Publications
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2013. Increasing synchrony of high temperature and low flow in western North American streams: double trouble for coldwater biota? Hydrobiologia. 712:61-70.
(489.14 KB)
(489.14 KB).
2014. Can air temperature be used to project influences of climate change on stream temperature? Environmental Research Letters. 9:12pp. (1.58 MB)
(1.58 MB).
2022. COVID-19 Impacts Highlight the Need for Holistic Evaluation of Research in the Hydrologic Sciences. Water Resources Research. 58 (435.88 KB)
(435.88 KB).
2017. Designing a network of critical zone observatories to explore the living skin of the terrestrial Earth. Earth Surface Dynamics. 5:841-860. (9.65 MB)
(9.65 MB).
2000. When do logs move in rivers? Water Resources Research. 36:571-583. (454.47 KB)
(454.47 KB).
1998. Entrainment, transport, and deposition of large woody debris in streams: results from a series of flume experiments. Geology. M.S.:87.
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1997. Dynamics of Wood transport in Streams: A Flume Experiment. Earth Surface Processes and LandformsEarth Surface Processes and Landforms. 22:669-683. (1016.41 KB)
(1016.41 KB).
2001. Transport and deposition of large woody debris in streams: a flume experiment. Geomorphology. 41:263-283. (1.15 MB)
(1.15 MB).
2011. Physical modeling of the removal of Glines Canyon Dam and Lake Mills from the Elwha River, WA. Sediment Dynamics upon Dam Removal. 122 (1.7 MB)
(1.7 MB).
1992. New Approaches to Forest Management: background, science issues and research agenda, Part II. Journal of Forestry. 90:21-24. (219.45 KB)
(219.45 KB).
1992. New Approaches to Forest Management: background, science issues and research agenda, Part I. Journal of Forestry. 90:25-28. (186.03 KB)
(186.03 KB).
2008. Groundwater resources assessment under the pressures of humanity and climate change: a framework document. :31. (2.47 MB)
(2.47 MB).
2008. Influence of hyporheic flow and geomorphology on temperature of a large, gravel-bed river, Clackamas River, Oregon, USA. Hydrological Processes. 22:941-953. (1.18 MB)
(1.18 MB).
2008. Influence of hyporheic flow and geomorphology on temperature of a large, gravel-bed river, Clackamas River, Oregon, USA. Water Resources Graduate Program. M.S.:179.
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2009. Fire and Water: Volcanology, geomorphology, and hydrogeology of the Cascade Range, central Oregon. Volcanoes to Vineyards: Geologic Field Trips through the Dynamic Landscape of the Pacific Northwest. :539-582. (4.12 MB)
(4.12 MB).
1998. A disturbance-based landscape plan for a managed forest ecosystem. The Augusta Creek study. PNW-GTR-422:82.
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2018. Effects of climate change on hydrology and water resources in the Blue Mountains, Oregon, USA. Climate Services. (5.61 MB)
(5.61 MB).
2017. Climate Change and Hydrology in the Blue Mountains. Climate Change Vulnerability and Adaptation in the Blue Mountains Region. PNW GTR-939:22-33. (32.66 MB)
(32.66 MB).
2017. Climate Change, Water Resources, and Roads in the Blue Mountains. Climate Change Vulnerability and Adaptation in the Blue Mountains Region. PNW-GTR-939:53-90.
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2023. Envisioning a near-surface geophysics center for convergent science. EOS. (2.78 MB)
(2.78 MB).
2010. Recent periglacial debris flows from Mount Rainier, Washington. Water Resources Graduate Program. M.S.:125.
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2013. Will we need to change the rules: assessing the implications of climate change for dam operations in Oregon's McKenzie River Basin. Water Resources Graduate Program. M.S.:125.
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2017. Scenario-based and scenario-neutral assessment of climate change impacts on operational performance of a multipurpose reservoir. Journal of the American Water Resources Association. (2.7 MB)
(2.7 MB).
2017. Linking environmental flows to sediment dynamics. Water Policy. 19:358-375. (598.3 KB)
(598.3 KB)