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1.
Tummon, F.* et al.: The role of automatic pollen and fungal spore monitoring across major end-user domains. Aerobiologia 40, 57–75 (2024)
2.
Suarez-Suarez, M. et al.: Accuracy of a hand-held resistance-free flowmeters for flow adjustments of Hirst-Type pollen traps. Aerobiologia 39, 143–148 (2023)
3.
Triviño, M. et al.: Variability between Hirst-type pollen traps is reduced by resistance-free flow adjustment. Aerobiologia 39, 257-273 (2023)
4.
Triviño, M. et al.: Correction to: Variability between Hirst-type pollen traps is reduced by resistance-free flow adjustment (Aerobiologia, (2023), 39, 2, (257-273), 10.1007/s10453-023-09790-x). Aerobiologia 39, 389-390 (2023)
5.
Buters, J.T.M. et al.: Automatic detection of airborne pollen: an overview. Aerobiologia, DOI: 10.1007/s10453-022-09750-x (2022)
6.
Markey, E.* et al.: A comprehensive aerobiological study of the airborne pollen in the Irish environment. Aerobiologia 38, 343-366 (2022)
7.
Becker, J. et al.: Threshold values of grass pollen (Poaceae) concentrations and increase in emergency department visits, hospital admissions, drug consumption and allergic symptoms in patients with allergic rhinitis: A systematic review. Aerobiologia 37:633–662 (2021)
8.
Galán, C.* et al.: Airborne fungal spore monitoring: Between analyst proficiency testing. Aerobiologia 37, 351–361 (2021)
9.
Muzalyova, A.* ; Brunner, J.O.* ; Traidl-Hoffmann, C. & Damialis, A.: Forecasting Betula and Poaceae airborne pollen concentrations on a 3-hourly resolution in Augsburg, Germany: Toward automatically generated, real-time predictions. Aerobiologia 37, 425–446 (2021)
10.
Steckling-Muschack, N.* et al.: A systematic review of threshold values of pollen concentrations for symptoms of allergy. Aerobiologia 37, 395–424 (2021)
11.
Monroy-Colín, A.* et al.: Phenology of Cupressaceae urban infrastructure related to its pollen content and meteorological variables. Aerobiologia 36, 459–479 (2020)
12.
Pecero-Casimiro, R.* et al.: Pollen calendars and regional gradients as information tools in the Extremadura pollen monitoring network (SW Spain). Aerobiologia 36, 731–748 (2020)
13.
Alcázar, P.* et al.: Cluster analysis of variations in the diurnal pattern of grass pollen concentrations in Northern Europe (Copenhagen) and Southern Europe (Cordoba). Aerobiologia 35, 269-281 (2019)
14.
Karatzas, K.* ; Tsiamis, A.* ; Charalampopoulos, A.* ; Damialis, A. & Vokou, D.*: Pollen season identification for three pollen taxa in Thessaloniki, Greece: A 30-year retrospective analysis. Aerobiologia 35, 659-669 (2019)
15.
Muzalyova, A.* ; Brunner, J.O.* ; Traidl-Hoffmann, C. & Damialis, A.: Pollen allergy and health behavior: Patients trivializing their disease. Aerobiologia 35, 327–341 (2019)
16.
Oteros, J. et al.: Errors in determining the flow rate of Hirst-type pollen traps. Aerobiologia 33, 201-210 (2017)
17.
Sikoparija, B.* et al.: Spatial and temporal variations in airborne Ambrosia pollen in Europe. Aerobiologia 33, 181-189 (2016)
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