Temporal change of outdoor RF-EMF levels in four European countries: a microenvironmental measurement study

Beláčková, Lea; Fernandes Veludo, Adriana; Aminzadeh, Reza; Van Bladel, Han; Griffon, Vincent; Cardis, Elisabeth; Dongus, Stefan; Eeftens, Marloes; Guxens Junyent, Mònica; Joseph, Wout; Llobet, Patricia de; Mazet, Paul; Van Torre, Patrick; Thielens, Arno; Vermeulen, Roel; Wiart, Joe; Röösli, Martin; Huss, Anke

doi:http://dx.doi.org/10.1016/j.envres.2025.122315

Temporal change of outdoor RF-EMF levels in four European countries: a microenvironmental measurement study

Citation

Beláčková L, Veludo AF, Aminzadeh R, Van Bladel H, Griffon V, Cardis E, et al. Temporal change of outdoor RF-EMF levels in four European countries: a microenvironmental measurement study. Environ Res. 2025 Jul 11;285(Pt 1):122315. DOI: 10.1016/j.envres.2025.122315

Abstract

Introduction: Over the past two decades, the amount of transmitted mobile data has increased rapidly. It is unknown whether the implementation of the new technologies enabling this has resulted in changes of outdoor radio-frequency electromagnetic fields (RF-EMF) exposure. Therefore, microenvironmental measurements were used to investigate temporal trends in RF-EMF exposure between 2016 and 2023, in the Netherlands, Switzerland, Belgium and Spain, following a similar protocol across campaigns. Microenvironmental measurements refer to exposure measurements performed at predefined small areas that have been differentiated with a specific function in that particular area. This allowed us to compare exposure trends between countries and years. Methods: The data was collected as part of the ACCEDERA (2016-2018), ETAIN (2023), and GOLIAT (2023) projects, walking repeatedly the same routes with RF-EMF exposimeters. Identical microenvironments were identified in each country and measurements of the exposure from mobile base stations, mobile phones and the total exposure were compared across years. Results: Comparing measurements between 6 and 14 unique microenvironments in each country, our data did not suggest significant changes in the exposure from the mobile base station origin (total downlink exposure) between baseline measurements in 2016 to follow up and 2023 for the four countries. Across all countries and years the median values of the mobile base station exposure ranged from 0.11 mW/m2 (Switzerland, 2023) to 0.62 mW/m2 (Netherlands, 2018). There was no consistent trend in the individual microenvironments across the countries. Conclusions: Our measurements of RF-EMF outdoor exposure levels across included microenvironment groups do not indicate change in exposure levels between 2016 and 2023 despite an increase in mobile data traffic by a factor of 8 in Western Europe1.