Abstract
A major focus of invasion biology is understanding the traits associated with introduction success. Most studies assess these traits in the invaded region, while only few compare nonindigenous species to the pool of potential invaders in their native region. We focused on the niche breadth hypothesis, commonly evoked but seldom tested, which states that generalist species are more likely to become introduced as they are capable of thriving under a wide set of conditions. Based on the massive introduction of tropical species into the Mediterranean via the Suez Canal (Lessepsian migration), we defined ascidians in the Red Sea as the pool of potential invaders. We constructed unique settlement plates, each representing six different niches, to assess ascidian niche breadth, and deployed them in similar habitats in the native and invaded regions. For each species found on plates, we evaluated its abundance, relative abundance across successional stages, and niche breadth, and then compared (1) species in the Red Sea known to have been introduced into the Mediterranean (Lessepsian species) and those not known from the Mediterranean (non‐Lessepsian); and (2) nonindigenous and indigenous species in the Mediterranean. Lessepsian species identified on plates in the Red Sea demonstrated wider niche breadth than non‐Lessepsian species, supporting the niche breadth hypothesis within the native region. No differences were found between Lessepsian and non‐Lessepsian species in species abundance and successional stages. In the Mediterranean, nonindigenous species numerically dominated the settlement plates. This precluded robust comparisons of niche breadth between nonindigenous and indigenous species in the invaded region. In conclusion, using Red Sea ascidians as the pool of potential invaders, we found clear evidence supporting the niche breadth hypothesis in the native region. We suggest that such patterns may often be obscured when conducting trait‐based studies in the invaded regions alone. Our findings indicate that quantifying the niche breadth of species in their native regions will improve estimates of invasiveness potential.
Highlights
Invasive species constitute a major environmental problem that threatens ecological systems worldwide
A prominent hypothesis often evoked to explain invasion is the niche-breadth hypothesis (Vazquez, 2006). This postulates that species with a wider niche breadth, that is, generalist species, are potentially superior invaders as they are capable of thriving under a wide set of conditions
Comparing the same species between the Mediterranean and Red Sea sites, we found that Herdmania momus and Styela canopus were more abundant in the Red Sea (97 vs. 16 and 47 vs. 6 individuals, respectively), while Rhodosoma turcicum and Phallusia nigra were more abundant in the Mediterranean (75 vs. 3 and 140 vs. nine individuals, respectively)
Summary
Invasive species constitute a major environmental problem that threatens ecological systems worldwide. The early succession hypothesis states that early successional species are often very fecund and require only a short time to reproduce, and are likely to successfully invade new, often disturbed, regions (Byers, 2002; Capellini, Baker, Allen, Street, & Venditti, 2015) Both these hypotheses have received wide support (Cardeccia et al, 2016; Duncan et al, 2001; Lockwood et al, 2005; Simberloff, 2009), but their applicability to marine systems is less clear. We compared niche breadth, as measured from recruitment patterns, as well as species abundance and life-history characteristics: (1) between Red Sea species that are known to establish populations in the Mediterranean (i.e., Lessepsian species) to species that have not occupied the Mediterranean; (2) between nonindigenous and indigenous Mediterranean species These comparisons allowed us to acquire a broad view of the role of niche breadth in introduction success among solitary ascidians
Sign-in/Register to view highlights & summary 
Published Version (
Free)
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call