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Q&A – A small fish – large impact?

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Q&A – A small fish – large impact?

A small fish – large impact?

The following story is the story of a little invader and how our Guest Author, Christina Henseler
(PhD student) is studying it.

Everyone who is working or living around the Baltic Sea has heard of the round goby. Fishermen swear on them because they have become more and more abundant in their catch replacing other fish species. Round gobies originally come from the Ponto-Caspian region and amongst others in the Baltic, they are present as a non-indigenous species, meaning that they have colonized and spread outside their native range. Theory is that they were introduced through the ballast water of ships.

Picture of a Round Goby (Neogobius melanostomus) - Credits: On courtesy of © Viktor Vrbovský.

Picture of a Round Goby (Neogobius melanostomus) – Credits: On courtesy of © Viktor Vrbovský.

The round goby (Neogobius melanostomus) is an about 20 cm large, bottom dwelling fish. Round gobies are known to feed on a large spectrum of prey organisms i.e. crustaceans, polychaetes, bivalves and gastropods, and they are assumed to have a significant impact on the native fauna with severe consequences for the functioning of those invaded ecosystems. For example, they can greatly reduce abundances of their prey organisms, but also compete with other native fish species, such as the flounder, for food and space. However, the impact of this species on colonized ecosystems has not been quantified yet and this is what I would like to examine during this year’s field season.

In order to examine the impact of round gobies on the native invertebrate community, I am conducting cage enclosure experiments at two sites within the Baltic Sea, namely the eastern German coast and the Åland archipelago. I have been building cages that are deployed at the bottom of the seafloor in about 2 to 3 m depth by SCUBA diving.

Inclusion cage - Round goby experiments - Credits: Christina Henseler
Inclusion cage underwater - Round goby experiments - Credits: Christina Henseler

Example of an inclusion cage outside (left) and inside the water (right)

Credits: Christina Henseler

Half of the cages are left empty over the entire experimental time (control treatment) and no fish is able to access them, whereas in the other half two medium sized round gobies are included (inclusion treatment).

Round goby sitting on the Inclusion cage - Credits: Christina Henseler
Measurement of a Round goby that will be included in the cages - Credits: Christina Henseler

Round gobies sitting outside the cages at the experimental site (left) and round goby that will be included in the cages (right)

Credits: Christina Henseler

Before and at the end of the experiment, sediment and vegetation samples are taken from within the cages and the invertebrates in those samples are counted and identified. If the samples from the control treatment are now compared to the ones from the inclusion treatment, it will be possible to see, in what way round gobies influence the number and composition of native invertebrates. For example, it is possible that they will predominantly feed on a certain size of mussels which will then be less abundant in the samples from the treatment including round gobies compared to the one without.

Field site - Germany - Credits: Christina Henseler

Field site in Germany

Credits: Christina Henseler

This study is carried out as a collaboration between Åbo Akademi University in Finland and the Thünen Institute of Baltic Sea Fisheries in Germany and will hopefully add to our knowledge concerning the impact of this pervasive fish species.

To the question “Is this small fish having a large impact on its ecosystem?”, Christina hasn’t answered yet. But I am sure this little fish have not finished to make talk about him.

This article was first published on the MARmaED website.

This research has been funded by the MARmaED PhD training network.
The MARmaED project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 675997.

MARmaED - EU Horizon 2020 Marie Sklodowska-Curie Innovative Training Network
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Author of the article.

Christina Henseler (Main author)
Christina Henseler (Main author)PhD student in Marine Biology
Focus of interest: Habitats, Invasive species
Pierre Olivier (Reporter for this article)
Pierre Olivier (Reporter for this article)PhD student - CEO Ocean Fact
Read more articles.
2017-08-19T11:54:46+00:00 August 8th, 2017|Question Answer|0 Comments

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