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Year 2018, Volume: 5 Issue: 3, 185 - 189, 30.09.2018
https://doi.org/10.17350/HJSE19030000092

Abstract

References

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  • Etiope, G. and Lombardi, S., 1995, Evidence for radon transport by carrier gas through faulted clays in Italy: Journal of Radioanalytical and Nuclear Chemistry, 193, 291-300.
  • Al-Batania, B. A., Al-Taj, M. M. and Atallah, M. Y., 2005, Relations between radon concentrations and morphotectonics of the Dead Sea transform in Wadi Araba, Jordan: Radiation Mesurements, 40, 539-543.
  • Font, L. I., Baixeras, C., Moreno, V. and Bach, J., 2008, Soil radon levels across the Amer Fault: Radiation Measurements, 43, 319-323.
  • Seminsky, K. Z. and Demberel, S., 2013, The first estimation of soil-radon activity near faults in Central Mongolia: Radiation Measurements, 49, 19-34.
  • King, C., King, B., Ewans, W. C. and Zhang, W., 1996, Spatial radon anomalies on active faults in California: Applied Geochemistry, 11, 497-510.
  • Yalım, H. A., Sandıkcıoglu, A., Unal, R. and Orhun, O., 2007, Measurements of radon concentrations in well waters near the Aksehir fault zone in Afyonkarahisar, Turkey: Radiation Measurements, 42, 505-508.
  • Baykara, O. and Dogru, M., 2006, Measurements of radon and uranium concentration in water and soil samples from East Anatolian active fault systems (Turkey): Radiation Measurement, 41, 362-367.
  • Irwin W. P. and Barnes I., 1980, Tectonic relations of carbon dioxide discharges and arthquakes: Journal of Geophyscal Research, 85, 3115-3121.
  • Yanitskiy I. N., Borobeynik V. M. and Sozinova T. V., 1975, Expression of crustal faults in helium field: Geotectonics, 9, 378- 384.
  • Wakita, H., Nakamura., Y., Notsu, K., Naguchi, M. and Asada, M., 1980, A possible precursor of the 1978 Izu-Oshima-Kinkai earthquake: Science, 207, 882-883.
  • Perrier, F., Richon, P., Byrdina, S., France-Lanord, C., Rajaure, S., Koirela, B. P., Shrestha, P. L., Gautam, U. P., Tiwori, D., R., Revil, A., Bollinger, R., Contraires, S., Bureau, S. and Sapkota, S. N., 2009, A direct evidence for carbon-dioxide and radon-222 discharge in Central Nepal: Earth and Planetary Science Letters, 278, 198-207.
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  • Karayigit, A.I., Akgun, F., Gayer, R.A. and Temel, A., 1999, Quality, palynology and paleoenvironmental interpretion of the Ilgın lignite, Turkey. International Journal of Coal Geology, 38, 219-236.
  • Pehlivan, E. and Arslan, G., 2006, Comparison of adsorption capacity of young brown coals and humic acids prepared from different coal mines in Anatolia: Journal of Hazardous Materials, 138 (2), 401-408.
  • Ediger, V. S., Berk, I. and Kosebalaban, A., 2014, Lignite resources of Turkey: Geology, reserves and exploration history: International Journal of Coal Geology, 132 (1), 13-22.
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  • www.depremler.org/konya-depremleri-1 (26.10.2017)
  • MTA (Mineral Research and Exploration of Turkey, web-page- Oct,2114)

Radon Gas Variations in Soil Gas on Ilgın Active Fault Zone, Konya, Turkey

Year 2018, Volume: 5 Issue: 3, 185 - 189, 30.09.2018
https://doi.org/10.17350/HJSE19030000092

Abstract

Soil gas radon concentrations have been studied in an active fault zone of Ilgın, Konya, Turkey. At this seismically active fault zone 20 km long, 3-5 km width in the study area there are two faults and a graben in between them. The maximum radon and thoron concentrations are 32601 Bq/m3 and 17628 Bq/m3 , while the minimum values are 170 Bq/m3 and 103 Bq/m3 respectively. At 15 sampling points for radon the obtained values are higher than the average values. There has been a clear visibility of both 222Rn radon and 220Rn thoron anomalies in the area. The 222Rn and 220Rn have no positive or negative correlation at sampling points in the field.

References

  • Kemski, J., Klingel, R., Schneiders, H., Siehl, A. and Wiegand, J., 1992, Geological structure and geochemistry controlling radon in soil gas: Radiation Protection Dosimetry, 45, 235-239.
  • Etiope, G. and Lombardi, S., 1995, Evidence for radon transport by carrier gas through faulted clays in Italy: Journal of Radioanalytical and Nuclear Chemistry, 193, 291-300.
  • Al-Batania, B. A., Al-Taj, M. M. and Atallah, M. Y., 2005, Relations between radon concentrations and morphotectonics of the Dead Sea transform in Wadi Araba, Jordan: Radiation Mesurements, 40, 539-543.
  • Font, L. I., Baixeras, C., Moreno, V. and Bach, J., 2008, Soil radon levels across the Amer Fault: Radiation Measurements, 43, 319-323.
  • Seminsky, K. Z. and Demberel, S., 2013, The first estimation of soil-radon activity near faults in Central Mongolia: Radiation Measurements, 49, 19-34.
  • King, C., King, B., Ewans, W. C. and Zhang, W., 1996, Spatial radon anomalies on active faults in California: Applied Geochemistry, 11, 497-510.
  • Yalım, H. A., Sandıkcıoglu, A., Unal, R. and Orhun, O., 2007, Measurements of radon concentrations in well waters near the Aksehir fault zone in Afyonkarahisar, Turkey: Radiation Measurements, 42, 505-508.
  • Baykara, O. and Dogru, M., 2006, Measurements of radon and uranium concentration in water and soil samples from East Anatolian active fault systems (Turkey): Radiation Measurement, 41, 362-367.
  • Irwin W. P. and Barnes I., 1980, Tectonic relations of carbon dioxide discharges and arthquakes: Journal of Geophyscal Research, 85, 3115-3121.
  • Yanitskiy I. N., Borobeynik V. M. and Sozinova T. V., 1975, Expression of crustal faults in helium field: Geotectonics, 9, 378- 384.
  • Wakita, H., Nakamura., Y., Notsu, K., Naguchi, M. and Asada, M., 1980, A possible precursor of the 1978 Izu-Oshima-Kinkai earthquake: Science, 207, 882-883.
  • Perrier, F., Richon, P., Byrdina, S., France-Lanord, C., Rajaure, S., Koirela, B. P., Shrestha, P. L., Gautam, U. P., Tiwori, D., R., Revil, A., Bollinger, R., Contraires, S., Bureau, S. and Sapkota, S. N., 2009, A direct evidence for carbon-dioxide and radon-222 discharge in Central Nepal: Earth and Planetary Science Letters, 278, 198-207.
  • Ketin, I. , 1966, Anadolu’nun tektonik birlikleri. M.T.A Dergisi, 66 , 20-34.
  • Ozgul, N. , 1976, Torosların bazı temel jeolojik ozellikleri, Turkiye Jeoloji Kurumu Bulteni,19, 65-78.
  • Ozcan, A., Goncuoglu, M.C., Turan, N., Uysal, S., Sentürk, K. and Isık, A., 1988, Late Paleozoic evolution of the Kutahya-Bolkardag Belt: METU (Middle East Technical University) Journal of Pure and Applied Sciences, 21, 1/3, 211-220.
  • Karayigit, A.I., Akgun, F., Gayer, R.A. and Temel, A., 1999, Quality, palynology and paleoenvironmental interpretion of the Ilgın lignite, Turkey. International Journal of Coal Geology, 38, 219-236.
  • Pehlivan, E. and Arslan, G., 2006, Comparison of adsorption capacity of young brown coals and humic acids prepared from different coal mines in Anatolia: Journal of Hazardous Materials, 138 (2), 401-408.
  • Ediger, V. S., Berk, I. and Kosebalaban, A., 2014, Lignite resources of Turkey: Geology, reserves and exploration history: International Journal of Coal Geology, 132 (1), 13-22.
  • Huseyinca, Y. and Eren, Y., 2007, Ilgın (Konya) kuzeyinin stratigrafisi ve tektonik evrimi: Selcuk University, Journal of Faculty of Engineering and Architecture (in Turkish, with English abstract), (23 (1-2), 83-97.
  • Kandilli Rasathanesi web-page (Oct. 2014).
  • www.depremler.org/konya-depremleri-1 (26.10.2017)
  • MTA (Mineral Research and Exploration of Turkey, web-page- Oct,2114)
There are 22 citations in total.

Details

Primary Language English
Journal Section Research Article
Authors

Fikret Tüfekçioğlu This is me

Mehmet Erdoğan This is me

Ceren Yağcı This is me

Veysel Zedef This is me

Publication Date September 30, 2018
Published in Issue Year 2018 Volume: 5 Issue: 3

Cite

Vancouver Tüfekçioğlu F, Erdoğan M, Yağcı C, Zedef V. Radon Gas Variations in Soil Gas on Ilgın Active Fault Zone, Konya, Turkey. Hittite J Sci Eng. 2018;5(3):185-9.

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