| dc.description.abstract | The Committee on the Status of Endangered Wildlife in Canada considers Atlantic salmon
(Salmo salar) in the outer Bay of Fundy to be endangered. Despite decreases in fishing pressure since
wild Atlantic salmon were overfished in the 1960s and 1970s, Atlantic salmon abundances have
continued to drop across Atlantic North America, including in the Bay of Fundy. Atlantic salmon have
been important for fisheries and are important for nutrient transfer across aquatic environments.
Understanding factors that perpetuate Atlantic salmon declines is crucial for wild salmon population
recovery efforts and restoration of the historical and ecological roles of the species. Salmon aquaculture
currently poses a threat to outer Bay of Fundy wild Atlantic salmon. Pathogen transfer from open-net
aquaculture farms into the surrounding water column is a potential risk for wild salmon. However, agents
of oceanic Atlantic salmon mortality, and specifically how Atlantic salmon populations are impacted by
marine salmon farms, remain largely undocumented in the literature. This study aimed to address
knowledge gaps surrounding the impacts of marine aquaculture on wild Atlantic salmon by answering the
question: how does the richness of pathogens differ around open-net Atlantic salmon marine aquaculture
farms compared to fallow farms and non-farm areas in Passamaquoddy Bay, NB? Ocean water was
sampled adjacent to active and fallow open-net pen salmon aquaculture sites, as well as at non-farm sites,
in Passamaquoddy Bay. Water was filtered to capture pathogen eDNA in the water column. Quantitative
PCR analysis of filters showed no detection of RNA from Piscine orthoreovirus or Atlantic salmon coldwater
vibriosis (Atlantic salmon pathogens) and no detection of Atlantic salmon DNA or RNA at any of
the tested sites, with the exception of one active site (where a small amount of Atlantic salmon DNA was
detected). These results reveal potential issues with experimental design, including possible challenges
associated with sampling distances from the net pens and tidal effects, pre-filter clogging, and bleach
contamination. Avenues to address these challenges have been presented and should be considered by
future studie | en_US |
