Publications
Filters: First Letter Of Last Name is M [Clear All Filters]
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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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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).
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).
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).
2020. A multidecade analysis of fluvial geomorphic evolution of the Spirit Lake blockage, Mount St. Helens, Washington. U.S. Geological Survey Scientific Investigations Report 2020-5027. :54p.. (9.05 MB)
(9.05 MB).
2020. A multidecade analysis of fluvial geomorphic evolution of the Spirit Lake blockage, Mount St. Helens, Washington. U.S. Geological Survey Scientific Investigations Report 2020-5027. :54p.. (9.05 MB)
(9.05 MB).
2019. Hillslope Hydrology in Global Change Research and Earth System Modeling. Water Resources Research. 55:35. (7.38 MB)
(7.38 MB).
2019. Hillslope Hydrology in Global Change Research and Earth System Modeling. Water Resources Research. 55:35. (7.38 MB)
(7.38 MB).
2019. Hillslope Hydrology in Global Change Research and Earth System Modeling. Water Resources Research. 55:35. (7.38 MB)
(7.38 MB).
2019. Hillslope Hydrology in Global Change Research and Earth System Modeling. Water Resources Research. 55:35. (7.38 MB)
(7.38 MB).
2019. Hillslope Hydrology in Global Change Research and Earth System Modeling. Water Resources Research. 55:35. (7.38 MB)
(7.38 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).
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).
2018. Connectivity as an Emergent Property of Geomorphic Systems. Earth Surface Processes and Landforms. (711.29 KB)
(711.29 KB).
2018. Connectivity as an Emergent Property of Geomorphic Systems. Earth Surface Processes and Landforms. (711.29 KB)
(711.29 KB).
2018. Water sustainability and watershed storage. Nature Sustainability. Vol. 1(August 2018):378-379. (1 MB)
(1 MB).
2018. Water sustainability and watershed storage. Nature Sustainability. Vol. 1(August 2018):378-379. (1 MB)
(1 MB).
2018. Water sustainability and watershed storage. Nature Sustainability. Vol. 1(August 2018):378-379. (1 MB)
(1 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).
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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2017. Geomorphic Responses to Dam Removal in the United States – a Two-Decade Perspective. Gravel-Bed Rivers: Processes and Disasters. :355-383. (1.41 MB)
(1.41 MB).
2017. Geomorphic Responses to Dam Removal in the United States – a Two-Decade Perspective. Gravel-Bed Rivers: Processes and Disasters. :355-383. (1.41 MB)
(1.41 MB).
2017. Linking environmental flows to sediment dynamics. Water Policy. 19:358-375. (598.3 KB)
(598.3 KB)