Abstract
Seaweed bioinvasions increasingly affect coastal environments around the world, which increases the need for predictive models and mitigation strategies. The biotic interactions between seaweed invaders and invaded communities are often considered a key determinant of invasion success and failure and we here revise the current evidence that the capacity of seaweed invaders to deter enemies in newly reached environments correlates with their invasion success. Particularly efficient chemical defences have been described for several of the more problematic seaweed invaders during the last decades. However, confirmed cases in which seaweed invaders confronted un-adapted enemies in newly gained environments with deterrents that were absent from these environments prior to the invasion (so-called “novel weapons”) are scarce, although an increasing number of invasive and non-invasive seaweeds are screened for defence compounds. More evidence exists that seaweeds may adapt defence intensities to changing pressure by biological enemies in newly invaded habitats. However, most of this evidence of shifting defence was gathered with only one particular model seaweed, the Asia-endemic red alga Agarophyton vermiculophyllum, which is particularly accessible for direct comparisons of native and non-native populations in common garden experiments. A. vermiculophyllum interacts with consumers, epibionts and bacterial pathogens and in most of these interactions, non-native populations have rather gained than lost defensive capacity relative to native conspecifics. The increases in the few examined cases were due to an increased production of broad-spectrum deterrents and the relative scarcity of specialized deterrents perhaps reflects the circumstance that seaweed consumers and epibionts are overwhelmingly generalists.
Highlights
As a component of global change and an ecological reflection of anthropogenic perturbation, seaweed invasions have received considerable interest from marine ecologists and biologists for more than a decade (Williams and JenniferEdited by Chengchao Chen.2007)
The capacity of Ceramium tenerrimum and Ceramium virgatum (Fig. 2) to settle on living thalli of native and invasive A. vermiculophyllum within two weeks of colonization was compared by Wang et al (2017a) using host specimens from four European and four Asian populations, that had been adapted to common garden conditions
As in some other study models— not tested in common gardens, but with field material (e.g., Schwartz et al 2017a, b; Wikström et al 2006)—the case of A. vermiculophyllum supports the validity of the SDH for macroalgal invaders and the more general idea that the invasion success of seaweeds is affected by biotic interactions in the newly gained environments
Summary
As a component of global change and an ecological reflection of anthropogenic perturbation, seaweed invasions have received considerable interest from marine ecologists and biologists for more than a decade A large body of studies—mostly conducted with terrestrial plants and their consumers—provides evidence of such adaptations, either toward weaker defence, if release from specialist consumers occurred, or toward stronger defence, if generalist consumers exert high feeding pressure on alien species (reviewed by Müller 2018) This led to the formulation of the “shifting defence hypothesis” (SDH, Doorduin and Vrieling 2011; Joshi and Vrieling 2005), which predicts that successful plant invaders should contain high levels of defence compounds that deter generalist enemies, investing less into metabolites that deter specialist enemies. The compound inhibits recruitment of native algal competitors (Svensson et al 2013) and reduces bacterial densities (Nylund et al 2008) Another long-standing example of an invasive macroalga that exhibits pronounced chemical defences is Caulerpa taxifolia, which originates from Australia and has invaded— among other areas—the Mediterranean Sea
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