TY - JOUR AU - Xuan*, Pham Tich AU - Pho, Nguyen Van AU - Chinh, Vu Van AU - Dang, Pham Thanh AU - Lien, Nguyen Thi AU - Tra, Doan Thu AU - Nga, Hoang Tuyet AU - Quynh, Bui Van AU - Luan, Nguyen Van AU - Qua, Nguyen Xuan PY - 2017/02/15 Y2 - 2024/03/28 TI - Study on active tectonic faults using soil radon gas method in Viet Nam JF - Vietnam Journal of Earth Sciences JA - Vietnam J. Earth Sci. VL - 39 IS - 1 SE - Articles DO - 10.15625/0866-7187/39/1/9182 UR - https://vjs.ac.vn/index.php/jse/article/view/9182 SP - 27-46 AB - <p>This paper presents the results of soil radon gas measurement in three areas, including Thac Ba and Song Tranh 2 hydropower plants, and the planned locations of the nuclear power plants Ninh Thuan 1&amp;2 using solid-state nuclear track detectors (SSNTD) with the aim of clarifying the activity of tectonic faults in these areas. The activity of tectonic faults was assessed through radon activity index KRn (the ratio between anomaly and threshold), which was divided into 5 levels as follows ultra-high (K<sub>Rn</sub>&gt; 10), high (10≥K<sub>Rn</sub>&gt; 5), high (5≥K<sub>Rn</sub>&gt; 3), medium (3≥K<sub>Rn</sub>&gt; 2) and low (K<sub>Rn</sub>≤2). Soil radon gas measurement results showed that in the radon gas concentrations in the Thac Ba hydropower plant area ranged from 72 Bq/m<sup>3</sup> to 273.133 Bq/m<sup>3</sup> and maximum radon activity index K<sub>Rn</sub> reached 9.75 (high level). High K<sub>Rn</sub> indexes show Chay River fault active in recent time and the sub-meridian distribution of Rn anomalies suggested a right-slip motion of the fault. Rn concentrations in the Ninh Thuan 1&amp;2 areas ranged from 6 Bq/m<sup>3</sup> to 52.627 Bq/m<sup>3</sup>, however, the K<sub>Rn</sub> indexes were mostly low (K<sub>Rn</sub>≤3) and the highest value was only 3.42, suggesting that expression of activity of the tectonic faults in this region is not clear, even no expression of fault activity. In the Song Tranh 2 hydropower plant and adjacent areas, radon concentrations ranged from 29 Bq/m<sup>3</sup> to 77.729 Bq/m<sup>3</sup> and maximum K<sub>Rn</sub> index was 20.16 (ultra-high level). The faults having clearer activity expression are Hung Nhuong - Ta Vy, Song Tra Bong and some high order faults, especially the northwest - southeast segments of these faults or their intersections with the northwest - southeast faults. In addition, the high values K<sub>Rn</sub> in the mentioned intersections can be evidenced for the activeness of northwest - southeast faults at the present time. The studies on active faults using soil radon gas method were performed in areas with very different geological and structural features, but the results are well consistent with the results of previous investigations obtained by other methods. It confirmed the effectiveness and capability of soil radon gas geochemistry applying to study active tectonic faults.</p><p><strong>References</strong></p><div class="WordSection1"><p>Al-Hilal M., Al-Ali A., 2010. The role of soil gas radon survey in exploring unknown subsurface faults at Afamia B dam, Syria. Radiat. Meas, 45, 219-224.</p><p>Amponsah,   P.,   Banoeng-Yakubo,   B.,   Andam,   A., Asiedu, D.,  2008. Soil  radon  concentration along fault systems in parts of south eastern Ghana. J. Afr. Earth Sci. 51, 39-48.</p><p>Asumadu-Sakyi A.B., Fletcher J.J., Oppon O.C., Qua- shie F.K., Wordson D.A., Adjei C.A., Amartey E.O., Darko E.O. and Amponsah P.,  2011. 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