Publications
.
2022.
Report to NSF on AGU community recommendations and ideas regarding implementing Climate Change Solutions. (2.29 MB)
.
2021. Riparian forest disturbance by a mountain flood: the influence of floated wood.. Hydrological Processes. 14:3031-3050. (585.92 KB)
.
2000. River Basins, Reservoir Sedimentation and Water Resources. Engineering Geology for Society and Territory. 3:657. (1.23 MB)
.
2015. A River Runs Through It: Conceptual Models in Fluvial Geomorphology. Treatise on Geomorphology. 9:6-21. (1000.79 KB)
.
2013. A river runs underneath it: geologic control of spring and channel systems and management implications, Cascade Range, Oregon. Advancing the Fundamental Sciences: procceedings of the Forest Service national earth sciences conference. PNW-GTR-689:391-400.
.
2007. The role of forests in reducing hydrogeomorphic hazards. Forest Snow and Landscape Research. 80:11-22. (115.36 KB)
.
2006. Running Dry: Where will the West get its water? Science Findings. :9. (795.71 KB)
.
2007. 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)
.
2017. Science with Society: Evidence-based Guidance for Best Practices in Environmental Transdisciplinary Work. Global Environmental Change. (7.66 MB)
.
2021. Seasonal versus transient snow and the elevation dependence of climate sensitivity in maritime mountainous regions. Geophysical Research Letters. 38 (411.4 KB)
.
2011. Sediment movement at the Oregon LTER site. Sediment movement at LTER sites: mechanics, measurement and integration with hydrology. :4-9.
.
1986. Sediment problems and consequences during temporary drawdown of a large flood control reservoir for environmental retrofitting. River Basins, Reservoir Sedimentation and Water Resources. 3:7pp. (696.29 KB)
.
2015. Sediment transport and channel morphology of small forested streams. Journal of the American Water Resources Association. 41:853-876. (898.9 KB)
.
2005. Seen one dam, seen 'em all?: The surprising story of the Deschutes River Science Findings. 25:6. (251.37 KB)
.
2000. The settings of erosion research and management in Japan and the western U.S.. Japan-US Workshop on SnowAvalanche, Landslide and Debris Flow Prediction and Control. :517-522.
.
1992. Shallow landslide delineation for steep forest watersheds based on topographic attributes and probability analysis. Terrain analysis: Principles and Applications. :311-329. (1.85 MB)
.
2000. Soil moisture and micrometeorological differences across reference and thinned stands during extremes of precipitation, southern Cascade Range. Frontiers in Forests and Global Change. 5 (4.92 MB)
.
2022. Some effects of slope movements on river channels. International Symposium on Erosion, Debris Flow and Disaster Prevention. :273-278.
.
1985. Some emerging issues in watershed management: landscape pattern, species conservation, and climate change. New Perspectives for Watershed Management: Balancing Long-Term Sustainability with Cumulative Environmental Change. :207-232.
.
1992. Spatial and temporal trends in bed material and channel morphology below a hydroelectric dam complex, Deschutes River, Oregon. Civil Engineering, Geology. M.S.:85.
.
1998. Spatio-temporal scaling of channels in braided streams. Journal of Hydrology. 322:192-198. (230.61 KB)
.
2006. Stream channels--the link between forests and fishes.. Streamside Management: Forestry and Fishery Interactions. Contribution No. 57:39-97.
.
1986. Summary of the watershed-landscape analysis workshop. PNW GTR 338:68. (4.28 MB)
.
1994. Survey of Beaver-related Restoration Practices in Rangeland Streams of the Western U.S.A .. Environmental Management. 61(1):58-68. (1.63 MB)
.
2018.