Hourly pattern of allergenic alder and birch pollen concentrations in the air: Spatial differentiation and the effect of meteorological conditions

• Published in: Atmospheric environment (1994) Vol. 182; pp. 179 - 192
• Main Authors: Borycka, K., Kasprzyk, I.
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.06.2018
• Subjects: Aerobiology; Airborne pollen; Circular statistic; Convective precipitation; Diurnal pollen concentration; Meteorological parameters; Aerobiology; Circular statistic; Meteorological parameters; Diurnal pollen concentration; Convective precipitation; Airborne pollen
• ISSN: 1352-2310; 1873-2844
• DOI: 10.1016/j.atmosenv.2018.03.048

In temperate climate widespread alder and birch are an important source of strong aeroallergens. The diurnal pattern of airborne pollen concentrations depends on the rhythm of pollen release from anthers as well as weather conditions, convection air currents, long-distance transport, pollen trap location and local vegetation. The aim of the study was to present a diurnal pattern of Alnus (alder) and Betula (birch) pollen concentrations in the air in a horizontal and vertical gradient and examine the weather parameters that had the greatest impact on the pattern. The study was conducted in Rzeszów City, southeast Poland over three years. Pollen grains were collected using a Hirst volumetric spore trap at three sampling points: two at 12 m the agl, and one at 1.5 m agl. Data were analysed using circular statistics and a nonlinear function. For alder, three models of hourly patterns were elaborated and the most common presented early morning minimum and early afternoon maximum. For birch, the most common model has one peak at night and a marked decrease in concentrations in early morning, although a second model has peak during early afternoon. A model with 3 peaks is much less common. These models are characteristic for warm temperate climate regions, where alders and birches are common. The diurnal patterns did not depend on the localization of traps or proximity of the pollen source, although these factors influenced the hourly concentrations, with higher values observed at roof level. Significant relationships between the hourly pollen counts and meteorological parameters were observed only for alder. Three incidents of increasing birch pollen concentrations were observed during the first two hours of precipitation and linked to a convection effect. Unstable weather conditions caused by air convection might strongly modify the circadian pattern and cause the nightly peaks concentrations. The general results are that people suffering from allergies may be exposed to high birch and alder pollen concentrations at almost all times during the day with the exception of the morning hours, as well as during the first hours of convective precipitation. Precise information on pollen concentrations aids in allergy prevention, so cities should provide aerobiological monitoring at least at “roof level” and “nose level”. [Display omitted] •The minimum concentrations of alder and birch pollen occurred usually in the morning.•Temperature and air humidity affected only alder pollen concentrations.•Air convection strongly modifies the diurnal course of pollen concentrations.•High pollen concentrations occurred during the first hours of convective rainfall.