Brennan, G; Potter, C; Adams-Groom, B; Barber, A; Clewlow, Y; De Vere, N; Griffith, G; Hanlon, H M; Hegarty, M; Kurganskiy, A; Mc Innes, R N; Petch, G; Osborne, N; Skjøth, C; Wheeler, B; Creer, S

Author(s)

Brennan, G

Potter, C

Adams-Groom, B

Barber, A

Clewlow, Y

De Vere, N

Griffith, G

Hanlon, H M

Hegarty, M

Kurganskiy, A

Mc Innes, R N

Petch, G

Osborne, N

Skjøth, C

Wheeler, B

Creer, S

Publication Date

2019-08

Abstract

Background : In Europe, grass pollen is the single most important outdoor aeroallergen; 27% of the population are sensitised to grass pollen leading to extensive negative health outcomes. Of particular importance to human health is allergic asthma, which can lead to hospitalisation and can be fatal. Sensitivity towards grass pollen varies between species, of which there are over 150 in the UK. However, due to few unique morphological features, grass pollen from different species cannot be discriminated eas-ily using traditional observational methods. Currently, there is no way of detecting, modelling or forecasting the aerial- dispersion of taxon-specific pollen from the extensive biodiversity of UK grasses. PollerGENis an interdisciplinary NERC project, in collabo-ration with the UK Met Office with the aim of advancing the way that pollen dispersion is measured and forecast. Emerging molecu-lar data (targeted sequencing of DNA taxonomy markers, i.e. me-tabarcoding) have indicated that the species composition of aerial grass pollen communities varies significantly both temporally and spatially across the grass flowering season. Yet, the precise quan-titative nature of the data, both from laboratory and field trials, remains unconfirmed. Method : Here, we used quantitative PCR (qPCR) to analyse aerial environmental DNA (eDNA) from up to 14 sites across the UK dur-ing the 2016- 2017 grass pollen seasons. Our aim was to quantify phenological and geographical trends exhibited in pollen deposition of key known allergenic grasses, including Dactylis glomerata, Lolium perenne and Phleum pratense . Results : The results confirm that the grass flowering season is het-erogeneous, showing quantitative differences in taxon composition throughout the summer months. The data demonstrate that sea-sonal exposure to different types of grass pollen is not static, but features shifting abundances of different species of pollen that can be linked to health outcomes. Conclusion : The empirical findings will be discussed in addition to providing a broader perspective of the PollerGEN program, that in-tegrates species vegetation mapping, advanced aerobiological mod-elling, environmental genomic, metabarcoding and qPCR genetic analyses and human epidemiology.

Citation

Allergy, 74(S106), p. 39-40

ISSN

1398-9995

0105-4538

Link

https://hdl.handle.net/1959.11/58485

Publisher

Wiley-Blackwell Publishing Ltd

Title

Assessing quantitative taxon-specific grass pollen biodiversity in time and space using targeted molecular analysis of aerial environmental DNA

Type of document

Conference Publication

Entity Type

Publication

Author(s)	Brennan, G Potter, C Adams-Groom, B Barber, A Clewlow, Y De Vere, N Griffith, G Hanlon, H M Hegarty, M Kurganskiy, A Mc Innes, R N Petch, G Osborne, N Skjøth, C Wheeler, B Creer, S
Publication Date	2019-08
Abstract	<p><b>Background :</b> In Europe, grass pollen is the single most important outdoor aeroallergen; 27% of the population are sensitised to grass pollen leading to extensive negative health outcomes. Of particular importance to human health is allergic asthma, which can lead to hospitalisation and can be fatal. Sensitivity towards grass pollen varies between species, of which there are over 150 in the UK. However, due to few unique morphological features, grass pollen from different species cannot be discriminated eas-ily using traditional observational methods. Currently, there is no way of detecting, modelling or forecasting the aerial- dispersion of taxon-specific pollen from the extensive biodiversity of UK grasses. PollerGENis an interdisciplinary NERC project, in collabo-ration with the UK Met Office with the aim of advancing the way that pollen dispersion is measured and forecast. Emerging molecu-lar data (targeted sequencing of DNA taxonomy markers, i.e. me-tabarcoding) have indicated that the species composition of aerial grass pollen communities varies significantly both temporally and spatially across the grass flowering season. Yet, the precise quan-titative nature of the data, both from laboratory and field trials, remains unconfirmed. </p> <p><b>Method :</b> Here, we used quantitative PCR (qPCR) to analyse aerial environmental DNA (eDNA) from up to 14 sites across the UK dur-ing the 2016- 2017 grass pollen seasons. Our aim was to quantify phenological and geographical trends exhibited in pollen deposition of key known allergenic grasses, including Dactylis glomerata, Lolium perenne and Phleum pratense . </p> <p><b>Results :</b> The results confirm that the grass flowering season is het-erogeneous, showing quantitative differences in taxon composition throughout the summer months. The data demonstrate that sea-sonal exposure to different types of grass pollen is not static, but features shifting abundances of different species of pollen that can be linked to health outcomes. </p> <p><b>Conclusion :</b> The empirical findings will be discussed in addition to providing a broader perspective of the PollerGEN program, that in-tegrates species vegetation mapping, advanced aerobiological mod-elling, environmental genomic, metabarcoding and qPCR genetic analyses and human epidemiology.</p>
Citation	Allergy, 74(S106), p. 39-40
ISSN	1398-9995 0105-4538
Link	https://hdl.handle.net/1959.11/58485
Publisher	Wiley-Blackwell Publishing Ltd
Title	Assessing quantitative taxon-specific grass pollen biodiversity in time and space using targeted molecular analysis of aerial environmental DNA
Type of document	Conference Publication
Entity Type	Publication

Assessing quantitative taxon-specific grass pollen biodiversity in time and space using targeted molecular analysis of aerial environmental DNA

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