Automatic detection of airborne pollen: an overview
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Published:2022-07-30
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ISSN:0393-5965
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Container-title:Aerobiologia
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language:en
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Short-container-title:Aerobiologia
Author:
Buters Jeroen, Clot Bernard, Galán Carmen, Gehrig Regula, Gilge Stefan, Hentges François, O’Connor David, Sikoparija Branko, Skjoth Carsten, Tummon FionaORCID, Adams-Groom Beverley, Antunes Célia M., Bruffaerts Nicolas, Çelenk Sevcan, Crouzy Benoit, Guillaud Géraldine, Hajkova Lenka, Seliger Andreja Kofol, Oliver Gilles, Ribeiro Helena, Rodinkova Victoria, Saarto Annika, Sauliene Ingrida, Sozinova Olga, Stjepanovic Barbara
Abstract
AbstractPollen monitoring has traditionally been carried out using manual methods first developed in the early 1950s. Although this technique has been recently standardised, it suffers from several drawbacks, notably data usually only being available with a delay of 3–9 days and usually delivered at a daily resolution. Several automatic instruments have come on to the market over the past few years, with more new devices also under development. This paper provides a comprehensive overview of all available and developing automatic instruments, how they measure, how they identify airborne pollen, what impacts measurement quality, as well as what potential there is for further advancement in the field of bioaerosol monitoring.
Publisher
Springer Science and Business Media LLC
Subject
Plant Science,Immunology,Immunology and Allergy
Reference122 articles.
1. Adamov, S., Lemonis, N., Clot, B., Crouzy, B., Gehrig, R., & Graber, M.-J-, Sallin, C., and Tummon, F. (2021). On the measurement uncertainty of Hirst-type volumetric pollen and spore samplers. Aerobiologia. https://doi.org/10.1007/s10453-021-09724-5 2. Anderegg, W. R. L., Abatzoglou, J. T., Anderegg, L. D. L., Bielory, L., Kinney, P. L., & Ziska, L. (2021). Anthropogenic climate change is worsening North American pollen seasons. Proceedings of the National Academy of Science of the United States of America, 118, e2013284118. 3. ANSES (éd) Etat des connaissances sur l’impact sanitaire lié à l’exposition de la population aux pollens présents dans l’air ambiant. Rapport d’expertise collective. (2014). Agence nationale de sécurité sanitaire de l’alimentation, de l’environnement et du travail. Maison-Alfort France. 4. Apangu, G., Frisk, C., & A., Adams-Groom, B., Satchwell, J., Pashley, C. H and Skjoth, C. (2020). Air mass trajectories and land cover map reveal cereals and oilseed rape as major local sources of Alternaria spores in the Midlands. UK. Atmospheric Pollution Research, 11(9), 1668–1679. 5. Arias, D. G., Cirne, M. V. M., Chire, J. E., and Pedrini, H. (2017). Classification of Pollen Grain Images Based on an Ensemble of Classifiers. 16th IEEE International Conference on Machine Learning and Applications (ICMLA), 18–21 Dec. 2017 2017 (pp 234–240).
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