Isotopic evidence for widespread cold‐season‐biased groundwater recharge and young streamflow across central Canada |
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| Authors: | Scott Jasechko Leonard I Wassenaar Bernhard Mayer |
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| Institution: | 1. Department of Geography, University of Calgary, Calgary, AB, Canada;2. Isotope Hydrology Section, International Atomic Energy Agency, Vienna International Center, Vienna, Austria;3. Department of Geoscience, University of Calgary, Calgary, AB, Canada |
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| Abstract: | Transformations of precipitation into groundwater and streamflow are fundamental hydrological processes, critical to irrigated agriculture, hydroelectric power generation, and ecosystem health. Our understanding of the timing of groundwater recharge and streamflow generation remains incomplete, limiting our ability to predict fresh water, nutrient, and contaminant fluxes, especially in large basins. Here, we analyze thousands of rain, snow, groundwater, and streamflow δ18O and δ2H values in the Nelson River basin, which covers 1.2 million km2 of central Canada. We show that the fraction of precipitation that recharges aquifers is ~1.3–5 times higher for precipitation falling during cold months with subzero mean monthly temperatures than for precipitation falling during warmer months. The near‐ubiquity of cold‐season‐biased groundwater recharge implies that changes to winter water balances may have disproportionate impacts on annual groundwater recharge rates. We also show that young streamflow—defined as precipitation that enters a river in less than ~2.3 months—comprises ~27% of annual streamflow but varies widely among tributaries in the Nelson River basin (1–59%). Young streamflow fractions are lower in steep catchments and higher in flatter catchments such as the transboundary Red River basin. Our findings imply that flat, lower permeability, heavily tiled landscapes favor more rapid transmission of precipitation into rivers, possibly mobilizing excess soluble fertilizers and exacerbating eutrophication events in Lake Winnipeg. |
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| Keywords: | deuterium groundwater isotope hydrology oxygen‐18 recharge transit time |
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