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7326672 
Journal Article 
Does a Bioenergetics Model Accurately Predict Fish Consumption by American White Pelicans? A Case Study on Walleyes in the Tamarac River, Minnesota 
Graham, JD; Hafs, AW; Kennedy, AJ 
2019 
North American Journal of Fisheries Management
ISSN: 0275-5947
EISSN: 1548-8675 
John Wiley and Sons Inc. 
39 
485-497 
English 
The effect of piscivorous birds on fisheries is a growing concern for fisheries managers, especially when native birds consume large quantities of fish. The Red Lakes, Minnesota, fishery is one such example, where congregations of American white pelicans (AWPEs) Pelecanus erythrorhynchos forage on spawning Walleyes Sander vitreus. We quantified AWPE consumption of Walleyes on the Tamarac River, a major tributary of the Red Lakes, by using empirical diet data collected from lethally sampled birds and separately by using a bioenergetics model. Furthermore, we evaluated the diet and foraging patterns of AWPEs on the river. Camera trap data revealed that AWPEs were foraging nearly completely nocturnally, likely in response to Walleye spawning migrations, with Walleyes accounting for 98% of AWPE diets. The empirical estimate of daily fish consumption from lethally sampled birds was not significantly different from the bioenergetics estimate. Monte Carlo simulations were used to provide estimates of uncertainty in annual Walleye consumption. Based on the simulations, all estimates of annual Walleye consumption between 2014 and 2016 represented < 1% of adult (age ≥ 3) Walleyes in the system and < 2.5% of adult Walleye natural mortality. This amount of Walleye consumption by AWPEs, at current population levels, does not pose a management concern. © 2019 American Fisheries Society 
bioenergetics; conservation management; diet; fishery management; fishery modeling; food consumption; migratory population; mortality; perciform; piscivore; prediction; spawning; spawning population; waterfowl; Minnesota; Red Lake [Minnesota]; United States; Aves; Pelecanus erythrorhynchos; Sander vitreus; Stizostedion vitreum