Creation of surface layer thermal inversions monitoring network: first examples for Arctic cities&nbsp;

Pavel Konstantinov; Anastasia Semenova; Igor Malutin; Alexander Baklanov; Nikita Tananaev; Marina Slukovskaya; Igor leonov; Varvara Maratkanova

doi:https://doi.org/10.5194/icuc12-1042

[Back] [Session PM8]

ICUC12-1042, updated on 21 May 2025

https://doi.org/10.5194/icuc12-1042

12th International Conference on Urban Climate

© Author(s) 2025. This work is distributed under
the Creative Commons Attribution 4.0 License.

Creation of surface layer thermal inversions monitoring network: first examples for Arctic cities

Pavel Konstantinov

^1,2,3, Anastasia Semenova², Igor Malutin², Alexander Baklanov

⁴, Nikita Tananaev⁵, Marina Slukovskaya

⁶, Igor leonov², and Varvara Maratkanova^2,3

Pavel Konstantinov et al.

¹Shenzhen MSU-BIT University, Shenzhen, China
²Lomonosov Moscow State University, Faculty of Geography, Meteorology and climatology, Moscow, Russian Federation (kostadini@mail.ru)
³Russian State Hydrometeorological University, Saint-Petersburg, Russian Federation
⁴Physics of Ice, Climate and Earth, Niels Bohr Institute, University of Copenhagen, Denmark
⁵M.K. Ammosov North-Eastern Federal University
⁶Kola Science Centre, Russian Academy of Sciences

Intensive and frequent surface-based thermal inversions are persistent features of climate in the Arctic region and in cities with cold and long period winter season. Surface-based inversions formed in cities are most interesting for research, because of their impact on people’s health. Besides, “urban” surface-based inversions differ from “rural” ones, because of interactions with the urban heat island (UHI). Actually, urban surface-based inversions in the Arctic are weakly understood due to poor meteorological monitoring equipment of most Arctic regions and because the reanalysis resolution is too low for the cities.

The main problems arising in the study of urban temperature inversions in the Eastern Arctic are:

Low technical equipment of the region: radiosonde stations are usually located on the coast and not always near cities, there are no acoustic sounding stations, meteorological stations are most often located outside the city;
A relatively small area of cities that does not allow conducting research only using reanalysis databases

Given the above problems, the best method for measuring air temperature at different levels is gradient measurements.

To estimate the frequency of surface-based inversions and spatial distributions in the city of Apatity (Kola Peninsula), Norilsk (Eastern Siberia) and Yakutsk (Far East) measurements during the winter period in 2025 were provided. For this goal, gradient observation complexes based on an automatic temperature recorders TZone Data Logger with sensors at altitudes of 1.5 and 3 meters (Figure 1), respectively, were installed. In Apatity were installed 5 stations for monitoring spatial differences in different urban zones.

Fig.1 Gradient measuring complex in Yakutsk

Preliminary results demonstrated that the recurrence of surface inversions is higher in the central part of Arctic settlements despite higher temperatures than, for example, in Yakutsk.

This work has been supported by the grant of the Russian Science Foundation, RSF project №23-77-30008

How to cite: Konstantinov, P., Semenova, A., Malutin, I., Baklanov, A., Tananaev, N., Slukovskaya, M., leonov, I., and Maratkanova, V.: Creation of surface layer thermal inversions monitoring network: first examples for Arctic cities , 12th International Conference on Urban Climate, Rotterdam, The Netherlands, 7–11 Jul 2025, ICUC12-1042, https://doi.org/10.5194/icuc12-1042, 2025.

Abstract ICUC12-1042

Supporters & sponsors