Publications
A ravenous river reclaims its true course: the tale of Marmot Dam's demise. Science Findings. :6. (1.79 MB)
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2009. Thermal pollution in rivers: Will adding gravel help cool them down? Science Findings. :6. (802.12 KB)
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2011. Liberated Rivers: Lessons From 40 Years of Dam Removal. Science Findings. :9. (4.7 MB)
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2017. A Peculiar River. Water Science and Application. 7:219.
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2003. Overview of Geology, Hydrology, Geomorphology and Sediment Budget of the Deschutes River Basin, Oregon. A Peculiar River. Water Science and Application 7:7-30. (4.43 MB)
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2003. One Thousand Dams Down and Counting - A Forty-year Perspective. Science. (1.13 MB)
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2015. Quaternary Geology and Geomorphology of the Lower Deschutes River Canyon, Oregon. A Peculiar River. Water Science and Application 7:73-94. (4.43 MB)
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2003. Downs with Dams: Unchaining US Rivers. Geotimes.
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2008. The Geology and Geography of Floods. Ancient Floods, Modern Hazards: Principles and Application of Paleoflood Hydrology. 5:359-385. (3.9 MB)
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2002. Geomorphology of the Deschutes River below Pelton Round Butte Dam Complex, Oregon. Final Report to PGE. :102.
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1999. Present-day and future contributions of glacier runoff to summertime flows in a Pacific Northwest watershed: Implications for water resources. Water Resources Research. 46 (2.94 MB)
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2010. Discussion: “Meadow Restoration Increases Baseflow and Groundwater Storage in the Sierra Nevada Mountains of California.” By Luke J.H. Hunt, Julie Fair and Maxwell Odland.. Journal of the American Water Resources Association. :1-4. (103 KB)
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2019. Great Expectations: Deconstructing the Process Pathways Underlying Beaver-Related Restoration. Bioscience. biaa165 (876.11 KB)
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2021. A physical framework for evaluating net effects of wet meadow restoration on late summer streamflow. Ecohydrology. 11(5) (807.5 KB)
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2018. Watershed analysis as a framework for implementing ecosystem management. Water Resources BulletinWater Resources Bulletin. 31:369-386. (1.79 MB)
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1995. Water sustainability and watershed storage. Nature Sustainability. Vol. 1(August 2018):378-379. (1 MB)
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2018. Moving beyond heterogeneity and process complexity: A new vision for watershed hydrology. Water Resources Research. 43 (101.65 KB)
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2007. Spatial and temporal trends in bed material and channel morphology below a hydroelectric dam complex, Deschutes River, Oregon. Civil Engineering, Geology. M.S.:85.
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1998. Initial fluvial response to the removal of Oregon's Marmot Dam. EOS. 89:241-252. (318.2 KB)
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2008. A multidecade analysis of fluvial geomorphic evolution of the Spirit Lake blockage, Mount St. Helens, Washington. U.S. Geological Survey Scientific Investigations Report 2020-5027. :54p.. (9.05 MB)
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2020. Geomorphic Responses to Dam Removal in the United States – a Two-Decade Perspective. Gravel-Bed Rivers: Processes and Disasters. :355-383. (1.41 MB)
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2017. .
2012. Patterns of hillslope and channel recovery following disturbances in steep, forested basins. Geosciences. PhD:184.
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2000. Climate Change, Water, and Roads in South-Central Oregon. Climate Change Vulnerability and Adaptation in South Central Oregon.. :55-94. (35.54 MB)
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2019. Patterns of River Discharge and Temperature Differentially Influence Migration and Spawn Timing for Coho Salmon in the Umpqua River Basin, Oregon. Transactions of the American Fisheries Society. 149(6):695-708. (8.99 MB)
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2020.