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Cormorant (<i>Phalacrocorax carbo</i>) predation on a coastal perch (<i>Perca fluviatilis</i>) population: estimated effects based on PIT tag mark-recapture experiment

Lari Veneranta, Outi Heikinheimo, Timo J. Marjomäki

2020ICES Journal of Marine Science27 citationsDOI

Abstract

Abstract The number of cormorants has rapidly increased in the northernmost Baltic Sea. In 2018, 50 km × 50 km ICES catch rectangle 55H1 had 3140 breeding pairs. To estimate the predation effect of cormorants on perch populations, we Passive Integrated Tags tagged 1977 perch and 9.9% of tags were found. The median instantaneous cormorant-induced mortality during the breeding time, with consumption by non-breeding individuals, was estimated at 0.23 and at 0.35 during the whole residing period. We estimated with a yeild-per-recruit model that the long-term maximum loss of perch yield of tagged sub-population would be at 80% probability interval 32–67%, and when extended to the entire 55H1, 10–33%, respectively. The cormorants’ share of the &amp;gt;2-year-old perch biomass and production would be 8%, while that of other natural mortality would be 63% and that of fishing 29% in 55H1. The yield-per-recruit-results should be interpreted as an estimate of maximum cormorant effect because the dependence of predation rate on prey density was not accounted for, and density-dependence of growth, mortality, and reproduction of perch could partly compensate the loss. The results indicate that high density of cormorants can reduce the perch stocks and catches locally.

Topics & Concepts

PerchCormorantPredationFisheryFishingPopulationBiologyDensity dependencePercidaePopulation densityFish <Actinopterygii>EcologyDemographySociologyFish Ecology and Management StudiesMarine and fisheries researchAvian ecology and behavior
Cormorant (<i>Phalacrocorax carbo</i>) predation on a coastal perch (<i>Perca fluviatilis</i>) population: estimated effects based on PIT tag mark-recapture experiment | Litcius