Comparison of simulation models used in assessing the effects of power-plant-induced mortality on fish populations
Gordon L. Swartzman, Richard B. Deriso, Christine Cowan, U.S. Nuclear Regulatory Commission. Division of Safeguards, Fuel Cycle, and Environmental Research, University of Washington. Center for Quantitative Science
Nuclear Regulatory Commission, Office of Nuclear Regulatory Research, Division of Safeguards, Fuel Cycle and Environmental Research, 1978 - Computers - 155 pages
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adult population age class assumptions average best estimate Beverton-Holt biological biomass C&D Canal calculated catch Chesapeake Bay cohort approach Comparison compensatory mortality computed cycle model d-d mortality d-i survival density-dependent differences distribution dynamic pool approach egg production entrainment factors entrainment loss f factors fecundity fish migration fish populations fishery yield fishing model Hudson River hydrodynamic increase Indian Point intake J-II and J-III JHU model juvenile larvae Lawler Leslie matrix life-cycle model LMS 1-D LMS 2-D model LMS models low CM migration model predictions models reviewed mortality function mortality rate ORNL 1-D model ORNL model parameter values percent plant operation power plant PR predictions PR values recruitment reducing sensitivity analysis sex ratio sockeye salmon spatial spawner-recruit spawning stock-progeny curve striped bass Summit model survival equation survival function surviving y-o-y swimming ability Table USNRC velocity winter flounder y-o-y model y-o-y simulator young-of-the-year