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Isotopic Discrimination of Aquifer Recharge Sources, Subsystem Connectivity and Flow Patterns in the South Fork Palouse River Basin, Idaho and Washington, USA

Citation

Duckett, Kyle Andrew. (2019-05). Isotopic Discrimination of Aquifer Recharge Sources, Subsystem Connectivity and Flow Patterns in the South Fork Palouse River Basin, Idaho and Washington, USA. Theses and Dissertations Collection, University of Idaho Library Digital Collections. https://www.lib.uidaho.edu/digital/etd/items/duckett_idaho_0089n_11568.html

Title:
Isotopic Discrimination of Aquifer Recharge Sources, Subsystem Connectivity and Flow Patterns in the South Fork Palouse River Basin, Idaho and Washington, USA
Author:
Duckett, Kyle Andrew
ORCID:
https://orcid.org/0000-0002-5505-3893
Date:
2019-05
Keywords:
Aquifer recharge Fractured basalt aquifer Isotopic tracers Palouse Basin Stable Isotope
Program:
Geology
Subject Category:
Geochemistry; Geology; Hydrologic sciences
Abstract:

Groundwater studies in the South Fork Palouse River Basin have been unable to determine recharge sources, subsystem connectivity and flow patterns due to the discontinuity of pathways in the heterogeneous and anisotropic aquifers located in Columbia River flood basalts and interbedded sediments. Major ion, δ18O, δ2H, δ13C, δ34S and temperature for groundwater collected from 28 wells of varying depths indicate a primary recharge source dominated by snowmelt along the eastern basin margin. This recharge can be separated into two distinct sources—a deeper and relatively less altered snowmelt signal (−17.3‰ to −16.8‰ δ18O, −131‰ to −127‰ δ2H, −12.9‰ to −10‰ δ13C, 18–23˚C) and a more altered signal likely derived from a shallower mixture of snowmelt, precipitation and surface water (−16.1‰ to −15.5‰ δ18O, −121‰ to −117‰ δ2H, −15.9‰ to −12.9‰ δ13C, 12–19˚C). A mixing of the shallow and deep source waters is observed within the upper aquifer of the Grande Ronde Formation near Moscow, Idaho, which results in a homogenization of isotope ratios and geochemistry for groundwater at nearly any depth to the west of this mixing zone. This homogenized signal is prevalent in a likely primary productive zone of an intermediate depth in the overall aquifer system.

Description:
masters, M.S., Geology -- University of Idaho - College of Graduate Studies, 2019-05
Major Professor:
Langman, Jeff B.
Committee:
Brooks, Erin S.; Bush, John H.
Defense Date:
2019-05
Identifier:
Duckett_idaho_0089N_11568
Type:
Text
Format Original:
PDF
Format:
application/pdf

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