Abstract
Following their invasion, non-indigenous fish can potentially exclude native fishes from their original niches through competition, or can partition in their resource use with native species to facilitate co-existence. Here, using stable isotope analysis, the trophic interactions of invasive European barbel Barbus barbus and other fishes were tested in an invaded river of relatively low fish species diversity and where no other Barbus species were present. Testing was over three distinct life stages: age 0 + (< 38 mm), juveniles (86–231 mm) and adults (> 386 mm). There were strong patterns of isotopic niche partitioning between the juvenile fishes, with some inter-specific niche differences also apparent in 0 + fishes. For adult B. barbus and chub Squalius cephalus, however, niche convergence was evident. Within the B. barbus population, the niches of the adult fish differed significantly from the 0+ and juvenile fish, indicating considerable dietary changes with development. These results suggested that niche partitioning at the most abundant life stages were facilitating the co-existence of invasive B. barbus with other fishes in the community, with this most likely driven by inter-specific differences in functional morphology and habitat use.
Highlights
Invasions of non-indigenous fishes can result in adverse impacts in native fish communities, including competitive displacement and exclusion (Gozlan et al, 2010)
In invaded rivers where they are sympatric with endemic Barbus fishes, such as in Italian rivers, long-term data suggest populations of endemic Barbus tyberinus Bonaparte, 1839 are being displaced by B. barbus, with the mechanism suggested to involve asymmetric competition between the fishes (Carosi et al, 2017)
This displacement is in addition to genetic impacts caused by introgression that results in a loss of genetic integrity in the endemic Barbus fishes (Meraner et al, 2013; Zaccara et al, 2014)
Summary
Invasions of non-indigenous fishes can result in adverse impacts in native fish communities, including competitive displacement and exclusion (Gozlan et al, 2010). In invaded rivers where they are sympatric with endemic Barbus fishes, such as in Italian rivers (e.g. the Tiber basin), long-term data suggest populations of endemic Barbus tyberinus Bonaparte, 1839 are being displaced by B. barbus, with the mechanism suggested to involve asymmetric competition between the fishes (Carosi et al, 2017). This displacement is in addition to genetic impacts caused by introgression that results in a loss of genetic integrity in the endemic Barbus fishes (Meraner et al, 2013; Zaccara et al, 2014). The strength of their interactions might be less intense and their invasion might be less likely to incur negative ecological impacts
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