Elad Nehoray Rachmilovitz scite author profile

Over the past three decades the colonial ascidian Didemnum vexillum has been expanding its global range, significantly impacting marine habitats and aquaculture facilities. What biological features make D. vexillum so highly invasive? Here, we show that juxtaposed allogeneic D. vexillum colony fragments (‘ramets’) may, initially, form chimeric entities. Subsequently, zooids of the differing genotypes within such chimeras coordinately retreat away from fusion zones. A few days following such post-fusion retreat movements there is further ramet fission and the formation of zooid-depauperate tunic zones. Using polymorphic microsatellite loci to distinguish between genotypes, we found that they were sectorial at the fusion zones and the subsequent ramet movements resulted in further spatial separation of the paired-genotypes indicating that the fusion events observed did not lead to formation of long-term, stable chimeras. Thus, movements of D. vexillum colony ramets from initial fusion zones lead to progressive segregation of genotypes probably minimizing potential somatic/germ-cell competition/parasitism. We speculate that relatively fast (≤10 mm/day) movement of D. vexillum colonies on substrates along with frequent, and perhaps unrestrained, transient allogeneic fusions play significant roles in this species’ striking invasiveness and capacity to colonize new substrates.

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The dire implications of releasing marine ornamental fishes into the wild: first reported case from the Red Sea

Stern

Rachmilovitz

Al-Ashhab

et al. 2016

Mar Biodiv

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Elad Nehoray Rachmilovitz

Tiling the reef – Exploring the first step of an ecological engineering tool that may promote phase-shift reversals in coral reefs

Efficient dispersal and substrate acquisition traits in a marine invasive species via transient chimerism and colony mobility

The dire implications of releasing marine ornamental fishes into the wild: first reported case from the Red Sea

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