Radon metrology for use in climate change observation and radiation protection at the environmental level

Röttger, Stefan; Röttger, Annette; Grossi, Claudia; Vargas, Arturo; Karstens, Ute; Cinelli, Giorgia; Chung, Edward; Kikaj, Dafina; Rennick, Chris; Mertes, Florian; Radulescu, Ileana

doi:10.5194/adgeo-57-37-2022

Articles | Volume 57

https://doi.org/10.5194/adgeo-57-37-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/adgeo-57-37-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 57

10 Mar 2022

| 10 Mar 2022

Radon metrology for use in climate change observation and radiation protection at the environmental level

Stefan Röttger, Annette Röttger, Claudia Grossi, Arturo Vargas, Ute Karstens, Giorgia Cinelli, Edward Chung, Dafina Kikaj, Chris Rennick, Florian Mertes, and Ileana Radulescu

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Total article views: 2,699 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
2,029	610	60	2,699	74	169

HTML: 2,029
PDF: 610
XML: 60
Total: 2,699
BibTeX: 74
EndNote: 169

Views and downloads (calculated since 10 Mar 2022)

Month	HTML	PDF	XML	Total
Mar 2022	147	73	6	226
Apr 2022	117	26	2	145
May 2022	123	20	1	144
Jun 2022	105	21	1	127
Jul 2022	98	7	1	106
Aug 2022	85	3	1	89
Sep 2022	83	6	1	90
Oct 2022	75	10	2	87
Nov 2022	75	6	0	81
Dec 2022	30	10	2	42
Jan 2023	33	13	1	47
Feb 2023	18	10	1	29
Mar 2023	37	11	1	49
Apr 2023	45	10	2	57
May 2023	30	12	1	43
Jun 2023	30	14	2	46
Jul 2023	24	13	1	38
Aug 2023	26	12	3	41
Sep 2023	24	13	3	40
Oct 2023	31	27	1	59
Nov 2023	14	15	1	30
Dec 2023	30	6	2	38
Jan 2024	27	8	0	35
Feb 2024	23	3	0	26
Mar 2024	30	6	0	36
Apr 2024	27	6	3	36
May 2024	43	12	1	56
Jun 2024	60	13	3	76
Jul 2024	24	12	0	36
Aug 2024	35	12	1	48
Sep 2024	35	6	1	42
Oct 2024	36	18	2	56
Nov 2024	22	15	1	38
Dec 2024	19	8	0	27
Jan 2025	24	13	0	37
Feb 2025	20	9	2	31
Mar 2025	31	13	1	45
Apr 2025	17	8	1	26
May 2025	23	8	0	31
Jun 2025	34	11	1	46
Jul 2025	19	17	1	37
Aug 2025	37	12	0	49
Sep 2025	50	16	1	67
Oct 2025	36	19	2	57
Nov 2025	59	16	2	77
Dec 2025	18	11	1	30

Cumulative views and downloads (calculated since 10 Mar 2022)

Month	HTML	PDF	XML	Total
Mar 2022	147	73	6	226
Apr 2022	117	26	2	145
May 2022	123	20	1	144
Jun 2022	105	21	1	127
Jul 2022	98	7	1	106
Aug 2022	85	3	1	89
Sep 2022	83	6	1	90
Oct 2022	75	10	2	87
Nov 2022	75	6	0	81
Dec 2022	30	10	2	42
Jan 2023	33	13	1	47
Feb 2023	18	10	1	29
Mar 2023	37	11	1	49
Apr 2023	45	10	2	57
May 2023	30	12	1	43
Jun 2023	30	14	2	46
Jul 2023	24	13	1	38
Aug 2023	26	12	3	41
Sep 2023	24	13	3	40
Oct 2023	31	27	1	59
Nov 2023	14	15	1	30
Dec 2023	30	6	2	38
Jan 2024	27	8	0	35
Feb 2024	23	3	0	26
Mar 2024	30	6	0	36
Apr 2024	27	6	3	36
May 2024	43	12	1	56
Jun 2024	60	13	3	76
Jul 2024	24	12	0	36
Aug 2024	35	12	1	48
Sep 2024	35	6	1	42
Oct 2024	36	18	2	56
Nov 2024	22	15	1	38
Dec 2024	19	8	0	27
Jan 2025	24	13	0	37
Feb 2025	20	9	2	31
Mar 2025	31	13	1	45
Apr 2025	17	8	1	26
May 2025	23	8	0	31
Jun 2025	34	11	1	46
Jul 2025	19	17	1	37
Aug 2025	37	12	0	49
Sep 2025	50	16	1	67
Oct 2025	36	19	2	57
Nov 2025	59	16	2	77
Dec 2025	18	11	1	30

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Total article views: 2,674 (including HTML, PDF, and XML) Thereof 2,674 with geography defined and 0 with unknown origin.

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1

1

Latest update: 20 Dec 2025

Short summary

Radon gas is the largest source of public exposure to naturally occurring radioactivity. Radon can also be used, as a tracer to improve indirectly the estimates of greenhouse gases important for supporting successful GHG mitigation strategies. Both climate and radiation protection research communities need improved traceable low-level atmospheric radon measurements. The EMPIR project 19ENV01 traceRadon started to provide the necessary measurement infrastructure and transfer standards.


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