TY - JOUR T1 - INFLUENCE OF NATURAL ATMOSPHERIC FACTORS ON RADON EMISSION AU - Bayramov, Azad AU - Karamova, Aybeniz AU - Ismayilzadeh X, Khoshqedem AU - Tagiyeva, Mahira AU - Mammadzada, Simara PY - 2025 DA - May Y2 - 2025 DO - 10.59849/2219-6641.2025.1.46 JF - Seismoprognosis Observations in the Territory of Azerbaijan PB - Azerbaycan Milli Bilimler Akademisi WT - DergiPark SN - 2219-6641 SP - 46 EP - 54 VL - 27 IS - 1 LA - en AB - In recent decades, the problem of exceeding the critical level of radon gas concentration has become very urgent. According to some estimates, radon (222Rn) and its decay products can make up 50-70% of the radiation dose received by the population from all natural sources of radiation. One of the factors that makes radon gas dangerous is that it leaks through cracks and crevices in foundations, accumulates in living spaces, and enters the human body through inhalation. It is believed that 10-14% of all lung cancer cases are due to elevated radon concentrations in the air of residential buildings (Kiselev S.M., 2016). Radon emission is more pronounced in mountainous and seismically active regions of the planet, and due to this property, it is used as a criterion for warning about earthquakes in many seismically active countries of the world. The article presents a project for a radioecological station that measures radon levels in an automated mode. In addition, abnormal changes in the concentration of Rn gas in underground waters (in the “Surakhany” and “Shikhov-2” wells) were observed on the eve of earthquakes. KW - radiation KW - radon emanation KW - earthquake KW - radon concentration. CR - 1. Kiselev S.M., Zhukovsky M.V., Stamat, I.P., Yarmoshenko I.V. 2016, Moscow, Radon. From fundamental research to regulatory practice. 435 p. (original in Russian) CR - 2. Sakharov V.K. 2006. Radioecology: textbook. St. Petersburg: Lan Publishing House, 320 p. (original in Russian) CR - 3. Sapozhnikov Yu.A., Aliyev R.A., Kalmykov S.N. 2006. Environmental radioactivity. Theory and practice. Moscow: BINOM. Knowledge Laboratory,. 286 p. (original in Russian) CR - 4. Radon and health. 2014. WHO. Media centre. Fact sheet № 291. CR - 5. Ch.S. Aliyev, F.F. Makhmudova. 2018. Radon distribution patterns in Azerbaijan and factors controlling them. Geophysics, 1.2017, Moscow, pp. 72-73 (original in Azerbaijani) CR - 6. A.A.Bayramov, F.N.Abdullayev, S.S.Suleymanov, A.A. Keramova. 2025. Development of an automated radioecological station for the purpose of studying the problems of industrial waste in seismically active areas. Materials of the Republican scientific-theoretical conference on the topic “ANAS-80”. Ganja. pp. 24-27. (original in Azerbaijani) CR - 7. V. I. Utkin. 2000. Radon and the problem of tectonic earthquakes, Soros educational journal, volume 6, no. 12. Pp. 64-70 (original in Russian) CR - 8. Keramova R.A. 2003. Seismogeochemical studies at the Absheron and Sheki-Shamakhi prognostic polygons, the Siyazan seismogenic zone and the Caspian Sea. // In the book. Catalog of seismic prognostic observations on the territory of Azerbaijan in 2002., Publ., Baku, pp. 167-256 (original in Russian) UR - https://doi.org/10.59849/2219-6641.2025.1.46 L1 - https://dergipark.org.tr/en/download/article-file/5052464 ER -