Publications
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2019. Autopsy of a reservoir: facies architecture in a multi-dam system, Elwha River, Washington, USA. GSA Bulletin. 
(6.4 MB)
(6.4 MB).
2018. Assessing the effectiveness of riparian restoration projects using Landsat and precipitation data from the cloud-computing application ClimateEngine.org. Ecological Engineering. 120:432-440. (2.4 MB)
(2.4 MB).
2017. Book Review: Full-Rip 9.0: The Next Big Earthquake in the Pacific Northwest. Northwest Science. 91(1):100-101. (40 KB)
(40 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).
1996. Channel network extension by logging roads in two basins, western Cascades, Oregon. Water Resources Bulletin. 32:1195-1207. (1.55 MB)
(1.55 MB).
2010. Coevolution of hydrology and topography on a basalt landscape in the Oregon Cascade Range, USA. Earth Surface Processes and Landforms. :803-816. (1.43 MB)
(1.43 MB).
1996. Comment on "A Distributed Hydrology-Vegetation Model for Complex Terrain" by Mark S. Wigmosta, Lance W. Vail, and Dennis P. Lettenmaier. Water Resources Research. 32:211-212. (119.85 KB)
(119.85 KB).
2001. Comment on "Peak flow responses to clear-cutting and roads in small and large basins, Western Cascades, Oregon: A second opinion" by R. B. Thomas and W. F. Megahan. Water Resources Research. 37:175-178. (355.75 KB)
(355.75 KB).
2001. Comment on "Peak flow responses to clear-cutting and roads in small and large basins, Western Cascades, Oregon" by J. A. Jones and G. E. Grant. Water Resources Research. 37:179-180. (125.69 KB)
(125.69 KB).
2014. Comparing Large-Scale Hydrological Model Predictions with Observed Streamflow in the Pacific Northwest: Effects of Climate and Groundwater. Journal of Hydrometeorology. 15 (2.13 MB)
(2.13 MB).
1995. A comparison of stochastic models for generating daily precipitation at the H J Andrews Experimental Forest. Northwest Science. 69:318-329.
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2018. Connectivity as an Emergent Property of Geomorphic Systems. Earth Surface Processes and Landforms. (711.29 KB)
(711.29 KB).
2013. Coupling snowpack and groundwater dynamics to interpret historical streamflow trends in the western United States. Hydrological Processes. 27:655–668. (1.34 MB)
(1.34 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).
1997. Critical flow constrains flow hydraulics in mobile-bed streams: A new hypothesis. Water Resources Research. 33:349-358. (1.19 MB)
(1.19 MB).
1991. Cummulative effects of forest practices. Forest Perspectives. 1:9-11. (938.83 KB)
(938.83 KB).
2003. Dam Removal in the United States: Emerging Needs for Science and Policy. EOS. 84:32-33. (253.71 KB)
(253.71 KB).
2017. Dam Removal - Listening In. Water Resources Research. 53(7):5229–5246. (2.7 MB)
(2.7 MB).
2001. Dam Removal: Panacea or Pandora for rivers? Hydrological Processes. 15:1531-1532. (905.22 KB)
(905.22 KB).
2000. Datasets from long-term ecological research (LTER) sites and their use in ecological hydrology. Water Resources Impact. 2:37-40. (322.56 KB)
(322.56 KB).
2006. Debris dams and the relief of headwater streams. Geomorphology. 82:84-97. (959.5 KB)
(959.5 KB).
2014. Debris flow initiation in proglacial gullies on Mount Rainier, Washington. Geomorphology. 226:249-260. (3.15 MB)
(3.15 MB)