Combined method of 3 H/ 3 He apparent age and on-site helium analysis to identify groundwater flow processes and transport of perchloroethylene (PCE) in an urban area

• Published in: Journal of contaminant hydrology Vol. 238; p. 103773
• Main Authors: Moeck, Christian, Popp, Andrea L, Brennwald, Matthias S, Kipfer, Rolf, Schirmer, Mario
• Format: Journal Article
• Language: English
• Published: Netherlands 01.03.2021
• Subjects: Environmental Monitoring; Groundwater; Helium - analysis; Isotopes - analysis; Tetrachloroethylene; Groundwater transport; Aquifer connectivity; Managed aquifer recharge (MAR); Environmental gases; 3H/3He apparent age; Perchloroethylene
• ISSN: 1873-6009

Urban groundwater management requires a thorough and robust scientific understanding of flow and transport processes. H/ He apparent ages have been shown to efficiently help provide important groundwater-related information. However, this type of analysis is expensive as well as labor- and time-intensive, and hence limits the number of potential sampling locations. To overcome this limitation, we established an inter-relationship between H/ He apparent groundwater ages and He concentrations analyzed in the field with a newly developed portable gas equilibrium membrane inlet mass spectrometer (GE-MIMS) system, and demonstrated that the results of the simpler GE-MIMS system are an accurate and reliable alternative to sophisticated laboratory based analyses. The combined use of H/ He lab-based ages and predicted ages from the H/ He- He age relationship opens new opportunities for site characterization, and reveals insights into the conceptual understanding of groundwater systems. For our study site, we combined groundwater ages with hydrochemical data, water isotopes ( O and H), and perchloroethylene (PCE) concentrations (1) to identify spatial inter-aquifer mixing between artificially infiltrated groundwater and water originating from regional flow paths and (2) to explain the spatial differences in PCE contamination within the observed groundwater system. Overall, low PCE concentrations and young ages occur when the fraction of artificially infiltrated water is high. The results obtained from the age distribution analysis are strongly supported by the information gained from the isotopic and hydrochemical data. Moreover, for some wells, fault-induced aquifer connectivity is identified as a preferential flow path for the transport of older groundwater, leading to elevated PCE concentrations.