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Estuarine recruitment of a marine goby reconstructed with an isotopic clock
Guelinckx, J.; Maes, J.; Geysen, B.; Ollevier, F. (2008). Estuarine recruitment of a marine goby reconstructed with an isotopic clock, in: Guelinckx, J. Estuarine habitat use by a goby species: a geochemical approach = Estuarien habitatgebruik door een grondelsoort: een geochemische benadering. pp. 65-83
In: Guelinckx, J. (2008). Estuarine habitat use by a goby species: a geochemical approach = Estuarien habitatgebruik door een grondelsoort: een geochemische benadering. PhD Thesis. Katholieke Universiteit Leuven, Laboratorium voor Aquatische Ecologie: Leuven. ISBN 978-90-8649-165-0. 163 pp., more
Related to:
Guelinckx, J.; Maes, J.; Geysen, B.; Ollevier, F. (2008). Estuarine recruitment of a marine goby reconstructed with an isotopic clock. Oecologia 157(1): 41-52. https://dx.doi.org/10.1007/s00442-008-1045-7, more

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Keywords
    Aquatic organisms > Marine organisms > Fish > Marine fish
    Behaviour > Migrations
    Isotopes
    Isotopes > Carbon isotopes
    Nursery grounds
    Water bodies > Coastal waters > Coastal landforms > Coastal inlets > Estuaries
    Pomatoschistus minutus (Pallas, 1770) [WoRMS]
    Marine/Coastal
Author keywords
    nursery; fish migration; estuarine dependency; carbon stable isotopes;isotopic turnover

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Abstract
    Information on movement patterns of marine fishes between estuarine populations and stocks at sea is fundamental to understand their population dynamics, life history tactics and behaviour. Furthermore, understanding estuarine habitat use by marine fishes is crucial for their effective conservation and integrated estuarine management. Although large numbers of young marine fish make use of temperate estuaries in highly predictable abundance patterns, very little is known on how estuarine populations interact with the population at sea. Immigration of sand goby Pomatoschistus minutus (Pallas, 1770) into the low salinity zone of the Scheldt estuary (Belgium) was reconstructed over an entire year by means of an isotopic clock. These results were combined with a growth model to yield age and length at immigration. Sand gobies entered the upper Scheldt estuary almost continuously from May onwards, except in July when they appeared to avoid the estuary. About 70% of the fish caught in the upper estuary resided there for less than one month, which indicates a strong temporal overlap of immigration and emigration. This complex migration pattern suggests that estuarine residence is caused by trade-offs made at the individual level, whereby migration is probably triggered by temperature. The high turnover of individuals in the estuarine population questions the functional role of the estuary for marine fishes. Sand gobies entering the upper estuary had a wide range of ages and body sizes, although they were at least two months old and had a minimum standard length of ~20 mm. This study shows that the use of an isotopic clock strongly complements catch data and is useful to describe the connectivity between populations.

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