Comparing data obtained from ground-based measurements of the total contents of O 3 , HNO 3 ,HCl, and NO 2  and from their numerical simulation

Ya. A. Virolainen; Yu. M. Timofeyev; A. V. Polyakov; D. V. Ionov; O. Kirner; A. V. Poberovskii; H. Kh. Imhasin

doi:10.1134/S0001433815060146

Comparing data obtained from ground-based measurements of the total contents of O₃, HNO₃,HCl, and NO₂ and from their numerical simulation

Authors: Virolainen Y.A.¹, Timofeyev Y.M.¹, Polyakov A.V.¹, Ionov D.V.¹, Kirner O.², Poberovskii A.V.¹, Imhasin H.K.¹
Affiliations:
1. St. Petersburg State University
2. Karlsruhe Institute of Technology, Steinbuch Center for Computing
Issue: Vol 52, No 1 (2016)
Pages: 57-65
Section: Article
URL: https://journals.rcsi.science/0001-4338/article/view/148408
DOI: https://doi.org/10.1134/S0001433815060146
ID: 148408

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Abstract

Chemistry climate models of the gas composition of the atmosphere make it possible to simulate both space and time variations in atmospheric trace-gas components (TGCs) and predict their changes. Both verification and improvement of such models on the basis of a comparison with experimental data are of great importance. Data obtained from the 2009–2012 ground-based spectrometric measurements of the total contents (TCs) of a number of TGCs (ozone, HNO₃, HCl, and NO₂) in the atmosphere over the St. Petersburg region (Petergof station, St. Petersburg State University) have been compared to analogous EMAC model data. Both daily and monthly means of their TCs for this period have been analyzed in detail. The seasonal dependences of the TCs of the gases under study are shown to be adequately reproduced by the EMAC model. At the same time, a number of disagreements (including systematic ones) have been revealed between model and measurement data. Thus, for example, the EMAC model underestimates the TCs of NO₂, HCl, and HNO₃, when compared to measurement data, on average, by 14, 22, and 35%, respectively. However, the TC of ozone is overestimated by the EMAC model (on average, by 12%) when compared to measurement data. In order to reveal the reasons for such disagreements between simulated and measured data on the TCs of TGCs, it is necessary to continue studies on comparisons of the contents of TGCs in different atmospheric layers.

Keywords

trace gas components, simulation, gas composition, Fourier transform spectroscopy

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Comparing data obtained from ground-based measurements of the total contents of O3, HNO3,HCl, and NO2 and from their numerical simulation

Full Text

Abstract

Keywords

About the authors

Ya. A. Virolainen

Yu. M. Timofeyev

A. V. Polyakov

D. V. Ionov

O. Kirner

A. V. Poberovskii

H. Kh. Imhasin

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Comparing data obtained from ground-based measurements of the total contents of O₃, HNO₃,HCl, and NO₂ and from their numerical simulation