Seasonal Diet Changes and Trophic Links of Cold-Water Fish ( Coregonus albula ) within a Northern Lake Ecosystem

The seasonal feeding patterns of the cold-adapted fish, Coregonus albula , are poorly studied in high-latitude lakes but could provide insight for predicting the effects of global warming. We examined vendace’s diet composition, traced the carbon and nitrogen isotope ratios from producers to consume...

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Bibliographic Details
Published in:Animals
Main Authors: Nadezhda A. Berezina, Piotr M. Terentjev, Elena M. Zubova, Sergey M. Tsurikov, Alexey A. Maximov, Andrey N. Sharov
Format: Article in Journal/Newspaper
Language:English
Published: MDPI AG 2024
Subjects:
arctic lakes
cold-water fish
feeding ecology
food web
isotope analysis
seasonality
Veterinary medicine
SF600-1100
Zoology
QL1-991
Global warming
Subarctic
White Sea
Copepods
Online Access:https://doi.org/10.3390/ani14030394
https://doaj.org/article/699728d3784a4ab6b97789718a828c74
Description
Summary:The seasonal feeding patterns of the cold-adapted fish, Coregonus albula , are poorly studied in high-latitude lakes but could provide insight for predicting the effects of global warming. We examined vendace’s diet composition, traced the carbon and nitrogen isotope ratios from producers to consumers in the food web, and estimated vendace’s trophic position in a subarctic lake (the White Sea basin). Results showed the vendace to be a typical euryphagous fish, but clear seasonal differences were found in the relative importance of plankton and benthos in the diet. The vendace consumed primarily benthic amphipods in the summer, planktonic cladocerans in the autumn, and copepods in the winter–spring (under ice); larvae of aquatic insects were the second-most important food items throughout the year. Because of the substantial proportion of fish embryos in its diet, the vendace had a trophic position similar to that of a predatory fish (perch). The Bayesian food source-mixing model revealed that the majority of vendace energy derives from planktonic copepods. The dominant Cyclops had the lowest carbon isotope values, suggesting a carbon-depleted diet typical for methanotrophic bacteria, as its probable food source was in a lake under ice. Understanding the feeding patterns of vendace provides information to better predict the potential biotic effects of environmental change on lake ecosystems.

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