Estimation of the total wet sulfur and nitrogen deposition as a part of pollution balance in the south of the Russian Far East based on the monitoring data

Sergey A. Gromov; Dmitry A. Galushin; Ekaterina A. Zhadanovskaya

doi:https://doi.org/10.5194/egusphere-egu2020-13871

[Back] [Session AS2.14]

EGU2020-13871

https://doi.org/10.5194/egusphere-egu2020-13871

EGU General Assembly 2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Estimation of the total wet sulfur and nitrogen deposition as a part of pollution balance in the south of the Russian Far East based on the monitoring data

Sergey A. Gromov^1,2, Dmitry A. Galushin^1,3, and Ekaterina A. Zhadanovskaya¹

Sergey A. Gromov et al.

¹Yu. A. Izrael Insitute of Global Climate and Ecology (IGCE), Roshydromet, Moscow, Russian Federation (sergey.gromov@igce.ru)
²Institute of Geography, Russian Academy of Sciences, Moscow, Russia
³The Faculty of Agronomy and Biotechnology, Russian State Agrarian University - Moscow Timiryazev Agricultural Academy, Moscow, Russia

One of the main goals in the regional biogeochemical research of East Asia is to evaluate the state of acid deposition and the related pollution within EANET region (EANET, 2019). In the south of the Russian Far East there are two networks developed to monitor the content of acidic substances in atmospheric fall-out. The first one is the Russian national precipitation chemistry stations operated for more than 30 years, and the second is the international atmospheric monitoring sites supervised by EANET and WMO-GAW (Yearbook, 2019). We calculate the total deposition of airborne sulfur and nitrogen in a large region to evaluate their atmospheric balances under the transboundary influence. The present study focuses on the development and application of the spatial interpolation method to estimate wet deposition fluxes based on the monitoring data for 2013-2018. On the first step of the algorithm, we analyze the correlation of pollution monitoring results between network stations and estimate the maximum radius of representativeness for each station. On the second step, we interpolate the precipitation chemistry data for the set of meteorological stations located in the region under the study and calculate the wet deposition fluxes of sulfur and nitrogen for these sites. The flux values obtained are further interpolated for the regular grid of 10-km by 10-km cells within the region under the study. Finally, the total wet sulfur and nitrogen deposition for the region is a sum of deposition fluxes calculated for each cell. Additionally, we compared the data obtained with the correspondent flux calculated on the basis of the national snow cover chemistry network for the same region and period.

References

EANET. Fourth Report for Policy Makers (RPM4): Towards Clean Air for Sustainable Future in East Asia through Collaborative Activities. 2019. 50 p.
Yearbook. State and pollution of the environment in the Russian Federation: 2018. Moscow: RosHydroMet, 2019. 227 p. [in Russian]

How to cite: Gromov, S. A., Galushin, D. A., and Zhadanovskaya, E. A.: Estimation of the total wet sulfur and nitrogen deposition as a part of pollution balance in the south of the Russian Far East based on the monitoring data, EGU General Assembly 2020, Online, 4–8 May 2020, EGU2020-13871, https://doi.org/10.5194/egusphere-egu2020-13871, 2020

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