Abstract
Norwegian Atlantic salmon aquaculture is continuing to expand in northern regions dominated by hard- and mixed-bottom substrates. Such habitats contain rich benthic epifaunal communities, including sponges and other sessile invertebrates susceptible to the impacts of particulate material released from finfish farms. Here, conventional soft-sediment sampling techniques are unable to discern the impacts of farm waste, and new monitoring methods and indicator taxa must be identified. This study improves understanding of the impacts of particulate waste released from salmon farms on the density and structure of benthic epifaunal communities on mixed- and hard-bottom substrates. The diversity, density, and composition of epifaunal communities and visually conspicuous benthic infauna were recorded in towed camera transects along the enrichment gradient (~50-800 m) of 3 salmon farms in northern Norway. Elevated fluxes of particulate material in the vicinity of all farms significantly affected epifaunal community composition, as did the coverage of some key substrate types. The defecated mounds of lugworms and the seastar Asterias rubens were notably more abundant near the farms where fluxes were elevated. The sponges Polymastia spp. and Phakellia spp. and the soft coral Duva florida showed significant declines in density with increasing sedimentation and were principal taxa in communities at natural sedimentation levels. Results identify taxa with both positive and negative spatial associations to particulate waste released from finfish farms and the potential for the development of an epifauna indicator-based index for monitoring the environmental impacts of aquaculture in hard- and mixed-bottom dominated substrates.
Highlights
The deep-silled fjords and open coastal environments of inshore Norway provide well-flushed waters with stable salinities and temperatures as far north as the Subarctic regions of Troms and Finnmark
We present an investigation of potential impacts of particulate material released from Atlantic salmon farming on the density and structure of benthic epifaunal communities on mixed- and hard-bottom dominated substrates in fjord systems in northern Norway
total particulate material (TPM) flux at maximum production was 24.0 g m−2 d−1 10 m from the cage edge and declined to 1.5 g m−2 d−1 600 m from Farm A, which is close to background TPM flux levels at ~1000 m from the cages (Fig. 2a)
Summary
The deep-silled fjords and open coastal environments of inshore Norway provide well-flushed waters with stable salinities and temperatures as far north as the Subarctic regions of Troms and Finnmark. These conditions make coastal Norway conducive to finfish farming. Current environmental monitoring procedures for finfish farming follow national and international directives; for example, the Norwegian standard NS9410 (Standards Norway 2016) and the Aquaculture Stewardship Council Salmon Standard (Aquaculture Stewardship Council 2019) that are centered around the analysis of chemical and biological parameters from soft-sediment and infauna samples. There is a significant lack of knowledge regarding the impact of salmonid farming on hardand mixed-bottom epifaunal communities in coastal Norway and how potential impacts can be monitored
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