Publications
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2023. Novel dimensionless index for physically based assessment of thermal refugia characterizes off-channel habitat on gravel bed river. JAWRA. 59(4)
(5 MB)
(5 MB).
2015. The Remains of the Dam: What have we learned from 15 years of US dam removals. River Basins, Reservoir Sedimentation and Water Resources. 3:8pp. (702.79 KB)
(702.79 KB).
1999. Downstream effects of the Pelton Round Butte on bedload transport, channel morphology and channel bed texure. :111.
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1989. Morphology of high gradient streams at different spatial scales, Western Cascades, Oregon. Shizuoka Workshop on Channel Geomorphological Change and the Control of Sedimentary Load in Devastated Streams. :1-12.
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2001. Dam Removal: Panacea or Pandora for rivers? Hydrological Processes. 15:1531-1532. (905.22 KB)
(905.22 KB).
2013. A River Runs Through It: Conceptual Models in Fluvial Geomorphology. Treatise on Geomorphology. 9:6-21. (1000.79 KB)
(1000.79 KB).
2016. Lower Deschutes River Gravel Study Review. Report to Portland General Electric. (2.79 MB)
(2.79 MB).
2013. Watering the forest for the trees: an emerging priority for managing water in forest landscapes. Frontiers in Ecology and Environment. (506.57 KB)
(506.57 KB).
1994. Introduction to Watershed Analysis. Watershed Management Council Newsletter. 6:1-17.
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1992. XSPRO: An interactive software program for analyzing cross-sections of high-gradient stream channels.. :54.
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2017. Excursions in fluvial (dis)continuity. Geomorphology. 217:145-153. (686.76 KB)
(686.76 KB).
2021. Report to NSF on AGU community recommendations and ideas regarding implementing Climate Change Solutions. (2.29 MB)
(2.29 MB).
1991. Long-term patterns of sediment transport after timber harvest, western Cascade Mountains, Oregon, USA. Sediment and Stream Water Quality in a Changing Environment: Proceedings of the Vienna IAHS Symposium, International Association of Hydrological Sciences Publication No. 203. :31-40. (612.73 KB)
(612.73 KB).
2012. The Geomorphic Response of Gravel-Bed Rivers to Dams: Perspectives and Prospects. Gravel Bed Rivers: Processes, Tools, Environments. :165-181. (2.82 MB)
(2.82 MB).
1988. The RAPID technique: A new method for evaulating downstream effect of forest practices on riparian zones. :36. (1.4 MB)
(1.4 MB).
1999. Reply to Comment on "Critical flow constrains flow hydraulics in mobile-bed streams: A new hypothesis by G. E. Grant". Water Resources Research. 35:907-907. (95.21 KB)
(95.21 KB).
2020. Going with the Flow: New Insights into the Hydraulics of High-Energy Fluids. Science Findings, USDA Forest Service, PNW Research Station. (232) (3.33 MB)
(3.33 MB).
1992. Origin of step-pool sequences in high-gradient streams: a flume experiment. Japan-U.S. Symposium on Snow Avalanche, Landslide, and Debris Flow Prediction and Control. :523-532. (1.08 MB)
(1.08 MB).
2003. A geological framework for interpreting downstream effects of dams on rivers. A Peculiar River. Water Science and Application 7:209-225. (684.39 KB)
(684.39 KB).
1994. Hydraulics and sediment transport dynamics controlling step-pool formation in high gradient streams: a flume experiment.. Dynamics and geomorphology of mountain rivers.
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1990. Effects of forest land use on watershed hydrology: a modeling approach.. The Northwest Environmental Journal. 6:414-415.
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1990. Pattern and origin of stepped-bed morphology in high-gradient streams, Western Cascades, Oregon. Bulletin of the Geological Society of America. 102:340-352. (1.57 MB)
(1.57 MB).
1997. Dynamics and geomorphology of mountain rivers [Book Review]. Journal of the North American Benthological Society. 16:719-720.
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1987. Assessing the effects of peak flow increases on stream channels - a rational approach. California Watershed Management Conference.
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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)