Use of 3 H/ 3 He Ages to evaluate and improve groundwater flow models in a complex buried‐valley aquifer
Author(s) -
Sheets Rodney A.,
Bair E. Scott,
Rowe Gary L.
Publication year - 1998
Publication title -
water resources research
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.863
H-Index - 217
eISSN - 1944-7973
pISSN - 0043-1397
DOI - 10.1029/98wr00007
Subject(s) - aquifer , geology , bedrock , groundwater , groundwater flow , hydrology (agriculture) , groundwater model , water well , geomorphology , geotechnical engineering
Combined use of the tritium/helium 3 ( 3 H/ 3 He) dating technique and particle‐tracking analysis can improve flow‐model calibration. As shown at two sites in the Great Miami buried‐valley aquifer in southwestern Ohio, the combined use of 3 H/ 3 He age dating and particle tracking led to a lower mean absolute error between measured heads and simulated heads than in the original calibrated models and/or between simulated travel times and 3 H/ 3 He ages. Apparent groundwater ages were obtained for water samples collected from 44 wells at two locations where previously constructed finite difference models of groundwater flow were available (Mound Plant and Wright‐Patterson Air Force Base (WPAFB)). The two‐layer Mound Plant model covers 11 km 2 within the buried‐valley aquifer. The WPAFB model has three layers and covers 262 km 2 within the buried‐valley aquifer and adjacent bedrock uplands. Sampled wells were chosen along flow paths determined from potentiometric maps or particle‐tracking analyses. Water samples were collected at various depths within the aquifer. In the Mound Plant area, samples used for comparison of 3 H/ 3 He ages with simulated travel times were from wells completed in the uppermost model layer. Simulated travel times agreed well with 3 H/ 3 He ages. The mean absolute error (MAE) was 3.5 years. Agreement in ages at WPAFB decreased with increasing depth in the system. The MAEs were 1.63, 17.2, and 255 years for model layers 1, 2, and 3, respectively. Discrepancies between the simulated travel times and 3 H/ 3 He ages were assumed to be due to improper conceptualization or incorrect parameterization of the flow models. Selected conceptual and parameter modifications to the models resulted in improved agreement between 3 H/ 3 He ages and simulated travel times and between measured and simulated heads and flows.
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