2010
DOI: 10.1029/2010gl042387
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Simultaneous rejuvenation and aging of groundwater in basins due to depth‐decaying hydraulic conductivity and porosity

Abstract: The age of groundwater is a manifestation of the temporal scale of groundwater flow in basins, whose pattern was recently found to be influenced by depth‐dependent hydraulic conductivity (K). In this paper, we show through numerical simulations how well‐documented depth‐decaying K and porosity (θ) influence groundwater age. In the unit basin, depth‐decaying K and θ cause aging in deeper parts and rejuvenation near the discharge zones, and the size of rejuvenated zones decreases with the decay exponent (A). In … Show more

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Cited by 75 publications
(65 citation statements)
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“…Jiang et al (2010Jiang et al ( , 2012 modeled the spatial distribution of groundwater age (similar to residence time) in basins and established the relationship between flow systems and groundwater age. In the lower reaches, groundwater is young in local flow systems with shallow circulation depth, and is old in regional flow system with deep circulation depth.…”
Section: Circulation Depths Of Different Flow Systemsmentioning
confidence: 99%
“…Jiang et al (2010Jiang et al ( , 2012 modeled the spatial distribution of groundwater age (similar to residence time) in basins and established the relationship between flow systems and groundwater age. In the lower reaches, groundwater is young in local flow systems with shallow circulation depth, and is old in regional flow system with deep circulation depth.…”
Section: Circulation Depths Of Different Flow Systemsmentioning
confidence: 99%
“…It was observed in this study that the addition of fiber decreased the volume change, and the volumetric shrinkage strain. According to Jiang et al (2010) an optimal fiber content of 0.3% and length of 15 mm would be more effective in improving the strength and stability of compacted soils.…”
Section: Introductionmentioning
confidence: 98%
“…A series of previous studies reveal that groundwater flow is topography-driven because of the undulating topography, and the theory of regional groundwater flow is applicable to Cretaceous aquifer in the Ordos Plateau [Hou et al, 2008b;Jiang et al, 2012;Yin et al, 2010]. Based on the numerical results that there is an abrupt change in groundwater age at the system boundary in the middle and lower reaches of a drainage basin [Gomez and Wilson, 2013;Jiang et al, 2010;Jiang et al, 2012] and the assumption that an older age would lead to a higher salinity, MT measurements were carried out only at the middle part of the NS section, denoted as DD'.…”
Section: 1002/2014gl059579mentioning
confidence: 99%