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Ocean current connectivity propelling the secondary spread of a marine invasive comb jelly across western Eurasia
Jaspers, C.; Huwer, B.; Antajan, E.; Hosia, A.; Hinrichsen, H.-H.; Biastoch, A.; Angel, D.; Asmus, R.; Augustin, C.; Bagheri, S.; Beggs, S.E.; Balsby, T.J.S.; Boersma, M.; Bonnet, D.; Christensen, J.T.; Dänhardt, A.; Delpy, F.; Falkenhaug, T.; Finenko, G.; Fleming, N.E.C.; Fuentes, V.; Galil, B.; Gittenberger, A.; Griffin, D.C.; Haslob, H.; Javidpour, J.; Kamburska, L.; Kube, S.; Langenberg, V.T.; Lehtiniemi, M.; Lombard, F.; Malzahn, A.; Marambio, M.; Mihneva, V.; Møller, L.F.; Niermann, U.; Okyar, M.I.; Özdemir, Z.B.; Pitois, S.; Reusch, T.B.H.; Robbens, J.; Stefanova, K.; Thibault, D.; van der Veer, H.W.; Vansteenbrugge, L.; van Walraven, L.; Wozniczka, A. (2018). Ocean current connectivity propelling the secondary spread of a marine invasive comb jelly across western Eurasia. Glob. Ecol. Biogeogr. 27(7): 814-827. https://doi.org/10.1111/geb.12742

Additional data:
In: Global Ecology and Biogeography. Blackwell Science: Oxford. ISSN 1466-822X; e-ISSN 1466-8238
Peer reviewed article  

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Keyword
    Mnemiopsis leidyi A. Agassiz, 1865 [WoRMS]
Author keywords
    biological invasions; gelatinous zooplankton; invasion corridors; invasive species; jellyfish; marine connectivity; Mnemiopsis leidyi; range expansion; source populations; source–sink dynamics

Authors  Top 
  • Jaspers, C.
  • Huwer, B.
  • Antajan, E.
  • Hosia, A.
  • Hinrichsen, H.-H.
  • Biastoch, A.
  • Angel, D.
  • Asmus, R.
  • Augustin, C.
  • Bagheri, S.
  • Beggs, S.E.
  • Balsby, T.J.S.
  • Boersma, M.
  • Bonnet, D.
  • Christensen, J.T.
  • Dänhardt, A.
  • Delpy, F.
  • Falkenhaug, T.
  • Finenko, G.
  • Fleming, N.E.C.
  • Fuentes, V.
  • Galil, B.
  • Gittenberger, A.
  • Griffin, D.C.
  • Haslob, H.
  • Javidpour, J.
  • Kamburska, L.
  • Kube, S.
  • Langenberg, V.T.
  • Lehtiniemi, M.
  • Lombard, F.
  • Malzahn, A.
  • Marambio, M.
  • Mihneva, V.
  • Møller, L.F.
  • Niermann, U.
  • Okyar, M.I.
  • Özdemir, Z.B.
  • Pitois, S.
  • Reusch, T.B.H.
  • Robbens, J.
  • Stefanova, K.
  • Thibault, D.
  • van der Veer, H.W.
  • Vansteenbrugge, L.
  • van Walraven, L.
  • Wozniczka, A.

Abstract
    Aim: Invasive species are of increasing global concern. Nevertheless, the mechanisms driving furtherdistribution after the initial establishment of non-native species remain largely unresolved, especiallyin marine systems. Ocean currents can be a major driver governing range occupancy, but this hasnot been accounted for in most invasion ecology studies so far. We investigate how well initialestablishment areas are interconnected to later occupancy regions to test for the potential role ofocean currents driving secondary spread dynamics in order to infer invasion corridors and thesource–sink dynamics of a non-native holoplanktonic biological probe species on a continental scale.Location: Western Eurasia.Time period: 1980s–2016.Major taxa studied: ‘Comb jelly’ Mnemiopsis leidyi.Methods: Based on 12,400 geo-referenced occurrence data, we reconstruct the invasion historyof M. leidyi in western Eurasia. We model ocean currents and calculate their stability to match thetemporal and spatial spread dynamics with large-scale connectivity patterns via ocean currents.Additionally, genetic markers are used to test the predicted connectivity between subpopulations.Results: Ocean currents can explain secondary spread dynamics, matching observed range expansionsand the timing of first occurrence of our holoplanktonic non-native biological probe species,leading to invasion corridors in western Eurasia. In northern Europe, regional extinctions after coldwinters were followed by rapid recolonizations at a speed of up to 2,000 km per season. SourceJASPERS ET AL. | 815areas hosting year-round populations in highly interconnected regions can re-seed genotypes overlarge distances after local extinctions.Main conclusions: Although the release of ballast water from container ships may contribute tothe dispersal of non-native species, our results highlight the importance of ocean currents drivingsecondary spread dynamics. Highly interconnected areas hosting invasive species are crucial forsecondary spread dynamics on a continental scale. Invasion risk assessments should considerlarge-scale connectivity patterns and the potential source regions of non-native marine species.

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