Journal of Water Resource and Protection

Journal of Water Resource and Protection

ISSN Print: 1945-3094
ISSN Online: 1945-3108
www.scirp.org/Journal/jwarp
E-mail: jwarp@scirp.org
"Ice Jam Modelling of the Lower Red River"
written by Karl-Erich Lindenschmidt, Maurice Sydor, Rick Carson, Robert Harrison,
published by Journal of Water Resource and Protection, Vol.4 No.1, 2012
has been cited by the following article(s):
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[10] Ice-Jam Flood Risk Assessment and Hazard Mapping under Future Climate
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[12] Influence of Channel Morphology on Ice Conveyance and Bridging: Experiments with a Numerical Model
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[14] A hydrological and water temperature modelling framework to simulate the timing of river freeze-up and ice-cover breakup in large-scale catchments
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[15] Modeling overbank flows during ice-jam flood events on the Lower Red River
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[16] Self-organizing water rise process preceding river ice-jams
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[17] A Stochastic Hydraulic Modelling Approach to Determining the Probable Maximum Staging of Ice-Jam Floods.
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[18] The Impact of Cumulative Negative Air Temperature Degree-Days on the Appearance of Ice Cover on a River in Relation to Atmospheric Circulation
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[21] Wirksamkeit des geplanten Flutpolders Międzyodrze und der Stromregelungskonzeption für den Hochwasserschutz der Unteren Oder
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[22] Using remote sensing data to parameterize ice jam modeling for a northern inland delta
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[23] Analyses of the stability of submerged ice blocks
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[24] RIVICE—A Non-Proprietary, Open-Source, One-Dimensional River-Ice Model
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[25] Modelling probabilities of ice jam flooding from artificial breakup of the Athabasca River ice cover at Fort McMurray
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[26] Near Real-time Ice-Related Flood Hazard Assessment of the Exploits River in Newfoundland, Canada
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[27] Ice processes modeling during reverse water transfer of open canals: a case study
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[28] Ice jam flood hazard assessment and mapping of the Peace River at the Town of Peace River
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[29] Monitoring the Variation in Ice-Cover Characteristics of the Slave River, Canada Using RADARSAT-2 Data—A Case Study
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[30] Simulation and analysis of ice processes in an artificial open channel
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[31] Modelling ice cover formation of a lake–river system with exceptionally high flows (Lake St. Martin and Dauphin River, Manitoba)
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