The trophic function of Dikerogammarus villosus (Sowinsky, 1894) in invaded rivers: a case study in the Elbe and Rhine
Aquatic Invasions. Bd. 10. H. 4. Helsinki: Regional Euro-Asian Biological Invasions Centre 2015 S. 385 - 397
Erscheinungsjahr: 2015
ISBN/ISSN: 1818-5487
Publikationstyp: Zeitschriftenaufsatz
Sprache: Englisch
Doi/URN: 10.3391/ai.2015.10.4.03
Inhaltszusammenfassung
The invasive amphipod Dikerogammarus villosus has become increasingly dominant in German river ecosystems since the River Rhine invasion in the mid-1990s. Because it is preying on other invertebrate taxa, its appearance is often assumed to be associated with a drastic decrease in species diversity and changes in natural benthic communities. Despite this, the trophic function of D. villosus and its predation potential are rarely studied in natural river communities. Here, we assess the trophic...The invasive amphipod Dikerogammarus villosus has become increasingly dominant in German river ecosystems since the River Rhine invasion in the mid-1990s. Because it is preying on other invertebrate taxa, its appearance is often assumed to be associated with a drastic decrease in species diversity and changes in natural benthic communities. Despite this, the trophic function of D. villosus and its predation potential are rarely studied in natural river communities. Here, we assess the trophic function of D. villosus in two invaded systems, the Elbe River and the River Rhine, using stable carbon and nitrogen isotope analyses. In the two studied river food webs, D. villosus had a generally low trophic position (TP), indicating a likely function as primary consumer or at most as an omnivore. The significantly higher TP in the River Rhine (TP = 2.6) than in the Elbe River (TP = 1.9) suggested a partial use of animal prey in the River Rhine. This was supported by the results of the isotope mixing model SIAR which predicted in addition to a high importance of herbivory in both rivers a likely feeding on other invasive amphipod species in the Rhine community. We conclude that D. villosus has a variable but mostly low predacious behaviour, probably depending on the benthic community structure. To allow more realistic trophic analyses for D. villosus in the field, we determined the trophic enrichment factors (TEFs) for nitrogen and carbon isotopes of two diet types in the tissue of D. villosus in an eight-week laboratory experiment. The carbon isotope enrichment (Delta delta C-13) from the chironomid diet was negative in the consumer (-1.75 %), whereas the carbon from leaf litter was enriched positively in the tissue (3.27 %). The TEFs for nitrogen (Delta delta N-15) were more similar for plant and animal diet (leaf litter: 3.56 %, chironomids: 2.29 %). Because of the high specificity of the enrichment factors with respect to species and food source, we recommend their use in further trophic analyses. » weiterlesen» einklappen