Residential exposure to radiofrequency fields from mobile phone base stations, and broadcast transmitters: a population-based survey with personal meter

Objectives: Both the public perceptions, and most published epidemiologic studies, rely on the assumption that the distance of a particular residence from a base station or a broadcast transmitter is an appropriate surrogate for exposure to radiofrequency fields, although complex propagation characteristics affect the beams from antennas. The main goal of this study was to characterise the distribution of residential exposure from antennas using personal exposure meters. Methods: A total of 200 randomly selected people were enrolled. Each participant was supplied with a personal exposure meter for 24 h measurements, and kept a time–location–activity diary. Two exposure metrics for each radiofrequency were then calculated: the proportion of measurements above the detection limit (0.05 V/m), and the maximum electric field strength. Residential address was geocoded, and distance from each antenna was calculated. Results: Much of the time, the recorded field strength was below the detection level (0.05 V/m), the FM band standing apart with a proportion above the detection threshold of 12.3%. The maximum electric field strength was always lower than 1.5 V/m. Exposure to GSM and DCS waves peaked around 280 m and 1000 m from the antennas. A downward trend was found within a 10 km range for FM. Conversely, UMTS, TV 3, and TV 4&5 signals did not vary with distance. Conclusions: Despite numerous limiting factors entailing a high variability in radiofrequency exposure assessment, but owing to a sound statistical technique, we found that exposures from GSM and DCS base stations increase with distance in the near source zone, to a maximum where the main beam intersects the ground. We believe these results will contribute to the ongoing public debate over the location of base stations and their associated emissions.

[1]  T G Cooper,et al.  Exposure of the General Public to Radio Waves near Microcell and Picocell Base Stations for Mobile Telecommunications , 2004 .

[2]  A. Ahlbom Guidelines for limiting exposure to time-varying electric, magnetic, and electromagnetic fields (up to 300 GHz) , 1998 .

[3]  C. Bornkessel,et al.  Determination of the general public exposure around GSM and UMTS base stations. , 2007, Radiation protection dosimetry.

[4]  Katja Radon,et al.  Exposure to mobile telecommunication networks assessed using personal dosimetry and well-being in children and adolescents: the German MobilEe-study , 2008, Environmental health : a global access science source.

[5]  Paolo Vecchia,et al.  Determinants of exposure to electromagnetic fields from mobile phones. , 2004, Radiation protection dosimetry.

[6]  S. Mann,et al.  A discussion of potential exposure metrics for use in epidemiological studies on human exposure to radiowaves from mobile phone base stations1 , 2000, Journal of Exposure Analysis and Environmental Epidemiology.

[7]  Katja Radon,et al.  Personal dosimetry of exposure to mobile telephone base stations? An epidemiologic feasibility study comparing the Maschek dosimeter prototype and the Antennessa DSP‐090 system , 2006, Bioelectromagnetics.

[8]  Luc Martens,et al.  CHARACTERIZATION OF PERSONAL RF ELECTROMAGNETIC FIELD EXPOSURE AND ACTUAL ABSORPTION FOR THE GENERAL PUBLIC , 2008, Health physics.

[9]  Andreas Siegenthaler,et al.  Exposure modeling of high-frequency electromagnetic fields , 2008, Journal of Exposure Science and Environmental Epidemiology.

[10]  M. Kundi “Epidemiology of Health Effects of Radiofrequency Exposure” , 2005, Environmental health perspectives.

[11]  M. Egger,et al.  Statistical analysis of personal radiofrequency electromagnetic field measurements with nondetects , 2008, Bioelectromagnetics.

[12]  Michael H. Repacholi,et al.  Workgroup Report: Base Stations and Wireless Networks—Radiofrequency (RF) Exposures and Health Consequences , 2006, Environmental health perspectives.

[13]  Leeka Kheifets,et al.  Epidemiology of Health Effects of Radiofrequency Exposure , 2004, Environmental health perspectives.

[14]  Hugo Lehmann,et al.  Electromagnetic field measurements using personal exposimeters , 2008, Bioelectromagnetics.

[15]  H-P Neitzke,et al.  Determination of exposure due to mobile phone base stations in an epidemiological study. , 2007, Radiation protection dosimetry.

[16]  Yoon-Myoung Gimm,et al.  Radio-frequency radiation exposure from AM radio transmitters and childhood leukemia and brain cancer. , 2007, American journal of epidemiology.

[17]  Joe Wiart,et al.  Feasibility of future epidemiological studies on possible health effects of mobile phone base stations , 2006, Bioelectromagnetics.

[18]  A Benedetto,et al.  Population exposure to electromagnetic fields generated by radio base stations: evaluation of the urban background by using provisional model and instrumental measurements. , 2001, Radiation protection dosimetry.

[19]  G Berg-Beckhoff,et al.  Mobile phone base stations and adverse health effects: phase 2 of a cross-sectional study with measured radio frequency electromagnetic fields , 2008, Occupational and Environmental Medicine.

[20]  Juan Blas,et al.  Potential exposure assessment errors associated with body‐worn RF dosimeters , 2007, Bioelectromagnetics.

[21]  M. Blettner,et al.  Childhood leukemia in relation to radio frequency electromagnetic fields in the vicinity of TV and radio broadcast transmitters. , 2008, American journal of epidemiology.

[22]  Györgyi Kubinyi,et al.  Personal RF exposimetry in urban area , 2008, Ann. des Télécommunications.

[23]  G. Ziegelberger,et al.  International commission on non-ionizing radiation protection. , 2006, Progress in biophysics and molecular biology.

[24]  Katja Radon,et al.  Personal exposure to mobile phone frequencies and well‐being in adults: A cross‐sectional study based on dosimetry , 2008, Bioelectromagnetics.