Multi-tracer investigation of river and groundwater interactions: a case study in Nalenggele River basin, northwest China
- Shenyang Agricultural University, College of Water Conservancy (China)
- Jilin University, Institute of Water Resources and Environment (China)
- Jilin University, College of Construction Engineering (China)
- Chinese Academy of Geological Sciences, Institute of Hydrogeology and Environmental Geology (China)
- Survey of Hydrogeology, Engineering & Environmental Geology in Qinghai (China)
Environmental tracers (such as major ions, stable and radiogenic isotopes, and heat) monitored in natural waters provide valuable information for understanding the processes of river–groundwater interactions in arid areas. An integrated framework is presented for interpreting multi-tracer data (major ions, stable isotopes ({sup 2}H, {sup 18}O), the radioactive isotope {sup 222}Rn, and heat) for delineating the river–groundwater interactions in Nalenggele River basin, northwest China. Qualitative and quantitative analyses were undertaken to estimate the bidirectional water exchange associated with small-scale interactions between groundwater and surface water. Along the river stretch, groundwater and river water exchange readily. From the high mountain zone to the alluvial fan, groundwater discharge to the river is detected by tracer methods and end-member mixing models, but the river has also been identified as a losing river using discharge measurements, i.e. discharge is bidirectional. On the delta-front of the alluvial fan and in the alluvial plain, in the downstream area, the characteristics of total dissolved solids values, {sup 222}Rn concentrations and δ{sup 18}O values in the surface water, and patterns derived from a heat-tracing method, indicate that groundwater discharges into the river. With the environmental tracers, the processes of river–groundwater interaction have been identified in detail for better understanding of overall hydrogeological processes and of the impacts on water allocation policies.
- OSTI ID:
- 22780911
- Journal Information:
- Hydrogeology Journal, Vol. 25, Issue 7; Other Information: Copyright (c) 2017 Springer-Verlag GmbH Germany; Article Copyright (c) 2017 Springer-Verlag Berlin Heidelberg; Country of input: International Atomic Energy Agency (IAEA); ISSN 1431-2174
- Country of Publication:
- United States
- Language:
- English
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