Unmanaged grasslands are a reservoir of Alternaria and other important fungal species with differing emission patterns.

Apangu, Godfrey Philliam; Frisk, Carl Alexander; Petch, Geoffrey M; Hanson, Mary; Skjøth, Carsten Ambelas

Apangu, Godfrey Philliam; Frisk, Carl Alexander; Petch, Geoffrey M; Hanson, Mary; Skjøth, Carsten Ambelas.

Afiliación

Apangu GP; University of Worcester, School of Science and the Environment, Henwick Grove, WR2 6AJ, Worcester, United Kingdom. Electronic address: godfrey.apangu@rothamsted.ac.uk.
Frisk CA; University of Worcester, School of Science and the Environment, Henwick Grove, WR2 6AJ, Worcester, United Kingdom.
Petch GM; University of Worcester, School of Science and the Environment, Henwick Grove, WR2 6AJ, Worcester, United Kingdom.
Hanson M; University of Worcester, School of Science and the Environment, Henwick Grove, WR2 6AJ, Worcester, United Kingdom.
Skjøth CA; University of Worcester, School of Science and the Environment, Henwick Grove, WR2 6AJ, Worcester, United Kingdom.

J Environ Manage ; 370: 122416, 2024 Sep 09.

Article en En | MEDLINE | ID: mdl-39255575

ABSTRACT

ABSTRACT

Alternaria is a ubiquitous fungal genus with many allergenic and pathogenic species inhabiting grasslands. We hypothesise that grasslands (natural/man-made) host a diversity of fungal species whose spores have varying emission patterns. Therefore, the purpose of this study was to examine the potential of grasslands for emission, diversity and composition of Alternaria and other fungal species. To test the hypothesis, Hirst-type and multi-vial Cyclone samplers collected air samples from two grassland sites (unmanaged and managed) and a non-grassland site at Lakeside campus of the University of Worcester, United Kingdom for the period May to September 2019. The unmanaged grassland was originally planted with grasses and left uncut for three years. The managed grassland was a roadside verge that was cut once every year, typically after most grasses have flowered. We used optical microscopy and Illumina MiSeq sequencing to investigate the emission, abundance, diversity and composition of the fungal spores from each site alongside meteorological variables. Kruskal-Wallis and Wilcoxon tests examined differences in the bi-hourly Alternaria concentrations between the sites. Shannon's and Simpson's Index determined the diversity of the fungal spores between the unmanaged and non-grassland sites. The results showed that grasslands are a strong source of Alternaria spores with considerably higher numbers of clinically important days compared with the non-grassland site. The managed grassland varied in Alternaria spore emission pattern from the unmanaged, probably due to differences in environmental variables and cutting frequency. The unmanaged grassland and non-grassland sites showed a high diversity of fungi including Alternaria, Cladosporium, Ascochyta, Botrytis and Aureobasidium. Overall, the study shows that grasslands are a strong source of fungal spores with allergenic and pathogenic potential and have varying emission patterns, compared with nearby urban areas where monitoring stations are located. This information is useful for atmospheric modelling of airborne fungal spore sources and has implications for allergy sufferers in particular.

Palabras clave

Alternaria allergy; Cyclone sampling; Managed grasslands; Spore emission; Unmanaged grasslands; Volumetric sampling; eDNA

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Texto completo: 1 Colección: 01-internacional Base de datos: MEDLINE Idioma: En Revista: J Environ Manage Año: 2024 Tipo del documento: Article Pais de publicación: Reino Unido

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