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Nazaroff, W. W., Nero, A. V. (Eds.). (1988). Radon and its decay products in indoor air. New York: Wiley Interscience.NazaroffW. W.NeroA. V.1988New YorkWiley InterscienceSearch in Google Scholar
Isajenko, K., Piotrowska, B., Fujak, M., & Kardaś, M. (Eds.). (2012). Radiation atlas of Poland 2011. (Biblioteka Monitoringu Środowiska). Warszawa: Centralne Laboratorium Ochrony Środowiska (in Polish).IsajenkoK.PiotrowskaB.FujakM.KardaśM.2012WarszawaCentralne Laboratorium Ochrony Środowiska(in Polish)Search in Google Scholar
Hassan, M., Hosoda, M., Ishikawa, T., Sorimachi, A., Sahoo, S. K., Tokonami, S., & Fukushi, M. (2009). Radon migration process and its influence factors; Review. Jpn. J. Health Phys., 44, 218–231.HassanM.HosodaM.IshikawaT.SorimachiA.SahooS. K.TokonamiS.FukushiM.2009Radon migration process and its influence factors; Review4421823110.5453/jhps.44.218Search in Google Scholar
Kojima, H., & Nagano, K. (1999). The influence of meteorological and soil parameters on radon exhalation. In Proceedings of the International Conference “Radon in the living environment”, 19–23 April 1999, Athens, Greece.KojimaH.NaganoK.1999The influence of meteorological and soil parameters on radon exhalationProceedings of the International Conference “Radon in the living environment”19–23 April 1999Athens, GreeceSearch in Google Scholar
Sroor, A., El-Bahi, S. M., Ahmed, F., & Abdel-Haleem, A. S. (2001). Natural radioactivity and radon exhalation rate of soil in southern Egypt. Appl. Radiat. Isot., 55, 873–879.SroorA.El-BahiS. M.AhmedF.Abdel-HaleemA. S.2001Natural radioactivity and radon exhalation rate of soil in southern Egypt5587387910.1016/S0969-8043(01)00123-3Search in Google Scholar
Saad, A. F., Abdallah, R. M., & Hussein, N. A. (2013). Radon exhalation from Libyan soil samples measured with the SSNTD technique. Appl. Radiat. Isot., 72, 163–168.SaadA. F.AbdallahR. M.HusseinN. A.2013Radon exhalation from Libyan soil samples measured with the SSNTD technique7216316810.1016/j.apradiso.2012.11.00623220028Search in Google Scholar
Singh, H., Singh, J., Singh, S., & Bajwa, B. S. (2008). Radon exhalation rate and uranium estimation study of some soil and rock samples from Tusham ring complex, India using SSNTD technique. Radiat. Meas., 43(Suppl. 1), S459–S462.SinghH.SinghJ.SinghS.BajwaB. S.2008Radon exhalation rate and uranium estimation study of some soil and rock samples from Tusham ring complex, India using SSNTD technique43Suppl. 1S459S46210.1016/j.radmeas.2008.04.060Search in Google Scholar
Faheem, M., & Matiullah. (2008). Radon exhalation and its dependence on moisture content from samples of soil and building materials. Radiat. Meas., 43, 1458–1462.FaheemM.Matiullah2008Radon exhalation and its dependence on moisture content from samples of soil and building materials431458146210.1016/j.radmeas.2008.02.023Search in Google Scholar
Shafi-ur-Rehman, Matiullah, Shakeel-ur-Rehman, & Rahman, S. (2006). Studying 222Rn exhalation rate from soil and sand samples using CR-39 detector. Radiat. Meas., 41(6), 708–713.Shafi-ur-RehmanMatiullahShakeel-ur-RehmanRahmanS.2006Studying 222Rn exhalation rate from soil and sand samples using CR-39 detector41670871310.1016/j.radmeas.2006.03.005Search in Google Scholar
Shweikani, R., & Hushari, M. (2005). The correlations between radon in soil gas and its exhalation and concentration in air in the southern part of Syria. Radiat. Meas., 40, 699–703.ShweikaniR.HushariM.2005The correlations between radon in soil gas and its exhalation and concentration in air in the southern part of Syria4069970310.1016/j.radmeas.2005.06.025Search in Google Scholar
Dueñas, C., Fernández, M. C., Carretero, J., Liger, E., & Pérez, M. (1997). Release of 222Rn from some soils. Ann. Geophys., 15, 124–133.DueñasC.FernándezM. C.CarreteroJ.LigerE.PérezM.1997Release of 222Rn from some soils1512413310.1007/s00585-997-0124-0Search in Google Scholar
Dueñas, C., Liger, E., Canete, S., Perez, M., & Bolivar, J. P. (2007). Exhalation of 222Rn from phosphogypsum piles located at the Southwest of Spain. J. Environ. Radioact., 95(2/3), 63–74.DueñasC.LigerE.CaneteS.PerezM.BolivarJ. P.2007Exhalation of 222Rn from phosphogypsum piles located at the Southwest of Spain952/3637410.1016/j.jenvrad.2007.01.01217386964Search in Google Scholar
Oberstedt, S. H., & Vanmarcke, A. (1996). A radon exhalation monitor. Radiat. Prot. Dosim., 63(1), 69–72.OberstedtS. H.VanmarckeA.1996A radon exhalation monitor631697210.1093/oxfordjournals.rpd.a031514Search in Google Scholar
Iimoto, T., Akasaka, Y., Koike, Y., & Kosako, T. (2008). Development of a technique for the measurement of the radon exhalation rate using an activated charcoal collector. J. Environ. Radioact., 99, 587–595.IimotoT.AkasakaY.KoikeY.KosakoT.2008Development of a technique for the measurement of the radon exhalation rate using an activated charcoal collector9958759510.1016/j.jenvrad.2007.08.02417931757Search in Google Scholar
Mazur, J., & Kozak, K. (2014). Complementary system for long term measurements of radon exhalation rate from soil. Rev. Sci. Instrum., 85, 022104-1-7. 10.1063/1.4865156.MazurJ.KozakK.2014Complementary system for long term measurements of radon exhalation rate from soil85022104-1-710.1063/1.486515624593340Open DOISearch in Google Scholar
Ferry, C., Beneito, A., Richon, P., & Robe, M.-C. (2001). An automatic device for measuring the effect of meteorological factors on radon-222 flux from soils in the long term. Radiat. Prot. Dosim., 93(3), 271–274.FerryC.BeneitoA.RichonP.RobeM.-C.2001An automatic device for measuring the effect of meteorological factors on radon-222 flux from soils in the long term93327127410.1093/oxfordjournals.rpd.a00643911548354Search in Google Scholar
Mazur, J. (2008). Dynamika procesu ekshalacji radonu z gruntu a parametry meteorologiczne i własności gleby. Ph.D. thesis, Instytut Fizyki Jądrowej PAN, Kraków, Poland.MazurJ.2008Ph.D. thesis,Instytut Fizyki Jądrowej PANKraków, PolandSearch in Google Scholar
ISO. (2012). ISO Standard: Measurement of radioactivity in the environment – Air: radon-222 –Part 7: Accumulation method for estimating surface exhalation rate. ISO 11665-7:2012(E).ISO2012ISO Standard: Measurement of radioactivity in the environment – Air: radon-222 –Part 7: Accumulation method for estimating surface exhalation rate. ISO 11665-7:2012(E).Search in Google Scholar
Wysocka, M. (2011). Wpływ górnictwa na migrację radonu w środowisku geologicznym. Habilitation thesis, GIG, Katowice.WysockaM.2011Habilitation thesisGIGKatowiceSearch in Google Scholar
Samuelsson, C., & Pettersson, H. (1984). Exhalation of 222Rn from porous materials. Radiat. Prot. Dosim., 7, 95–100.SamuelssonC.PetterssonH.1984Exhalation of 222Rn from porous materials79510010.1093/oxfordjournals.rpd.a082971Search in Google Scholar