arctic-current-issues-and-challenges/>
2019
Guernaoui, O.E., Reuder, J., Esau, I., Wolf, T. & Maronga, B. Scaling the decay of turbulence kinetic energy in the free-convective boundary layer. Boundary-layer Meteorology (2019).doi:10.1007/s10546-019-00458-z
Esau, I., Miles, V., Varentsov, M., Konstantinov, P. & Melnikov, V.P. Spatial structure and temporal variability of a surface urban heat island in cold continental climate. Theoretical and Applied Climatology 137, (2019). Abstract
2018
Varentsov, M., et al. Anthropogenic and natural drivers of a strong winter urban heat island in a typical Arctic city. Atmospheric Chemistry and Physics (ACP) 18, (2018).
Varentsov, M., et al. Anthropogenic heating strongly amplifies the urban heat island in Arctic cities. Atmospheric Chemistry and Physics (ACP) 18, (2018).
Outten, S., Esau, I. & Otterå, O.H. Bjerknes compensation in the CMIP5 Climate Models. Journal of Climate (2018).doi:10.1175/JCLI-D-18-0058.1
Outten, S., Esau, I. & Otterå, O.H. Bjerknes compensation in the CMIP5 Climate Models. Journal of Climate 31, (2018). Abstract
Esau, I. & Miles, V. Exogenous drivers of surface urban heat islands in Northern West Siberia. Geography, Environment, Sustainability 11, (2018). Abstract
Konstantinov, P., Varentsov, M. & Esau, I. A high density urban temperature network deployed in several cities of Eurasian Arctic. Environmental Research Letters 13, (2018). Abstract
Esau, I., et al. Systematic errors in northern Eurasian short-term weather forecasts induced by atmospheric boundary layer thickness. Environmental Research Letters 13:125009, (2018). Abstract
2017
Outten, S. & Esau, I. Bjerknes compensation in the Bergen Climate Model. Climate Dynamics 49, (2017).
Chernokulsky, A., et al. Climatology and interannual variability of cloudiness in the Atlantic Arctic from surface observations since the late nineteenth century. Journal of Climate 30, (2017). Download: chernokulsky_esau_etal_2016_climatology_and_interannual_variability_of_cloudiness_in_the_atlantic_arctic.pdf (2.78 MB)
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