Numerical modelling of climate change impacts on Saint‐Lawrence River tributaries |
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| Authors: | P M Verhaar P M Biron R I Ferguson T B Hoey |
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| Institution: | 1. Département de Géographie, Université de Montréal, C.P. 6128, Succursale Centre‐Ville, Montréal, Québec, H3C 3J7 Canada;2. Department of Geography, Planning and Environment, Concordia University, Montréal, Québec, Canada;3. Department of Geography, Durham University, Durham, UK;4. Department of Geographical and Earth Sciences, University of Glasgow, Glasgow, UK |
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| Abstract: | The impacts of climate‐induced changes in discharge and base level in three tributaries of the Saint‐Lawrence River, Québec, Canada, are modelled for the period 2010–2099 using a one‐dimensional morphodynamic model. Changes in channel stability and bed‐material delivery to the Saint‐Lawrence River over this period are simulated for all combinations of seven tributary hydrological regimes (present‐day and those predicted using three global climate models and two greenhouse gas emission scenarios) and three scenarios of how the base level provided by the Saint‐Lawrence River will alter (no change, gradual fall, step fall). Even with no change in base level the projected discharge scenarios lead to an increase in average bed material delivery for most combinations of river and global climate model, although the magnitude of simulated change depends on the choice of global climate model and the trend over time seems related to whether the river is currently aggrading, degrading or in equilibrium. The choice of greenhouse gas emission scenario makes much less difference than the choice of global climate model. As expected, a fall in base level leads to degradation in the rivers currently aggrading or in equilibrium, and amplifies the effects of climate change on sediment delivery to the Saint‐Lawrence River. These differences highlight the importance of investigating several rivers using several climate models in order to determine trends in climate change impacts. Copyright © 2010 John Wiley & Sons, Ltd. |
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| Keywords: | morphodynamic model Saint‐Lawrence River climate change bed‐material transport base level |
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