Multifaceted implications of the competition between native and invasive crayfish: a glimmer of hope for the native’s long-term survival

Biological invasions represent a complex phenomenon driven by multiple factors. In this study, a real-time invasion process between a native ( Pontastacus leptodactylus ) and an invasive ( Faxonius limosus ) crayfish species was investigated in the Lower Danube (South-East Europe) through an interdi...

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Veröffentlicht in:Biological invasions 2020-02, Vol.22 (2), p.827-842
Hauptverfasser: Pacioglu, Octavian, Theissinger, Kathrin, Alexa, Andreea, Samoilă, Corina, Sîrbu, Ovidiu-Ioan, Schrimpf, Anne, Zubrod, Jochen P., Schulz, Ralf, Pîrvu, Mălina, Lele, Sandra-Florina, Jones, John I., Pârvulescu, Lucian
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Sprache:eng
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Zusammenfassung:Biological invasions represent a complex phenomenon driven by multiple factors. In this study, a real-time invasion process between a native ( Pontastacus leptodactylus ) and an invasive ( Faxonius limosus ) crayfish species was investigated in the Lower Danube (South-East Europe) through an interdisciplinary approach, by measuring various ecological, genetic, physiological and biometric endpoints. The results revealed that the prolonged competition in old invaded sites of the river (at least a decade) either drove the native species to extinction, or, unexpectedly, allowed its survival as highly fragmented populations. However, for the latter situation, several biological and ecological traits differed in the remnant populations: increased trophic position and elemental imbalance for two major macronutrients (C:N molar ratio), low growth, as strongly contracted trophic niche widths and low overlap degree with the invasive crayfish. The data suggest that the prolonged competition induced potential resource partitioning between species, potentially driving their coexistence, as the development of larger and heavier claws within the native males’ population. On the contrary, in more recently invaded sectors of the Lower Danube (3 years), the trophic niche of the native species was significantly larger compared to old invaded sites and characterised by high level of niche overlap, indicating almost identical diet with the invasive crayfish, but characterised by the lowest trophic position compared to other invasion sectors. The genetic diversity of the native crayfish populations was strongly reduced in the invaded sectors of the river, but without signs of genetic bottleneck, which may be explained by a drift-mutational equilibrium reached as a consequence of diminishing population size. Our findings suggest strong coexistence potential in the future for both species in the Lower Danube.
ISSN:1387-3547
1573-1464
DOI:10.1007/s10530-019-02136-0