Multi-variable verification of hydrological processes in the upper North Saskatchewan River basin, Alberta, Canada

Nemeth, Michael W.; Kienzle, S. W.; Byrne, J. M.

doi:10.1080/02626667.2011.633917

Cited by 2 publications

(1 citation statement)

References 41 publications

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“…Forbes et al () and Kienzle et al () have reported increased winter runoff, earlier spring freshet, and decreased summer runoff for southwestern Alberta. The same findings were reported for parts of the Rocky Mountains (Rood et al ; Sauchyn and Kulshreshtha ; Nemeth et al ). Correspondingly, regions where snowpack and glacier melt are major sources of the annual streamflow are significantly impacted by climate change (Cayan et al ; Mote ; Hamlet et al ).…”

Section: Introductionsupporting

confidence: 84%

Has it become warmer in Alberta? Mapping temperature changes for the period 1950–2010 across Alberta, Canada

Kienzle

2017

Canadian Geographies / Géographies canadiennes

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Key Messages Between 1950 and 2010, winter temperatures in Alberta rose by 3.5°C to 5°C in the south and up to 7°C in the north, while summer temperatures increased by less than 1°C in most of the province. The number of days with minimum temperatures below −20°C has generally about halved across Alberta, while the number of heat waves has roughly doubled. Highest confidence levels were evident for rising trends in mean annual and winter temperatures, and declining trends in the number of days below −20°C and heating degree days.

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Section: Introductionsupporting

confidence: 84%

Has it become warmer in Alberta? Mapping temperature changes for the period 1950–2010 across Alberta, Canada

Kienzle

2017

Canadian Geographies / Géographies canadiennes

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Glacio‐hydrological model calibration and evaluation

et al. 2020

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Glaciers are essential for downstream water resources. Hydrological modeling is necessary for a better understanding and for future projections of the water resources in these rapidly changing systems, but modeling glacierized catchments is especially challenging. Here we review a wealth of glacio-hydrological modeling studies (145 publications) in catchments around the world. Major model challenges include a high uncertainty in the input data, mainly precipitation, due to scarce observations. Consequently, the risk of wrongly compensating input with model errors in competing snow and ice accumulation and melt process parameterization is particularly high. Modelers have used a range of calibration and validation approaches to address this issue. The review revealed that while a large part ($35%) of the reviewed studies used only streamflow data to evaluate model performances, most studies ($50%) have used additional data related to snow and glaciers to constrain model parameters. These data were employed in a variety of calibration strategies, including stepwise and multi-signal calibration. Although the primary aim of glaciohydrological modeling studies is to assess future climate change impacts, longterm changes have rarely been taken into account in model performance evaluations. Overall, a more precise description of which data are used how for model evaluation would facilitate the interpretation of the simulation results and their uncertainty, which in turn would support water resources management. Moreover, there is a need for systematic analyses of calibration approaches to disentangle what works best and why. Addressing this need will improve our system understanding and model simulations of glacierized catchments.

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Multi-variable verification of hydrological processes in the upper North Saskatchewan River basin, Alberta, Canada

Cited by 2 publications

References 41 publications

Has it become warmer in Alberta? Mapping temperature changes for the period 1950–2010 across Alberta, Canada

Has it become warmer in Alberta? Mapping temperature changes for the period 1950–2010 across Alberta, Canada

Glacio‐hydrological model calibration and evaluation

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