Implementing a parsimonious variable contributing area algorithm for the prairie pothole region in the HYPE modelling framework

The North American prairie region is known for its poorly defined drainage system with numerous surface depressions that lead to variable contributing areas for streamflow generation. Current approaches of representing surface depressions are either simplistic or computationally demanding. In this s...

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Published inEnvironmental modelling & software : with environment data news Vol. 167; p. 105769
Main Authors Ahmed, Mohamed Ismaiel, Shook, Kevin, Pietroniro, Alain, Stadnyk, Tricia, Pomeroy, John W., Pers, Charlotta, Gustafsson, David
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.09.2023
Subjects
algorithms
computer software
Contributing area
drainage systems
HYPE
Hysteresis
lakes
Prairie pothole
Prairie Pothole region
Saskatchewan
stream flow
Streamflow
Prairie Pothole region
Saskatchewan
Prairie pothole
HYPE
Streamflow
Contributing area
Hysteresis
Online AccessGet full text
ISSN1364-8152
1873-6726
1873-6726
DOI10.1016/j.envsoft.2023.105769

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Abstract The North American prairie region is known for its poorly defined drainage system with numerous surface depressions that lead to variable contributing areas for streamflow generation. Current approaches of representing surface depressions are either simplistic or computationally demanding. In this study, a variable contributing area algorithm is implemented in the HYdrological Predictions for the Environment (HYPE) model and evaluated in the Canadian prairies. HYPE's local lake module is replaced with a Hysteretic Depressional Storage (HDS) algorithm to estimate the variable contributing fractions of subbasins. The modified model shows significant improvements in simulating the streamflows of two prairie basins in Saskatchewan, Canada. The modified model can replicate the hysteretic relationships between the water volume and contributing area of the basins. With the inclusion of the HDS algorithm in HYPE, the global HYPE modelling community can now simulate an important hydrological phenomenon, previously unavailable in the model. •HDS algorithm is implemented within the HYPE modelling framework.•HYPE-HDS shows significantly improved streamflow simulations compared to the original HYPE model.•HYPE-HDS can simulate the hysteretic relationship between depressional/basin storage and contributing area.
AbstractList The North American prairie region is known for its poorly defined drainage system with numerous surface depressions that lead to variable contributing areas for streamflow generation. Current approaches of representing surface depressions are either simplistic or computationally demanding. In this study, a variable contributing area algorithm is implemented in the HYdrological Predictions for the Environment (HYPE) model and evaluated in the Canadian prairies. HYPE's local lake module is replaced with a Hysteretic Depressional Storage (HDS) algorithm to estimate the variable contributing fractions of subbasins. The modified model shows significant improvements in simulating the streamflows of two prairie basins in Saskatchewan, Canada. The modified model can replicate the hysteretic relationships between the water volume and contributing area of the basins. With the inclusion of the HDS algorithm in HYPE, the global HYPE modelling community can now simulate an important hydrological phenomenon, previously unavailable in the model.
The North American prairie region is known for its poorly defined drainage system with numerous surface depressions that lead to variable contributing areas for streamflow generation. Current approaches of representing surface depressions are either simplistic or computationally demanding. In this study, a variable contributing area algorithm is implemented in the HYdrological Predictions for the Environment (HYPE) model and evaluated in the Canadian prairies. HYPE's local lake module is replaced with a Hysteretic Depressional Storage (HDS) algorithm to estimate the variable contributing fractions of subbasins. The modified model shows significant improvements in simulating the streamflows of two prairie basins in Saskatchewan, Canada. The modified model can replicate the hysteretic relationships between the water volume and contributing area of the basins. With the inclusion of the HDS algorithm in HYPE, the global HYPE modelling community can now simulate an important hydrological phenomenon, previously unavailable in the model. •HDS algorithm is implemented within the HYPE modelling framework.•HYPE-HDS shows significantly improved streamflow simulations compared to the original HYPE model.•HYPE-HDS can simulate the hysteretic relationship between depressional/basin storage and contributing area.
ArticleNumber 105769
Author Pomeroy, John W.
Shook, Kevin
Pietroniro, Alain
Gustafsson, David
Ahmed, Mohamed Ismaiel
Stadnyk, Tricia
Pers, Charlotta
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  surname: Gustafsson
  fullname: Gustafsson, David
  organization: Swedish Meteorological and Hydrological Institute, Norrköping, Sweden
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Keywords Prairie pothole
HYPE
Streamflow
Contributing area
Hysteresis
Language English
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Snippet The North American prairie region is known for its poorly defined drainage system with numerous surface depressions that lead to variable contributing areas...
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SubjectTerms algorithms
computer software
Contributing area
drainage systems
HYPE
Hysteresis
lakes
Prairie pothole
Prairie Pothole region
Saskatchewan
stream flow
Streamflow
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Title Implementing a parsimonious variable contributing area algorithm for the prairie pothole region in the HYPE modelling framework
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