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Lingcod

The lingcod (Ophiodon elongatus) is a predatory fish belonging to the greenling family , native to the coastal waters of the Northeast . Despite its , it is not a true but a distinct characterized by an elongated, scaleless body up to 152 cm in length and 59 kg in weight, with a large mouth armed with fang-like teeth and a brownish-green coloration mottled with spots for . Juveniles display more vibrant cryptic patterns, such as gold with brown spots, that become subdued with age, and adults possess fleshy cirri above each eye along with strong spines. This inhabits rocky reefs, beds, and subtidal zones from intertidal depths to 475 m, preferring areas with strong currents and dense algal cover, though juveniles initially settle in shallower eelgrass or sandy bottoms before migrating deeper. Distributed from the Shumagin Islands in southward to , —potentially extending to the —lingcod populations exhibit both migratory and resident behaviors, with higher densities off . As ambush predators, they primarily feed on bottom-dwelling fish such as and , along with , , crustaceans, and even smaller conspecifics in cases of ; younger individuals consume and copepods. Reproduction occurs through during winter months ( to April), when females deposit gelatinous egg masses of 40,000 to 500,000 eggs in rocky crevices or under overhangs at depths of 3–10 m, which males aggressively guard for 8–10 weeks until hatching. is reached by males at around 2 years and 50 cm, and by females at 3–5 years and 76 cm, with lifespans extending up to 25 years, though most individuals live about 20 years. Lingcod hold significant ecological and economic value as a top predator in their , helping regulate populations of prey , while supporting both and recreational fisheries along the . Historically, commercial landings peaked at over 1.3 million kg annually in the 1970s–1980s but declined due to , dropping to around 57,000 kg by 2009 with a value of $184,000 USD; however, as of 2023, landings recovered to approximately 907,000 kg valued at $2.8 million USD under . Recreational catches similarly fell from over 600,000 in 1980 to about 30,000 by 2008 but reached around 300,000 (590,000 kg) by 2023. The ' liver is notably rich in , and its flesh is marketed fresh or frozen for steaming, frying, or other preparations, though ongoing remains essential given population variability influenced by oceanographic conditions.

Taxonomy

Classification

The lingcod (Ophiodon elongatus) is classified within the kingdom Animalia, phylum Chordata, class (ray-finned fishes), order (or Perciformes in some traditional classifications), family (greenlings), genus Ophiodon, and species O. elongatus. This placement reflects its evolutionary ties to other bottom-dwelling marine fishes characterized by spiny fins and robust bodies, distinguishing it from more pelagic percomorphs. As the sole extant species in the genus Ophiodon, the lingcod represents a lineage with deep evolutionary roots; a larger extinct congener, O. ozymandias, is known from fossils in , suggesting the genus persisted through significant geological changes. Despite its common name, the lingcod is not a true from the family but rather a greenling, a distinction arising from superficial resemblances in body shape and habitat rather than phylogenetic affinity.

Etymology and Common Names

The common name "lingcod" derives from early European settlers' observations of its elongated body resembling that of the ling fish (Molva molva), a species native to the North Atlantic, combined with its cod-like shape and flaky white flesh, though it is neither a true cod (family Gadidae) nor a ling (family Lotidae). The species was first scientifically described in 1854 by American biologist Charles Frédéric Girard, who named it Ophiodon elongatus, with "Ophiodon" combining Greek roots ophis (snake) and odous (tooth) to reference its prominent canine-like teeth, and "elongatus" from Latin for its slender form. Other common names include "," a nickname highlighting the fish's disproportionately large head, and "buffalo cod" or "cultus cod," the latter derived from the term "cultus" (meaning "worthless" or "false" in coastal languages), reflecting early perceptions of it as an inferior catch compared to true . Variations like "" or "blue lingcod" refer to individuals with blue-tinted flesh due to pigment, a polymorphism observed in some populations. Among coastal peoples, such as the Haida of the , it is known as sgaagaay ("shaman dance"), alluding to the fish's head-shaking behavior when hooked.

Physical Description

Morphology

The lingcod (Ophiodon elongatus) exhibits an elongated, fusiform body adapted for its predatory lifestyle in benthic environments, reaching a maximum total length of 152 cm (5 ft) and a maximum weight of 37 kg (82 lb), according to the current IGFA all-tackle world record. The body is covered in small cycloid scales that provide a smooth texture, except on the head, which remains unscaled and features a prominent cirrus above each eye. The head is notably large, comprising approximately one-third of the total body length, and equipped with a wide that extends nearly to the posterior margin of the eye, enabling the capture of sizable prey. includes about 18 large, sharp, canine-like teeth interspersed with smaller pointed ones on the , , and , specialized for grasping and holding and during predation; in total, lingcod possess approximately 500-555 needle-like teeth across multiple rows in the and pharyngeal pads, which are replaced at a rate of about 20 per day. The absence of a represents a key to its bottom-dwelling habits, preventing buoyancy issues during depth changes and supporting its ambush-oriented hunting strategy. Fins contribute to the lingcod's streamlined profile and maneuverability. The is long and continuous, notched between the spinous and soft-rayed portions, with 24-27 spines and 21-24 soft rays. The anal fin features 3 short spines and 21-24 soft rays, while the body tapers toward a rounded caudal fin. These structures, combined with the overall elongated , enhance stability and propulsion over rocky substrates.

Coloration and Polymorphism

Lingcod exhibit a mottled coloration typically consisting of , gray, , or reddish-brown, which provides effective against rocky and algal substrates in their benthic habitats. This patterning, often blotched or irregular, allows the to blend seamlessly with varied seafloor environments, enhancing their predatory strategy. Coloration can vary among individuals and may be influenced by dietary components, such as chlorophyll-rich prey, leading to greener hues in some specimens. A striking example of polymorphism in lingcod is the blue-green flesh observed in approximately 14% of individuals across their range, with from 3% to 21%. This coloration arises from the accumulation of , a produced during , which infuses the muscle and . The phenomenon is more prevalent in females (over 80% of cases), smaller fish, and those from shallower waters, though the precise mechanisms remain unconfirmed. Suggested proximate factors include dietary influences, evidenced by lower concentrations of certain fatty acids (e.g., oleic and palmitoleic acids) in blue-fleshed individuals, as well as potential roles for , photoprotection, or physiological . Upon cooking, the blue-green hue fades to white as heat denatures the . The blue flesh polymorphism appears linked to physiological traits within the family, as similar -based coloration occurs in other greenlings, though no specific genetic loci have been identified in lingcod. This trait is rare outside related taxa but well-documented in sculpins (family Cottidae), where accumulation follows analogous biochemical pathways. In lingcod, the polymorphism may impose costs, such as increased parasite loads in blue males and poorer body condition indicated by lower hepatosomatic indices.

Distribution and Habitat

Geographic Range

The lingcod (Ophiodon elongatus) inhabits the northeastern along the North American , with its range extending from the Shumagin Islands in the (approximately 55°N) southward to , (approximately 30°N), possibly occurring in the . This latitudinal span covers roughly 25 degrees of latitude, primarily following the continental shelf where suitable benthic habitats occur. Genetic and demographic studies reveal distinct subpopulations across this range, including separate stocks in , , the Washington-Oregon area, and . These stocks are delineated by genetic breaks, such as one near Point Reyes, (around 38°N), separating northern populations ( to northern ) from southern ones (central to ). Limited migration between regions is evidenced by strong site fidelity in adults and low , despite a dispersive larval stage. The species' geographic range has shown stability, with distributions from to documented in historical and recent records, and no significant poleward or equatorward shifts noted in assessments as of 2021. Stock assessments as of 2021 model populations within these historical boundaries, reflecting consistent spatial occupancy amid varying environmental conditions.

Habitat Preferences by Life Stage

Lingcod exhibit distinct habitat preferences that vary across their life stages, reflecting adaptations to predation risk, food availability, and growth requirements. During the larval stage, which lasts approximately 90 days, individuals occupy pelagic waters near the surface. For the first two weeks post-hatching, larvae remain in surface waters, where they are passively transported by currents, facilitating high dispersal potential across coastal regions. Following this, they shift to deeper epipelagic zones (upper 3 m by day, deeper at night) before settling as demersal juveniles around 70–80 mm in length, typically after 2.5 months offshore. This pelagic phase exposes larvae to open-water conditions, where they feed primarily on such as copepods. Juveniles, upon settlement, preferentially inhabit shallow nearshore areas at depths of 10–50 m, seeking protective cover in vegetated habitats like eelgrass beds, kelp forests, or seaweed canopies to evade predators. These structured environments provide shelter and access to small prey, including fish larvae and . By approximately 1 year of age or when reaching 350 mm in length, juveniles transition from these low-relief, sandy or soft-bottom areas to more rugged rocky reefs, marking an ontogenetic shift toward adult-like habitats while remaining in shallower waters relative to older individuals. As adults, lingcod occupy deeper, more complex benthic habitats, primarily rocky reefs, submerged banks, and channels at depths of 10–100 m, though they can be found up to 475 m. They favor areas with high-relief rocky substrates, boulder fields, and forests that support dense algal growth and harbor abundant prey such as and cephalopods. These sites often experience strong currents or wave action, which enhance prey delivery and oxygenation. Adult lingcod demonstrate strong site fidelity to these structured habitats, with limited movement beyond localized reefs. Overall, lingcod undergo clear ontogenetic shifts, progressing from exposed pelagic realms as larvae to sheltered vegetated shallows as juveniles, and finally to deeper, current-swept rocky structures as adults, optimizing and foraging efficiency at each developmental phase.

Life History

Reproduction

Lingcod exhibit a distinct reproductive strategy characterized by nest-guarding behavior in shallow nearshore s. Spawning occurs from late winter to early spring, primarily between December and March, with peak activity from mid-January to mid-February in regions like the . Males select and prepare nest sites on rocky bottoms, often in crevices or under overhangs, at depths typically ranging from 10 to 100 meters, where they attract females for egg deposition. Females produce large clutches of adhesive eggs, with varying by body size from approximately 50,000 eggs in smaller individuals (around 60 cm) to over 490,000 in larger ones (up to 120 cm). These eggs measure 2.8 mm in diameter when deposited and swell to about 3.5 mm after water hardening, forming a cohesive, gelatinous mass that adheres to the within the male-prepared nest. Females deposit eggs in repeated passes at night and depart immediately after spawning, leaving fertilization and subsequent care to the male. The is polygynandrous, allowing one to guard eggs from multiple females while females may engage in serial , mating with several s sequentially during the season. Following fertilization, s provide exclusive by vigorously defending the nest against predators such as and , while periodically fanning the egg mass to ensure oxygenation and remove sediment. Hatching time varies with water temperature (shorter in warmer waters), and regional differences exist, e.g., earlier spawning in southern populations. This guardianship lasts 8 to 10 weeks until hatching (5-11 weeks observed), during which the abstains from feeding and remains highly aggressive toward intruders.

Growth and Maturity

Lingcod exhibit rapid initial growth, particularly in their first few years of life, reaching lengths of approximately 40 cm by age 1 and continuing to grow at rates up to 30 cm per year during the early juvenile phase before slowing asymptotically. Growth follows a von Bertalanffy model, with females attaining larger asymptotic lengths (up to 130 cm in northern populations) compared to males (up to 92 cm), reflecting where females grow faster after age 2. Maximum recorded length is 152 cm, with weights reaching 36 kg (80 lb). Sexual maturity in lingcod is achieved earlier in males than females, with males typically maturing at around 2 years of age and 50 cm in length, while females reach maturity between 3 and 5 years at approximately 76 cm. In northern populations, 50% of males are mature by age 3 (about 55 cm) and females by age 4 (about 66 cm), whereas southern populations show slightly earlier maturity at similar sizes. This dimorphism contributes to females producing larger clutches of eggs upon maturity. The typical lifespan of lingcod varies by sex, with males living up to 14 years and females up to 20-25 years, though some studies using otoliths suggest potential maximum ages up to 42 years with lower validation confidence for older individuals, allowing females to achieve greater sizes over their longer lives. Growth and maturity are influenced by , with southern populations exhibiting faster early growth and earlier maturity compared to northern ones, where individuals attain larger maximum sizes but at slower rates.

Age Determination Methods

The primary method for determining the age of lingcod (Ophiodon elongatus) involves counting annuli—alternating opaque and translucent growth zones—in sagittal otoliths, the structures in the fish's , which provide precise estimates when examined under a dissecting using reflected light after preparation techniques such as breaking, burning, or clearing. For older individuals, where otoliths may be challenging to interpret, an alternative approach uses thin cross-sections (typically 1.5–3.0 mm) of the 4th to 8th rays from the second , which are dried, hardened with , and mounted for annulus counting along the growth axis under magnification. Validation of these methods has primarily focused on fin rays through oxytetracycline (OTC) mark-recapture experiments, where injected markers created fluorescent bands in recaptured after 1–4 years at liberty, confirming annual annulus formation with 75–94% agreement and accuracy up to 18 years. Otolith-based ages have demonstrated higher than fin rays in comparative studies, yielding wider ranges (up to 42 years observed), though direct validation via tag-recapture is less documented for otoliths specifically in lingcod. Challenges in otolith readability arise particularly in large individuals, where annuli become crowded after age 10, centers may resorb leading to under-aging, and preparation requires extended clearing (up to 6 weeks for dry otoliths) to enhance visibility. Regional variations in growth rings, such as noisier, fast-growth patterns in southeast Alaska compared to clearer rings in central regions, further complicate interpretation due to environmental differences affecting zone formation (e.g., opaque summer vs. translucent winter zones). These techniques originated with the development of the ray method in 1977, which addressed limitations of scales and otoliths for older , and were refined in the early through annular diameter criteria to improve consistency in stock assessments.

Ecology

Diet and Feeding Behavior

Lingcod exhibit distinct dietary shifts across life stages, reflecting ontogenetic changes in habitat and predatory capabilities. Larval lingcod primarily consume , including calanoid copepods, their eggs, nauplii, and copepodids, during their pelagic phase. Upon as juveniles around 8-10 cm in length, they transition to nearshore or eelgrass beds, feeding on small crustaceans such as copepods, larvae, amphipods, and euphausiids (), as well as small fish like larvae and shiner . This shift to larger prey occurs as juveniles grow and move into benthic habitats, enabling predation on items disproportionate to their size due to their large mouths. Adults are voracious predators, with fish comprising up to 80% of their diet by volume, including bottom-dwelling species such as (Sebastes spp.), (Clupea pallasii), and (Merluccius productus). Cephalopods like and make up a significant portion (around 22-64% depending on depth), alongside crustaceans (e.g., crabs) and echinoderms, though the latter are less dominant. Over 90% of prey mass consists of in some populations, with transient pelagic species like preferred over resident dwellers. Lingcod employ ambush predation strategies, utilizing rocky cover and reefs to lie in wait before lunging at prey with their large mouths and sharp teeth, often swallowing items whole. This behavior suits their role as nearshore predators, occupying a of approximately 4.0-4.5. Dietary cephalopod consumption may contribute to occasional blue flesh coloration in adults.

Predators and Interactions

Juvenile lingcod face significant predation pressure from a variety of marine organisms, including larger fishes such as , , and conspecifics, as well as seabirds and marine mammals. Adults, having fewer natural predators due to their size and aggressive behavior, are primarily vulnerable to marine mammals like Steller sea lions, California sea lions, and harbor seals, along with sharks and occasionally larger conspecifics. Lingcod eggs are particularly susceptible to predation by gastropod mollusks, crabs, echinoderms, kelp greenlings, and cabezon, with male nest guarding playing a critical role in mitigating these losses during the 8-10 week . Lingcod host several common parasites, including the Cucullanus elongatus in their digestive tract and the Chondracanthus narium on their external surfaces, though these typically exert low population-level impacts and are monitored primarily in the context of fisheries . Anisakid nematodes, prevalent in many Pacific marine fishes including lingcod, can infest the viscera and flesh but pose minimal threat to wild populations while requiring attention during processing to prevent human risks. In their rocky reef habitats, lingcod engage in competitive interactions with other greenling species, such as (Hexagrammos lagocephalus), for food resources and space in high-relief substrates. As key components of nearshore food webs, lingcod serve as important prey for higher trophic levels, including marine mammals, thereby linking benthic and pelagic ecosystems. They also exhibit habitat associations with beds, where macroalgae provide structural cover that benefits lingcod foraging while supporting broader community diversity through shared refuge.

Fisheries

Commercial Harvest

Commercial lingcod harvest primarily employs bottom trawls, longlines, pots, and jigs, with the species often appearing as in groundfish fisheries targeting and other bottom-dwellers. , which drags nets along the seafloor, has historically dominated catches in northern regions like and , while hook-and-line methods using jigs or longlines are more common in shallower waters off and . These gears allow for targeted fishing on rocky reefs where lingcod aggregate, though regulations limit incidental captures in mixed-species operations. The commercial fishery for lingcod along the dates back to the , initially relying on handlining from small boats, and expanded significantly with the rise of trawl fleets in the early . Landings peaked in the 1970s and mid-1980s, exceeding 10 million pounds annually across U.S. and Canadian waters due to increased effort in the burgeoning trawl industry, before declining sharply in the late 1980s from pressures. By 2023, U.S. commercial landings had stabilized at approximately 2 million pounds, valued at $2.8 million, reflecting managed recovery efforts. Major regional fisheries operate in , where longline and jig methods prevail, British Columbia's coastal waters with significant trawl contributions, and California's nearshore areas using a mix of trawls and hooks. Exports focus on fillets for international markets, supporting economic value in processing hubs along the coast. Harvest is governed by quotas set under the Pacific Fishery Management Council's Groundfish Fishery Management Plan, with a minimum size limit of 22 inches total length to protect juveniles.

Recreational Fishing

Recreational fishing for lingcod targets the species for its fighting qualities and table fare, primarily along the from to . Anglers commonly employ , trolling, and bottom fishing with hook-and-line setups in nearshore habitats, where lingcod prey. involves vertical drops of metal jigs or soft plastic lures using fast-action rods (6–8 feet) paired with 40–50 lb braided line to mimic injured fish, while trolling uses rigs or swimbaits behind boats at depths of 50–200 feet. From piers or shorelines, surf casting with 8–10 foot rods and 15–30 lb monofilament line targets shallower structures, often with live like mackerel or anchovies. Bait options include , , or , rigged on circle hooks sized 6/0 to 10/0 with 30–50 lb leaders to withstand the fish's aggressive strikes. The fishery is especially popular in the , including and , and areas like Morro Bay, drawing anglers for its accessibility and high catch rates during open seasons. In 2023, U.S. recreational anglers landed approximately 1.3 million pounds of lingcod, reflecting sustained interest despite varying participation levels. Targeted for sport and culinary value, lingcod often appear in mixed-bag catches with , contributing to its appeal in charter operations and personal outings. Modern s, such as the annual Lingcod Derby in , and the Lead Head Classic in the , foster community engagement through competitive weigh-ins and conservation-focused prizes. Seasons and regulations vary by to protect spawning stocks, with depth limits often capping at 240 feet in sensitive areas. In , the season runs from March 1 to October 31 north of , with a two- daily bag limit and a 22-inch minimum total length. Washington's coastal Marine Areas 1-4 open March 8 to October 18, 2025, allowing two lingcod per day without a size limit but requiring barbless hooks. In (Marine Areas 5-13), the season is May 1 to June 15 with one lingcod per day (minimum 26 inches total length, maximum 36 inches). permits year-round harvest with a two- limit and 22-inch minimum, while Alaska's rules differ by region; in , the season runs from May 16 to November 30, 2025, with a daily limit of one lingcod measuring 30-35 inches or over 55 inches, and an annual limit of two (one per size slot). These measures, enforced by state agencies, include fillet identification rules, such as retaining skin on filets, to aid inspections. Lingcod hold cultural significance as a traditional food source for communities along the , with archaeological evidence of harvest dating back 5,000 years using spears, nets, and hooks. For groups like the Haida and coastal , the fish supported sustenance and cultural practices, remaining integral to contemporary rights under treaties.

Conservation and Management

Population Status

Lingcod populations along the U.S. are currently healthy and sustainably managed. According to NOAA Fisheries assessments, neither the Northern nor Southern stocks are overfished or subject to as of the 2021 stock assessments, with this status reaffirmed through 2024 updates based on catch data up to 2023. Biomass levels exceed target thresholds, with the Northern stock estimated at a B/BMSY of 1.604, indicating abundance well above the level required to produce . Historically, lingcod stocks declined sharply during the and due to high fishing mortality, reaching critically low levels by the late . The was declared overfished in 1999, with spawning estimated at only about 7.5% of unfished levels. Management measures, including catch limits and seasonal closures implemented under the Pacific Coast Groundfish Fishery Management Plan, facilitated rebuilding, and stocks were declared rebuilt by 2005; populations have remained stable and above target levels since then. The stock structure of lingcod reflects genetic differentiation across its range, supporting targeted regional management. NOAA Fisheries recognizes two primary distinct stocks for assessment and management: the Northern Pacific Coast stock, spanning from the U.S.-Canada border to Cape Blanco, Oregon (including Alaskan waters), and the Southern Pacific Coast stock, from Cape Blanco southward to the U.S.-Mexico border. Genetic analyses reveal strong population structuring, with significant allele frequency differences indicating limited gene flow between northern and southern groups, as well as finer-scale differentiation within regions that informs localized protections. Although some studies identify up to five genetically distinct units from Alaska to California, current assessments and management focus on the two-stock model to align with fishery data availability. Population monitoring relies on annual fishery-independent surveys and fishery-dependent . NOAA conducts bottom trawl surveys, hook-and-line sampling, and hydroacoustic assessments to estimate abundance and , particularly in habitats where lingcod reside. and recreational catch reporting, combined with age-structured models, provides ongoing evaluation of dynamics and informs biennial harvest specifications.

Threats and Protective Measures

Lingcod populations have faced significant threats from historical , particularly in the late , when stocks collapsed to approximately 7.5% of unfished biomass levels by 1999, prompting a declaration of overfished status by the . remains a persistent risk, as lingcod are commonly captured incidentally in non-selective bottom longline and troll fisheries along the . degradation, including the proliferation of urchin barrens that eliminate forests and reduce complex rocky structures essential for lingcod shelter and foraging, exacerbates vulnerability by altering preferred demersal environments from to . compounds these pressures, with and warming projected to halve successful hatch rates of lingcod embryos by 2050 and nearly eliminate viable larvae by 2100 through slowed development, increased deformities, and reduced yolk reserves. To mitigate these threats, protective measures include marine protected areas such as California's network of state marine reserves, which encompass 16% of coastal waters and restrict fishing to safeguard lingcod habitats and reproduction. Seasonal closures during spawning periods, along with size limits (e.g., minimum lengths of 22-24 inches) and bag limits (typically two fish per day for recreation), help reduce harvest pressure and allow population recovery. In , individual transferable quotas (ITQs) under the Department of Fisheries and Oceans (DFO) allocate specific catch shares to vessels, promoting accountability and preventing overexploitation in commercial groundfish fisheries. Lingcod management occurs primarily under the U.S. Magnuson-Stevens Fishery Conservation and Management Act, which mandates science-based rebuilding plans and reduction, while DFO oversees Canadian stocks through integrated groundfish programs; the species is not listed under . These efforts have yielded successes, including rebuilding from 1997 lows through 2000s restrictions that slashed commercial quotas by up to 65% and recreational limits, achieving recovery ahead of the 10-year schedule. Ongoing research into , such as multistressor experiments on embryonic viability, informs adaptive strategies to enhance population durability amid environmental shifts.

Nutritional Value

Macronutrient Composition

Lingcod provides approximately 85 kcal of per 100 g serving, making it a low-calorie option for protein intake. It contains 17.7 g of high-quality protein, which is a complete source of essential essential for muscle repair and overall . The total content is low at 1.1 g per 100 g, including beneficial omega-3 fatty acids such as (EPA) and (DHA). Carbohydrates are negligible, at 0 g per 100 g. Overall, lingcod is leaner than fatty like but has a similar low-fat profile to other whitefishes such as . Cooking lingcod leads to protein denaturation, improving digestibility while retaining the majority of macronutrients. In specimens with blue flesh—caused by pigment—the color dissipates upon heating, turning the meat white, but this change has no impact on .

Micronutrients and Health Benefits

Lingcod is a rich source of several essential micronutrients, particularly when consumed raw or lightly cooked. Per 100 grams of raw lingcod, it provides 3.6 micrograms of , meeting 150% of the daily value () and supporting nerve health and red blood cell formation. It also contains 36.5 micrograms of , or 66% , which acts as an to protect cells from damage. Additionally, lingcod offers 1.9 milligrams of (), supplying 12% for energy metabolism, and 201 milligrams of , providing 16% to aid bone health and cellular function. The health benefits of lingcod consumption stem from its micronutrient profile and complementary nutrients. and contribute to defense and neurological function, potentially reducing . The fish's omega-3 fatty acids support heart health by reducing inflammation and lowering levels. Its high protein content (17.7 grams per 100 grams) aids muscle repair, while low fat levels (1.1 grams per 100 grams) make it suitable for weight management. Approximately 14% of lingcod exhibit blue flesh due to , a with potential and anti-mutagenic properties, though its health impacts from consumption remain unconfirmed. Blue-fleshed individuals may have slightly lower total fatty acid content. Lingcod has relatively low mercury levels, averaging 0.351 parts per million, comparable to or lower than many varieties like (0.35 ppm), making it a safer choice among . The FDA recommends 2-3 servings (8-12 ounces total) of low-mercury like lingcod per week for adults to gain nutritional benefits without excessive contaminant risk. Historically, coastal diets rich in lingcod and similar supported overall health through sustained intake.

References

  1. [1]
    Ophiodon elongatus, Lingcod : fisheries, gamefish - FishBase
    Adults are found near rocks, inshore and to 427 m (Ref. 2850). Young occur on sand or mud bottom of bays and inshore areas (Ref. 2850). Both migratory and non- ...
  2. [2]
    Ophiodon elongatus (Lingcod) | INFORMATION | Animal Diversity Web
    Lingcod are coastal fish that occupy submerged banks with dense communities of algae, and channels with strong currents flowing over and around rocky reefs.Missing: distribution | Show results with:distribution
  3. [3]
    Lingcod - NOAA Fisheries
    Scientific Classification. Kingdom, Animalia. Phylum, Chordata. Class, Actinopterygii. Order, Scorpaeniformes. Family, Hexagrammidae. Genus, Ophiodon. Species ...About The Species · Biology · Harvest
  4. [4]
    Ophiodon ozymandias (Jordan, 1907) - GBIF
    Ophiodon ozymandias is an extinct species of lingcod from the Late Miocene of Southern California. Fossils suggest the living animal could have reached up to 6 ...Missing: original | Show results with:original
  5. [5]
    Lingcod Species Profile, Alaska Department of Fish and Game
    Lingcod are distributed by size and sex with smaller lingcod, predominately males, inhabiting shallow nearshore reefs (Cass et al. 1984). Even though a similar ...
  6. [6]
    Lingcod | SeafoodSource
    Jan 23, 2014 · The lingcod likely got the name ling from early settlers who related it to European lings but acknowledged its white flaky flesh by adding cod.
  7. [7]
    Lingcod (ophiodon elongatus) - Oregon State University
    Nov 6, 2024 · This fish was given the name 'Lingcod' because it looked a bit like both a ling and a cod fish. Not because it was either or even related.
  8. [8]
    Ophiodon elongatus, Lingcod : fisheries, gamefish - FishBase
    Ophiodon elongatus Girard, 1854. Lingcod. Add your observation in Fish Watcher ... Anal spines of adults buried in flesh, third spine closely applied to first ray ...
  9. [9]
    [PDF] the ling cod, ophiodon elongatus girard - Canada.ca
    The true cads, family Gadidae, of which there are three species in British. Columbia coast waters, may be confused by name ,vith the ling cod. The gray cod ...
  10. [10]
    Common Names List - Ophiodon elongatus - FishBase
    Alaska ling cod, USA, English ; Blue cod, UK, English ; Buffalo cod, UK, English ; Cultus cod, Canada, English ...
  11. [11]
    [PDF] FOOD FISH FACTS
    Lingcod, first re- corded in 1881 as coming from the waters of British Columbia, is a member of the Hex- agrammidae family, one of a number of spe- cies com m 0 ...
  12. [12]
    What's In a Fish's Name? - Nautilus Magazine
    Mar 12, 2024 · Along the Pacific Northwest coast of North America, a single fish has many names: ulchen, yshuh, uthlecan. These all describe the shimmering ...Missing: Indians | Show results with:Indians
  13. [13]
    Lingcod Species Profile, Alaska Department of Fish and Game
    They are characterized by a large mouth with 18 sharp teeth. Their color is variable, usually with dark brown or copper blotches arranged in clusters.Missing: morphology anatomy
  14. [14]
    Marine Resources Program - Lingcod - ODFW
    Lingcod (Ophiodon elongatus). Click here to view detailed harvest information about this species. Description. Large, elongate. Dorsal fin long; spinous and ...
  15. [15]
    Lingcod (Ophiodon elongatus) - Fish Identification
    Juveniles have slender bodies. The lingcod's coloring is usually brown or gray, with blotches outlined in orange or blue, but is closely associated with habitat ...
  16. [16]
    Lingcod, Alaska Department of Fish and Game
    “They don't have swim bladders so they can be brought up from any depth without decompression injuries. They have a high rate of survival when released, so ...Missing: absent | Show results with:absent
  17. [17]
    Lingcod - California Sea Grant
    Habitat. As an adult, it lives along the rocky seafloor among seaweed, kelp, and eelgrass and preys on bottom dwelling fish, squid, crab ...
  18. [18]
    Lingcod: Don't Be Put Off by Color - Los Angeles Times
    Feb 21, 1985 · The brilliant emerald green hue is produced by the lingcod's diet, which includes a great deal of chlorophyll. The color may also pervade the ...
  19. [19]
    Assessing prevalence and correlates of blue-colored flesh in lingcod ...
    Aug 17, 2021 · In sculpins (Cottidae), it has been shown that blue coloration is due to the bile pigment biliverdin, a byproduct of heme catabolism; the ...
  20. [20]
    [PDF] Assessing prevalence and correlates of blue-colored flesh in lingcod ...
    Aug 17, 2021 · Diet, starvation, photoprotection, and camouflage have all been suggested as proximate mechanisms driving blue flesh, but causal factors are ...
  21. [21]
    Red Fish, Blue Fish: Where The Fish Flesh Rainbow Comes From
    Jun 17, 2014 · But cooking the flesh causes proteins in the meat to coagulate ... Blue lingcod: Though usually white-hued like halibut or cod, lingcod ...
  22. [22]
    The weaker sex: Male lingcod (Ophiodon elongatus) with blue color ...
    We found that male lingcod carried 1.89 times more parasites if they were blue than if they were brown, whereas there was no difference in parasite burden ...
  23. [23]
    https://www.adfg.alaska.gov/index.cfm?adfg=lingcod.printer
  24. [24]
    Multistressor global change drivers reduce hatch and viability of ...
    Dec 20, 2022 · Many Lingcod populations are found in coastal upwelling zones within the CCS from 29° to 58°N north. Nearly 20% of global fish catch occurs in ...Missing: geographic | Show results with:geographic
  25. [25]
    Strong population differentiation in lingcod (Ophiodon elongatus) is ...
    Jun 29, 2020 · Here, we evaluated genetic population structure in lingcod (Ophiodon elongatus), a commercially and recreationally important fishery species ...
  26. [26]
    Geographic variability in lingcod Ophiodon elongatus life-history ...
    Aug 5, 2025 · In addition, we found evidence for strong associations between lingcod life history traits and the oceanographic variables of sea surface ...
  27. [27]
    [PDF] lingcod
    The scientific name Ophiodon is a combi- nation of two Greek words meaning snake and tooth, a reference to the lingcod's large teeth. The name elongatus is ...Missing: etymology | Show results with:etymology
  28. [28]
    [PDF] Status of lingcod (Ophiodon elongatus) along the northern U.S. west ...
    This assessment reports the status of lingcod (Ophiodon elongatus) off the northern U.S. west coast using data through 2020. Lingcod were modeled as two stocks ...
  29. [29]
    [PDF] 2017 Lingcod Stock Assessment
    Landings declined significantly during 1980 to 2000, with trawl landings dominating the catch in the north, and recreational landings dominating the catch in ...<|control11|><|separator|>
  30. [30]
    Lingcod
    Jan 30, 2018 · Lingcod prefer rocky areas, living on the bottom of the ocean from intertidal depths to about 100 metres. Species Description. Lingcod are not a ...Missing: distribution | Show results with:distribution
  31. [31]
    [PDF] Submersible Observations on Lingcod, Ophiodon elongatus ... - NOAA
    Males enter spawning condition be fore females do, and not all mature males successfully defend a territory and spawn. ogy of the embryos, egg masses and ...
  32. [32]
    [PDF] Lingcod - Alaska Department of Fish and Game
    Early life history: Newly hatched larvae are approximately ¼ to ½ inch (7–10 mm) and are initially relatively passive at move with surface ocean currents.
  33. [33]
    Lingcod (Ophiodon elongatus) - SIMoN :: Species Database
    Adults can be found near rocks, inshore, over reefs and soft bottoms. Juvenile Ophiodon elongatus initially inhabit eel grass beds, and eventually move to flat ...
  34. [34]
    Polygamous Mating and High Levels of Genetic Variation in Lingcod ...
    Lingcod, Ophiodon elongatus, is a nest-guarding marine fish of western North America. Breeding occurs in late winter and early spring after males establish.
  35. [35]
    Male nest site fidelity and female serial polyandry in lingcod ...
    Jan 10, 2005 · Nest site fidelity and serial polyandry were examined in lingcod, Ophiodon elongatus, a teleost fish in which the nest-guarding male parent ...
  36. [36]
    [PDF] Assessment of Lingcod (Ophiodon elongatus) for the in 2005
    Lingcod (Ophiodon elongatus) are top order predators of the family Hexagrammidae. ... Length-at-age data fit to the von Bertalanffy growth model for the northern ...
  37. [37]
    Ageing Groundfish on the West Coast | NOAA Fisheries
    Feb 27, 2023 · The most popular way for ageing fish otoliths is called break and burn. This is where the otolith is broken in half and toasted over a flame.Missing: challenges | Show results with:challenges
  38. [38]
    [PDF] CareManual2006.pdf - Committee of Age Reading Experts
    example, dry lingcod otoliths require a minimum of 6 weeks of clearing before annuli are ... Age determination methods for fishes studied by the Groundfish ...
  39. [39]
    Age Determination of Lingcod (Ophiodon elongatus) Using Dorsal ...
    Cross sections of the 4th–8th fin rays from the second dorsal fin provided reliable ages of lingcod (Ophiodon elongatus), although there was some difficulty ...
  40. [40]
    [PDF] The validity of the fin-ray method of age determination for lingcod ...
    These results validate the annual pattern of banding in fin-ray sections of fish up to 18 years of age.
  41. [41]
    Age Determination of Lingcod (Ophiodon elongatus) Using Dorsal ...
    Aug 7, 2025 · After age 7 or about 75–85 cm, fin-ray ages were older than scale ages. Some of the oldest fish averaged 8 yr older by the fin-ray method.Mature ...
  42. [42]
    How Old is That Fish?, Alaska Department of Fish and Game
    Lingcod otolith complexity varies by location. “Region 1 ... otoliths showing fast growth noisy patterns because of differences in the growth environment.Alaska Fish & Wildlife News · Age Reading Fish In Juneau · Otoliths Reveal More Than...Missing: variations | Show results with:variations<|separator|>
  43. [43]
    Otoliths, removal and ageing
    Dec 5, 2018 · Otoliths of adult fish can generally be removed with nothing more than a sharp fish knife and a pair of forceps or tweezers.Shape · Removing Otoliths · Determining AgeMissing: challenges | Show results with:challenges
  44. [44]
    [PDF] On the Early Life History of the Lingcod (Ophiodon elongatus)
    Dec 6, 1977 · The diet of young lingcod in their early stages consisted mainly of small and medium sized calanoid copepods, their eggs, naupliar and copepodid ...
  45. [45]
    [PDF] geographic and ontogenetic variation in the trophic
    Given that little is known about how Lingcod diets change across their range in a more concise time period, or how life history factors may influence their.
  46. [46]
    [PDF] Prey preference of lingcod (Ophiodon elongatus), a top marine ...
    The goal of this study was to describe the diet of adult lingcod off the coast of Oregon, to characterize relative patterns of consumption of transient and ...
  47. [47]
    Spatial, Temporal, and Ontogenetic Patterns of Predation on ...
    Jan 9, 2011 · The total mass of rockfish consumed by lingcod during fall 2005 was estimated to be approximately three times as high in marine reserves as in ...
  48. [48]
    [PDF] 15 Lingcod, Ophiodon elongatus - CA.gov
    History of the Fishery. Lingcod, Ophiodon elongatus, is an important commercial and recreational species of the Pacific coast of the United States.
  49. [49]
    Common Parasites of California Marine Fishes
    This disease is called "anisakiasis", after the worms, and is also known as "cod-worm" of "herring-worm" disease. Some fish have lots of worms because the ...
  50. [50]
    [PDF] Chapter 2. Background
    On the same basis, bottom-dwelling fishes likely to compete with rock greenling for food and space include lingcod, cabezon, kelp greenling, and ...
  51. [51]
    ODFW Marine Commercial Fishing
    Jan 7, 2025 · This fishery has been active since the early 1900s; however, during the past 25 years both landings and price per pound have increased greatly.
  52. [52]
    [PDF] Lingcod and Spiny dogfish - Seafood Watch
    Jul 17, 2014 · Recent fishing mortality for both lingcod and spiny dogfish is below management thresholds. Due to the multi-species nature of the U.S. west ...
  53. [53]
    This blue-fleshed fish is a conservation success but its future is far ...
    Dec 22, 2017 · This article focuses on lingcod populations in the United States; however their range extends along the Pacific coast into British Columbia.Missing: distribution | Show results with:distribution
  54. [54]
    Lingcod Lingcod seafood recommendation | Seafood Watch
    Bottom trawls herd and sieve fish with two or more cone-shaped nets that have smaller mesh bags called codends, which retain the catch. Trawl nets are ...Missing: longlines | Show results with:longlines
  55. [55]
    Magnuson-Stevens Act Provisions; Fisheries Off West Coast States ...
    Aug 7, 2023 · The commercial minimum size limit for lingcod is 24 inches (61 cm) total length south of 42° N lat. Council recommendation, The commercial ...
  56. [56]
    Summary of Recreational Groundfish Fishing Regulations
    Statewide Daily Bag Limits and Minimum Size Limits ; Lingcod (§28.27), 2 fish per person, 22" total length ...
  57. [57]
    Lingcod Derby - Mission Outdoors
    Jun 28, 2025 · Join us for the 7th Annual La Push WA 2025 Lingcod Derby! Enjoy some friendly competition while fishing for rockfish! All while supporting a great organization.
  58. [58]
    3rd Annual Lead Head Classic Lingcod Fishing Tournament
    3rd Annual Lead Head Classic Lingcod Fishing Tournament May 16 @ 7:00 am – May 17 @ 4:00 pm TOURNAMENT RULES Each captain is required to sign tournament rules.
  59. [59]
    Current California Ocean Recreational Fishing Regulations
    Nov 1, 2025 · The daily bag and total possession limit is two fish north of Point Sur, Monterey County. The minimum size limit is 22 inches total length.
  60. [60]
    https://www.dfw.state.or.us/MRP/finfish/docs/what_can_i_keep.pdf
  61. [61]
    [PDF] 4th Quarter 2024 Update Table A. Summary of Stock Status for FSSI ...
    Lingcod - Northern Pacific Coast. No. No. No. NA. 1.604. 4 ... Since the stock size is above the biomass target (Bmsy), the stock is presumably not overfished.
  62. [62]
    [PDF] 2021 Status of Stocks Tables - NOAA
    Lingcod - Northern Pacific. Coast. No. No. No. NA. NA. 1.45. 4. PFMC. Pacific Coast ... status is based on the results of the stock assessment completed in 2021.
  63. [63]
    This blue-fleshed fish is a conservation success, but its future is far ...
    Dec 11, 2017 · Once a dietary staple of coastal American Indians, lingcod became a target for commercial fisheries in the 1870s.
  64. [64]
    Lingcod: Resources - NOAA Fisheries
    There are two stocks of lingcod: Northern Pacific coast and Southern Pacific coast. ... Range. Lingcod are found from Kodiak Island in the Gulf of Alaska ...Missing: geographic distribution
  65. [65]
    (PDF) Lingcod (Ophiodon elongatus) habitat associations in California
    Tagging studies have suggested that adults exhibit a high degree of site fidelity and a relatively small home range, although there are infrequent observations ...
  66. [66]
    As Oceans Warm, the World's Kelp Forests Begin to Disappear
    Nov 20, 2017 · In the kelp forests of Alaska's Aleutian Islands chain, urchin barrens began forming in the 1980s, causing local declines in various fishes, ...
  67. [67]
    Marine protected areas and fishing community well-being
    Aug 1, 2024 · In 2012, California completed the largest statewide system of MPAs to date, consisting of 124 MPAs covering 16% of state waters (Saarman and ...
  68. [68]
    [PDF] Pacific Region integrated fisheries management plan, groundfish ...
    Jun 9, 2025 · Lingcod Individual Transferable Quotas (ITQ) .................................................................... 8. 7.1. Licence Issuance ...
  69. [69]
    Ophiodon elongatus, Lingcod : fisheries, gamefish - FishBase
    Etymology: Ophiodon: Greek, ophis = serpent + Greek, odous = teeth (Ref. 45335). More on author: Girard.
  70. [70]
    [PDF] Bringing Back the Fish - An Evaluation of U.S. Fisheries Rebuilding ...
    The 1997. SOS report listed sea scallops, monkfish, southern silver hake, and red hake, as well as five groundfish species (Gulf of. Maine cod, American plaice, ...
  71. [71]
    [PDF] The Law That's Saving American Fisheries - Ocean Conservancy
    The pacific lingcod population was rebuilt ahead of schedule. JIM LyLE triple whammy of failure to heed scientific advice, quotas set too high, and lack of ...<|separator|>
  72. [72]
    Lingcod raw nutrition: calories, carbs, GI, protein, fiber, fats - Foodstruct
    Lingcod raw nutrition (100 grams). Richest in Potassium: 437mg (13% of DV), Vitamin B12: 4µg (150% of DV). Calories:85, Net carbs: 0, Protein: 17.66.
  73. [73]
    Effect of Season on Vitamin E, Fatty Acid Profile, and Nutritional ...
    Aug 6, 2025 · On the other hand, there are studies (Hamre et al., 2003) that point to a seasonal variation of tocopherols in parallel with lipid content. ...
  74. [74]
    https://foodstruct.com/food/lingcod-nutrition
  75. [75]
    Advice about Eating Fish - FDA
    Mar 5, 2024 · This chart can help you choose which fish to eat, and how often to eat them, based on their mercury levels.
  76. [76]
    [PDF] Mercury Content of Oregon Groundfish - Oregon State University
    The study found mercury levels in most Oregon groundfish to be. “significantly lower than 0.50 ppm.” Only spiny dogfish had mercury levels above 0.50 ppm. Today ...
  77. [77]
    Wild Alaska Seafood Nutrition Information
    Alaska seafood is part of a healthy eating pattern and provides: High levels of quality protein; Healthy omega-3 fats (DHA and EPA); A multitude of ...<|control11|><|separator|>