Biological Invasions

, Volume 21, Issue 3, pp 911–923 | Cite as

Effect of round goby (Neogobius melanostomus) invasion on blue mussel (Mytilus edulis trossulus) population and winter diet of the long-tailed duck (Clangula hyemalis)

  • Artūras SkabeikisEmail author
  • Rasa Morkūnė
  • Egidijus Bacevičius
  • Jūratė Lesutienė
  • Julius Morkūnas
  • Aistė Poškienė
  • Andrius Šiaulys
Original Paper


The invasive round goby has established a viable population within 9 years of its first introduction to Lithuanian coastal waters (SE Baltic Sea). During its expansion phase, abundances increased 23-fold, which led to the near complete eradication of its main prey, the blue mussel, at < 20 m depth. The round goby population showed a stabilizing trend after blue mussel biomass was depleted; however, their abundance has not declined. The round goby feeds efficiently on newly settled mollusks, causing a severe constraint for blue mussel recovery. Changes in blue mussel availability and size structure induced a dietary shift in wintering long-tailed duck towards fish prey. An energetically dense food source sustains a good body condition in long-tailed ducks, however the change in trophic position (from 3.1 to 4.3 trophic level) suggests the potential for a reduction in their carrying capacity. Results from this study also show that coastal habitats with low and unpredictable population dynamics of blue mussel become less attractive wintering sites for long-tailed duck in the Baltic Sea. We also document a cascading effect of invasive species in the food web.


Resource competition Trophic level Marine protected area 



We thank the fisheries service under the Ministry of Agriculture of the Republic of Lithuania, Division of Fishery Research and Science for long-term round goby abundance data. We also thank commercial fishermen, who provided long-tailed ducks caught in their gill nets, and undergraduate students for help during laboratory analysis of the bird diet. We thank dr. A. Petraitis for long-tailed duck diet data from 2002 to 2004 and volunteers from the Lithuanian Ornithological Society for mid-winter bird counts. We also thank prof. S. Olenin, prof. D. Daunys, dr. M. Bučas, and dr. A. Šaškov for blue mussel sampling, S. Karalius for drawing and prof. P. Bukaveckas for language revision. This study was supported by BIO-C3 (Biodiversity changes-causes, consequences and management implications) within BONUS, the joint Baltic Sea Research and Development program funded jointly by the EU Seventh Framework Programme and the Research Council of Lithuania (Grant Agreement No. BONUS-1/2014).


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Copyright information

© Springer Nature Switzerland AG 2018

Authors and Affiliations

  • Artūras Skabeikis
    • 1
    Email author
  • Rasa Morkūnė
    • 1
  • Egidijus Bacevičius
    • 2
  • Jūratė Lesutienė
    • 1
  • Julius Morkūnas
    • 1
  • Aistė Poškienė
    • 2
  • Andrius Šiaulys
    • 1
  1. 1.Marine Research InstituteKlaipėda UniversityKlaipėdaLithuania
  2. 2.Department of Natural SciencesKlaipėda UniversityKlaipėdaLithuania

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