Abstract
Cumulative data indicate that pollen grains and air pollution reciprocally interact. Climate changes seem also to influence pollen allergenicity. Depending on the plant species and on the pollutant type and concentration, this interaction may modify the features and metabolism of the pollen grain. Previous results revealed a significant positive correlation between pollen and aeroallergen, even using two different samplers. However, some discrepancy days have been also detected with low pollen but high aeroallergen concentrations. The main aim of the present paper is to find how the environmental factors, and specially pollutants, could affect the amount of allergens from olive and grass airborne pollen. Pollen grains were collected by a Hirst-type volumetric spore trap. Aeroallergen was simultaneously sampled by a low-volume Cyclone Burkard sampler. Phl p 5 and Ole e 1 aeroallergen were quantified by double-sandwich ELISA test. The data related to air pollutants, pollen grains, and aeroallergens were analyzed with descriptive statistic. Spearman’s correlation test was used to identify potential correlations between these variables. There is a significant positive correlation between aeroallergens and airborne pollen concentrations, in both studied pollen types, so allergen concentrations could be explained with the pollen concentration. The days with unlinked events coincide between olive and grass allergens. Nevertheless, concerning to our results, pollutants do not affect the amount of allergens per pollen. Even if diverse pollutants show an unclear relationship with the allergen concentration, this association seems to be a casual effect of the leading role of some meteorological parameters.
Highlights
IntroductionThe original online version of this article was revised due to a retrospective Open Access order
The original online version of this article was revised due to a retrospective Open Access order.Responsible editor: Lotfi AleyaElectronic supplementary material The online version of this article contains supplementary material, which is available to authorized users.Air pollution is a mixture of diverse particles and gasses in the air
The results indicate that in both olives and grasses, the parameters that have a significant relationship to the ratio allergens/pollen are O3 and PM10, though this correlation is negative since it has just been shown that PM10 is low when aeroallergens are high
Summary
The original online version of this article was revised due to a retrospective Open Access order. Chemicals from factories, dust, and pollen grains and mold spores may be suspended as particles. Air pollutants, especially those related to climate change, will affect the immune reaction (Annesi-Maesano, 2016; Eguiluz-Gracia et al, 2020; Sheehan et al, 2017), when modifying the pollen grains, causing an inflammatory answer in the airways and an increased predisposition to aeroallergen exposure (Provost et al 2014), such as asthma and allergic rhinitis (Noyes et al 2009). With high pollutant levels, biomass of vegetation and flowering seem to increase and rising airborne pollen concentration and pollinosis (Peden and Reed 2010; Schmidt 2016; Shea et al 2008)
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