An objective classification system of air mass types for Szeged, Hungary, with special interest in air pollution levels

• Published in: Meteorology and atmospheric physics Vol. 92; no. 1-2; pp. 115 - 137
• Main Authors: MAKRA, L, MIKA, J, BARTZOKAS, A, BECZI, R, BORSOS, E, SÜMEGHY, Z
• Format: Journal Article
• Language: English
• Published: Wien Springer 01.02.2006; New York, NY Springer Nature B.V
• Subjects: Air masses; Air pollution; Anticyclones; Applied sciences; Atmospheric pollution; Atmospheric pressure; Classification; Cluster analysis; Exact sciences and technology; Factor analysis; High pressure; Pollutants; Pollutants physicochemistry study: properties, effects, reactions, transport and distribution; Pollution; Pollution levels; Sea level; Summer; Wind speed; Winter; Hungary; Europe; Carpathians; Szeged Hungary; Cluster analysis; Atmospheric condition; Factor analysis; Anticyclone; Objective analysis; Air quality; Urban area; Irradiance; Urban atmosphere; Concentration measurement; Air mass; Analysis of meteorological field; Seasonal variation; Classification; Air pollution
• ISSN: 0177-7971; 1436-5065
• DOI: 10.1007/s00703-005-0143-x

This paper determines the characteristic air mass types over the Carpathian Basin for the winter (December, January, and February) and summer (June, July and August) months dependant on levels of the main air pollutants. Based on the ECMWF data set, daily sea-level pressure fields analysed at 00 UTC were prepared for each air mass type (cluster) in order to relate sea-level pressure patterns with the level of air pollutants in Szeged. The data comprise daily values of twelve meteorological and eight pollutant parameters for the period 1997-2001. Objective definition of the characteristic air mass types is achieved by using the methods of Factor Analysis and Cluster Analysis. According to the results, during the winter months five air mass types (clusters) were detected based on higher concentrations of primary pollutants that occur with high irradiance and low wind speed. This is the case when an anticyclone is found over the Carpathian Basin and over the region south of Hungary, influencing the weather of the country. Low levels of pollutants occur when zonal currents exert influence over Hungary. During the summer months anticyclones and anticyclone ridge situations are found over the Carpathian Basin. (During the prevalence of anticyclone ridge situations, the Carpathian Basin is found at the edge of a high pressure centre.) As a result of high irradiance and very low NO levels, secondary pollutants are highly enriched. [PUBLICATION ABSTRACT]