Intrinsic rate of increase is unknown. Age at 50% maturity varies with latitude, but is 4 to 6 years in the large Newfoundland/Labrador fishery (Orr, pers. comm., 2005). Northern Shrimp have an average life expectancy of 5 to 8 years (Koeller 2004; Orr 2004). However, in the far north, where water temperatures are colder and growth is slow, maximum life expectancy is thought to be as high as 13 years (Orr, pers. comm., 2005).

This species is a sequential protandrous hermaphrodite and changes sex between the ages of one and six (Orr, pers. comm., 2005; Savard and Fraser 2005; Savard 2004; Koeller et al. 2000a; Shumway et al. 1985). Larger female shrimp are preferred. However both males and females are taken in this fishery (Bourdages et al. 2004), and their hermaphroditic lifestyle does not make them more susceptible to overfishing.

This species is distributed along the upper latitudes of coastal North America, Europe and Asia (FAO 2005). However we chose to not add points here–we consider this to be a medium-sized range since it does not span any ocean basins.

Shrimp abundance is loosely correlated with water temperature near the southern limit of the species range (Koeller 2004; Koeller 2000; Koeller et al. 2000a). However shrimp biomass is highly correlated with predator (Atlantic Cod) abundance–not ocean temperature–in most of the North Atlantic (Frank et al. 2005; Worm and Myers 2003).

Decreased Atlantic Cod predation, strong recruitment, and low exploitation have resulted in high Northern Shrimp abundance in Eastern Canada for the last several years.

Survey abundances (including female spawning stock) are near all-time highs and exploitation rates are near all-time lows in many fishing areas (Koeller 2004; Koeller et al. 2004; Orr 2004; Orr et al. 2004; Savard 2004; Savard and Bouchard 2004; Orr et al. 2003a, b).

There are decreasing size-at-sex-change and maximum size trends in some areas. This is not thought to be a result of fishing pressure, but rather from increased resource competition (from such high abundance) and lower water temperatures (Orr, pers. comm., 2005; Savard and Fraser 2005; Koeller 2004; Koeller et al. 2004; Orr et al. 2004; Savard and Bouchard 2004; Orr et al. 2003a, b; Koeller et al. 2000a). The lower fecundity of smaller females is likely offset by the current high level of abundance of the species (Orr, pers. comm., 2005), therefore we chose not to subtract here.

Catch-per-unit-effort (CPUE; i.e., kilograms of shrimp caught per hour of trawling) and abundance estimates have remained at high levels or increased across most of the fishery (DFO 2005a; DFO 2005b; Koeller 2004; Orr 2004; Savard 2004). CPUE in the St. Lawrence and Eastern Scotian Shelf fisheries has increased by 32 to 73% over the past five years (Koeller et al. 2004; Savard and Bouchard 2004). Biomass and abundance estimates have more than doubled in the Newfoundland fishery during this time (Orr et al. 2004).

This species is an important prey item for Atlantic Cod, Greenland Halibut (Turbot), skates, Wolffish, Snow Crab, and Harp Seals (DFO 2005a; Orr 2004; Lilly et al. 2000). No studies have looked into the impact of the Northern Shrimp fishery on food web dynamics, so we chose not to add here.

Shrimp are caught in bottom trawls similar to those used for groundfish, and the majority of the net (including the codend) comes into contact with the bottom (Koeller, pers. comm., 2005; Savard, pers. comm., 2005). Traps are used in a small portion of the Eastern Scotian Shelf fishery (Koeller, pers. comm., 2005; Koeller 2004).

Inshore ice cover (in Newfoundland/Labrador) and seasonal fishery closures (Gulf of St. Lawrence and Eastern Scotian Shelf) are likely to afford some degree of protection to this species, since Northern Shrimp spawn in the spring (Savard and Fraser 2005). Critical spawning habitats have not been identified for Northern Shrimp. However, species abundance is high, and area closures are not needed at this time to protect the species.

No studies have documented the habitat impacts of shrimp trawls in the Eastern Canadian Northern Shrimp fisheries. However there is no indication that trawl damage prevents the benthic habitat from supporting this species. The Gulf and Estuary of St. Lawrence fishery plans to address this issue in their next co-management agreement (L. Savard, pers. comm., 2005).

Shrimp are caught over soft, muddy bottoms with a high organic content (Koeller, pers. comm., 2005; Orr, pers. comm., 2005; Koeller 2004; Ramseier et al. 2000). Muddy bottoms are considered to be resilient habitats.

The Department of Fisheries and Oceans in Canada manages the Northern Shrimp fishery in 3 regions - Newfoundland/Labrador, the Gulf and Estuary of St. Lawrence, and the Eastern Scotian Shelf. Management measures in each region include some or all of the following: seasonal closures, vessel licensing, limited/closed entry, mandatory bycatch reduction devices, minimum mesh size, Total Allowable Catch (TAC) limits; and observer and dockside monitoring.

Fishing effort is also controlled by an Individual Transferable Quota system that was instituted in the 1990s. This management regime requires that fishers buy a share of the TAC, which prevents derby fisheries (i.e., the competitive race for shrimp at the start of the season) and promotes the investment of fishers in the long-term conservation of the species.

The Department of Fisheries and Oceans (DFO) in Canada conducts annual recruitment and abundance surveys in each of the three management areas (Newfoundland/Labrador, Gulf and Estuary of St. Lawrence, Eastern Scotian Shelf). Fishery managers set annual catch limits according to the population estimates generated from these surveys.

The fishing industry is required to pay for onboard and dockside observers, as mandated by the DFO (Savard and Fraser 2005). Managers in each of the areas require that a certain percentage of fishing trips be monitored by onboard observers. For example, the offshore component of the Newfoundland fishery has 100% observer coverage (DFO 2003).

Given the high abundance level of Northern Shrimp, no recovery plan is needed at this time.

Each fishery has its own limited/closed entry program. The Eastern Scotian Shelf fishery is limited to approximately 40 vessels, with no new licenses granted for the past several years (Koeller, pers. comm., 2005). The Gulf and Estuary of St. Lawrence fishery is capped at 112 licenses, with no allowable increase (Savard and Fraser 2005). The Newfoundland/Labrador fishery - with 365 inshore and 17 offshore license holders - has not allowed any new vessels since 1998 (Blanchard, pers. comm., 2005).

Bycatch in Canadian Northern Shrimp fisheries is less than 5% of targeted landings due to the mandatory use of bycatch reduction devices (called Nordmore grates) on all trawls. Main bycatch species include Redfish/Ocean Perch, Turbot/Greenland Halibut, Capelin, and American Plaice (Grant, pers. comm., 2005; Orr, pers. comm., 2005; Savard, pers. comm., 2005; Bowering and Orr 2004; Koeller et al. 2004; Orr et al. 2003a).

Concerns have been raised about localized Snow Crab bycatch in the Newfoundland/Labrador border area, however no studies have shown that shrimp fisheries are responsible for declines in Snow Crab populations. The Department of Fisheries and Oceans (DFO) plans to examine the degree to which the Northern Shrimp fishery in this area is affecting Snow Crab abundance later this year (Orr, pers. comm., 2005; Grant, pers. comm., 2005; Gilkinson, pers. comm., 2005). The DFO also recently closed a 2500 Nm2 (nautical mile) area in Hawke Channel to prevent bycatch of Snow Crab by shrimp trawls (Orr, pers. comm., 2005).

Nordmore grates have been mandatory on all shrimp trawls since the 1990s. This regulation has greatly reduced the bycatch of protected groundfish species like Atlantic Cod, Wolffish and American Plaice (Koeller, pers. comm., 2005).

Minimum mesh size (40mm) and bar spacing (22 to 28 mm) on Nordmore grate bycatch reduction devices have drastically reduced bycatch rates. Although overall bycatch for some species has increased (Bowering and Orr 2004) due to an increase in fishing effort, bycatch rates have continued to decrease since the inception of the Nordmore grate requirement (Orr et al. 2000). Overall, bycatch is now less than 5% of targeted landings (Orr, pers. comm., 2005; Koeller 2004).

The use of Nordmore grates have reduced landings of incidentally-caught groundfish, but increased the total value of shrimpers’ catches by allowing small shrimp to escape and preventing larger shrimp from being crushed by Atlantic Cod (Savard and Fraser 2005).

Fishers sometimes catch large numbers of juvenile Redfish/Ocean Perch, Greenland Halibut/Turbot or Capelin (Grant, pers. comm., 2005; Koeller, pers. comm., 2005; Orr et al. 2003a), however this does not occur across the majority of the fishery. Ongoing research continues to evaluate net modifications that will further reduce groundfish and undersized shrimp bycatch (Grant, pers. comm., 2005).