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Predation of intertidal infauna on juveniles of the bivalve Macoma balthica
Hiddink, J.G.; ter Hofstade, R.; Wolff, W.J. (2002). Predation of intertidal infauna on juveniles of the bivalve Macoma balthica. J. Sea Res. 47(2): 141-159. https://dx.doi.org/10.1016/S1385-1101(02)00107-7
In: Journal of Sea Research. Elsevier/Netherlands Institute for Sea Research: Amsterdam; Den Burg. ISSN 1385-1101; e-ISSN 1873-1414, meer
Is gerelateerd aan:
Hiddink, J.G.; ter Hofstade, R.; Wolff, W.J. (2002). Predation of intertidal infauna on juveniles of the bivalve Macoma balthica, in: Hiddink, J.G. The adaptive value of migrations for the bivalve Macoma balthica. pp. 89-112, meer
Peer reviewed article  

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Trefwoorden
    Developmental stages > Larvae > Invertebrate larvae > Molluscan larvae > Spat
    Enclosure
    Interspecific relationships > Predation
    Structures > Hydraulic structures > Barrages > Enclosures
    Topographic features > Landforms > Coastal landforms > Tidal flats
    Arenicola marina (Linnaeus, 1758) [WoRMS]; Macoma balthica (Linnaeus, 1758) [WoRMS]; Macoma balthica (Linnaeus, 1758) [WoRMS]; Nereis diversicolor Müller, 1776 [WoRMS]
    ANE, Waddenzee [Marine Regions]; Denmark, Wadden Sea; Europe, The Netherlands; Netherlands, Wadden Sea; The Netherlands
    Marien/Kust

Auteurs  Top 
  • Hiddink, J.G., meer
  • ter Hofstade, R.
  • Wolff, W.J., meer

Abstract
    Juveniles of the bivalve Macoma balthica live on tidal flats in the Wadden Sea. This study examined the interaction of Macoma with the infaunal polychaetes Arenicola marina and Nereis diversicolor and the gastropod Retusa obtusa. The distribution of M. balthica spat on the flats, shortly after settlement in April, showed a positive correlation with the Arenicola distribution and a negative correlation with Nereisdistribution. There were no locations where Macomaspat and Retusa occurred together. In August, Macoma spat had grown too large for predation by intertidal infauna. Small individuals of Macoma spat were found in stomachs of Arenicola (0.14 worm-1) and Nereis (0.05 worm-1). Laboratory experiments showed that Nereis and Retusa could reduce Macoma spat abundance, both in the absence and presence of sediment and alternative prey. Arenicola reduced the abundance of small Macoma (<1 mm) in sediment without, but not with, alternative prey. In field experiments, we manipulated the density of Arenicola in 0.25-1 m2 plots and of Nereis in 0.03 m2 cages and examined the effect on Macoma density several weeks later. We found a significant negative relation between densities of polychaetes and Macoma spat for both polychaete species in these experimental plots. Peculiarly, we found a significant positive relation between manipulated Nereis density and adult Macoma density in the cages; we cannot explain this. Consumption rates, calculated both from stomach contents and from field experiments, were 45 to 102 Macoma m-2 d-1 for Arenicola and 5 to 116 Macoma m-2 d-1 for Nereis. These values are higher than recorded consumption rates by epibenthic predators in the same area. Nevertheless, between-year differences in year-class strength could not be explained by differential abundance of these polychaetes. n conclusion, Arenicola and Nereis had a negative effect on the abundance of Macoma <1.5 mm, which was at least partly caused by direct consumption. Retusa obtusa can eat juvenileMacoma, but probably did not so in the study area, because there were no locations where Retusa and Macoma spat occurred together in the period that Macoma was <2 mm.

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