Abstract
Four radon stations are located on the Sivrice Fault Zone of the East Anatolia Fault System (DAFS) which is one of the most important active fault systems that creates big earthquakes in Turkey. Soil radon measurements were performed by using a sensing system that includes a Nuclear Spectroscopic system located at certain stations which have been placed on the fault zone and by applying passive sensors method using plastic detectors (CR-39) at these same locations.
In this study, the soil radon gas values from the stations were analyzed with different topics and the results: (i) Station II is located on the southern part of the Sivrice Fault Zone that has a higher seismic activity, (ii) There is a relationship between the alterations of soil radon gas outlets and the occurrence of earthquakes, however, it has been seen that some other parameters (temperature, humidity and pressure) also have an effect on radon outlet, (iii) The radon gas change according to the active and passive detection systems is parallel at each station but it is different in comparison with other stations.
Keywords
Project Number
104Y158, 1404
References
- Reference 1 Radon Protection Element. 2008. www.nj.gov/dep/rpp/radon/download/jgainv4 (Date of access: 15.08.2008) Reference 2 Şahin S., Kuluöztürk M. F. and Doğru M. 2009. Radon Gas Expansion on Sivrice (Elazığ) Fault Zone, X. Int. Nuc. Sci. and Tech. Congress., 308-311. Reference 3 UNSCEAR. 2000. Sources and Effects of Ionizing Radiation, United Nations, New York. Reference 4 Erees F. S., Yener G., Salk M. and Özbal O. 2006. Measurements of radon content in soil gas and in the thermal waters in Western Turkey, Rad. Meas., 41: 354-361. Reference 5 Baykara O. 2005. Natural Radioactivity Transportation at Intersection Zone of North Anatolia and East Anatolia Fault Lines, Doc. Thes., Fırat University, Elazığ. Reference 6 Şahin S. 2009. Radon Emission on Sivrice Fault Zone and Natural Radioactivity, Doc. Thes., Fırat University, Elazığ. Reference 7 Durrani S. A. and Ilić R. 1997. Radon Measurements by Etched Track Detectors, World Sci. Pub. Co. Pte Ltd., Singapore. Reference 8 Aksoy E., İnceöz M. and Koçyiğit A. 2007. Lake Hazar Basin: A Negative Flower Structure on the East Anatolian Fault System (EAFS), SE Turkey, Turkish J. Earth Sci., 16: 319-338. Reference 9 Gürocak Z. 1993. Geology of Sivrice (Elazığ) Environmental, Mas. Thes., Fırat University, Elazığ. Reference 10 Güzel S. 1997. Geologic Features of the East Anatolian Fault Zone between Kürkköy (Sivrice)-Karakaya Dam Lake, Mas. Thes., Fırat University, Elazığ. Reference 11 İnan S. et al. 2008. Geochemical monitoring in the Marmara region (NW Turkey): A search for precursors of seismic activity, J Geophys. Res., B03401: 113. Reference 12 Thomas D. M., Cotter J. M. and Holford D. 1992. Experımental Design For Soil Gas Radon Monitoring J Radioanal. Nuc. Chem., 161: 313-323. Reference 13 Fişne A., Ökten G. and Çelebi N. 2004. Investigation into the radon gas emanation in TTK underground mines in Turkey, Proceedings of the 14th Turkish Coal Congress, Zonguldak. Reference 14 Baykara O., Doğru M. and Taşdemir B. 2006. Determination of Radium and Radon Concentrations in Some Rock Samples, e-J New World Sci. Aca., 1: 2. Reference 15 Doğru M. et al. 2008. Tracking of Radon Gas Movements on East Anatolia Fault System (DAFS), TÜBİTAK (Scientific and Technological Research Council of Turkey) Project, 104Y158. Reference 16 Doğru M. et al. 2006. Tracking of Radon Gas Movements around Palu of East Anatolia Fault Zone (DAFZ), FÜBAP Project, 915. Reference 17 Bolt B. A. 1993. Earthquake and Geological Discovery, W.H. Freeman and Comp., New York. Reference 18 Disaster and Emergency Management Directorate Earthquake Department Directorate (AFAD). www.deprem.gov.tr (Date of access: 14.04.2008).
Abstract
Türkiye'de büyük depremler yaratan en önemli aktif fay sistemlerinden biri olan Doğu Anadolu Fay Sisteminin (DAFS) Sivrice Fay Zonu üzerinde dört radon istasyonu bulunmaktadır. Toprak radon ölçümleri, fay bölgesine yerleştirilmiş belirli istasyonlarda bulunan bir Nükleer Spektroskopik sistem içeren bir algılama sistemi kullanılarak ve aynı yerlerde plastik detektörler (CR-39) kullanılarak pasif sensörler yöntemi kullanılarak gerçekleştirilmiştir.
Bu çalışmada istasyonlardan elde edilen toprak radon gazı değerleri farklı konular ile analiz edilmiş ve sonuçlar: (i) II. İstasyon Sivrice Fay Zonunun daha yüksek sismik aktiviteye sahip güney kısmında yer almaktadır, (ii) toprak radon gazı çıkışlarındaki değişiklikler ile depremlerin meydana gelmesi arasındaki ilişki, diğer bazı parametrelerin (sıcaklık, nem ve basınç) radon çıkışına da etki ettiği görülmüştür, (iii) Radon gazı aktif ve pasif algılama sistemleri her istasyonda paraleldir ancak diğer istasyonlara göre farklıdır.
Supporting Institution
TÜBİTAK, FÜBAP
Project Number
104Y158, 1404
References
- Reference 1 Radon Protection Element. 2008. www.nj.gov/dep/rpp/radon/download/jgainv4 (Date of access: 15.08.2008) Reference 2 Şahin S., Kuluöztürk M. F. and Doğru M. 2009. Radon Gas Expansion on Sivrice (Elazığ) Fault Zone, X. Int. Nuc. Sci. and Tech. Congress., 308-311. Reference 3 UNSCEAR. 2000. Sources and Effects of Ionizing Radiation, United Nations, New York. Reference 4 Erees F. S., Yener G., Salk M. and Özbal O. 2006. Measurements of radon content in soil gas and in the thermal waters in Western Turkey, Rad. Meas., 41: 354-361. Reference 5 Baykara O. 2005. Natural Radioactivity Transportation at Intersection Zone of North Anatolia and East Anatolia Fault Lines, Doc. Thes., Fırat University, Elazığ. Reference 6 Şahin S. 2009. Radon Emission on Sivrice Fault Zone and Natural Radioactivity, Doc. Thes., Fırat University, Elazığ. Reference 7 Durrani S. A. and Ilić R. 1997. Radon Measurements by Etched Track Detectors, World Sci. Pub. Co. Pte Ltd., Singapore. Reference 8 Aksoy E., İnceöz M. and Koçyiğit A. 2007. Lake Hazar Basin: A Negative Flower Structure on the East Anatolian Fault System (EAFS), SE Turkey, Turkish J. Earth Sci., 16: 319-338. Reference 9 Gürocak Z. 1993. Geology of Sivrice (Elazığ) Environmental, Mas. Thes., Fırat University, Elazığ. Reference 10 Güzel S. 1997. Geologic Features of the East Anatolian Fault Zone between Kürkköy (Sivrice)-Karakaya Dam Lake, Mas. Thes., Fırat University, Elazığ. Reference 11 İnan S. et al. 2008. Geochemical monitoring in the Marmara region (NW Turkey): A search for precursors of seismic activity, J Geophys. Res., B03401: 113. Reference 12 Thomas D. M., Cotter J. M. and Holford D. 1992. Experımental Design For Soil Gas Radon Monitoring J Radioanal. Nuc. Chem., 161: 313-323. Reference 13 Fişne A., Ökten G. and Çelebi N. 2004. Investigation into the radon gas emanation in TTK underground mines in Turkey, Proceedings of the 14th Turkish Coal Congress, Zonguldak. Reference 14 Baykara O., Doğru M. and Taşdemir B. 2006. Determination of Radium and Radon Concentrations in Some Rock Samples, e-J New World Sci. Aca., 1: 2. Reference 15 Doğru M. et al. 2008. Tracking of Radon Gas Movements on East Anatolia Fault System (DAFS), TÜBİTAK (Scientific and Technological Research Council of Turkey) Project, 104Y158. Reference 16 Doğru M. et al. 2006. Tracking of Radon Gas Movements around Palu of East Anatolia Fault Zone (DAFZ), FÜBAP Project, 915. Reference 17 Bolt B. A. 1993. Earthquake and Geological Discovery, W.H. Freeman and Comp., New York. Reference 18 Disaster and Emergency Management Directorate Earthquake Department Directorate (AFAD). www.deprem.gov.tr (Date of access: 14.04.2008).
Details
| Primary Language | English |
|---|---|
| Journal Section | Araştırma Makalesi |
| Authors | |
| Project Number | 104Y158, 1404 |
| Publication Date | June 15, 2020 |
| Submission Date | January 20, 2020 |
| Acceptance Date | March 3, 2020 |
| Published in Issue | Year 2020 Volume: 9 Issue: 2 |
