【 摘 要 】

Time-discrete groundwater isoscapes are commonly used as a proxy for the weighted mean isotopic value of precipitation and to infer recharge processes. In fractured rock environments, however, the complete removal of temporal variation may not occur in the unsaturated zone, and borehole artefacts may complicate isoscape interpretation when sampling open boreholes. The study presented herein investigates the benefits of adding temporal depth-discrete delta H-2 measurements to isoscapes in fractured rock. Concurrent objectives include determining whether time-discrete groundwater samples are representative of long-term averages of isotopes in precipitation and identifying the primary drivers of groundwater delta H-2 in these settings. In central and eastern Ontario, Canada, a stable isotope dataset consisting of 175 time-discrete, open-hole bedrock wells was statistically compared to a temporal dataset with 25 multi-level well intervals. Both univariate and multivariate statistical analyses were conducted between delta H-2 and a wide range of climate and hydrogeologic parameters. Results from the analyses indicate winter rain, average annual snowfall and groundwater age are key variables driving groundwater deuterium values, and hydrogeologic variables such as overburden thickness, watershed divides, and bedrock geology play a secondary role. This suggests that changes to winter precipitation may result in greater changes to groundwater recharge compared to other seasonal precipitation, which has implications for water resources under climate change. Findings also indicate that caution is required when interpreting time-discrete groundwater isoscapes in fractured rock, particularly in areas of thin soil. If stable isotopes of groundwater are temporally variable, long-term sampling is required to determine a representative groundwater mean. Incorporating temporal sampling of multi-level wells with groundwater isoscapes can provide additional insight about recharge timing that time-discrete, open-hole samples alone do not. This study emphasizes the need for temporal depth-discrete isotope measurements in humid continental fractured rock environments for an enhanced understanding of groundwater recharge and flow.

【 授权许可】

Free   

【 预 览 】

附件列表

Files	Size	Format	View
10_1016_j_jhydrol_2020_124857.pdf	3765KB	PDF	download