Reconstructing History: Scale Analysis Reveals Long‐Term Changes in Age‐Related Growth of a Coregonid Fish

Reconstructing History: Scale Analysis Reveals Long‐Term Changes in Age‐Related Growth of a Coregonid Fish

ABSTRACT Animal growth is shaped by a complex interplay of environmental conditions and intrinsic life‐history trade‐offs, yet long‐term datasets allowing the reconstruction of individual growth histories in natural populations remain rare. Here, we use scale analysis to reconstruct age‐specific gro...

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Bibliographic Details
Main Authors: Christian Vogelmann, Maxim Teichert, Michael Schubert, Niels Dingemanse, Herwig Stibor
Format: Article
Language:English
Published: Wiley 2025-08-01
Series:Ecology and Evolution
Subjects:
fisheries induced evolution
maturation shifts
reproductive allocation
whitefish
Online Access:https://doi.org/10.1002/ece3.71884
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Summary:ABSTRACT Animal growth is shaped by a complex interplay of environmental conditions and intrinsic life‐history trade‐offs, yet long‐term datasets allowing the reconstruction of individual growth histories in natural populations remain rare. Here, we use scale analysis to reconstruct age‐specific growth histories of coregonid fish (Coregonus sp.) from Lake Starnberg, Germany, over a 22‐year period, evaluating the roles of lake phosphorus concentrations and spring temperatures as potential drivers. Linear mixed‐effects models revealed age‐specific changes in scale growth over time: while growth remained stable or increased slightly in younger age classes (ages 1 and 2), growth significantly declined over time in mature fish (age 3). During the observed period, phosphorus concentrations decreased, indicating reduced nutrient availability, whereas spring temperatures showed no significant long‐term trend. Our analyses further indicated significant interactions between temperature and age class, suggesting that temperature effects on growth may have varied by age, even though there was no overall change in temperature during the monitored time period. The observed decline in growth among mature individuals aligns with predictions from life‐history theory, reflecting a potential allocation shift from somatic growth to reproductive investment following maturation. This study provides rare empirical evidence from a natural fish population that long‐term environmental changes interact with intrinsic life‐history strategies, resulting in clear age‐specific patterns of growth variation.
ISSN:2045-7758

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