Fisheries Committee on April 28th, 2014

The measured mortality rate was on the order of 48% in some cases.

It was on the order of 14% to 18%.

We have a number of predators in that system that are consuming these less abundant stocks and therefore they maintain their feeding rates despite the fact that the resource is actually in decline. They don't care; they just want to eat.

In this particular case, in the case of shrimp, we have not only cod but we also have redfish that are having a significant impact. The biomass of redfish in this area seems to have increased substantially, although not dramatically, in the last few years.

In addition we also have a large turbot stock that is also feeding on shrimp, and we also have seals and whales that feed on shrimp.

If you were to reduce fishing mortality, the natural mortality rate or the total mortality rate would hopefully go down. The natural mortality rate would be unlikely to go down unless the predators also go down.

Right now the natural mortality rate seems to be very high and there seems to be poor recruitment coming in, so the combination of these two factors means that the stocks are likely to continue to decline.

Yes, unfortunately it is.

Yes, it is in many ways.

I made a presentation to the departmental management committee just prior to coming here. In the 1960s and 1970s there were approximately two million seals off of Newfoundland and Labrador. There are currently in the order of six million to seven million seals. We're looking at a very different environment.

These are mostly harp seals. There has been a slight increase in the hoods, but we're looking at harps.

That's an extremely good question to which I have a very poor answer.

The reality is that we don't know very much about how they interact together. In most of what I shall call the production models, in which we estimate the consumption rates of the species in the area, we still have not built in a temperature-dependent relationship. It will affect things somewhat, but I don't expect it to cause substantial changes overall. We can expect possibly a 30% increase in the predation rates by various groups.

I wouldn't expect things like seals, though, to increase their predation rate with warming temperatures because they're basically warm-bodied critters and they're going to eat the amount that they need to eat, in the same way.

With respect to the other variables, salinity is more an indicator of water mass characteristics so it's unlikely to influence things a great deal.

Despite the fact that people are greatly concerned about the effect of ocean acidification, the amount of research that has been done to understand the impact of those changes on marine life is in a state of evolution, which is the best way I can describe it. The outcomes are not clear and they're not consistent, largely because the research has not been done in a consistent way. It's an area where it's trying to progress by leaps and bounds but it's still at the bottom of the curve.

I'll do my best.

What I mean by the fact that the shrimp fishing areas are self-sustaining is that when the.... Let me go into the life cycle of the shrimp first and that might make things a little bit simpler.

Basically the female carries some eggs, she releases her larvae, and they go up in the water column and they drift with the currents. The oceanographic currents in these regions have certain retention features that basically mean that there's a certain amount of recirculation that happens within a certain area and it's associated with these deep channels, and so on and so forth. You see a lot of these eddies occurring.

In that sense, these stocks are self-recruiting. A large portion of the larvae that they release, even though they drift with the currents, will actually remain in that area, settle, and turn into adults eventually. A certain proportion is also lost. We don't know quite how much is lost downstream, and it might contribute to other stocks. But the first-order calculation suggests that it's not really important right now. In essence, the larvae that are dispersed in that system actually settle in that system. So each area is actually self-sustaining.

The life cycle of shrimp is actually quite interesting because they start off their life as a male. They develop, and when they reach about 17 millimetres in carapace length, they start entering the fishery. When they reach about 25 to 30 millimetres in carapace length, they turn into females, and the females are what we measure as the spawning stock biomass. So the fishery is conducted on both males and females, and once the animals have transformed into females, they stick around for three to four years, after which they're either caught or they die.