2021
DOI: 10.1029/2020gl090461
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Deep Meteoric Water Circulation in Earth's Crust

Abstract: Deep meteoric waters comprise a key component of the hydrologic cycle, transferring water, energy, and life between the Earth's surface and deeper crustal environments, yet little is known about the nature and extent of meteoric water circulation. Using water stable isotopes, we show that maximum circulation depths of meteoric waters across North America vary considerably from <1 to 5 km, with the deepest circulation in Western North America in areas of greater topographic relief. Shallower circulation occurs … Show more

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Cited by 35 publications
(20 citation statements)
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“…Rapid erosional exhumation and incision can lead to the formation of high relief topography along with high hydraulic gradients, where we can expect deeper circulation of meteoric waters recharged at higher elevations (McIntosh and Ferguson, 2021). This process can sweep reduced, hydrocarbon-bearing fluids into shallower formations along discharge zones such as faults, a process possibly responsible for the flow of hydrocarbons in the Rainbow Rocks paleo-oil reservoir (cite).…”
Section: Faulting and Fluid Flow Driven By Exhumationmentioning
confidence: 99%
“…Rapid erosional exhumation and incision can lead to the formation of high relief topography along with high hydraulic gradients, where we can expect deeper circulation of meteoric waters recharged at higher elevations (McIntosh and Ferguson, 2021). This process can sweep reduced, hydrocarbon-bearing fluids into shallower formations along discharge zones such as faults, a process possibly responsible for the flow of hydrocarbons in the Rainbow Rocks paleo-oil reservoir (cite).…”
Section: Faulting and Fluid Flow Driven By Exhumationmentioning
confidence: 99%
“…Based on circulation depths of meteoric water (McIntosh & Ferguson, 2021), salinity distributions (Ferguson, McIntosh, Grasby, et al, 2018;Ferguson, McIntosh, Perrone, & Jasechko, 2018;Fritz & Frape, 1982;Stanton et al, 2017) and groundwater residence times ranging from tens of thousands (Jasechko et al, 2017) to over a billion years (Holland et al, 2013;Warr et al, 2018), the ∼20 million km 3 of water beneath 1-2 km in both sedimentary and crystalline rock is only weakly connected to the rest of the hydrologic cycle. There is little evidence of water with these chemistries discharging to surface environments.…”
Section: Discussionmentioning
confidence: 99%
“…Mixing of shallow and deep groundwater during these events may have important implications to biogeochemical cycles and subsurface life (Head et al, 2003;Martini et al, 2003;Wilhelms et al, 2001 Finally, despite potentially being the largest continental store of water, groundwater generally receives less attention than other parts of the hydrologic cycle (Famiglietti, 2014). This is especially true of deep groundwater, which is hitherto largely uncharacterized (McIntosh & Ferguson, 2021;Stober & Bucher, 2007;Warr et al, 2018Warr et al, , 2021. Our knowledge of the deep hydrogeosphere is limited to a few deep drilling projects and windows provided by the oil and gas industry and deep mines.…”
Section: Discussionmentioning
confidence: 99%
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