Guillaume Mauger
University of Washington | Research Scientist
| Subject Areas: | climate change, adaptation, hydrology, flooding, water management |
Recent Activity
ABSTRACT:
This collection includes relevant input files and model code for the VIC (Variable Infiltration Capacity) macroscale hydrologic model.
Recent flooding in the Chehalis basin has led managers, residents, and others to begin evaluating options for managing flood risk in the future (e.g., Ruckleshaus Center 2012). Climate change is expected to both increase the risk of winter flooding and decrease summer low flows – with implications for human communities and ecosystems alike. This document summarizes the results of a study aimed at providing initial estimates of the impacts of climate change on streamflow in the Chehalis River basin. The specific objectives of this work were to:
1. Refine projections of changing hydrology in the Chehalis River Basin,
2. Supply the larger project team with new inputs for hydraulic and ecosystem models, and
3. Evaluate the potential for climate change to alter the proportion of runoff originating above the proposed dam during flood events.
ABSTRACT:
To Do: Climate Impacts Group
ABSTRACT:
Recent flooding in the Chehalis basin has led managers, residents, and others to begin evaluating options for managing flood risk in the future (e.g., Ruckleshaus Center 2012). Climate change is expected to both increase the risk of winter flooding and decrease summer low flows – with implications for human communities and ecosystems alike. This collection resource summarizes the results of a study aimed at providing initial estimates of the impacts of climate change on streamflow in the Chehalis River basin. The specific objectives of this work were to:
1. Refine projections of changing hydrology in the Chehalis River Basin,
2. Supply the larger project team with new inputs for hydraulic and ecosystem models, and
3. Evaluate the potential for climate change to alter the proportion of runoff originating above the proposed dam during flood events.
ABSTRACT:
The purpose of this project is to develop refined estimates of the impact of climate change on changing hydrology in the Chehalis River basin for use in assessing flood risk and environmental impacts. The analysis includes an assessment of the large scale drivers of precipitation as well as estimated changes in streamflow for locations of interest to hydraulic and ecosystem modelers.
ABSTRACT:
To Do: Climate Impacts Group
Contact
| Work | 2066850317 |
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| Website | https://cig.uw.edu/about/people/guillaume-mauger/ |
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Created: June 2, 2016, 3:52 p.m.
Authors: Guillaume Mauger · Se-Yeun Lee · Christina Bandaragoda · Jason Won · Yolande Serra · Katherine Hegewisch
ABSTRACT:
The purpose of this collection is to bring together relevant data, research, and modeling of the hydrology of the Chehalis River Basin.
Created: June 2, 2016, 4:04 p.m.
Authors: Christina Bandaragoda · Guillaume Mauger
ABSTRACT:
To Do: Climate Impacts Group
Created: June 2, 2016, 4:04 p.m.
Authors: Guillaume Mauger
ABSTRACT:
The purpose of this project is to develop refined estimates of the impact of climate change on changing hydrology in the Chehalis River basin for use in assessing flood risk and environmental impacts. The analysis includes an assessment of the large scale drivers of precipitation as well as estimated changes in streamflow for locations of interest to hydraulic and ecosystem modelers.
Created: June 2, 2016, 4:20 p.m.
Authors: Guillaume Mauger
ABSTRACT:
Recent flooding in the Chehalis basin has led managers, residents, and others to begin evaluating options for managing flood risk in the future (e.g., Ruckleshaus Center 2012). Climate change is expected to both increase the risk of winter flooding and decrease summer low flows – with implications for human communities and ecosystems alike. This collection resource summarizes the results of a study aimed at providing initial estimates of the impacts of climate change on streamflow in the Chehalis River basin. The specific objectives of this work were to:
1. Refine projections of changing hydrology in the Chehalis River Basin,
2. Supply the larger project team with new inputs for hydraulic and ecosystem models, and
3. Evaluate the potential for climate change to alter the proportion of runoff originating above the proposed dam during flood events.
Created: June 2, 2016, 4:24 p.m.
Authors: Christina Bandaragoda · Guillaume Mauger
ABSTRACT:
To Do: Climate Impacts Group
ABSTRACT:
This collection includes relevant input files and model code for the VIC (Variable Infiltration Capacity) macroscale hydrologic model.
Recent flooding in the Chehalis basin has led managers, residents, and others to begin evaluating options for managing flood risk in the future (e.g., Ruckleshaus Center 2012). Climate change is expected to both increase the risk of winter flooding and decrease summer low flows – with implications for human communities and ecosystems alike. This document summarizes the results of a study aimed at providing initial estimates of the impacts of climate change on streamflow in the Chehalis River basin. The specific objectives of this work were to:
1. Refine projections of changing hydrology in the Chehalis River Basin,
2. Supply the larger project team with new inputs for hydraulic and ecosystem models, and
3. Evaluate the potential for climate change to alter the proportion of runoff originating above the proposed dam during flood events.