OREGON STATE UNIVERSITY

Publications

2022
Dietterich H.R, Grant G.E, Cashman KV, Fasth B., Major JJ.  2022.  Can lava flow like water? Applying hydraulic critical flow theory to measuring lava effusion rates GSA Connects; doi: 10.1130/abs/2022AM-381194.
Bales J., Bhaskar A., Characklis G., Flores A., Gilmore T., Gomez-Velez J., Grant G.E, Jefferson A., Khan S., Ledford S. et al..  2022.  COVID-19 Impacts Highlight the Need for Holistic Evaluation of Research in the Hydrologic Sciences. Water Resources Research. 58 (435.88 KB)
Dietterich H.R, Grant G.E, Fasth B., Major JJ, Cashman KV.  2022.  Does Lava Flow Like Water? Assessing Applications of Critical Flow Theory to Channelized Lava Flows JGR: Earth Surface.  (4.5 MB)
Dietterich H.R, Patrick M.R, Carr B.B, Gallant E., Hyman D., Diefenbach A.K, Cashman KV, Grant G.E.  2022.  New insights into lava flow dynamics and hazards from the 2018 eruption of Kilauea, Hawaii. GSA Connects; doi: 10.1130/abs/2022AM-381170.
Wallick J.R, Grant G.E, Lancaster S.T, Bolte J.P, Delinger R..  2022.  Patterns and controls on historical channel change in the Willamette River, Oregon USA. Large Rivers: Geomorphology and Management. :737-775. (1.52 MB)
Roques C., Rupp D.E, de Dreuzy J., Longuevergne L., Jachens E.R, Grant G.E, Aquilina L., Selker J.  2022.  Recession discharge from compartmentalized bedrock hillslopes. Hydrology and Earth System Sciences.  (3.63 MB)
Hanson R.B, Anenberg S., Zaichik B, Grant G, Filippelli G, Lyon L., Pandya R., Shimamoto M..  2022.  Report to NSF on Accelerating Research and Impacts in GeoHealth.  (397.89 KB)
Hardage K., Wheelock S., Gaffney R., O'Halloran T., Serpa B., Grant G, Coppoletta M., Csank A., Tague C., Staudacher M. et al..  2022.  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)
Dietterich H.R, Grant G.E, Fasth B., Major JJ, Cashman KV.  2022.  Watch: Enormous waves of lava can help predict volcanic flows; Ripples in molten rock helped improve flow forecasts during a destructive eruption in Hawaii. Science.

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