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Radon - Chapter 5 (2021)

Cinelli, Giorgia ; De Cort, Marc ; Tollefsen, Tore ; [et al.]

Publication Office of the European Union

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Publication Date: 2021-02-22

Description: Radon isotopes (222Rn, 220Rn) are noble, naturally occurring radioactive gases. They originate from the alpha decay of radium isotopes (226Ra, 224Ra), which occur in most materials in the environment, i.e. soil, rocks, raw and building materials. Radon is also found in ground and tap water. The two radon isotopes are chemically identical, but they have very different halflives: 3.82 days for radon (222Rn) and 56 seconds for thoron (220Rn). Thus, they behave very differently in the environment. Both isotopes are alpha-emitters; their decay products are polonium, bismuth and lead isotopes. The main source of radon in air (indoor or outdoor) is soil, where radon concentrations are very high and reach tens of Bq/m3. Radon release from soil into the atmosphere depends on radium (226Ra) concentration in soil, soil parameters (porosity, density, humidity) and weather conditions (e.g. air temperature and pressure, wind, precipitation). Outdoor radon concentrations are relatively low and change daily and seasonally. These changes may be used to study the movement of air masses and other climatic conditions. Radon gas enters buildings (homes, workplaces) through cracks, crevices and leaks that occur in foundations and connections between different materials in the building. This is due to temperature and pressure differences between indoors and outdoors. Indoor radon is the most important source of radiation exposure to the public, especially on ground floor. Radon and its decay products represent the main contributor to the effective dose of ionising radiation that people receive. Radon is generally considered as the second cause of increased risk of lung cancer (after smoking). The only way to assess indoor radon concentration is to make measurements. Different methods exist, but the most common one is to use track-etched detectors. Such detectors may be used to perform longterm (e.g. annual) measurements in buildings. The exposure time is important because indoor radon levels change daily and seasonally. Moreover, radon concentration shows a high spatial variation on a local scale, and is strongly connected with geological structure, building characteristics and ventilation habits of occupants. A European map of indoor radon concentration has been prepared and is displayed. It is derived from survey data received from 35 countries participating on a voluntary basis.

Description: Published

Description: 108-137

Description: 6A. Geochimica per l'ambiente e geologia medica

Keywords: Radon ; European Map ; Indoor radon ; Radon detectors ; 04.04. Geology

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: book chapter

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European annual cosmic-ray dose: estimation of population exposure (2017)

Cinelli, Giorgia ; Gruber, Valeria ; De Felice, Luca ; [et al.]

Taylor & Francis

In: Journal of Maps. 2017; 13(2): 812-821. Published 2017 Oct 25. doi: 10.1080/17445647.2017.1384934.

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Publication Date: 2017-10-25

Electronic ISSN: 1744-5647

Topics: Architecture, Civil Engineering, Surveying , Geography

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Analysis of Alpha Activity Levels and Dependence on Meteorological Factors over a Complex Terrain in Northern Iberian Peninsula (2014–2018) (2020)

Hernández-Ceballos, Miguel Ángel ; Legarda, Fernando ; Alegría, and Natalia

Molecular Diversity Preservation International

In: International Journal of Environmental Research and Public Health. 2020; 17(21): 7967. Published 2020 Oct 29. doi: 10.3390/ijerph17217967.

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Publication Date: 2020-10-29

Description: Alpha ambient concentrations in ground-level air were measured weekly in Bilbao (northern Spain) by collecting aerosols in filters between 2014 and 2018. Over this period, the alpha activity concentrations in the aerosol’s samples range from 13.9 µBq/m3 to 246.5 µBq/m3, with a mean of 66.49 ± 39.33 µBq/m3. The inter-annual and intra-annual (seasonal and monthly) variations are analyzed, with the highest activity in autumn months and the lowest one in winter months. Special attention has been paid to alpha peak concentrations (weekly concentrations above the 90th percentile) and its relationship with regional meteorological scenarios by means of air mass trajectories and local meteorological parameters. The meteorological analysis of these high alpha concentrations has revealed two airflow patterns-one from the south with land origin and one from the north with maritime origin-mainly associated with these alpha peak concentrations. Surface winds during representative periods of both airflow patterns are also analyzed in combination with 222Rn concentrations, which demonstrated the different daily evolution associated with each airflow pattern. The present results are relevant in understanding trends and meteorological factors affecting alpha activity concentrations in this area, and hence, to control potential atmospheric environmental releases and ensure the environmental and public health.

Print ISSN: 1661-7827

Electronic ISSN: 1660-4601

Topics: Energy, Environment Protection, Nuclear Power Engineering , Medicine

Published by Molecular Diversity Preservation International

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The European Radiological Data Exchange Platform (EURDEP): 25 years of monitoring data exchange (2020)

Sangiorgi, Marco ; Hernández-Ceballos, Miguel Angel ; Jackson, Kevin ; [et al.]

Copernicus

In: Earth System Science Data. 2020; 12(1): 109-118. Published 2020 Jan 21. doi: 10.5194/essd-12-109-2020.

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Publication Date: 2020-01-21

Description: During the early phase of an accident with the release of radioactive material to the environment at the local or transboundary scale, a rapid and continuous system of information exchange, including real-time monitoring data to competent authorities and the public, is critical for setting up countermeasures. This information and data exchange must be carried out in a harmonized and consistent manner to facilitate its interpretation and analysis. After the Chernobyl accident in 1986, and in order to avoid the competent authorities being unprepared again for a similar event, the European Commission (EC) defined and put in place a directive (Council Decision 87/600/EURATOM, 1987) which essentially obliges a member state that decides to implement widespread countermeasures to protect its population to notify the European Commission without delay. The same Council Decision also specifies that the results of radiological monitoring must be made available to the European Commission and all potentially affected member states. Over the past 30 years, the European Commission has invested resources in developing and improving a complete system to carry out this delicate task, currently composed of two platforms: the European Community Urgent Radiological Information Exchange (ECURIE) and the European Radiological Data Exchange Platform (EURDEP). This paper aims to increase knowledge of the latter system as a valuable tool for understanding and analysing the radioactivity levels in Europe. Commencing with background information, in this paper, we will describe the EURDEP system in detail, with an emphasis on its status, data availability, and how these data are diffused depending on the audience. Within the scope of this publication, we describe an example of measurements available in the EURDEP system, which to be used for scientific purposes. We provide two complete datasets (air-concentration samples – https://doi.org/10.2905/23CBC7C4-4FCC-47D5-A286-F8A4EDC8215F; De Cort et al., 2019a; and gamma dose rates – https://doi.org/10.2905/0F9F3E2D-C8D7-4F46-BBE7-EACF3EED1560; De Cort et al., 2019b) for the recent radiological release of 106Ru in Europe, which occurred between the end of September and early October 2017. Records stored are publicly accessible through an unrestricted repository called COLLECTION belonging to the JRC Data Public Catalogue (https://data.jrc.ec.europa.eu, last access: 1 July 2019).

Print ISSN: 1866-3508

Electronic ISSN: 1866-3516

Topics: Geosciences

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Air Mass Trajectories to Estimate the “Most Likely” Areas to Be Affected by the Release of Hazardous Materials in the Atmosphere—Feasibility Study (2019)

Hernández-Ceballos, Miguel Ángel ; De Felice, Luca

Molecular Diversity Preservation International

In: Atmosphere. 2019; 10(5): 253. Published 2019 May 08. doi: 10.3390/atmos10050253.

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Publication Date: 2019-05-08

Description: Countries continuously review and improve their Emergency Preparedness and Response (EP&R) arrangements and capabilities to take agile and rapid actions with the intent of minimizing health, environmental and economic impacts of potential harmful releases into the atmosphere. One of the specific topics within the EP&R field is the estimation of the areas that might be affected. A proposal is presented to estimate the spatial distribution of the released material. The methodology combines the computation of air mass trajectories and the elaboration of density maps from the corresponding end-point positions. To this purpose, density maps are created in a three-way procedure; first, forward trajectories are calculated from a certain location and for a long period of time, e.g., a decade; second, the selected end-point positions are aggregated in a density field by applying the kernel density estimation method, and then the density field is visualized. The final product reports the areas with the longest residence time of air masses, and hence, the areas “most likely” to be affected and where the deposit may be substantial. The usefulness of this method is evaluated taking as reference a ten-year period (2007–2016) and against two different radioactive release scenarios, such as the Chernobyl accident and the Algeciras release. While far from being fully comprehensive, as only meteorological data are used, the performance of this method is reasonably efficient, and hence, it is a desirable alternative to estimating those areas potentially affected by a substantial deposit following the releases of a harmful material in the atmosphere.

Electronic ISSN: 2073-4433

Topics: Geosciences

Published by Molecular Diversity Preservation International

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Atmospheric Pathways and Distance Range Analysis of Castanea Pollen Transport in Southern Spain (2020)

López-Orozco, Rocío ; Hernández-Ceballos, Miguel Ángel ; Galán, Carmen ; [et al.]

Molecular Diversity Preservation International

In: Forests. 2020; 11(10): 1092. Published 2020 Oct 14. doi: 10.3390/f11101092.

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Publication Date: 2020-10-14

Description: The sweet chestnut (Castanea sativa Mill.) is the only native species of this genus in Europe, where it faces various threats that are causing a severe decrease in populations, with the resulting loss of genetic diversity. In the Iberian Peninsula, it is of high economic and ecological importance, being well represented, especially in northern areas, whilst it is limited to isolated populations in medium-range mountains in southern Spain (Andalusia region). Taking advantage of this fragmented distribution, this study analyzes the dynamics of atmospheric transport of Castanea pollen through Andalusia region in order to obtain a better understanding of the pollination pathways as a key aspect of the floral biology of this partially anemophilous species. The aerobiological characteristics of this species are also of special interest since its pollen has been recognized as allergenic. Pollen transport pathways were studied by applying back-trajectories analysis together with aerobiological, phenological, land cover, and meteorological data. The results reveal that airborne Castanea pollen concentrations recorded in the city of Cordoba, in the center of Andalusia region, reach medium- and even long-range distances. The backward-trajectory analysis indicates that most of the pollen data detected outside the Castanea flowering season were related to westerly slow and easterly airflows. Furthermore, some of the case studies analyzed indicate the presence of southerly airflow patterns, which could influence medium- and long-range transport events from chestnut populations further south, even from those located in north African mountains. The integrated analysis of the results offers us better knowledge of the cross-pollination pathways of this endangered species, which help us to understand its genetic flows, as a basis for designing conservation strategies for this highly fragmented species in southern Spain.

Electronic ISSN: 1999-4907

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Published by Molecular Diversity Preservation International

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Seasonality of 7Be concentrations in Europe and influence of tropopause height (2016)

Hernández-Ceballos, Miguel Angel ; Brattich, Erika ; Cinelli, Giorgia ; [et al.]

Taylor & Francis

In: Tellus B: Chemical and Physical Meteorology. 2016; 68(1): 29534. Published 2016 May 11. doi: 10.3402/tellusb.v68.29534.

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Publication Date: 2016-05-11

Print ISSN: 0280-6509

Electronic ISSN: 1600-0889

Topics: Geography , Physics

Published by Taylor & Francis on behalf of Department of Meteorology (MISU), Stockholm University.

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The European Union Radiological Data Exchange Platform (EURDEP): 25 years of monitoring data exchange (2019)

Sangiorgi, Marco ; Hernandez Ceballos, Miguel Angel ; Jackson, Kevin ; [et al.]

Copernicus

In: Earth System Science Data Discussions. 2019; 1-16. Published 2019 Sep 16. doi: 10.5194/essd-2019-132. [early online release]

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Publication Date: 2019-09-16

Description: During the early phase of an accident with release of radioactive material to the atmosphere having an environmental impact at local or transboundary scale, a rapid and continuous notification and exchange of information including real-time environmental monitoring data to competent authorities and the public is essential to effect appropriate countermeasures. A rapid exchange of information and data must be carried out in a harmonised and consistent manner to facilitate its interpretation and analysis. After the Chernobyl accident in 1986, and in order to avoid that competent authorities be unprepared again for a similar event, the European Commission defined and put in place a Directive (Council Decision 87/600/EURATOM) which essentially obliges a member state that decides to implement widespread countermeasures to protect its population to notify the European Commission without delay. The same Council Decision also specifies that the results of radiological monitoring must be made available to the Commission and all potentially affected member states. Over the past 30 years, the European Commission has invested resources in developing and improving a complete system to carry out this delicate task, currently composed of two platforms: the European Community Urgent Radiological Information Exchange, ECURIE, and the European Radiological Data Exchange Platform, EURDEP. This paper aims to increase knowledge of this latter system as a valuable tool to understand and analyse the radioactivity levels in Europe. Commencing with background information, in this paper, we will describe the EURDEP system in detail, with an emphasis on its status, data availability, and how these data are diffused depending on the audience. Within the scope of this publication, we describe an example of measurements available in the EURDEP system, to be used for scientific purposes. We provide two complete datasets (air concentration samples, http://data.europa.eu/89h/23cbc7c4-4fcc-47d5-a286-f8a4edc8215f (De Cort et al., 2019a) and gamma dose rates, http://data.europa.eu/89h/0f9f3e2d-c8d7-4f46-bbe7-eacf3eed1560 (De Cort et al., 2019b)) for the recent radiological release of 106Ru in Europe which occurred between the end of September and early October 2017. Records stored are publicly accessible through an unrestricted repository called “COLLECTION” belonging to JRC Data Public Catalogue ( https://data.jrc.ec.europa.eu).

Electronic ISSN: 1866-3591

Topics: Geosciences

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30 years of European Commission Radioactivity Environmental Monitoring data bank (REMdb) – an open door to boost environmental radioactivity research (2019)

Sangiorgi, Marco ; Hernández Ceballos, Miguel Angel ; Iurlaro, Giorgia ; [et al.]

Copernicus

In: Earth System Science Data. 2019; 11(2): 589-601. Published 2019 May 02. doi: 10.5194/essd-11-589-2019.

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Publication Date: 2019-05-02

Description: The Radioactivity Environmental Monitoring data bank (REMdb) was created in the aftermath of the Chernobyl accident (1986) by the European Commission (EC) – Directorate-General Joint Research Centre (DG JRC), sited in Ispra (Italy). Since then it has been maintained there with the aim to keep a historical record of the Chernobyl accident and to store the radioactivity monitoring data gathered through the national environmental monitoring programs of the member states (MSs). The legal basis is the Euratom Treaty, Chapter III Health and Safety, Articles 35 and 36, which clarify that MSs shall periodically communicate to the EC information on environmental radioactivity levels. By collecting and validating this information in REMdb, JRC supports the DG for Energy in its responsibilities in returning qualified information to the MSs (competent authorities and general public) on the levels of radioactive contamination of the various compartments of the environment (air, water, soil) on the European Union scale. REMdb accepts data on radionuclide concentrations from EU MSs in both environmental samples and foodstuffs from 1984 onwards. To date, the total number of data records stored in REMdb exceeds 5 million, in this way providing the scientific community with a valuable archive of environmental radioactivity topics in Europe. Records stored in REMdb are publicly accessible until 2011 through an unrestricted repository “REM data bank – Years 1984–2006” https://doi.org/10.2905/jrc-10117-10024 (De Cort et al., 2007) and “REM data bank – Years 2007–2011” https://doi.org/10.2905/de42f259-fafe-4329-9798-9d8fabb98de5 (De Cort et al., 2012). Access to data from 2012 onwards is granted only after explicit request, until the corresponding monitoring report is published. Each data record contains information describing the sampling circumstances (sampling type, begin and end time), measurement conditions (value, nuclide, apparatus, etc.), location and date of sampling, and original data reference. In this paper the scope, features and extension of REMdb are described in detail.

Print ISSN: 1866-3508

Electronic ISSN: 1866-3516

Topics: Geosciences

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Meteorological Factors Controlling 7Be Activity Concentrations in the Atmospheric Surface Layer in Northern Spain (2020)

Alegría, Natalia ; Hernández-Ceballos, Miguel Ángel ; Herranz, Margarita ; [et al.]

Molecular Diversity Preservation International

In: Atmosphere. 2020; 11(12): 1340. Published 2020 Dec 10. doi: 10.3390/atmos11121340.

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Publication Date: 2020-12-10

Description: This work presents the analysis of weekly 7Be activity concentrations in the air measured in Bilbao (northern Spain) by collecting aerosols in filters over a ten years period (2009–2018). 7Be level is in the 0.35–7.3 mBq/m3 range, with a mean of 3.20 ± 1.12 mBq/m3. The trend, cycle, seasonal and monthly variability are evaluated using time series analysis techniques. The results indicate the impact of sunspots (24th solar cycle) on interannual 7Be activity concentrations, and a significant seasonal and monthly variation, with maximum concentrations occurring in spring-summer and minimum in the winter. The correlation of different 7Be ranges with local meteorological parameters, such as precipitation, temperature, relative humidity, and pressure, is also addressed, with precipitation having the greatest impact on 7Be activity values. The analysis of synoptic airflows, by calculating the back-trajectory clusters, and local winds at surface level reveals the important influence of the arrival of slow northwest Atlantic flows and the development of breezes on reaching high 7Be activity concentrations in this area.

Electronic ISSN: 2073-4433

Topics: Geosciences

Published by Molecular Diversity Preservation International

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