dc.description.abstract | Aquaculture impacts on marine benthic ecosystems are widely recognized and
monitored. However, little is known about the community changes occurring in
the water masses surrounding aquaculture sites. In the present study, we
studied the eukaryotic communities inside and outside salmonid aquaculture
cages through time to assess the community changes in the neighbouring
waters of the farm. Water samples were taken biweekly over five months during
the production phase from inside the cages and from nearby points located
North and South of the salmon farm. Eukaryotic communities were analyzed by
eDNA metabarcoding of the partial COI Leray-XT fragment. The results showed
that eukaryotic communities inside the cages were significantly different from
those in the outside environment, with communities inside the cages having
higher diversity values and more indicator species associated with them. This is
likely explained by the appearance of fouling species that colonize the artificial
structures, but also by other species that are attracted to the cages by other
means. Moreover, these effects were highly localized inside the cages, as the
communities identified outside the cages, both North and South, had very
similar eukaryotic composition at each point in time. Overall, the eukaryotic
communities, both inside and outside the cages, showed similar temporal
fluctuations through the summer months, with diversity peaks occurring at
the end of July, beginning of September, and in the beginning of November,
with the latter showing the highest Shannon diversity and richness values.
Hence, our study suggests that seasonality, together with salmonid
aquaculture, are the main drivers of eukaryotic community structure in
surface waters surrounding the farm. | en_US |