Publications & Reports
Learn more about NW CASC-funded research in these publications.
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Probability of Streamflow Permanence Model (PROSPER): A spatially continuous model of annual streamflow permanence throughout the Pacific Northwest
Jaeger, K. L., R. Sando, R. R. McShane, J. B. Dunham, D. P. Hockman-Wert, K. E. Kaiser, K. Hafen, J. C. Risley, and K. W. Blasch. 2019. Probability of Streamflow Permanence Model (PROSPER): A spatially continuous model of annual streamflow permanence throughout the Pacific Northwest. Journal of Hydrology X 2:100005.
Warming alters hydrologic heterogeneity: simulated climate sensitivity of hydrology‐based microrefugia in the snow‐to‐rain transition zone
Marshall, A. M., T. E. Link, J. T. Abatzoglou, G. N. Flerchinger, D. G. Marks, and L. Tedrow. 2019. Warming alters hydrologic heterogeneity: simulated climate sensitivity of hydrology‐based microrefugia in the snow‐to‐rain transition zone. Water Resources Research 55:2122–2141.
A hydroclimatological approach to predicting regional landslide probability using Landlab
Strauch, R., E. Istanbulluoglu, S.S. Nudurupati, C. Bandaragoda, N.M. Gasparini, and G.E. Tucker. 2018. A hydroclimatological approach to predicting regional landslide probability using Landlab. Earth Surface Dynamics 6:49–75.
Assessing the effectiveness of riparian restoration projects using Landsat and precipitation data from the cloud-computing application ClimateEngine.org
Hausner, M. B., J. L. Huntington, C. Nash, C. Morton, D. J. McEvoy, D. S. Pilliod, K. C. Hegewisch, B. Daudert, J. T. Abatzoglou, and G. Grant. 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.
Climate-related variation in plant peak biomass and growth phenology across Pacific Northwest tidal marshes
Buffington, K. J., B. D. Dugger, and K. M. Thorne. 2018. Climate-related variation in plant peak biomass and growth phenology across Pacific Northwest tidal marshes. Estuarine, Coastal and Shelf Science 202:212–221.
Enhancement of a parsimonious water balance model to simulate surface hydrology in a glacierized watershed
Valentin, M. M., R. J. Viger, A. E. Van Beusekom, L. E. Hay, T. S. Hogue, and N. L. Foks. 2018. Enhancement of a parsimonious water balance model to simulate surface hydrology in a glacierized watershed. Journal of Geophysical Research: Earth Surface 123:1116–1132.
Simulating the dependence of aspen (Populus tremuloides) on redistributed snow in a semi-arid watershed
Soderquist, B. S., K. L. Kavanagh, T. E. Link, M. S. Seyfried, and A. H. Winstral. 2018. Simulating the dependence of aspen (Populus tremuloides) on redistributed snow in a semi-arid watershed. Ecosphere 9:e02068.
Springs as hydrologic refugia in a changing climate? A remote-sensing approach
Cartwright, J., and H. M. Johnson. 2018. Springs as hydrologic refugia in a changing climate? A remote-sensing approach. Ecosphere 9:e02155.
Climate moderates potential shifts in streamflow from changes in pinyon-juniper woodland cover across the western U.S
Niemeyer, R. J., T. E. Link, R. Heinse, and M. S. Seyfried. 2017. Climate moderates potential shifts in streamflow from changes in pinyon-juniper woodland cover across the western U.S. Hydrological Processes 31:3489–3503.
Climate, wildfire, and erosion ensemble foretells more sediment in western USA watersheds
Sankey, J. B., J. Kreitler, T. J. Hawbaker, J. L. McVay, M. E. Miller, E. R. Mueller, N. M. Vaillant, S. E. Lowe, and T. T. Sankey. 2017. Climate, wildfire, and erosion ensemble foretells more sediment in western USA watersheds. Geophysical Research Letters 44:8884–8892.