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UNDERSTANDING HYDROLOGICAL PROCESSES AND WATER FLUXES LINKING WETLAND PONDS AND GROUNDWATER IN THE PRAIRIE POTHOLE REGION

Date

2018-07-19

Journal Title

Journal ISSN

Volume Title

Publisher

ORCID

0000-0003-1494-8671

Type

Thesis

Degree Level

Doctoral

Abstract

Understanding surface water-groundwater interaction processes and quantification of hydrological fluxes remains a scientific challenge in hydrology. However, comprehensive understanding of groundwater interactions with the surface and more accurate estimates of hydrologic fluxes are essential for water resources and environmental management and policy. Numerous hydrological studies conducted in the glaciated Prairie Pothole region focused mainly on the importance of wetland ponds and their relationship with shallow groundwater in the till using physical, geophysical and water chemistry measurements, and numerical models. In this thesis, I combined field observations, isotopes of water and geochemical tracers (δ2H, δ18O, lc-excess, 3H and Cl-, SO42-), to develop a physical isotope model to quantify water fluxes, examine interactions between surface water and the relatively deeper intertill aquifers (< 50 m), and assess the pathways of water and solutes from the ponds, uplands and lowlands areas hummocky landscape. My field campaign spanned between 2013 and 2016 at the St Denis National Research Area in Saskatchewan, Canada, where additional soil, hydrometric and water isotope data were collected to complement the existing previously collected stable isotope, hydraulic and hydrometric data. The data show that water isotope compositions of ponds are reflective of seasons and residence time, and this property is useful for quantifying spatial surface water fluxes. Pond water infiltration rates estimated from the new model show that ephemeral ponds have the highest outflow rates, and pond-subsurface interactions can be determined without groundwater heads. The water isotopes and hydrometric measurements indicate that interaction between ponds and the intertill aquifer is limited to ponds upland, and water from ephemeral ponds are the dominant source of depression-focused recharge to the intertill aquifer. The stable isotopes and dissolved ions data showed that rapid downward advective movement of water occurs in the shallow weathered zone throughout the till and at all landscape positions and this water could serve as recharge water to the aquifer. The work represents a distinct contribution to the literature regarding our understanding of the hydrological processes linking wetland ponds and groundwater in the prairie pothole region.

Description

Keywords

Prairies, wetland, groundwater recharge, isotopes, water balance, dissolved ions, flow processes, ephemeral ponds, depression focused recharge, water fluxes

Citation

Degree

Doctor of Philosophy (Ph.D.)

Department

School of Environment and Sustainability

Program

Environment and Sustainability

Citation

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DOI

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