Nitrogen as the carrier gas for helium emission along an active fault in NW Taiwan
Journal
Applied Geochemistry
Journal Volume
25
Journal Issue
4
Pages
593-601
Date Issued
2010
Author(s)
Hong, Wei-Li
Yang, Tsanyao Frank
Walia, Vivek
Lin, Shih-Jung
Fu, Ching-Chou
Sano, Yuji
Chen, Cheng-Hong
Wen, Kuo-Liang
Abstract
Variations of He gas concentration are widely applied in studies devoted to the location of faults and to monitor seismic activities. Up to now, its migration mechanism in soil is not fully understood. A systematic soil gas survey across an active fault in NW Taiwan provides the opportunity to closely examine the mechanism of He migration in the fault zone. Significant spatial and temporal correlations observed between soil N2 and He gas support the hypothesis that N2 is the probable carrier gas for He emission in the studied area. Based on N2/Ar ratios and N2 isotopic results, the excess soil N2 in this study is considered to be largely derived from ancient atmospheric air which was dissolved in groundwater. Furthermore, observations rule out the possibility of CO2 being the dominant carrier gas for He in the studied area based on the C and He isotopic compositions and the relationship between concentrations of these gases. At least two soil gas sources, A and B, can be identified in the studied area. Source A is an abiogenic gas source characterized by excess N2 and He, and very low O2 and CO2 content. Source B, on the other hand, is a mixture of biogenic gas and atmospheric air. The development of the fault system is an important factor affecting the degree of mixture between sources A and B. Therefore, variations of soil gas composition, in particular those derived from source A, could be a useful proxy for tracing faults in the area. © 2010 Elsevier Ltd. All rights reserved.
Type
journal article
