Fisheries Committee on April 26th, 2021

The specific point about Tenacibaculum was not brought up as part of the technical briefings we had with the first nations. Their primary interest in the briefings that we provided really revolved around the nine risk assessments, and that had been—

I wasn't involved in any of the briefings with the minister or with the minister's consultations with the first nations.

I can confirm, Mr. Johns, that the issue was definitely raised to the office. That's as far as I could say.

Tenacibaculum is the agent. Mouth rot is the disease that the agent causes in Atlantic salmon, so it's not mouth rot that has the impact. However, as I said before, Tenacibaculum was coming out of our models as being one of the most consistently associated with population level impacts. Moreover, in sockeye salmon we found that the highest incidence of infection was in fish migrating past farms in the Discovery Islands.

We then employed spatial and epidemiological models and fit the data from migrating sockeye salmon to identify whether farms in the Discovery Islands were a source or the dominant source of Tenacibaculum infection along the Fraser River sockeye salmon migration route. Not only did the models confirm that the best-fitted models confirmed that the highest source of Tenacibaculum was around the Discovery Island farms, we were also able to show that in the water column Tenacibaculum was one of the agents most strongly concentrated around active farms, compared with fallow farms. There was a lot of Tenacibaculum in the water column.

Further, we looked at whether or not treatment of mouth rot was a correlated factor with the potential transmission into wild fish. We did not find any effective treatment; a farm simply being stocked with fish was enough to create a risk to wild migrating salmon.

I do believe that the information is provided to managers—certainly to managers in direct line of authority from me. Whether the information I provide is actually going to the resource managers is not something I'm aware of. I don't handle those briefings.

I don't know which research you're talking about, but we have published 50 papers from the SSHI in the last six years.

Absolutely. Our PRV papers have been published with the same vets that have originally described HSMI in Norway. One of our lead vets is a very predominant pathologist out of Europe.

We have not looked a lot at community-based hatcheries. We've looked at some, but we have seen that particular virus coming out of hatcheries on the east coast and west coast of Vancouver Island and in the Fraser River.

Those are really good questions. We have picked up Pacific salmon nidovirus in farmed chinook salmon. We know it's on Pacific salmon farms. We also have picked it up in the odd returning adult wild fish, so it is out there.

The thing that's really different about this particular one is that we rarely detect it in wild salmon coming out of fresh water. Where we're seeing it has been in hatcheries.

For one thing we actually get fish from the hatcheries. We take samples of fish before they've released them. After that, you're absolutely right; we are only able to use the adipose fin clip to identify if it as a hatchery fish or not.

Absolutely.