Publications
Filters: First Letter Of Last Name is D [Clear All Filters]
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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).
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. Can lava flow like water? Applying hydraulic critical flow theory to measuring lava effusion rates GSA Connects; doi: 10.1130/abs/2022AM-381194.
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2003. Clarifying muddy water: probing the linkages to municipal water quality. Science Findings. 59:6. (406.82 KB)
(406.82 KB).
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 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).
2019. Climate Change, Water, and Roads in South-Central Oregon. Climate Change Vulnerability and Adaptation in South Central Oregon.. :55-94. (35.54 MB)
(35.54 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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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).
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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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).
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).
2022. Does Lava Flow Like Water? Assessing Applications of Critical Flow Theory to Channelized Lava Flows JGR: Earth Surface. (4.5 MB)
(4.5 MB).
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. Field Trip Guide to Mafic volcanism of the central Oregon Cascades - A volcanic, tectonic, hydrologic, and geomorphic journey. Scientific Investigations Report. :94p..
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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).
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).
2017. The frontier beneath our feet. Water Resources Research. (598.57 KB)
(598.57 KB).
2002. Geology as Destiny: Cold waters run deep in western Oregon. Science Findings. 49:6. (272.09 KB)
(272.09 KB).
1997. A geomorphic basis for the hydrologic behavior of large river systems. River Quality: Dynamics and Restoration. :105-116. (816.25 KB)
(816.25 KB).
2021. Great Expectations: Deconstructing the Process Pathways Underlying Beaver-Related Restoration. Bioscience. biaa165 (876.11 KB)
(876.11 KB).
2019. Hillslope Hydrology in Global Change Research and Earth System Modeling. Water Resources Research. 55:35. (7.38 MB)
(7.38 MB).
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).
1991. Landforms, disturbances and ecotones. Landscape Boundaries: Consequences for Biotic Diversity and Ecological Flows. :305-323.