Lingcod

Lingcod
Ophiodon elongatus
At Santa Catalina Island, California
Scientific classification
Domain:	Eukaryota
Kingdom:	Animalia
Phylum:	Chordata
Class:	Actinopterygii
Order:	Scorpaeniformes
Family:	Hexagrammidae
Genus:	Ophiodon
Species:	O. elongatus
Binomial name
Ophiodon elongatus Girard, 1854
Range of the lingcod.

The lingcod or ling cod (Ophiodon elongatus) is neither a ling nor a cod, but is also known as known as the buffalo cod or cultus cod, or Buckethead is a fish of the greenling family Hexagrammidae. It is the only extant member of the genus Ophiodon.^[1] A slightly larger, extinct species, Ophiodon ozymandias, is known from fossils from the Late Miocene of Southern California.^[2]

Ophiodon elongatus is native to the North American west coast from Shumagin Islands in the Gulf of Alaska to Baja California, Mexico. It has been observed up to a size of 152 centimetres (60 in) and a weight of 59 kilograms (130 lb).^[3] It is spotted in various shades of gray. The lingcod is a popular eating fish, and is thus prized by anglers. Though not closely related to either ling or cod, the name "lingcod" originated because it somewhat resembles those fish. Around 20% of lingcods have blue-green to turquoise flesh.^[4]p. 298 The color, which is destroyed by cooking, may be due to biliverdin, but this has not been established beyond doubt.^[5]

Appearance

Lingcods have several variations in their appearance, including dark gray, blue, brown, or green coloring on the back, sometimes accompanying mottling or spotting on the upper back that is copper colored. The belly is typically lighter than the body.^[6] Lingcod typically has a large head and mouth where the upper jaw extends posteriorly past the eyes.^[6] They have 18 large and sharp teeth that are canine-like.^[6] This body of a lingcod resembles a fusiform body plan, indicating their primary mode of movement is quick, short, bursts. The head of a lingcod is unscaled and has a cirrus above the eye. Lingcod's lateral line is prominent and white while the body is covered in cycloid scales. The dorsal fin is composed of spines and rays, separated by a notch. The anal fin also contains 3 spines.^[6] Lingcod do not have a swim bladder.^[7] Lingcod grows relatively quickly and up to 5 feet (60 inches or 152 centimeters) or 80 pounds but has been reported to weigh 59 kilograms (130 pounds).^[8]

Polymorphism of Lingcod

About 20% of the lingcod population in the Pacific Ocean on the west coast of North America presents a blue coloration, while the other 80% presents with the brown coloration morphology. Blue lingcods have blue coloration in both the external and internal tissue.^[9] In general, the effect of blue polymorphism observed in other fish species, such as other members of the Family Hexagrammidae and Family Cottidae, can be from the bile pigment biliverdin.^[4] Biliverdin is a product of heme catabolism which circulates the lymph and suffuses tissues. However, this hypothesis has not been tested in lingcod. Dysfunction of the liver or gallbladder may also result in biliverdin permeating tissues^[10] and biliverdin is also linked to starvation.^[11] Anecdotally, blue coloration in lingcod has been thought to be caused by dietary preferences through the individual preference of the consumption of prey items that have increased levels of biliverdin in their tissue or prey items that trigger biliverdin release.^[12]

A study examining the relationship between parasites and lingcods from the coast of Alaska, Washington, and California, USA found that blue male lingcods carried 1.89 times more parasites brown counterparts. However, the study found that there was no difference in blue and brown female lingcod regarding parasite burden despite blue coloration being more common in females. The discrepancy in the burden of parasites between male and female lingcod may be because male vertebrates' immune systems are typically less effective than females since male sex hormones have immunocompromising properties.^[9]

The same study found that blue Lingcod individuals of both sexes have a lower hepatosomatic index value, which may indicate blueness is also an indication of poor body condition. The exact mechanism behind the production of blueness is not yet determined. One explanation includes that parasites may cause physiological damage to the fish, producing blueness as a result. Another possible explanation is that starvation may be the driving factor for blue coloration and parasite burden, but this factor is unmeasurable. Moreover, the study's findings suggest that the immune system may play a role in blue coloration, but when coupled with parasitism expresses a role in the population dynamics of lingcod. Future studies are required for further determination of the cause of polymorphism of Lingcod.^[9]

Range & Habitat

Ophiodon elongatus is native to the North American west coast from the Shumagin Islands in the Gulf of Alaska to Baja California, Mexico. They are found on the bottom, with most individuals occupying rocky areas at depths of 10 to 100 m (32 to 328 ft), however, Lingcod has been found at depths of 475 meters (1,558 feet).^[13] Tagging studies have shown lingcod is a largely nonmigratory species, with colonization and recruitment occurring in localized areas only.^[14] However, Lingcod are the most abundant near British Columbia, Canada, and Washington, USA. The Lingcods within this range are composed of two stocks, whose status is maintained by NOAA Fisheries: The Northern Pacific stock and the Southern Pacific stock.^[15]

When lingcod are in their larvae life stage, they typically live near the surface of the ocean. At the juvenile life stage, lingcod live on sandy ocean bottoms with eelgrass or kelp beds near the shore.^[15] More specifically, year 1 Lingcod (Lingcod that are equal to or under 25 cm) are found in homogeneous soft sediment to avoid predation from adult Lingcod as well as wave relief areas. Meanwhile, year 2 Lingcod (Lingcod that are 25–45 cm) is found usually near alternating sizes of rock substrates with varying combinations of moderate and low relief but still in generally shallow waters.^[16] As Lingcod approach adulthood, they move to more rocky habitats or into seaweed, kelp, and eelgrass beds. The benefit of this habitat is food abundance. Year 3+ Lingcod (Lingcod that are equal to or greater than 50 cm) are positively associated with a hard substrate such as rocky reefs and generally deeper waters as well.^[16] Such a shift in habitat based on the life stages portrays Lingcod's ontogenetic shift.^[16]

Typically, female Lingcod will migrate seasonally to spawn but male Lingcod prefer to stay near the familiar habitat in which they were born. However, in certain cases, there have been cases of immature Lingcod migrating more than 60 miles. Females mainly go to more shallow waters to lay eggs.^[16] Lingcod have a narrow home range and show territorial behaviors.^[17] This behavior aids Lingcods in returning to the same reef for spawning.

Lifecycle & Reproduction

Lingcod can also live more than 20 years but typically only live up to 14 years for males and 20 years for females.^[6]

Starting in November, male lingcod migrate to nearshore spawning grounds and establish territories.^[18] Such interannual nest fidelity coupled with great precision of the site is one of the first recorded examples of such behaviors in temperate marine fish. This behavior also provides evidence that male Lingcod's selection for nesting sites are a component of prespawning mate attraction behavior.^[19]

Spawning likely occurs at night and occurs annually between January and March.^[18] A female Lingcod may lay up to 500,000 eggs in a nest, which she will place under rocks or rocky crevices within a male's territory. The female Lingcod will leave the nest site immediately after depositing eggs. However, the male Lincod will come to fertilize the eggs by spawning. After the eggs are fertilized, the male will actively defend the nest from predators for 6 weeks until the eggs hatch^[20] between January and June.^[13]

Male Lingcods typically will only defend one nest, however, it has been observed for male lingcods to defend up to three nests if the nests are within their territory and close enough to each other.^[18] Two types of guarding behavior can be observed in male Lingcod. The first type of behavior includes a male lying directly on or next to the nest and remaining motionless unless disturbed. The second type of behavior includes a male in a sentry post and providing active defense when any other fish would swim close.^[20] This reproductive method is oviparous which reflects the males guarding the eggs in a nest until the eggs hatch.^[13] Oviparous parental care provides offspring care by one, both, or neither parents by maximizing both sexes’ fitness through a wide range of mating behaviors such as monogamy to polygamy. Usually, like in the case of Lingcod, males are the primary caregivers^[21] but Lingcod typically follows a polygamy mating structure which contributes to the effective population size of Lingcod.^[19]

Skeleton of a lingcod

The larvae are pelagic until late May or early June, when they settle to the bottom as juveniles. Initially they inhabit eelgrass beds, then move to flat, sandy areas that are not the typical habitat of older lingcod. They eventually settle in habitats of similar relief and substrate as older lingcod, but remain at shallower depths for several years.

Females reach sexual maturity when they are 3 years old and 30 inches long. Males reach sexual maturity when they are 2 years old and about 20 inches long.  An adult male can be distinguished externally from a female by the presence of a small, conical papilla behind the anal vent. Up to age two, males and females grow at similar rates, with both reaching an average length of 45 centimeters (18 in). After age two, females grow faster than males, with the growth of males tapering off at about age eight, and females continuing to grow until about age 12 to 14.

Age determination

In 1977, Dr. Dick Beamish and Doris Chilton of the Pacific Biological Station published an article showing that cross sections of the fourth to eighth fin rays from the second dorsal fin provided a method for estimating the age of lingcod.^[22][23] This method has since been validated by a mark-recapture study in which lingcod received an injection of oxytetracycline. Other methods of aging, such as those using scales and otoliths, were found to underestimate ages for older fish.

Ages are determined from fins in much the same manner as for other aging structures: sections of varying thickness are examined under a microscope, and the annuli, or rings, that are formed for each year of growth are counted and used to estimate the age. The cross sections must be made at right angles to the length of the fin ray, and it is therefore important that fins be dried flat, with the cut surface at right angles to the fin rays. In addition, the distance the section is cut from the fin ray base is important, so all fins should be collected with the bases intact.^[24][25]

Lingcod caught using swim-bait in Pacifica, CA, USA. Note regurgitation of stomach contents during retrieve, frequently reported by fishermen.

More specifically, in preparation for determining the age of a Lingcod, the fourth to eighth rays on the second dorsal fin are used due to having the highest accuracy and readability. Once the rays are cut, the rays are dried in a manner where they lay perpendicular to the cut base for up to 3 days. Once dried, two layers of Cyanoacrylate glue are used to harden the rays, followed by cutting the rays into 1-2mm wide sections from the start of the fin base with a PACE Pico high-speed saw. This usually provides 5-6 ray sections that can be examined under a microscope slide in addition to two layers of medium viscosity mounting fluid.^[26]

To determine the age of a Lingcod, the number of annuli is counted. Annuli are the translucent zones that form during winter growth yearly. Summer and spring growth results in an opaque zone. Checks or fine and translucent rings may also result from summer growth.^[26]

One problem associated with using fin rays to age older fish is the center may be resorbed, resulting in the loss of the first two annuli. It is therefore necessary to determine an average width for the first two annuli by examining the fins from juvenile fish. This measurement can then be used to estimate the position of the third annulus on older fish.

Diet

Adult lingcod are aggressive predators. They consume other bottom-dwelling fish, including other Lingcod, squid, octopus, and crab.^[13] Lingcod are voracious predators, feeding on nearly anything they can fit in their mouths, including invertebrates and many species of fish, such as herring (Clupea pallasii), salmon, and Pacific hake (Merluccius productus). One of their favorite foods is smaller octopuses, and they also readily devour large rockfish. Lingcod that survive the larval stages have few predators themselves and are vulnerable mainly to marine mammals, such as sea lions, harbor seals, sharks, and more mature Lingcods^[15].

Larvae Lingcod typically feed on zooplankton, krill, and larval crustaceans while juvenile Lingcod feed on small fish^[15].

Nutrition

Nutrition information for lingcod is as follows.^[27]

Serving Size 100g Calories 88 kcal Protein 19.1 g Protein calories: 82 kcal Protein calories % : 0.7 g Fat 0.7 g Fat calories: 7 kcal Fat calories % : 7.6% Carbohydrate 0.0 g Carbohydrate calories: 0 kcal Carbohydrate calories % : 0.0% Cholesterol 73.6 mg Sodium 51.5 mg

Serving Size per 100g per 100 kcal Omega 3 (EPA+DHA) 361 mg 413 mg Vitamin B3 1.8 mg 2.1 mg Vitamin B6 0.2 mg 0.2 mg Vitamin B12 1.1 mcg 1.3 mcg Vitamin D <43 IU <49 IU Vitamin E 0 mg 0 mg Calcium 6.7 mg 7.7 mg Magnesium 25.5 mg 29.2 mg Phosphorus 226 mg 259 mg Potassium 470 mg 538 mg Selenium 50 mcg 57 mcg

Conservation

According to the NOAA Fisheries, both population stocks (The Northern Pacific Coast and Southern Pacific Coast stocks) of lingcod are not overfished as of the 2021 stock assessment and are not subjected to overfishing based on 2021 catch data. More information and updated information may be found at Stock SMART (noaa.gov) for the Northern Pacific stock and Stock SMART (noaa.gov) for the Southern Pacific stock.^[15]

The Alaska Department of Fish and Game conservatively manages Lingcod in Alaska to prevent overfishing as it is hard for Lingcod to recover from an overfishing event. Such management includes protecting female Lingcod that are spawning and male Lingcod who are nest-guarding, by closing sport and commercial fisheries closed during those two periods. Minimum size limits of Lingcod are also established to prevent the harvest of immature fish to allow the fish to spawn at least once before harvest. There are also catch limits, where the sporting side of fishing is restricted by a daily bag and possession limit, and the commercial side is restricted by bycatch and bycatch quotas.^[7]

Under the Washington Department of Fish and Wildlife, lingcod are identified as a Priority Species under the WDFW's Priority Habitat and Species Program. This provides lingcod protective measures for their survival due to factors such as their population status, sensitivity to habitat alteration, and/or recreational, commercial, or tribal importance.^[6]

The California Department of Fish and Wildlife works closely with NOAA Fisheries, other states, and the Pacific Fishery Management Council (PFMC) to manage lingcod in addition to other groundfishes on a sustainable basis.^[13] This management is under the federal Groundfish Fishery Management Plan (GFMP) implemented by the PFMC in 1982 which facilitates the joint jurisdiction of the states and the federal government. However, federal and local regulations still apply for fishing and recreation use regarding lingcod to protect habitat and other sensitive fish populations.^[13]

Habitat conservation is of concern for Lingcod as younger Lingcod are typically in shallow waters near vegetation of kelp or eelgrass beds.^[16] Such kelp and eelgrass beds are very susceptible to natural and anthropogenic impacts and thus are declining worldwide,^[28] pushing younger Lingcod to more structurally complex habitats such as hard and mixed substrates.^[16]

Lingcod is harvested alongside bottom longline and salmon troll fisheries. When trawls are used to harvest Lingcod, there are varying degrees of disruption to the ocean floor which impacts habitat. There is a lesser degree of disruption when trawls are used on soft, sandy, or muddy ocean floors. It has been reported that charter boat fishermen in Washington, CA use an alternative bait, large flatfish, to better target Lingcod while decreasing yelloweye rockfish bycatch.^[15]

Historically, in 1997, Lingcod were declared overfished, ranging from Washington to California. In, 2005 they were declared restored, thanks to restrictive fishing regulations and favorable oceanographic conditions.^[29]

Fisheries & Recreation

Management includes size limits, trip limits, the opening and closing of certain seasons or areas, gear restrictions that can limit bycatch and further impacts to the habitat, and a trawl rationalization catch share program. The trawl rationalization catch share program is a program that is based on catch limits which are constructed from the health of each fish stock. This is then divided into shares and given to individual fishermen and groups. Such management is under the Pacific Coast Groundfish Fishery Management Plan.^[15]

In commercial harvest, in 2022, 1.8 million pounds of Lingcod were harvested, which was valued at $2.7 million.^[15] Commercial harvest equipment varies by sector but can include different hook-and-line gear, gill nets, trawls, and traps. Lingcod may be sold fresh, dead, alive, or frozen in the US and in exports.^[13]

Recreation fishing for lingcod occurs throughout the West Coast, including Alaska. 1.3 million pounds of lingcod were harvested by recreational anglers in 2021. There are restrictions to sizes and the number of Lingcod that can be kept each day.^[15] Legal equipment includes hook and line as well as spear gear.^[13]

Historically, Lingcod has been harvested by many indigenous coastal populations within Southeast, Southcentral, and Western Alaska. Traditionally, they were caught for subsistence use with wooden or bone hooks. Today, lingcod is still harvested for subsistence alongside commercial fisheries with longlines, trolls, and jigs.^[15]

Cultural Significance

For the Indigenous peoples of North America, the lingcod acts as a totem for lessons of adaptability, depth, and resilience which reflects the lingcod's existence deep under the sea. More specifically, for the Tlingit people of Alaska, the lingcod represents wisdom and strength. For the Haida people of British Columbia, the lingcod represents a powerful guardian. These tribes mentioned and many more, have deep and rich fishing traditions and connections to the ocean which may have provided lingcod symbolism in addition to being a resource. Additionally, it is said that the lingcod may have been created by a powerful deity as a predator to control the overpopulation of other fish species. Other cultures may have considered the Lingcod as the “Godzilla of the kelp forest” as a spirit animal.^[30]

In Eastern cultures, the lingcod represents perseverance and adaptability due to the fish's ability to camouflage in their habitat and it is also a delicacy in many Asian cultures due to the tenderness and distinct flavor of lingcod.^[30]

In Christianity, lingcod may represent the apostle, Peter, a fisherman who was called to follow Jesus. This is due to Lingcod's association with strength and resilience which reflects Peter's faithfulness and courage in preaching the Gospel in the face of persecution and hardship. Moreover, the lingcod's large mouth may also represent Peter's outspokenness in communicating the Word of God.^[30]

Lingcod also has a significant role in the Celtic culture as its fierce demeanor and predatory nature represent warrior-like qualities of strength and power. Lingcod continues to be used as an inspiration for artists and designers.^[30]

In African culture, the lingcod also symbolizes resilience and adaptability due to its ability to thrive through tough conditions and adapt to new environments.^[30]

Spiritually, lingcod are indicative of powerful spiritual messengers who have strong intuition and strength. Moreover, some cultures believe that when a lingcod encounters a person, it may bring good luck and positive energy. Some omens may have positive or negative connotations. For example, seeing the lingcod's baleful eyes from the depths of the ocean could mean good fortune, or it could mean impending danger.^[30]

Gallery

• 
  Lighter color variation
• 
  Lingcod shows its teeth
• 
  Lingcod hides motionless on a reef
• 
  Lingcod with a small sablefish in its mouth

References

1. "World Register of Marine Species Ophiodon Girard, 1854".
2. Jordan, D.S. & J.Z. Gilbert, 1920. Fossil fishes of diatom beds of Lompoc, Stanford University. https://www.biodiversitylibrary.org/item/68104
3. Froese, Rainer; Pauly, Daniel (eds.). "Ophiodon elongatus". FishBase. October 2010 version.
4. Love, Milton S. (2011). Certainly more than you want to know about the fishes of the Pacific Coast : a postmodern experience (PDF). Santa Barbara, Calif.: Really Big Press. ISBN 978-0962872563. Retrieved 18 October 2014.
5. Bland, Alastair. "Red Fish, Blue Fish: Where The Fish Flesh Rainbow Comes From". the salt. NPR. Retrieved 18 October 2014.
6. "Lingcod | Washington Department of Fish & Wildlife". wdfw.wa.gov. Retrieved 2024-11-08.
7. dfg.webmaster@alaska.gov. "Lingcod Species Profile, Alaska Department of Fish and Game". www.adfg.alaska.gov. Retrieved 2024-11-08.
8. Froese, Rainer; Pauly, Daniel (eds.). "Ophiodon elongatus". FishBase. October 2010 version.
9. Wood, Chelsea L.; Leslie, Katie L.; Greene, Alanna; Lam, Laurel S.; Basnett, Bonnie; Hamilton, Scott L.; Samhouri, Jameal F. (2021-12-31). "The weaker sex: Male lingcod (Ophiodon elongatus) with blue color polymorphism are more burdened by parasites than are other sex–color combinations". PLOS ONE. 16 (12): e0261202. Bibcode:2021PLoSO..1661202W. doi:10.1371/journal.pone.0261202. ISSN 1932-6203. PMC 8719767. PMID 34972116.
10. Rust, Michael B. (2003-01-01), Halver, John E.; Hardy, Ronald W. (eds.), "7 - Nutritional Physiology", Fish Nutrition (Third Edition), San Diego: Academic Press, pp. 367–452, ISBN 978-0-12-319652-1, retrieved 2024-11-08
11. Lee Shing Fang (1987-01-01). "Study of the heme catabolism of fish". Comparative Biochemistry and Physiology Part B: Comparative Biochemistry. 88 (2): 667–673. doi:10.1016/0305-0491(87)90361-0. ISSN 0305-0491.
12. Galloway, Aaron W. E.; Beaudreau, Anne H.; Thomas, Michael D.; Basnett, Bonnie L.; Lam, Laurel S.; Hamilton, Scott L.; Andrews, Kelly S.; Schram, Julie B.; Watson, Jessica; Samhouri, Jameal F. (September 2021). "Assessing prevalence and correlates of blue-colored flesh in lingcod (Ophiodon elongatus) across their geographic range". Marine Biology. 168 (9): 139. Bibcode:2021MarBi.168..139G. doi:10.1007/s00227-021-03936-6. ISSN 0025-3162.
13. "CA Marine Species Portal". marinespecies.wildlife.ca.gov. Retrieved 2024-11-08.
14. DFO, 2001, Lingcod, DFO Science Stock Report A6-18 Archived 2005-08-18 at the Wayback Machine
15. Fisheries, NOAA (2024-09-06). "Lingcod | NOAA Fisheries". NOAA. Retrieved 2024-11-08.
16. Bassett, Megan; Lindholm, James; Garza, Corey; Kvitek, Rikk; Wilson-Vandenberg, Deb (2018-01-01). "Lingcod (Ophiodon elongatus) habitat associations in California: implications for conservation and management". Environmental Biology of Fishes. 101 (1): 203–213. Bibcode:2018EnvBF.101..203B. doi:10.1007/s10641-017-0692-0. ISSN 1573-5133.
17. Matthews, Kathleen R. "A telemetric study of the home ranges and homing routes of lingcod Ophiodon elongatus on shallow rocky reefs off Vancouver Island, British Columbia." Fishery Bulletin 90.4 (1992): 784-790.
18. Low CJ, Beamish RJ (1978) A Study of the Nesting Behaviour of Lingcod (Ophiodon elongatus) in the Strait of Georgia, British Columbia. Department of Fisheries and Oceans, Fisheries Marine Science Technical Report 843, Ottawa, Canada.
19. King, Jacquelynne R.; Withler, Ruth E. (2005-02). "Male nest site fidelity and female serial polyandry in lingcod ( Ophiodon elongatus , Hexagrammidae)". Molecular Ecology. 14 (2): 653–660. doi:10.1111/j.1365-294X.2005.02438.x. ISSN 0962-1083. {{cite journal}}: Check date values in: |date= (help)
20. O'Connell VM (1993) Submersible observations on lingcod, Ophiodon elongatus, nesting below 30 m off Sitka. Alaska Marine Fisheries Review, 55, 19–24.
21. Blumer, Lawrence S. (1979). "Male Parental Care in the Bony Fishes". The Quarterly Review of Biology. 54 (2): 149–161. ISSN 0033-5770.
22. Beamish, R.J. and D. Chilton. 1977. Age determination of lingcod (Ophiodon elongatus) using dorsal fin rays and scales. J. Fish. Res. Board Can. 27:1305-1313.
23. Chilton, D.E. and R.J. Beamish. 1982. Age determination methods for fishes studied by the Groundfish Program at the Pacific Biological Station. Can. Spec. Publ. Fish. Aquat. Sci. 60: 102 p.
24. Cass, A.J., and R.J. Beamish. 1983. First evidence of validity of the fin-ray method of age determination for marine fishes. N. Am. J. Fish. Man. 3: 182-188.
25. McFarlane, G.A., and J.R. King. The validity of the fin-ray method of age determination for lingcod (Ophiodon elongatus). Fish. Bull. 99: 459-464.
26. Szeche Lam, Laurel (2019-10-01). "Geographic and Habitat-Based Variation in Lingcod (Ophiodon Elongatus) Demography and Life-History Along the U.S. West Coast". Capstone Projects and Master's Theses.
27. Exact Scientific Services. (2021). West Coast Groundfish Nutrient Profiles: Exact Scientific Lab Results. Commissioned by Jana Hennig. Retrieved from https://static1.squarespace.com/static/5a3051588fd4d2db4fb25f26/t/63e40842950bac0c12f8e22b/1675888709465/0+West+Coast+Groundfish+nutrient+profiles+-+Exact+Scientific+lab+results.pdf
28. Williams, Susan L.; Davis, Christopher A. (1996-06). "Population Genetic Analyses of Transplanted Eelgrass ( Zostera marina ) Beds Reveal Reduced Genetic Diversity in Southern California". Restoration Ecology. 4 (2): 163–180. doi:10.1111/j.1526-100X.1996.tb00117.x. ISSN 1061-2971. {{cite journal}}: Check date values in: |date= (help)
29. Jagielo TH, Wallace FR (2005) Assessment of Lingcod (Ophiodon elongatus) for the Pacific Fishery Management Council. pp. 1–153. https://www.pcouncil.org/wpcontent/uploads/ALL_Lingcod_PFMC_Final_2005.pdf. Accessed October 18, 2024
30. "Ling Cod". The Butcher Shop, Inc. Retrieved 2024-11-09.

This article incorporates material from Fisheries and Oceans Canada. This reproduction was not done in affiliation with or with the endorsement of Fisheries and Oceans Canada.

External links

• Lingcod NOAA FishWatch. Retrieved 5 November 2012.