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Flemish Cap

The Flemish Cap is a submarine plateau in the North , situated approximately 600 kilometers east of Newfoundland, , and separated from the Grand Banks by the Flemish Pass, a trough exceeding 1,100 meters in depth. Covering roughly 124,000 square kilometers with central depths of less than 150 meters rising to around 700 meters at the margins, the feature supports a distinct oceanographic regime influenced by polar water masses and a stable frontal zone. Historically one of the most productive fishing grounds for (Gadus morhua) and other demersal species like and , the Flemish Cap has experienced significant stock fluctuations since intensive exploitation began in the 1950s and accelerated post-1960. Cod populations collapsed in the early amid heavy fishing pressure compounded by environmental variability, prompting the (NAFO) to impose strict quotas and moratoria in Division 3M, the regulatory area encompassing the Cap. Lying beyond Canada's in , the region has been a site of diplomatic tensions, notably between and fleets over quota compliance and alleged in the 1990s, underscoring challenges in multilateral high-seas management. Recent NAFO measures continue to prioritize rebuilding efforts, with ongoing monitoring of recoveries and closures to address persistent vulnerabilities.

Geography

Location and Dimensions

The Flemish Cap is a plateau situated in the North , centered at approximately 47° N, 45° W, roughly 563 km east of St. John's, Newfoundland. It lies entirely within of the high seas, northeast of the Grand Banks of Newfoundland, from which it is separated by the deeper Flemish Pass basin. The plateau's position places it under the regulatory oversight of the Northwest Atlantic Fisheries Organization (NAFO) Division 3M. The Flemish Cap exhibits a roughly circular shape, with a radius of about 200 km defined by the 500 m isobath contour. Its total area encompasses approximately 30,000 km², while the shallower central portion within the 200 m isobath covers about 4,870 km². Water depths vary from a minimum of 122 m in the southeastern quadrant to exceeding 500 m along its boundaries, distinguishing it as a relatively shallow amid surrounding abyssal depths.

Topography and Bathymetry

The Flemish Cap constitutes an isolated submarine plateau in the North Atlantic, with depths ranging from a minimum of 125 meters at the central summit to approximately 700 meters along its periphery. This relatively shallow configuration, compared to surrounding abyssal depths exceeding 2,000 meters, defines its as a flat-topped oceanic . The plateau's measures about 200 kilometers at the 500-meter isobath, encompassing a total area of roughly 30,000 square kilometers. Topographic gradients vary around the Flemish Cap, featuring a pronounced steep on the southern rim where depths plunge rapidly into the Flemish Pass. In contrast, the western margin exhibits a gentler incline, with depths increasing gradually to around 350 meters before descending further. These bathymetric features result from tectonic isolation as a , promoting distinct hydrodynamic isolation from the nearby Grand Banks. The shallower within the 200-meter spans approximately 4,870 square kilometers, supporting diverse demersal communities adapted to these depths. Beyond this, the supports transitions to deeper habitats between 600 and 1,200 meters on the slopes. Such variability influences distribution and benthic ecosystems across the plateau.

Tectonic Formation

The Flemish Cap represents a block of , approximately 20–30 km thick, that formed as a continental ribbon or during the rifting associated with the opening of the North . This structure originated from the progressive breakup of Pangea along the Newfoundland–Iberia conjugate margins, where differential extension and rift migration isolated the block from the main North American continent. The basement rocks of the Flemish Cap belong to the Avalon Zone of the orogen, featuring to lithologies including Hadrynian intruded between 750 and 830 . These underwent ductile deformation during orogenic phases, followed by post-orogenic collapse and early in the . The transition to rifting involved extension, but the primary phase of crustal thinning and faulting occurred from the to , with peak regional extension in the adjacent Orphan Basin and Flemish Pass between 170 and 135 . Oblique rifting and linkage between spreading segments during this period minimized hyper-extension on the Flemish Cap itself, preserving thicker crust relative to hyperextended domains nearby, such as the ocean–continent transition at its base marked by abrupt crustal thinning to 3 km seaward. Final separation from the conjugate Goban Spur margin (off Iberia) involved faulting near the boundary (circa 130–125 ), establishing the Flemish Cap as a tethered amid ultraslow . This tectonic isolation, combined with minimal subsequent , accounts for the plateau's shallow of 400–1,200 m amid deeper surrounding basins.

Surficial Features and Sediments

The surficial of Flemish Cap features thin, patchy veneers of and overlying glacial or, in places, exposing bedrock of and composition. These unconsolidated sediments, typically less than 1 m thick across the central plateau, result primarily from Pleistocene ice-rafted debris, with subsequent redistribution by the delivering fines from northern sources and the influencing coarser fractions. The central area exhibits minimal sediment accumulation, with hard-rock basement occurring within meters of the seafloor, reflecting low depositional rates and exposure to bottom currents that inhibit fine-particle settling. Glacial predominates in water depths shallower than 600 m, comprising heterogeneous mixtures of , , , cobbles, and boulders derived from subglacial and iceberg dropstones during multiple glaciations, including evidence of an independent on Flemish Cap during Marine Isotope Stage 6 (approximately 130–191 BP). Mega-scale glacial lineations (MSGLs), streamlined bedforms up to several kilometers long, and truncated surfaces mapped via multibeam indicate former ice-sheet flow directions toward the southeast and southwest, with associated sheets and diamictons confirming dynamic glacial processes. Iceberg plow marks and scours further punctuate the seabed, particularly on shallower highs, attesting to post-glacial calving from adjacent ice margins. On the steeper flanks and deeper basins surrounding the plateau, drifts of muddy and clay accumulate to thicknesses exceeding several meters, fed by currents and hemipelagic fallout, while winnowed sands characterize upper slopes exposed to stronger flows. At the southeastern extremity, ooze forms a distinct in waters beyond 1,000 m, incorporating biogenic from planktonic remains with minimal terrigenous input. These variations reflect interplay between glacial legacies, current regimes, and limited modern supply, yielding a of types that supports diverse benthic habitats while remaining vulnerable to physical disturbance.

Oceanography

Water Masses and Temperatures

The Flemish Cap is characterized by a mix of subpolar water masses primarily influenced by the cold, low-salinity originating from the and , which introduces polar waters with temperatures typically below 4°C and salinities around 31–34 psu, and warmer, saltier Atlantic slope waters from the , with temperatures exceeding 5°C in subsurface layers. Deeper waters (>1,000 m) incorporate and modified , featuring a mixture of cold components (3–4°C, salinity 34–35) and Atlantic inflows, resulting in bottom temperatures generally ranging from 3.5–4°C. Sea surface temperatures () exhibit strong , averaging 2–4°C in winter and early spring, rising to a maximum of about 13°C in before declining. Vertical temperature profiles typically show a warm surface layer in summer (up to 12–15°C near the center), decreasing to a minimum around 100 m depth forming a cold intermediate layer (<3°C), then gradually increasing toward the bottom due to subsurface mixing. Bottom temperatures have shown a long-term increase, stabilizing around 4.2°C since 2011, with warmer pockets (>3.7°C) often wrapping around the central Cap from Atlantic influences. Cold anomalies, such as those from ice meltwater and iceberg incursions, periodically lower temperatures across the water column, with events like the 1982–1983 winter originating in the propagating to the Flemish Cap and reducing SST by up to 1.5°C below normal. These variations reflect the dynamic interplay between the equatorward and northeastward Atlantic flows, with temperature gradients between polar and subtropical masses maintaining about 10°C year-round.

Currents and Circulation

The circulation around the Flemish Cap is dominated by the interaction between the southward-flowing cold to the north and west and the northeastward (NAC) to the east, positioning the region at the of subpolar and subtropical water masses. The , carrying Arctic-derived waters, flows equatorward along the Newfoundland shelf edge and Flemish Pass, with an eastward branch north of the Cap that merges with deeper slope currents south of Orphan Basin, influencing upper-layer circulation through recirculation cells. Geostrophic analyses from repeated surveys (1977–1985) reveal persistent anticyclonic circulation over the central Flemish Cap plateau, with velocities averaging 5–10 cm/s, modulated by eddies and meanders from the adjacent currents. East of the Flemish Cap, the —extension of the —exhibits alternating bands of strong meridional flow, with poleward transports reaching 20–30 Sv in upper layers, driving warm water advection and eddy variability that periodically impinges on the Cap's eastern flank. Modeling studies confirm monthly-mean patterns where the bifurcates upon encountering the Cap's , contributing to a shallow cyclonic gyre over the plateau and enhanced vertical mixing at the shelf break. Deep circulation features leakage of the Deep Western Boundary Current (DWBC) around the Cap's slopes, concentrated in bathymetric "hot spots" of curvature and steepening, where float trajectories indicate southward deep flow diversion eastward, bypassing the primary continental slope path. Seasonal variability peaks in winter with strengthened inflows, cooling surface waters and intensifying recirculation, while summer sees dominance with warmer intrusions; interannual fluctuations, linked to NAO phases, alter transport volumes by up to 20%, affecting nutrient and . Observations from moored arrays (2015–2016) highlight low-frequency variability, with velocity spectra peaking at ~21-day periods due to topographic Rossby along the Cap's margins. These patterns underscore the Flemish Cap's role as a dynamic barrier in North Atlantic overturning, where topographic steering amplifies cross-frontal exchanges.

Marine Ecosystem

Biodiversity and Habitats

The Flemish Cap features distinct habitats shaped by its , with the shallow plateau summit at depths less than 500 meters hosting epibenthic assemblages dominated by higher biomass of small- and medium-sized exhibiting short spans and high mobility, such as certain echinoderms and crustaceans. Deeper continental slopes, extending to 600–1300 meters, support communities of larger, long-lived, sessile including cold-water corals and deep-sea sponges, which form vulnerable marine ecosystems (VMEs) critical for habitat provision and nutrient cycling. These VMEs, including gorgonian corals, pennatulaceans (sea pens), and poriferans (sponges), exhibit prevalence gradients influenced by substrate type and bottom currents, contributing to elevated local through structural complexity. Benthic ecological diversity across the Flemish Cap, mapped from trawl surveys, reveals over 60% of estimated —predominantly polychaetes, mollusks, and arthropods—falling under protective measures due to their sensitivity to bottom-contact . Functional in epibenthic communities varies with environmental gradients, with plateau-top habitats emphasizing bioturbation and rapid nutrient turnover, while slope habitats prioritize via sponge grounds that filter seawater and support assemblages. Pelagic habitats overlay these benthic structures in a relatively enclosed , fostering productivity through upwelling-driven that sustains migratory , though detailed pelagic assessments remain limited compared to benthic surveys. Twenty distinct benthic associations have been identified region-wide, differentiated by depth zones, water masses, and biogeographic faunal elements, underscoring the Flemish Cap's role as a within the northwest Atlantic. -designated closures protect VME indicators like coral-sponge complexes on the slopes, preserving ecosystem functions amid historical pressures that have reduced densities by up to 90% in fished areas.

Key Commercial Species

The primary commercial species targeted in the Flemish Cap fisheries, managed under Division 3M, are (Gadus morhua), (Sebastes spp., including S. mentella and S. fasciatus), northern (Pandalus borealis), and (Reinhardtius hippoglossoides, also known as ). These demersal species dominate the exploited biomass due to their abundance in the bank's relatively shallow, productive waters (typically 140–1,200 m depth), supporting multispecies interactions where cod preys on shrimp and juvenile redfish, while redfish consume shrimp and smaller fish. Atlantic cod constitutes a cornerstone of historical and ongoing fisheries, with spawning stock biomass peaking at over 200,000 tonnes in the mid-1980s before declining sharply to below 10,000 tonnes by the early due to and environmental factors; recent surveys indicate partial recovery, with biomass estimated at around 50,000 tonnes in 2022, enabling limited quotas of approximately 10,000 tonnes annually. , exhibiting slower growth and longevity (up to 75 years), have shown fluctuating abundance, with deep-water S. mentella comprising the bulk of landings; stocks experienced in the but stabilized post-2000s moratoriums, yielding quotas of 12,500–15,000 tonnes in recent years amid concerns over and habitat impacts. Northern supports a high-value , with peak catches exceeding 30,000 tonnes in the early 2000s; its population, distinct from adjacent areas, crashed post-2006 due to predation by recovering and stocks, leading to TAC reductions to under 1,000 tonnes by 2023, reflecting a below 5,000 tonnes. , valued for its white flesh, is caught as a target species and in shrimp trawls, with landings historically reaching 5,000–10,000 tonnes annually; its deep-water distribution (500–1,400 m) overlaps with , contributing to incidental mortality rates of up to 20% in shrimp during peak periods. Other species like (Hippoglossoides platessoides) and roughhead grenadier () appear in surveys but remain secondary, with minimal directed fishing due to lower market demand and stock vulnerabilities.

Fishing History

Pre-20th Century Exploitation

The Flemish Cap, a submarine plateau east of the Grand Banks, was recognized by European fishermen as a productive fishing ground for (Gadus morhua) by the early , following the initial discoveries of abundant North Atlantic stocks around Newfoundland in 1497. Voyages to the area were sporadic and secondary to the more accessible Grand Banks, with fishermen from , (including ), , , and the occasionally extending operations northeastward despite the greater distances and depths exceeding 70–90 fathoms, which necessitated specialized gear for line fishing. Exploitation relied on traditional hook-and-line methods from small sailing vessels, yielding large individual but limited overall harvests due to seasonal migrations from European ports and the challenges of drying and salting catches at sea or on remote shores. The name "Flemish Cap" alludes to the involvement of fishermen from (part of the at the time), who contributed to early mapping and utilization of the grounds, as evidenced by navigational references in use by the mid-16th century. These operations formed part of the broader migratory that dominated Northwest Atlantic harvesting through the 17th and 18th centuries, where annual fleets processed fish via shore stations on Newfoundland or shipboard curing, exporting dried cod ( or ) to markets in and the Mediterranean. Annual catches from the Flemish Cap specifically remained modest, estimated in the low thousands of metric tons across participating fleets, constrained by wooden hull limitations, manual labor, and lack of mechanized preservation, preventing the sustained pressure seen on nearer banks. By the , and Canadian schooners began probing the edges of the Flemish Cap alongside rivals, but persistent isolation—over 300 nautical miles from major ports—kept exploitation intermittent and focused on opportunistic hauls during favorable weather, with no evidence of localized depletion prior to steam-powered vessels. This era's low technological intensity ensured , as natural migration patterns and vast habitat buffered against overharvest, contrasting with the more intensive line-and-jigging on the Grand Banks proper.

20th Century Intensification and Expansion

Fishing on the Flemish Cap intensified in the mid-, particularly from the 1950s, as technological advancements such as otter trawls and factory freezer enabled efficient distant-water operations by international fleets. These innovations, developed post-World War II, allowed vessels to process catches at sea and target deep-water grounds like the Flemish Cap ( Division 3M), shifting from traditional inshore hook-and-line methods to large-scale . By the 1960s, effort expanded significantly with the arrival of fleets from the , , , , and other nations exploiting the area's rich (Gadus morhua) and (Sebastes spp.) stocks. Reported cod catches in Division 3M, which were modest prior to this period, increased as these operations scaled up, reflecting the plateau's isolation and productivity outside national jurisdictions. The Northwest Atlantic groundfish fishery as a whole saw landings rise sharply from approximately 900,000 tonnes in the to nearly 2 million tonnes by the late , with Flemish Cap contributing to this surge through unregulated high-seas access. Regulatory responses emerged in the amid growing concerns over ; total allowable catches (TACs) for Flemish Cap were first set in 1974 under the International Commission for the Northwest Atlantic Fisheries (ICNAF), later evolving into management. Despite these measures, catches remained high through the , often exceeding 30,000–48,000 tonnes annually for , driven by persistent international demand and technological efficiency. This era marked the transition to industrialized exploitation, setting the stage for subsequent stock declines.

Cod Stock Collapse (1980s–1990s)

The Atlantic cod (Gadus morhua) stock on the Flemish Cap (NAFO Division 3M) experienced escalating fishing pressure in the late 1980s following intensified international harvests after the 1977 extension of Canada's exclusive economic zone. Annual catches averaged around 30,000 metric tons, reaching a peak of 48,373 metric tons in 1989, with evidence of underreporting, such as the 1990 official figure of 2,002 tons estimated by analysts to be closer to 31,500 tons. Fishing mortality rates climbed steadily, from 0.525 in 1988 to 0.633 in 1989 and peaking at 1.440 in , signaling unsustainable exploitation that depleted older age classes and shifted fisheries toward juveniles. Cod growth rates also declined sharply starting in 1985, hitting a historic low in 1990 amid a environmental that reduced performance by up to 20%. By the early to mid-1990s, the entered full , with catches plummeting to 16,229 metric tons in 1991 and further to 2,601 metric tons by 1996, alongside total dropping to 6,171 metric tons and spawning to 3,530 metric tons in 1996. Assessments attribute the downturn primarily to , exacerbated by heightened catchability at low abundances—allowing disproportionate removals—and recruitment failures from poor year classes beginning in 1993. Climate-driven factors, including variability, contributed secondarily by impairing growth and survival, though empirical records emphasize harvest as the dominant causal driver. This collapse mirrored broader Northwest Atlantic cod declines but was distinct to the isolated Flemish Cap population, prompting NAFO to impose a moratorium on directed in 1999 as failed to rebound. The event underscored failures in quota enforcement and international cooperation, with pre-collapse total allowable catches often exceeded amid high-seas access disputes.

Fisheries Management

International Governance under NAFO

The Flemish Cap, designated as NAFO Division 3M, lies within the regulatory area of the Northwest Atlantic Fisheries Organization (), an intergovernmental body formed under the Convention on Future Multilateral Cooperation in the Northwest Atlantic Fisheries, signed on October 24, 1978, and entering into force on January 1, 1979. 's primary objective is to promote the long-term conservation and sustainable use of fishery resources in of the Northwest Atlantic, beyond national exclusive economic zones, through cooperative management among its 12 contracting parties, including , the , the , , , and . The organization addresses transboundary and discrete stocks on the Flemish Cap, such as , , and , which are isolated from adjacent Grand Banks populations by the deep Flemish Pass. NAFO governance relies on scientific advice from its Scientific Council to establish annual Total Allowable Catches (TACs) for key species in Division 3M, aiming to maintain stocks above biomass limits and achieve maximum sustainable yield where possible. For example, TACs for Division 3M cod are set following multispecies assessments incorporating ecosystem production units, with technical measures like minimum mesh sizes and bycatch limits implemented since 2021 to enhance stock productivity. The framework incorporates a precautionary approach, developed progressively since 1997, featuring reference points for stock status, harvest control rules, and rebuilding plans for depleted stocks, alongside an ecosystem approach to fisheries (EAF) roadmap adopted to evaluate interactions among species, habitats, and fishing activities. To safeguard vulnerable marine ecosystems (VMEs) on the Flemish Cap, NAFO enforces area closures prohibiting bottom-contact gears like trawls in identified high-risk zones, such as grounds and seamounts, designated as Other Effective area-based Conservation Measures (OECMs). These include indefinite bans in six VME closure areas and a 239 km² site northeast of the Flemish Cap established following detailed encounter protocols and scientific surveys. In 2023, closures were extended in northern Flemish Cap VME areas to December 31, 2025, with exploratory fishing protocols requiring prior impact assessments and move-on rules for VME indicator species. Enforcement involves at-sea inspections by contracting parties, vessel monitoring systems, and compliance reviews, though historical non-compliance by some fleets has prompted enhanced verification measures.

Quota Systems and Moratoriums

The Northwest Atlantic Fisheries Organization () establishes total allowable catches (TACs) for key Flemish Cap stocks, primarily in NAFO Division 3M, based on annual scientific assessments by its Scientific Council. These TACs are set to align with advice on sustainable exploitation rates, considering levels, , and environmental factors, with allocations subsequently negotiated among contracting parties according to historical shares or agreed formulas. For instance, TACs in Division 3M have been maintained at levels reflecting stable spawning stock , such as the 2023 decision to hold TAC steady with scientific recommendations to prevent . Moratoriums on directed fishing have been imposed for severely depleted stocks to allow recovery, often setting TACs to zero or prohibiting targeted harvests while permitting limited bycatch. The Flemish Cap cod (Gadus morhua) stock, which collapsed in the mid-1990s due to high fishing mortality and poor , prompted to enact a moratorium on directed starting in 1998, extended through 2009, during which reported catches dropped to minimal bycatch levels averaging under 1,000 tonnes annually. Similarly, northern shrimp (Pandalus borealis) in Division 3M has remained under moratorium since the early 2010s due to persistently low and failure, with the 2026 TAC set at zero to enforce closure amid ongoing stock vulnerability. Post-moratorium quota reopenings for have been cautious, with TACs gradually introduced after 2010 based on improving signals like stable spawning since , though limited to levels below full exploitation to account for environmental drivers such as bottom temperature influencing growth. These systems aim to balance with economic interests, but historical non-compliance, including over-quota during earlier periods, has underscored the need for TACs to incorporate verifiable enforcement mechanisms.

Enforcement Challenges and Disputes

Enforcement of regulations in the Flemish Cap ( Division 3M) is hampered by structural limitations, including dependence on flag states for compliance, which often yields lax oversight from countries with large distant-water fleets. The remote, expansive high-seas environment restricts effective at-sea patrols and inspections, while vessel monitoring systems remain vulnerable to manipulation or non-reporting. By the mid-1990s, these weaknesses contributed to moratoria on depleted stocks like on the Flemish Cap, as struggled to curb by both members and non-members despite quota systems. Disputes over quotas frequently arise from NAFO's objection procedure, allowing members to opt out of decisions, as seen in Canada-European Union conflicts. In 1995, Canada and the EU clashed over allocation of a 27,000-tonne Greenland halibut quota in NAFO areas, with Canada accusing EU vessels—primarily Spanish and Portuguese—of exceeding limits and undermining conservation, prompting unilateral Canadian enforcement under its Coastal Fisheries Protection Act. The dispute resolved with an increased EU allocation of 10,013 tonnes for that year, but highlighted ongoing tensions between scientific advice for reductions and economic pressures for higher catches. Illegal, unreported, and unregulated (IUU) fishing persists, particularly by non-contracting parties exploiting closures. After 's 1999 moratorium on Flemish Cap , non-member vessels continued , contributing to stock collapse. A notable enforcement action occurred in 2013, when NAFO inspectors cited 12 foreign vessels for harvesting 431.7 tonnes of illegally in Division 3M. Weak penalties and low conviction rates—such as only 24 out of 319 citations leading to penalties over a decade—further erode deterrence, with political influences sometimes overriding evidence-based sanctions.

Recent Developments

Research Surveys and Monitoring (2000–Present)

Since 2000, the European Union—primarily through Spanish research vessels—has conducted annual stratified random bottom trawl surveys on the Flemish Cap in July, extending to depths of up to 730 meters and covering key demersal species including cod (Gadus morhua), beaked redfish (Sebastes mentella and S. fasciatus), shrimp (Pandalus borealis), and roughhead grenadier (Macrourus berglax). These surveys provide fishery-independent indices of biomass, abundance, size distributions, and age compositions, calibrated against historical data from 1988 onward to track stock dynamics and support NAFO assessments in Division 3M. The NAFO Scientific Council has relied on these survey results for annual updates to stock assessments in Division 3M, building on a Virtual Population Analysis (VPA) framework first approved in 1999, which incorporates survey-calibrated abundance indices at age to estimate fishing mortality and trends. For instance, post-2000 surveys documented persistent low levels through the mid-2010s, with gradual increases noted in later years, alongside variability in growth chronologies influenced by environmental factors. assessments, updated through 2012 surveys, similarly used trawl data to quantify (with beaked redfish comprising ~78% of redfish catch) and predation impacts from recovering populations. Multispecies monitoring has advanced with the development of ecosystem models like GADGET, applied since the mid-2010s to integrate survey data on cod, redfish, and shrimp, explicitly accounting for trophic interactions such as cod predation driving increased natural mortality in prey species. Dynamic factor analysis of demersal community biomasses from 1990s–2000s surveys revealed common temporal trends, including declines in large predators and shifts toward smaller, less valuable species amid environmental variability. Bycatch and shrimp-specific indices from these surveys, supplemented by Faroese efforts, inform quota adjustments and bycatch limits. Hydrographic monitoring, such as and profiles from 2000 surveys, has complemented , showing above-normal conditions with a persistent cold intermediate layer influencing distributions. Recent extensions include benthic invertebrate diversity mapping from trawl , highlighting spatial patterns in ecological interactions with fishing pressure up to the 2020s. These efforts underscore a shift toward integrated, data-driven monitoring to address enforcement gaps and multispecies dynamics in governance.

Stock Recovery and Sustainability Efforts

Following the imposition of stringent quotas and a moratorium in the mid-1990s after the Flemish Cap (Gadus morhua) stock collapsed due to , the spawning stock (SSB) began to show signs of partial recovery by the early , enabling to reopen limited fishing in 2010 with a total allowable catch (TAC) of 5,000 tonnes, subsequently adjusted based on annual assessments to maintain SSB above the biomass limit reference point (Blim). However, SSB peaked around 2016 before declining rapidly since 2017—reaching approximately 28,000 tonnes by 2023—due to factors including variable , predation dynamics, and environmental influences like warming waters affecting growth, though the stock remains above Blim and fishing mortality is estimated below the target level, indicating it is not currently overfished but vulnerable to overfishing if pressures increase. Sustainability efforts have centered on 's precautionary , which includes annual scientific assessments integrating survey data, commercial catches, and indicators to set TACs at levels projected to keep mortality low (e.g., F=0.2-0.3 for in recent years), alongside bycatch limits for non-target like and shrimp to mitigate multispecies interactions. Since 2009, NAFO has advanced an approach to (EAFM) in Flemish Cap, incorporating multispecies models like for stock assessments and protections for vulnerable marine (VMEs), such as extended bottom-trawling closures in northern Flemish Cap areas identified via sponge and mapping to reduce habitat damage from demersal gear. In 2023, NAFO tested a new precautionary emphasizing high-long-term yield probabilities, applied to Flemish Cap stocks, while enforcement measures like vessel monitoring systems and observer programs address illegal, unreported, and unregulated (IUU) risks. For other demersal stocks like northern shrimp (Pandalus borealis), recovery efforts post-2000s peaks involve TAC reductions (e.g., to 1,000 tonnes in recent years) amid declining biomass, with sustainability enhanced by seasonal closures and gear restrictions to protect juveniles and spawning grounds. Redfish (Sebastes spp.) management similarly employs precautionary TACs informed by acoustic surveys, reflecting NAFO's shift toward resilience-based limits amid observed community shifts from cod dominance to smaller mesopelagics. These measures, while effective in stabilizing some stocks, face challenges from climate-driven productivity changes and transboundary enforcement, underscoring the need for adaptive, data-intensive governance to prevent recurrence of 1990s-style collapses.

Cultural References

In Literature

The Flemish Cap is depicted in Sebastian Junger's 1997 narrative non-fiction work The Perfect Storm: A True Story of Men Against the Sea, which chronicles the Andrea Gail's ill-fated swordfishing expedition departing , on October 17, 1991. After initial poor hauls on the Grand Banks, captain Billy Tyne redirected the vessel eastward to the Flemish Cap on October 27, targeting its rich grounds amid deteriorating weather, a decision central to the book's account of the crew's encounter with an unprecedented . Junger's chapter "The Flemish Cap" details the area's allure due to technological advances in gear and spotter planes that intensified , contrasting its with the risks of remote operations beyond standard ranges. The narrative underscores the plateau's role in the high-stakes of distant-water swordfishing, where crews like the Andrea Gail's pushed limits for quotas amid volatile markets. Fewer fictional works reference the Flemish Cap directly; R.W. Magill's 2013 thriller Odin's Wake incorporates it as the setting for an trawler fire and survival ordeal, drawing on real North Atlantic hazards. Similarly, Christopher P. Winner's 2024 "Flemish Cap," published in , evokes the isolation of the grounds in a tale of peril.

In Film and Media

The Flemish Cap serves as a key setting in the 2000 film The Perfect Storm, directed by and adapted from Sebastian Junger's 1997 book of the same name, where the swordfishing vessel travels there from , to pursue better hauls after initial failures in traditional grounds. In the narrative, captain Billy Tyne (played by ) leads the crew approximately 1,000 miles east of Newfoundland to the Flemish Cap's rich fishing grounds, yielding thousands of pounds of swordfish before an ice machine failure and the convergence of multiple weather systems trap them en route home during the 1991 "perfect storm." The depiction underscores the area's allure for high-risk commercial swordfishing amid volatile North Atlantic conditions, with a notable barroom exchange referencing its reputation among seasoned fishermen. The film's portrayal draws from real events involving the 's final voyage, emphasizing the Flemish Cap's role in extending trips for economic viability despite regulatory and environmental pressures on distant-water fleets. Composer James Horner's score includes the track "To the Flemish Cap," accompanying scenes of the crew's departure and initial successes there. In , the 2017 episode "Flemish Cap" from season 9 of the series Into the Blue (Waypoint TV) documents contemporary efforts in the region, featuring captains Steve and Scott targeting species amid challenging seas, though it focuses more on recreational pursuits than the commercial historically associated with the area.

References

  1. [1]
    [PDF] A theoretical exercise of Marine Spatial Planning in the Flemish Cap ...
    The size of the case study area is about 124,000 km2. Flemish Cap is an Oceanic Bank located about 600 km to the east of Newfoundland and separated from the ...
  2. [2]
    [PDF] Oceanography of the Flemish Cap and Adjacent Waters
    The Flemish Cap is influenced by polar water masses, has a stable frontal zone, and is located 600km east of Newfoundland with depths between 125m and 700m.Missing: plateau geography
  3. [3]
    Northeast Flemish Cap 5 - Vulnerable Marine Ecosystems Database
    Flemish Cap is a plateau of approximately 200 km radius at the 500 m isobaths, with depths of less than 150 m at its center and separated from Grand Bank by ...Missing: size | Show results with:size
  4. [4]
    Spatiotemporal changes in the Atlantic cod (<em>Gadus morhua ...
    Dec 18, 2024 · It is one of the historically most significant fishing grounds for cod. The area is regulated by NAFO as part of management area Division 3M.
  5. [5]
    Changes and trends in the demersal fish community of the Flemish ...
    Feb 20, 2012 · The Flemish Cap fish community (NAFO Division 3M) has been fished since the 1950s, and major changes in the biomass and abundance of its most ...<|separator|>
  6. [6]
    Atlantic Cod Growth History in Flemish Cap Between 1981 and 2016
    Flemish Cap cod collapsed in the early 90's after facing multiple threats due to climate variability and anthropogenic pressures.
  7. [7]
    [PDF] Atlantic Cod Growth History in Flemish Cap Between 1981 and 2016
    May 19, 2022 · Flemish Cap cod collapsed in the early 90's after facing multiple threats due to climate variability and anthropogenic pressures.
  8. [8]
    Addressing the weakness of high seas fisheries management in the ...
    Management of high-seas stocks in the north west Atlantic was placed under the auspices of the North-west Atlantic Fisheries Organisation (NAFO) in 1979.
  9. [9]
    EU-Canada Fishing Dispute (Hansard, 13 March 1995)
    Mar 13, 1995 · At the heart of this dispute is a disagreement between Canada and the European Union over the division of an agreed catch quota of 27,000 tonnes ...
  10. [10]
    Sustainable fisheries in the North-West Atlantic – NAFO decisions in ...
    Sep 26, 2023 · Therefore both the fishery for Northern shrimp in the Flemish Cap and in the Grand Bank remain closed. In addition, NAFO agreed to extend ...
  11. [11]
    [PDF] Variability of the Stratification and Circulation on the Flemish Cap ...
    The Flemish Cap is located east of the Grand Bank of Newfoundland centered at about 47°N, 45°W (Fig. 1) in NAFO Div. 3M. Minimum water depths on the Flemish ...Missing: coordinates | Show results with:coordinates
  12. [12]
    Map showing the locations of Grand Bank, Flemish Cap (FC) and ...
    The shallowest depth is 126 m and occurs in the southeastern quadrant. Flemish Cap is separated from the Grand Bank by a large perched basin, Flemish Pass, ...Missing: dimensions | Show results with:dimensions
  13. [13]
    Regional location map, showing the location of the Flemish Cap ...
    Sep 13, 2018 · The Cap has a diameter at the 500 m isobath of about 200 km and a total area of approximately 3.0 × 10 4 km 2 . To the west, the Flemish Pass ...Missing: submarine shape
  14. [14]
    Mapping benthic ecological diversity and interactions with bottom ...
    Flemish Cap is an isolated bank on the continental margin off Newfoundland, with a minimum depth of 122 m, and entirely in the high seas (Fig. 1A). It is ...
  15. [15]
    Distribution of deep-water corals of the Flemish Cap, Flemish Pass ...
    Jun 17, 2010 · The greatest coral species richness was around the Flemish Cap (Figure 4), between 600 and 1200 m depth (Figure 5a), where between 9 and 14 ...
  16. [16]
    Formation of Continental Microplates Through Rift Linkage ...
    Mar 23, 2021 · 4.1 The Flemish Cap Geologic Setting. The Flemish Cap is a 20–30 km thick continental block (continental ribbon) tethered to the rifted ...
  17. [17]
    Structural configuration and tectonics of the Flemish Cap, offshore ...
    Apr 30, 2023 · The Flemish Cap's tectonic history includes Paleozoic orogenic, transitional orogen-to-rift, and Jurassic-Cretaceous rifting stages, with ...
  18. [18]
    Geological setting and age of the Flemish Cap granodiorite, east of ...
    The Flemish Cap granodiorite is part of a Hadrynian core, with an estimated intrusion age of 750-830 Ma, and is part of the Avalon Zone.
  19. [19]
    Structural configuration and tectonics of the Flemish Cap, offshore ...
    Overall, the complex tectonic history of the Flemish Cap involved dominantly ductile deformation during the Paleozoic orogenic stage, multiple deformation ...
  20. [20]
    Tectonostratigraphic evolution of the Orphan Basin and Flemish ...
    Our results show that regional extension in the Orphan Basin and Flemish Pass area largely occurred between 170 Ma and 135 Ma.
  21. [21]
    Crustal structure of the ocean‐continent transition at Flemish Cap ...
    Nov 19, 2003 · The continental crust at Flemish Cap is 30 km thick and is divided into three layers with P wave velocities of 6.0–6.7 km/s. Across the ...Missing: geography | Show results with:geography
  22. [22]
    TECTONIC DEVELOPMENT OF THE NEWFOUNDLAND-IBERIA RIFT
    TECTONIC DEVELOPMENT OF THE NEWFOUNDLAND-IBERIA RIFT ... Flemish Cap occurred from near the Hauterivian/Barremian boundary into the early Barremian.
  23. [23]
    Surficial geology and seabed features of Flemish Cap, offshore ...
    A patchy sand and gravel deposit covers most of Flemish Cap, and was deposited mostly through ice-rafted debris and redistributed by the Labrador and the ...
  24. [24]
    [PDF] Surficial geology and seabed features of Flemish Cap, offshore ...
    A patchy lag of post-glacial sand and gravel is likely covering much of Flemish Cap above 450 m water depth.Missing: coordinates | Show results with:coordinates
  25. [25]
    deep seismic investigation of the Flemish Cap margin: implications ...
    Landwards, Flemish Cap is underlain by a highly reflective lower crust. The reflectivity most likely originates from older Palaeozoic orogenic structures that ...Missing: surficial | Show results with:surficial
  26. [26]
    Ancient deep-sea sponge grounds on the Flemish Cap and Grand ...
    Feb 29, 2016 · The surficial geology is variable, but in general, in water depths less than 600 m, the shallow geology consists of glacial till with a ...<|separator|>
  27. [27]
    Transport of fine-grained sediment in oceanic currents: Holocene ...
    On the extreme southeastern tip of Flemish Cap, calcareous ooze is accumulating. No detailed sea-level history is known, but the Cap is 300–500 km seaward of ...Missing: seafloor | Show results with:seafloor
  28. [28]
    [PDF] Hydrographic Conditions on Flemish Cap in July 2001 - Digital CSIC
    In deeper waters, where temperature generally ranges from 3'5 to 4ºC, there is a mixture between the cold and relatively low salinity of Labrador Current waters ...
  29. [29]
    [PDF] Physical Oceanographic Conditions on the Newfoundland and ...
    In the deeper (>1000 m) waters of the Flemish Pass and across the. Flemish Cap, bottom temperatures generally range from 3°-4°C. In general, the near-surface ...
  30. [30]
    The Flemish Cap (area FC, Fig. 1) seasonal surface temperature and...
    Sep 13, 2018 · The water masses at FLC consist of Labrador Current Slope Water (LCSW) with temperature of 3-4 • C and salinities of 34-35 and Atlantic Water ...<|separator|>
  31. [31]
    Sea surface temperatures from the Flemish Cap sub-area (Fig. 2 ...
    On average SST generally range from 2°C -4°C during winter and early spring then increases to a maximum of about 13°C in August which subsequently decrease to ...Missing: hydrography | Show results with:hydrography
  32. [32]
    [PDF] Hydrographic conditions on the Flemish cap in July 1996 - SciSpace
    Jul 14, 1996 · In general, It was observed that temperature decreases with depth: it reaches its minima values at about 100 m depth, and then It increases up ...<|separator|>
  33. [33]
    [PDF] Physical Oceanographic Conditions on the Flemish Cap in NAFO ...
    An area of warmer water with temperatures >3.7°C appears to wrap around the central part of the Cap. This pattern of bottom water temperature distribution ...
  34. [34]
    [PDF] Seasonal Cycle and Interannual Variability of Water Masses
    Time series analyses of the hydrographic data and sea surface temperature revealed a cold event that originated in the Labrador Sea in the winter of 1982-1983 ...
  35. [35]
    Monthly sea surface temperature anomalies from the Flemish Cap ...
    An analysis of infrared satellite imagery around the Flemish Cap indicates that annual sea-surface temperatures (SST) decreased to about-1.5°C below normal in ...
  36. [36]
    Influence of Meltwater from Labrador Sea Ice and Icebergs ...
    These cold periods at the Flemish Cap and the CB were associated with the advance of sea ice and icebergs to the Flemish Cap, high iceberg counts off the coast ...
  37. [37]
    [PDF] Canadian Technical Report of Hydrography and Ocean ... - Canada.ca
    Current. An eastward branch of the shelf-edge Labrador Current north of Flemish Cap and south of Orphan Basin merges with the deep (lower slope) Labrador ...
  38. [38]
    [PDF] Physiacl Oceanographic conditions on Newfoundland Shelf ...
    The ocean circulation features over the Newfoundland shelf and Flemish Cap regions are comprised of the equatorward inshore Labrador Current along the coast, ...
  39. [39]
    [PDF] Water Circulation Patterns on Flemish Cap from Observations in ...
    Analysis of geostrophic circulation charts, based on oceanographic data from 26 surveys of Flemish Cap by USSR research vessels from December 1977 to April ...
  40. [40]
    Circulation and transports in the Newfoundland Basin, western ...
    Oct 25, 2014 · The circulation and water mass properties east of Flemish Cap were studied using (1) shipboard measurements, (2) mooring data, (3) altimetry ...
  41. [41]
    Monthly-Mean Circulation in the Flemish Cap Region: A Modeling ...
    The deep Labrador Current and the North Atlantic Current may modify the water properties and circulation of the Flemish Cap. The Labrador Current bifurcates ...
  42. [42]
    Why Does the Deep Western Boundary Current “Leak” around ...
    The float leakiness around Flemish Cap is found to be concentrated in several areas (hot spots) that are collocated with bathymetric curvature and steepening.
  43. [43]
    Low‐Frequency Oceanographic Variability Near Flemish Cap and ...
    Feb 15, 2018 · As Figure 7 indicates, ur throughout the water column at Flemish Cap have spectral peaks at around 80, 21, and 11 d. The 80 d peak differs from ...
  44. [44]
    Mixing and Geometry in the North Atlantic Meridional Overturning ...
    Apr 10, 2023 · We focus the study in two regions. The first one is the Flemish Cap region, a zone of interaction between the major AMOC components, where our ...<|separator|>
  45. [45]
    Marine epibenthic functional diversity on Flemish Cap (north‐west ...
    Jan 29, 2020 · To characterize the functional diversity and selected ecological functions of marine epibenthic invertebrate communities at the ecosystem scale.
  46. [46]
    Removal of deep-sea sponges by bottom trawling in the Flemish ...
    Nov 1, 2019 · Here we provide a suite of ecosystem functions produced by the sponge grounds within the Flemish Cap ecosystem production unit which may serve ...
  47. [47]
    On the Influence of Vulnerable Marine Ecosystem Habitats on ...
    Jul 10, 2019 · Here we investigate relationships between the prevalence of VME-indicator taxa [poriferans (sponges), gorgonian corals, and pennatulaceans (sea pens)]
  48. [48]
    [PDF] West Flemish Pass Exploration Drilling Program File No - Canada.ca
    For example, the Flemish Cap is considered a relatively closed marine ecosystem (Perez- ... protection for biodiversity, including important species and their ...<|separator|>
  49. [49]
    Epibenthic assemblages of the Tail of the Grand Bank and Flemish ...
    Twenty benthic associations were distinguished over the broad region of study using qualitative descriptions of depth, water mass, and faunal biogeography ( ...
  50. [50]
    [PDF] Ecosystem Summary Sheets 3M 2023
    3. Production potential of single species. 66% of NAFO managed stocks (four out of six) are in condition ... Many coral and sponge VMEs in the Flemish Cap are ...
  51. [51]
    Implementation of a multispecies model GADGET to the ecosystem ...
    Jul 18, 2016 · The Flemish Cap is a deep water mountain, with a high degree of isolation (minor migrations), and relative simplicity. Cod, redfish and shrimp ...
  52. [52]
    [PDF] Food Consumption of Flemish Cap cod Gadus morhua and redfish ...
    In this work, total consumption by cod and redfish, as well as consumption on preys like redfish, shrimp and other species was estimated using a generic ...Missing: turbot | Show results with:turbot
  53. [53]
    [PDF] Cod in Division 3M Advice June 2023 for 2024
    Jun 15, 2023 · The cod stock in Flemish Cap (NAFO Div. 3M) is considered to be a distinct population. Stock status. SSB declined rapidly since 2017 but has ...
  54. [54]
    Atlantic redfishes nei - Flemish cap - FishSource
    There are three species of redfish that are commercially fished on Flemish Cap ... NAFO -managed commercial fishery in the 3M division off the eastern ...<|separator|>
  55. [55]
    [PDF] Results from Bottom Trawl Survey on Flemish Cap of June-July 2017
    The composition of the species in 2017 is similar to that found in the beginning of the series: cod at high levels, shrimp residual, redfish fluctuating around ...
  56. [56]
    Northern prawn - Flemish cap - FishSource
    ... Flemish Cap is considered to be a separate population ( NAFO , 2022 ). This stock is managed within Division 3M by the scientific council within the ...
  57. [57]
    [PDF] Assessing productivity regime shifts in Flemish Cap main stocks
    May 26, 2023 · The Northern shrimp, Pandalus borealis, is also a key species for the fisheries in the Flemish Cap. 1.2.3. Fishing region. Even though before ...
  58. [58]
    [PDF] 241311 - Canada.ca
    Redfish bycatches peaked at over 25% of the weight of shrimp in 1992. Turbot, the second most abundant bycatch in the area, was only about. 20% of the weight of ...
  59. [59]
    [PDF] HISTORY OF GREAT FISHERY · OF NEWFOUNDLAND
    It does not seem that the fishermen of the 16th century used fresh herring ... Banquereau, or more rarely to the northeast, on the Flemish Cap, known.
  60. [60]
    The Flemish Founding of the Dutch West India Company - Part 2
    Jun 13, 2011 · This is the closest North Atlantic fishing ground for Europeans. European fishermen could fish there literally year-round. Even today, fishermen ...
  61. [61]
    SENTINEL FISHERIES GROUNDFISH COD - OGSL
    By the late 1600s the catch of cod at Newfoundland had reached almost 100,000 metric tons (t) per year. By the late 1700s the catch had reached as high as ...
  62. [62]
    [PDF] Assessment of the Cod Stock in NAFO Division 3M
    www.nafo.int. Table 1A. Total commercial cod catch in Division 3M. Reported nominal catches since 1960 and estimated total catch from 1988 to 2021 in tons.
  63. [63]
    History of fisheries - Government of Iceland
    Gill-nets were introduced for the herring fisheries in 1894 but a breakthrough came in the early 20th century with the more effective purse-seine and drift nets ...
  64. [64]
    [PDF] Flemish Cap Cod Stock Analysis
    Introduction. Flemish Cap is a traditional fishery for cod and redfish. The position of the bank was exactly determined for the first time in 1750.
  65. [65]
    Introduction - GADCAP - WordPress.com
    2. - Fishing history: Intense fishing activity in the Flemish Cap started in 1960, but it was in 1977 with the establishment of the Exclusive Economic Zone ( ...
  66. [66]
    [PDF] An assessment of the Cod satock in NAFO division 3M - CORE
    Since 1974, when a TAC was established for the first time, catches ranged from 48 000 tons in 1989 to a minimum of 353 tons estimated for 1999.
  67. [67]
    (PDF) Atlantic Cod Growth History in Flemish Cap Between 1981 ...
    of Contemporary Evolution in Life-History Traits for Exploited Fish Stocks. ... Records of cod exploitation and biomass in the area clearly showed signs of ...
  68. [68]
    [PDF] Convention on Cooperation in the Northwest Atlantic Fisheries
    This. Convention, establishing the Northwest Atlantic Fisheries Organization. (NAFO), replaced the 1949 International Convention for the Northwest Atlantic.
  69. [69]
    Convention on Future Multilateral Cooperation in the Northwest ...
    Convention on Future Multilateral Cooperation in the Northwest Atlantic Fisheries (NAFO Convention) ... Flemish Cap, Commission members shall give special ...
  70. [70]
    [PDF] Cod in Division 3M Advice June 2025 for 2026
    Jun 12, 2025 · To maintain the stock in the Healthy Zone with a probability higher than 50%, SC advises that catch not exceed F50%HZ, corresponding the catches ...
  71. [71]
    The Northwest Atlantic Fisheries Organization Roadmap for the ...
    A simple 3-species model for the Flemish Cap system was originally used for strategic assessment of the prospect of maintaining Maximum Sustainable Yield (MSY) ...
  72. [72]
    [PDF] JUNE 2025 Analysis of the Flemish Cap cod fishery: monitoring
    The NAFO. CEM establishes in its article 5 the closure of the cod directed fishery in Div. 3M during the first quarter and in its article 13 that “Each ...Missing: moratorium date
  73. [73]
    [PDF] A Discussion of the NAFO Precautionary Approach Framework ...
    This paper documents the development of the Precautionary Approach Framework (PAF) within the Northwest Atlantic Fisheries Organization (NAFO), from 1997 to the ...<|control11|><|separator|>
  74. [74]
    OECMs - Northwest Atlantic Fisheries Organization
    OECMs are Other Effective Area-based Conservation Measures. NAFO submitted seamount and sponge areas for OECMs, which are closed to bottom fishing.
  75. [75]
    [PDF] NAFO Flemish Cap and Slopes of the Grand Bank Sponge VME ...
    All NAFO governance and management measures are based on the principles set out in the NAFO. Convention (NAFO, 2017). Relevant governance by indigenous ...
  76. [76]
    MARE - - European Commission
    ... NAFO also decided to ban all bottom fishing within a 239 km2 area north-east of the Flemish Cap. This decision follows a singularly rigorous and detailed ...
  77. [77]
    Northwest Atlantic Fisheries Organization > Fisheries
    ### Summary of Fisheries Management Measures for Flemish Cap (Division 3M)
  78. [78]
    [PDF] scs25-13 JuneRpt_2025 - Northwest Atlantic Fisheries Organization
    Feb 26, 2025 · STOCKS ON THE FLEMISH CAP (NAFO DIVISION 3M) ... The cod stock in Flemish Cap (NAFO Div. 3M) is considered to be a separate population ...
  79. [79]
    [PDF] 13 June 2024 13 - Northwest Atlantic Fisheries Organization
    A number of areas in the Flemish Cap (3M) EPU have been closed to bottom fishing to protect VMEs. 3M cod is included in the piscivores guild of the Flemish Cap ...
  80. [80]
    NAFO Concludes Halifax Meeting With 2026 Quota Decisions
    Sep 24, 2025 · Several stocks remain under moratoria, including 3M shrimp, while others carry significant quota reductions to align with scientific advice.
  81. [81]
    [PDF] foreign overfishing: its impacts and solutions conservation on the ...
    Jun 4, 2002 · The situation has lead to increasingly vociferous calls for Canada to withdraw from NAFO and unilaterally claim jurisdiction over the Nose and ...
  82. [82]
    EU, Canada settle fish war - UPI Archives
    Apr 16, 1995 · The 10,013-ton EU share for 1995 is significantly higher than the 4, 320 tons originally allocated under a NAFO vote forced by Canada Feb. 1.
  83. [83]
    NAFO cites foreign vessels with illegally caught fish | CBC News
    Oct 4, 2013 · NAFO inspectors have cited a dozen foreign fishing vessels for illegally harvesting 431.7 tonnes of redfish off the east coast of Newfoundland.<|control11|><|separator|>
  84. [84]
    [PDF] NAFO Case Study
    NAFO was established in 1979 as a fisheries regulatory agency following the expansion of coastal State jurisdiction out to 200 nautical miles in the Northwest ...
  85. [85]
    [PDF] Protocols of the EU bottom trawl survey of Flemish Cap
    In 2004, the range of depths was extended up to 1460 m (800 fathoms) with. 34 strata and it was reduced to 32 from 2008 onwards. The results of the Surveys are ...
  86. [86]
    [PDF] Results from Bottom Trawl Survey on Flemish Cap of July 2000
    A stratified random bottom trawl survey on Flemish Cap was carried out on July 2000 up to a depth of 730 metres. Survey results are presented and compared ...
  87. [87]
    [PDF] Results from Bottom Trawl Survey on Flemish Cap of July 2000
    A stratified random bottom trawl survey on Flemish Cap was carried out on July 2000 up to a depth of 730 metres. Survey results are presented and compared ...
  88. [88]
    [EPUB] Atlantic Cod Growth History in Flemish Cap Between 1981 and 2016
    May 19, 2022 · The Flemish Cap cod growth chronology shows variations on growth over time and identifies its drivers, having the potential to be included in ...
  89. [89]
    [PDF] An Assessment of Beaked Redfish (S. mentella and S. fasciatus) in ...
    There are three stocks of redfish in NAFO Division 3M: deep-sea redfish (Sebastes mentella) with a maximum abundance at depths greater than 300m, golden redfish ...<|control11|><|separator|>
  90. [90]
    [PDF] A GADGET multispecies model for the Flemish Cap cod, redfish and ...
    Variability of the Stratification and Circulation on the Flemish Cap during the Decades of the 1950s-1990s. Jounal of Northwest Atlantic Fisheries Science ...
  91. [91]
    [PDF] A Gadget multispecies stock assessment model for the Flemish Cap
    GadCap is an EU project dealing with the development of a gadget multispecies stock assessment model including cod Gadus morhua, redfish Sebastes sp. and shrimp ...
  92. [92]
    [PDF] Hydrographic Conditions on Flemish Cap in July 2000 and ...
    Time series of temperature anomalies on Flemish Cap at standard depths (0, 20, 50, 100 m) shows three main cold periods: the 1970s, the late-1980s and early- ...Missing: dimensions | Show results with:dimensions
  93. [93]
    [PDF] NAFO/ICES Pandalus Assessment Group Meeting, 20–27 October ...
    Shrimp in Div. 3M: Standardized CPUE of shrimp on Flemish Cap, 1993-2009. ... Bycatch rates of other species are estimated from surveillance and research surveys ...<|separator|>
  94. [94]
    [PDF] Spatiotemporal changes in the Atlantic cod (Gadus morhua) stock at ...
    Dec 18, 2024 · The population subsequently recovered sufficiently to reopen the fishery in 2010 and has since been closely monitored to maintain spawning stock ...
  95. [95]
    How Cefas science is supporting sustainable fisheries management ...
    Mar 14, 2023 · Scientists from Cefas have been working with the RFMO for the Northwest Atlantic (NAFO) to create and apply an ecosystem approach since 2009.
  96. [96]
    NAFO's 45th Annual Meeting Agreements | DSCC
    Sep 22, 2023 · However, NAFO still has a considerable way to go to protect areas on the high seas on the Grand Banks and Flemish Cap to where vulnerable ...
  97. [97]
    [PDF] a) Northern shrimp in Division 3M Advice September 2024 for 2025 ...
    Sep 19, 2024 · The Flemish Cap (3M) Ecosystem Production Unit (EPU), with the exception of a short-lived increase in 2005-. 2009, has shown a fairly stable ...
  98. [98]
    Catastrophic dynamics limit Atlantic cod recovery - Journals
    Mar 13, 2019 · Sudden increases in SB are theoretically possible as demonstrated by the recently recovered Flemish Cap cod (figure 3g). Still, a long-term ...<|separator|>
  99. [99]
    The Perfect Storm The Flemish Cap Summary & Analysis | LitCharts
    Jun 26, 2020 · All sorts of fish populations did appear to decline in the latter part of the 20th century, largely in response to advances in technology.Missing: pre- | Show results with:pre-
  100. [100]
    The Perfect Storm “The Flemish Cap” Summary & Analysis
    Chapter Summary: “The Flemish Cap” ... Junger begins the third chapter by explaining how technology—better gear, spotter planes, long-line fishing—led to ...
  101. [101]
    Odin's Wake - Kindle edition by Magill, R.W.. Mystery, Thriller ...
    While in the vicinity of the Flemish Cap area of the North Atlantic, a fire broke out in the engine room of the Icelandic f/v Odin. In the course of events ...
  102. [102]
    Flemish Cap - The American Mag
    Short Fiction · Sporting USA · Suzanne's Taste · Wanderlust. FILM. Film Reviews ... Flemish Cap. By Christopher P. Winner|2024-09-16T23:26:35+02:00September ...
  103. [103]
    The Perfect Storm (2000) - Plot - IMDb
    As the Andrea Gail heads for the far reaches of the Flemish Cap, Linda is fishing near the southern tail of the Grand Banks & is headed to shore to avoid the 3 ...
  104. [104]
    Best Movies On the Sea and Shipping - Marine Insight
    Apr 5, 2019 · It follows the boat's unfortunate journey in the Flemish Cap, Atlantic Ocean, which turns into a nightmare. After a dismal catch at the sea ...
  105. [105]
    The Perfect Storm (2000) - Quotes - IMDb
    Quentin - The Old Timer: [at the counter of the bar, after hearing the Andrea Gail is headed for the Flemish Cap] The Flemish Cap? Went there once... in '62.<|separator|>
  106. [106]
    10 Must-See Fishing Movies for Every Angler - Game & Fish
    Sep 10, 2014 · ... Flemish Cap, which he believes to be a billfish honey hole. When an unholy storm puts itself between the boat and port, the fate of the crew ...
  107. [107]
    To The Flemish Cap - James Horner - The Perfect Storm - YouTube
    Mar 23, 2015 · 04 - To The Flemish Cap - James Horner - The Perfect Storm. 82K views ... To this day, the movie, The Perfect Storm, has touched my heart more ...
  108. [108]
    Into The Blue S9:E2 "Flemish Cap" - Waypoint TV
    Into The Blue S9:E2 "Flemish Cap". Experience was a must on this day for Capt. Steve & Capt. Scott with Extreme Chef Terry French.