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Oak pollen seasonality and severity across Europe and modelling the season start using a generalized phenological model

Artikel i vetenskaplig tidskrift
Författare M. Grundstrom
B. Adams-Groom
C. H. Pashley
Åslög Dahl
K. Rasmussen
L. A. de Weger
M. Thibaudon
S. Fernandez-Rodriguez
I. Silva-Palacios
C. A. Skjoth
Publicerad i Science of the Total Environment
Volym 663
Sidor 527-536
ISSN 0048-9697
Publiceringsår 2019
Publicerad vid Institutionen för biologi och miljövetenskap
Sidor 527-536
Språk en
Länkar dx.doi.org/10.1016/j.scitotenv.2019...
Ämnesord Pollen, Quercus, Growing Degree Day, Model onset, allergenic pollen, quercus, climate, dates, air, UK
Ämneskategorier Ekologi, Miljömedicin och yrkesmedicin, Miljövetenskap


Oak pollen seasons are relatively unexplored in large parts of Europe despite producing allergens and being a common tree in both continental and northern parts. Many studies are concentrated only on the Iberian Peninsula. In this study, the seasonal pattern of oak pollen in Europe was analysed using 10 observation sites, ranging from Spain to Sweden. The magnitude of peaks and annual pollen integral together with season-length were studied and substantially higher pollen levels and longer seasons were found in Spain. Two northern sites in Denmark and Sweden showed high oak pollen peaks together with two sites in Spain and United Kingdom. The study also tested four common definitions of season start and applied a generalized phenological model for computing the start of the pollen season. The most accurate definition for a European-wide description of the observed oak pollen start was when the cumulative daily average pollen count reached 50 grains per cubic meter. For the modelling of the start a thermal time method based on Growing Degree Day (GDD) was implemented, utilizing daily temperatures and a generalized approach to identify model parameters applicable to all included sites. GDD values varied between sites and generally followed a decreasing gradient from south to north, with some exceptions. Modelled onsets with base temperatures below 7 degrees C matched well with observed onsets and 76% of the predictions differed <= 4 days compared to observed onsets when using a base temperature of 2 degrees C. Base temperatures above 7 degrees C frequently predicted onsets differing >1 week from the observed. This general approach can be extended to a larger area where pollen observations are non-existent. The presented work will increase the understanding of oak pollen variation in Europe and provide knowledge of its phenology, which is a critical aspect both for modelling purposes on large-scale and assessing the human exposure to oak allergens. (C) 2019 The Authors. Published by Elsevier B.V.

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