Groundwater deeper than 500 m contributes less than 0.1% of global river discharge

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作者
Grant Ferguson
Jennifer C. McIntosh
Scott Jasechko
Ji-Hyun Kim
James S. Famiglietti
Jeffrey J. McDonnell
机构
[1] University of Saskatchewan,Department of Civil, Geological and Environmental Engineering
[2] University of Arizona,Department of Hydrology and Atmospheric Sciences
[3] University of Saskatchewan,School of Environment and Sustainability
[4] University of Saskatchewan,Global Institute for Water Security
[5] University of California,Bren School of Environmental Science & Management
[6] University of Calgary,Department of Geoscience
[7] Ludong University,School of Resources and Environmental Engineering
[8] University of Birmingham,School of Geography, Earth and Environmental Sciences
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Communications Earth & Environment | / 4卷
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摘要
Groundwater is one of the largest reservoirs of water on Earth but has relatively small fluxes compared to its volume. This behavior is exaggerated at depths below 500 m, where the majority of groundwater exists and where residence times of millions to even a billion years have been documented. However, the extent of interactions between deep groundwater (>500 m) and the rest of the terrestrial water cycle at a global scale are unclear because of challenges in detecting their contributions to streamflow. Here, we use a chloride mass balance approach to quantify the contribution of deep groundwater to global streamflow. Deep groundwater likely contributes <0.1% to global streamflow and is only weakly and sporadically connected to the rest of the water cycle on geological timescales. Despite this weak connection to streamflow, we found that deep groundwaters are important to the global chloride cycle, providing ~7% of the flux of chloride to the ocean.
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