| Year Sort ascending | Citation | Related Dataset |
|---|---|---|
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Saylor, R., Sterling, D., Bevelhimer, M. and Pracheil, B., 2020. Within and Among Fish Species Differences in Simulated Turbine Blade Strike Mortality: Limits on the Use of Surrogacy for Untested Species. Water, 12(3), p.701 |
Fish Injury and Mortality caused by Simulated Impacts from Turbine Blades | |
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Saylor, R., Fortner, A. and Bevelhimer, M., 2019. Quantifying mortality and injury susceptibility for two morphologically disparate fishes exposed to simulated turbine blade strike. Hydrobiologia, 842(1), pp.55-75. |
Fish Injury and Mortality caused by Simulated Impacts from Turbine Blades | |
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Bevelhimer, M.S., Pracheil, B.M., Fortner, A.M., Saylor, R. and Deck, K.L., 2019. Mortality and injury assessment for three species of fish exposed to simulated turbine blade strike. Canadian Journal of Fisheries and Aquatic Sciences, 76(12), pp.2350-23 |
Fish Injury and Mortality caused by Simulated Impacts from Turbine Blades | |
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Uría-Martínez, R., M. M. Johnson , and P.W. O’Connor (2018). 2017 Hydropower Market Report. Washington, DC: Water Power Technologies Office, U.S. Department of Energy. DOE/EE- 1737. https://doi.org/10.2172/1513459 |
Hydropower Market Report, 2017 | |
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Saylor, Ryan, Bevelhimer, Mark, Pracheil, Brenda et.al Species-specific Susceptibility to Scale Loss: Using Simulated Shear to Understand Among Species Differences in Turbine Passage Injury Hydrosource, Oak Ridge National Laboratory, Oak Ridge, TN |
Fish Scale-Loss caused by Simulated Hydraulic Shear Stress | |
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Bevelhimer, M.S., Pracheil, B.M., Fortner, A.M. and Deck, K.L., 2017. An Overview of Experimental Efforts to Understand the Mechanisms of Fish Injury and Mortality Caused by Hydropower Turbine Blade Strike (No. ORNL/TM-2017/731). Oak Ridge National Lab. |
Fish Injury and Mortality caused by Simulated Impacts from Turbine Blades | |
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Ashfaq, M., D. Rastogi, R. Mei, S.-C. Kao, S. Gangrade, B. S. Naz, and D. Touma. 2016. "High-resolution Ensemble Projections of Near-term Regional Climate over the Continental United States." J. Geophys. Res. 121. 9943–9963. |
Effects of Climate Change on Hydropower - 9505 Climate Change Impact Assessment, 2013-2016 | |
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Mani, A., F. T.-C. Tsai, S.-C. Kao, B. S. Naz, M. Ashfaq, and D. Rastogi. 2016. "Conjunctive Management Of Surface And Groundwater Resources Under Projected Future Climate Change Scenarios." Journal of Hydrology 560. Journal of Hydrology: 397–411. |
Effects of Climate Change on Hydropower - 9505 Climate Change Impact Assessment, 2013-2016 | |
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McManamay, R. A, C. O Oigbokie, S.-C Kao, and M. S Bevelhimer. 2016. "Classification Of Us Hydropower Dams By Their Modes Of Operation." River Research And Applications River Research And Applications. |
Effects of Climate Change on Hydropower - 9505 Climate Change Impact Assessment, 2013-2016 | |
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Naz, B., S.-C Kao, M. Ashfaq, D. Rastogi, R. Mei, and L.C. Bowling. 2016. "Regional Hydrologic Response To Climate Change In The Conterminous United States Using High-Resolution Hydroclimate Simulations." Global And Planetary Change 143. Global And Planet |
Effects of Climate Change on Hydropower - 9505 Climate Change Impact Assessment, 2013-2016 |