State Water Resources Research Institute Program
Project ID: 2007OR79B
Title: Contributions of Glacier Melt to Upper Hood River Streamflow and Implications of Climate Change
Project Type: Research
Start Date: 3/01/2007
End Date: 2/28/2008
Congressional District: 5th
Focus Categories: Climatological Processes, Water Quantity, Hydrology
Keywords: glacial meltwater, climate change, Mount Hood, DHSVM, Hood River, Irrigation Districts
Principal Investigators: Nolin, Anne W.; Kellett, Ronald
Federal Funds: $ 9,998
Non-Federal Matching Funds: $ 20,094
Abstract: Mount Hood is the tallest mountain in Oregon and its 6 of its 11 glaciers feed into the five irrigation districts in Hood River Valley. Mount Hood?s glaciers have receded up to 61% in the past century and are projected to continue decreasing with further climate warming. Because glaciers store precipitation as snow and ice during winter and release it via meltwater during summer, glacier meltwater reduces the interseasonal and interannual variability of streamflow. However, the volume of meltwater from Mount Hood glaciers is not known because the glacial-fed streams are not gaged. The focus of this work is on current and projected glacier meltwater contributions to streamflow from three glaciers that feed two main branches of the Hood River.
The specific objectives are to:
Our approach uses a combination of direct streamflow measurements and a spatially distributed, physically based hydrologic model. We will quantify the amount of runoff from the Eliot, Coe and Ladd glaciers on the north side of Mount Hood. Measurements will be constructed using five gages set up immediately below glacier termini and several kilometers downstream. These data, along with historical gage records will serve as a calibration for a Distributed Hydrologic Vegetation and Soils Model (DHSVM), which simulates glacier meltwater runoff and basin-wide streamflow. Output from the model will allow us to project changes in glacier meltwater contributions to Hood River under climate warming scenarios. This research will improve the fundamental understanding of current and future effects of rapidly receding glaciers on water resources in a regime of water scarcity. We will communicate our results to USFS hydrologists and water managers of the relevant irrigation districts.
Progress/Completion Report, PDF