TY - JOUR
T1 - Projections of the start of the airborne pollen season in Barcelona (NE Iberian Peninsula) over the 21st century
AU - Alarcón, Marta
AU - Casas-Castillo, María del Carmen
AU - Rodríguez-Solà, Raül
AU - Periago, Cristina
AU - Belmonte, Jordina
N1 - Copyright © 2024 The Author(s). Published by Elsevier B.V. All rights reserved.
PY - 2024/8/10
Y1 - 2024/8/10
N2 - The effects of global warming are numerous and recent studies reveal that they can affect the timing of pollination. Temperature is the meteorological variable that presents a clearer relationship with the start of the pollination season of most of the observed airborne pollen taxa. In Catalonia, in the last fifty years, the average annual air temperature has increased by +0.23 °C/decade, and the local warming has been slightly higher than the one on a global scale. Projections point to an increase in temperature in the coming decades, which would be more marked towards the middle of the century. To analyse the effect of the increase in temperature due to global warming on the starting date of pollen season in Barcelona, a forecasting model has been applied to a set of projected future temperatures estimated by the European RESCCUE project. This model, largely used in the literature, is based on determining the thermal needs of the plant for the pollen season to begin. The model calibration to obtain the initial parameters has been made by using 20 years of pollen data (2000–2019), and the model effectiveness has subsequently been tested through an internal evaluation over the period of the calibration and an external evaluation on 4 years not included in the calibration (2020−2023). The mean bias error in the internal calibration ranged between −0.4 and − 0.6 days, and between +0.5 and − 8.3 in the external one, depending on the taxon. The results of the application of the model to the temperature projections over the 21st century point to a progressive advancement in the pollination dates of several pollen types abundant in the city, allergenic most of them. These advances ranged, at the end of the century, between 15 and 27 days, depending on the climate model, for the scenario of the highest concentrations (RCP8.5) and between 7 and 12 days for the emissions stabilization scenario (RCP4.5).
AB - The effects of global warming are numerous and recent studies reveal that they can affect the timing of pollination. Temperature is the meteorological variable that presents a clearer relationship with the start of the pollination season of most of the observed airborne pollen taxa. In Catalonia, in the last fifty years, the average annual air temperature has increased by +0.23 °C/decade, and the local warming has been slightly higher than the one on a global scale. Projections point to an increase in temperature in the coming decades, which would be more marked towards the middle of the century. To analyse the effect of the increase in temperature due to global warming on the starting date of pollen season in Barcelona, a forecasting model has been applied to a set of projected future temperatures estimated by the European RESCCUE project. This model, largely used in the literature, is based on determining the thermal needs of the plant for the pollen season to begin. The model calibration to obtain the initial parameters has been made by using 20 years of pollen data (2000–2019), and the model effectiveness has subsequently been tested through an internal evaluation over the period of the calibration and an external evaluation on 4 years not included in the calibration (2020−2023). The mean bias error in the internal calibration ranged between −0.4 and − 0.6 days, and between +0.5 and − 8.3 in the external one, depending on the taxon. The results of the application of the model to the temperature projections over the 21st century point to a progressive advancement in the pollination dates of several pollen types abundant in the city, allergenic most of them. These advances ranged, at the end of the century, between 15 and 27 days, depending on the climate model, for the scenario of the highest concentrations (RCP8.5) and between 7 and 12 days for the emissions stabilization scenario (RCP4.5).
KW - Allergenic pollen
KW - Climate change
KW - Forecast
KW - Pollen prediction
KW - Start pollination
KW - Temperature projections
KW - Allergenic pollen
KW - Climate change
KW - Forecast
KW - Pollen prediction
KW - Start pollination
KW - Temperature projections
UR - http://www.scopus.com/inward/record.url?scp=85194200164&partnerID=8YFLogxK
UR - https://www.mendeley.com/catalogue/f4e6bf72-3870-3030-b2b6-357517d0adea/
UR - https://portalrecerca.uab.cat/en/publications/3ad69113-873a-4b1d-ba01-fc7dc8d51ddc
U2 - 10.1016/j.scitotenv.2024.173363
DO - 10.1016/j.scitotenv.2024.173363
M3 - Article
C2 - 38795995
AN - SCOPUS:85194200164
SN - 0048-9697
VL - 937
JO - Science of the total environment
JF - Science of the total environment
M1 - 173363
ER -