EGU22-11614
https://doi.org/10.5194/egusphere-egu22-11614
EGU General Assembly 2022
© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Impact of Moscow city on intense summer precipitation: statistical analysis based on long-term observations 

Yulia Yarinich1,2,3, Mikhail Varentsov2,3,4, Vladimir Platonov1, and Victor Stepanenko3,1,5
Yulia Yarinich et al.
  • 1Lomonosov Moscow State University, Faculty of Geography, Meteorology and Climatology, Russia (julia.yarinich@yandex.ru)
  • 2A.M. Obukhov Institute of Atmospheric Physics of Russian Academy of Science, Moscow, Russia
  • 3Lomonosov Moscow State University, Research Computing Center, Moscow, Russia
  • 4Hydrometeorological Research Center of Russian Federation, Moscow, Russia
  • 5Moscow Center of Fundamental and Applied Mathematics, Moscow, Russia

Large cities are especially vulnerable to heavy precipitation events, which can lead to significant economic losses. This topic is relevant both due to the observed increase in the frequency of dangerous weather phenomena (including extreme precipitation [Ye et al., 2017; Chernokulsky et al., 2019]) in midlatitudes in general, and due to the previously noted facts of intensification of deep atmospheric convection and associated rainfall over urban areas [Han et al., 2014; Liu, Niyogi, 2019]. Yet, despite the numerous studies, the magnitude of urban effects on intense precipitation and their physical drivers are not fully understood.

In this study, we investigate urban effects on intensity and frequency of summer precipitation events exemplified by Moscow megacity, Russia. Previously, increase of mean summer precipitation amount by 10% over Moscow was revealed according to COSMO-CLM simulations for multiyear period [Varentsov et al., 2018]. Here we use long-term (1988-2021) observations at urban and rural weather stations. Statistical analysis is performed separately for categories of precipitation intensity. Moreover, using ERA5 reanalysis data [Hersbach et al, 2020] we estimated atmospheric convective instability and frontal parameters in order to classify precipitation cases according to the synoptic situation. This will help us to understand the physical mechanisms of precipitation intensification better. The assumption is that megacity influence on frontal systems is less noticeable than its influence on local convective clouds and convective systems in the low pressure gradient filed. Also we collected a catalogue of extreme precipitation cases in Moscow region exceeding 0.999 quantile values and studied most interesting cases among them.

Eventually, we obtained qualitative and quantitative estimates of the Moscow impact on the characteristics of intense precipitation for various synoptic conditions.

Acknowledgements:

The study was supported by the Russian Ministry of Science and Higher Education (grant of President of Russian Federation for young PhD scientists No. МК-5988.2021.1.5, agreement No. 2020-220-08-5835).

References:

Chernokulsky, A., Kozlov, F., Zolina, O., Bulygina, O., Mokhov, I. I., & Semenov, V. A. (2019). Observed changes in convective and stratiform precipitation in Northern Eurasia over the last five decades. Environmental Research Letters, 14(4), 045001.

Han, J. Y., Baik, J. J., & Lee, H. (2014). Urban impacts on precipitation. Asia-Pacific Journal of Atmospheric Sciences, 50(1), 17-30.

Hersbach, H. et al. (2020). The ERA5 global reanalysis. Quarterly Journal of the Royal Meteorological Society, 146(730), 1999-2049.

Liu, J., & Niyogi, D. (2019). Meta-analysis of urbanization impact on rainfall modification. Scientific reports, 9(1), 1-14.

Varentsov M., Wouters H., Platonov V., & Konstantinov P. (2018). Megacity-Induced Mesoclimatic Effects in the Lower Atmosphere: A Modeling Study for Multiple Summers over Moscow, Russia. Atmosphere, 9(2), 50.

Ye, H., Fetzer, E. J., Wong, S., & Lambrigtsen, B. H. (2017). Rapid decadal convective precipitation increase over Eurasia during the last three decades of the 20th century. Science advances, 3(1), e1600944.

How to cite: Yarinich, Y., Varentsov, M., Platonov, V., and Stepanenko, V.: Impact of Moscow city on intense summer precipitation: statistical analysis based on long-term observations , EGU General Assembly 2022, Vienna, Austria, 23–27 May 2022, EGU22-11614, https://doi.org/10.5194/egusphere-egu22-11614, 2022.