Saskia Noorduijn
2019
Quantifying terrain controls on runoff retention and routing in the Northern Prairies
Igor Pavlovskii,
Saskia Noorduijn,
Jessica E. Liggett,
J. Klassen,
Masaki Hayashi
Hydrological Processes, Volume 34, Issue 2
The role of hummocky terrain in governing runoff routing and focussing groundwater recharge in the Northern Prairies of North America is widely recognised. However, most hydrological studies in the region have not effectively utilised information on the surficial geology and associated landforms in large‐scale hydrological characterization. The present study uses an automated digital elevation model (DEM) analysis of a 6500‐km² area in the Northern Prairies to quantify hydrologically relevant terrain parameters for the common types of terrains in the prairies with different surficial deposits widespread in the prairies, namely, moraines and glaciolacustrine deposits. Runoff retention (and storage) capacity within depressions varies greatly between different surficial deposits and is comparable in magnitude with a typical amount of seasonal snowmelt runoff generation. The terrain constraint on potential runoff retention varies from a few millimetres in areas classified as moraine to tens of millimetres in areas classified as stagnant ice moraine deposits. Fluted moraine and glaciolacustrine deposits have intermediate storage capacity values. The study also identified the probability density function describing a number of immediate upstream neighbours for each depression in a fill‐and‐spill network. A relationship between depression parameters and surficial deposits, as well as identified depression network structure, allows parametrisation of hydrologic models outside of the high‐resolution DEM coverage, which can still account for terrain variation in the Prairies.
2018
A Coupled Soil Water Balance Model for Simulating Depression‐Focused Groundwater Recharge
Saskia Noorduijn,
Masaki Hayashi,
Getachew Adem Mohammed,
Aaron A. Mohammed
Vadose Zone Journal, Volume 17, Issue 1
Ephemeral ponds in depressions are the foci of groundwater recharge in the Canadian Prairies. Freeze–thaw processes influence snowmelt runoff and depression‐focused recharge. A new water balance model was developed to represent these processes. The water balance model successfully simulated the observed soil processes. This model will provide a tool to estimate recharge in the prairie landscape.
Search
Co-authors
- Masaki Hayashi 2
- Igor Pavlovskii 1
- Jessica E. Liggett 1
- J. Klassen 1
- Getachew Adem Mohammed 1
- show all...
Venues
- GWF2