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Lifespan, longevity, and ageing

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Maximum longevity: 3 years (wild) Observations: As in other species of salmon, these animals age and die shortly after spawning. It is not considered ageing but rather sudden death.
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Brief Summary

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The pink salmon, Oncorhynchus gorbuscha, also often called humpback salmon or humpy, is the smallest and most common of the “true” salmon native to the North Pacific (genus Oncorhynchus). Like all the pacific salmon, it is anadromous, returning to freshwater streams to spawn (not always its natal stream, however) after spending 18 months feeding and maturing at sea. Males develop a hump as a secondary sexual characteristic upon returning to streams to spawn, hence its common name. Adults die after spawning. Pink salmon have a two-year life-cycle. Because of this, some rivers produce salmon on even years, some on an “odd” schedule; these populations do not interbreed. Genetic studies indicate that even and odd spawning strains in some rivers have become genetically isolated lines (Heard 1991). Though some strains are imperiled or have been extirpated in California and Washington, NOAA indicates that Pacific Northwest humpback populations are generally healthy, and Alaskan populations are abundant and sustainably harvested under the Pacific Salmon Treaty. Pink salmon is most commonly sold canned. In addition to its native distribution across the North Pacific and Bering Sea from southern California to North East Asia, the pink salmon is also found in the Great Lakes, where the species was accidentally introduced in 1956. (Heard 1991; NOAA/National Marine Fisheries Service Fishwatch; Pacific Salmon Commission; Wikipedia 2012)

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Benefits

provided by FAO species catalogs
Caught by gillnets and trawl nets. The total catch reported for this species to FAO for 1999 was 386 900 t. The countries with the largest catches were Russian Federation (187 142 t) and USA (173 315 t). Mostly sold canned and also utilized fresh, smoked and frozen; also valued for caviar, especially in Japan; eaten steamed, fried, broiled, boiled, microwaved and baked.

Diagnostic Description

provided by FAO species catalogs
Body elongate, becoming deeper with age, spawning males developing a hump on back before dorsal fin. Tip of upper jaw reaching well behind eye; snout and lower jaw becoming strongly hooked in spawning males. Gillrakers 24-36. Piloric coeca 120-140. Dorsal finrays iii-iv + 9-12, and an adipose fin behind it; pelvic finrays i + 9-10, base below about middle of dorsal fin. Anal finrays ii-iv + 12-16. Caudal fin slightly forked. Scales very small, 143-230 in lateral line. Vertebrae 68-72. Colour silvery, almost without dark spots, but during spawning developing blotches on head, upper flanks and caudal fin, the colour almost black.

Reference

Ida, H. - 1984 Salmonidae. In: H. Masuda; K. Amaoka; C. Araga; T. Uyeno; T. Yoshino (eds.). The Fishes of the Japanese Archipelago. Tokai. Univ. Press. 39.

Distribution

provided by FAO species catalogs
A Pacific fish (from rivers of the eastern Korean Pen., eastern Hokkaido to northern California, and also from the Lena River to the Mackenzie River in the Arctic Sea), introduced into rivers affluent to White and Barents Sea (1956-63, 1967-75), now more widespread, the stocks maintained by both natural spawning and further stocking; well established in rivers from Ob to Finmark, but straying further south; records from southern Norway and south-eastern Sweden may have been strays from stocking in Bay of Riga. Feeding migrants are not rare along the coast of northern Japan and the Sea of Japan.

Size

provided by FAO species catalogs
To about 75 cm and 5 kg; usually 40-56 cm (spawning adults).

Brief Summary

provided by FAO species catalogs
Anadromous, pelagicat 0-50 m. Deeper in winter, forming dense shoals during spawning run and making considerable migrations; juveniles in estuarine areas for several months before migration to sea. Fry may sometimes feed on nymphal and larval insects or none at all while in freshwater; feeds on copepods, euphausiids, amphipods, ostracods, decapods larvae, cirripeds, tunicates, and dipterous insects while inshore; feeds also on fishes, squid, and pteropods while in the sea; in freshwaters, adults do not feed.

Diagnostic Description

provided by Fishbase
Distinguished by the presence of large black spots on the back and on both lobes of the caudal fin; the young have no parr marks (Ref. 27547). Body fusiform, streamlined, somewhat laterally compressed; moderately, deeper in breeding males (Ref. 1998). Mouth terminal, normally very little oblique but greatly deformed in breeding males, with lower jaw enlarged, turned up at tip, mouth unable to close (Ref. 1998). Adipose fin large; pelvic fins with axillary process (Ref. 27547). Fish in the sea are steel blue to blue-green on the back, silver on the sides and white on the belly; large oval spots present on the back, adipose fin and both lobes of the caudal fin (Ref. 27547). Breeding males become dark on the back, red with brownish green blotches on the sides; breeding females are similar but less distinctly colored (Ref. 27547). Differs from Oncorhynchus mykiss by having the following unique characters: anal fin with 11-15½ (usually 13½ ) branched rays; 177-240 scales in midlateral row; 26-33 gill rakers; large mature males with enormous hump; juveniles lacking parr marks; and lacking pink to red stripe on flank (Ref. 59043).
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Life Cycle

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Adults develop secondary sexual characteristics during their upstream migration (Ref. 1998), which occurs any time from June to late September, depending on location (Ref. 27547). Male develop a humpback, an enlarged head and large teeth on both jaws that form a pronounced hooked type (Ref. 59043). The upstream run seems to be triggered by high water (Ref. 27547). Female builds the redd by lying on one side and using its tail, it displaces silt and light gravel to produce a deep trough. Male spends most of the time driving off intruding males. When the redd is completed, the female drops into it, followed immediately by the male. They open their mouths, vibrate and release eggs and sperm. In some cases, several males spawn with a single female. The eggs are then covered as the female digs a new redd at the upstream edge of the previous one. Adults live up to a few weeks after spawning before they die (Ref. 1998, 27547). Reported to die 10-20 days after spawning (Ref. 59043). About 1200-1800 eggs are laid. After hatching and the yellow egg yolk is absorbed, if the hatchling doesn't have a parr mark they go to the ocean and come again to the same birthplace stream the next year during spring after growing for 16-18 months. Survival rates are low, at 1-25% (taken from a Canadian river) (Ref. 12218). Reproductive strategy: synchronous ovarian organization, determinate fecundity (Ref. 51846).
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Migration

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Anadromous. Fish that ascend rivers to spawn, as salmon and hilsa do. Sub-division of diadromous. Migrations should be cyclical and predictable and cover more than 100 km.
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Morphology

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Dorsal spines (total): 0; Dorsal soft rays (total): 10 - 15; Analspines: 0; Analsoft rays: 11 - 19; Vertebrae: 63 - 72
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Trophic Strategy

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Anadromous (Ref. 5951). The young migrate seaward (Ref. 9043). Epipelagic (Ref. 58426). Spends 18 months at sea after which spawning migration to the natal river or stream occurs; but because the species is less certain of its homing and there is a certain degree of wandering, streams as much as 640 km from natal streams may be used (Ref. 1998, 27547). Upon emerging from the gravel, fry immediately move downstream and remain inshore for a few months before going out to sea (Ref. 27547). Fry may feed on nymphal and larval insects while in fresh water, but may not feed at all. In the sea, young feed on copepods and larvacean tunicates, its diet shifting to amphipods, euphausiids and fishes as the fish grows (Ref. 27547). Other food include ostracods, decapod larvae, cirripeds, tunicates, dipterous insects and planktonic organisms (Ref. 1998, 13434, 27547). Fry may be preyed upon by birds and mammals while adults by marine mammals and large fish (Ref. 1998).

Reference

Shershnev, A.P., V.V. Chupakhin and V.A. Rudnev 1982 Ecology of juvenile pink salmon, Oncorhynchus gorbuscha (Salmonidae), from Sakhalin and Iturup Islands during the marine period of life. J. Ichthyol. 22(3):90-97.

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Biology

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An anadromous species which inhabits ocean and coastal streams (Ref. 5723, 86798). Epipelagic (Ref. 58426). Pelagic at the sea. In freshwater, lives in Montane and Piedmont rivers with moderate to fast current and gravel bottom. Spawns in riffles or at head of riffles in shallow water with current up to 1.5 m/s, and clean coarse gravel (Ref. 59043). Spends 18 months at sea after which spawning migration to the natal river or stream occurs; but because the species is less certain of its homing and there is a certain degree of wandering, streams as much as 640 km from natal streams may be used (Ref. 1998, 27547). Upon emerging from the gravel, fry immediately move downstream and remain inshore for a few months before going out to sea. Fry may feed on nymphal and larval insects while in fresh water, but may not feed at all. In the sea, young feed on copepods and larvacean tunicates, its diet shifting to amphipods, euphausiids and fishes as the fish grows (Ref. 27547). Other food include ostracods, decapod larvae, cirripeds, tunicates, dipterous insects (Ref. 1998, 27547). Fry may be preyed upon by birds and mammals while adults by marine mammals and large fish (Ref. 1998). Mostly sold canned (Ref. 1998) but also utilized fresh, smoked, and frozen; also valued for caviar, especially in Japan; eaten steamed, fried, broiled, boiled, microwaved, and baked (Ref. 9988). The smallest of the true salmon (Ref. 12218).
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Importance

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fisheries: highly commercial; aquaculture: commercial; gamefish: yes; price category: low; price reliability: reliable: based on ex-vessel price for this species
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Pink salmon

provided by wikipedia EN

Male spawning phase pink salmon
Male pink salmon caught by a fly fisherman in its freshwater spawning phase
Pink salmon spawning in the Indian River, Sitka, AK, September 2018

Pink salmon or humpback salmon (Oncorhynchus gorbuscha) is a species of anadromous fish in the salmon family. It is the smallest and most abundant of the Pacific salmon. The scientific species name is based on the Russian common name for this species gorbúša (горбуша), which literally means humpie.

Description

In the ocean, pink salmon are bright silver fish. After returning to their spawning streams, their coloring changes to pale grey on the back with yellowish-white belly (although some turn an overall dull green color). As with all salmon, in addition to the dorsal fin, they also have an adipose fin. The fish is characterized by a white mouth with black gums, no teeth on the tongue, large oval-shaped black spots on the back, a v-shaped tail, and an anal fin with 13-17 soft rays. During their spawning migration, males develop a pronounced humped back, hence their nickname "humpies". Pink salmon average 4.8 pounds (2.2 kg) in weight.[1] The maximum recorded size was 30 inches (76 cm) and 15 pounds (6.8 kg).[2]

Distribution

The native range of the species is in the Pacific and Arctic coastal waters and rivers, from the Sacramento River in northern California to the Mackenzie River in Canada; and in the west from the Lena River in Siberia to Korea and Honshu in Japan. In North America pink salmon spawn from the Mackenzie River in the Arctic[3] to as far south as tributaries of Puget Sound, Washington, although they were also reported in the San Lorenzo River near Santa Cruz, California in 1915[4] and the Sacramento River in northern California in the 1950s.[5] In 2013 a new record for the southernmost extent of spawning pink salmon was published for the Salinas River.[6] In the fall of 2017 a dozen pink salmon were counted in Lagunitas Creek about 25 miles (40 km) north of San Francisco, California.[7]

Pink salmon were introduced into the Great Lakes of North America, where there are now self-sustaining populations,[8] and in Iran. In Europe, pink salmon have been periodically introduced to rivers of the White Sea and Barents Sea basins in Russia since 1956. Stray fish from these rivers have been encountered ascending to rivers also in Norway, Sweden, Ireland, Great Britain and Iceland, and in Norway even self-sustaining populations have been observed.[9] In 2017 larger numbers than usual of this species were caught in rivers in Scotland and spawning was recorded.[10] In 2021, they were reported to have invaded Akerselva in downtown Oslo, the capital of Norway.[11]

Ecology

Habitat

Pink salmon are coldwater fish with a preferred temperature range of 5.6 to 14.6 °C, an optimal temperature of 10.1 °C, and an upper incipient lethal temperature of 25.8 °C.

Reproduction

Pink salmon in their native range have a strict two year life cycle, thus odd and even-year populations do not interbreed. In the state of Washington, pink salmon runs occur on odd years.[12] Adult pink salmon enter spawning streams from the ocean, usually returning to the stream where they originated. Spawning occurs between late June and mid-October, in coastal streams and some longer rivers, and in the intertidal zone or at the mouth of streams if hyporheic freshwater is available. Using her tail, the female digs a trough-shaped nest, called a redd or rede (Scandinavian word for "nest"), in the gravel of the stream bed, where she deposits her eggs. As she expels the eggs, she is approached by one or more males, which fertilize them as they fall into the redd. Subsequently, the female covers the newly deposited zygotes, again with thrusts of her tail, against the gravel at the top of the redd. The female lays from 1,000 to 2,000 eggs in several clutches within the redd, often fertilized by different males. Females guard their redds until death, which comes within days of spawning. In dense populations, a major source of mortality for embryos is a superposition of redds by later-spawning fish. The eggs hatch from December to February, depending on water temperature, and the juveniles emerge from the gravel during March and April and quickly migrate downstream to estuaries, at about one-quarter gram in weight. The fish achieve sexual maturity in their second year of life. They return to freshwater in the summer or autumn as two-year-old adults. Pink and chum salmon sometimes interbreed in nature to form the hybrid known as the miko salmon; the hybrids are sterile.

Diet

In their freshwater stage, juvenile pink salmon consume invertebrates and zooplankton. In the ocean, they feed on a variety of plankton, invertebrates, and small fish.[13] Adults do not feed as they return to freshwater to spawn.

Predators and trophic interactions

Many different animals feed on pink salmon throughout their life cycle, from small fish, birds, and mammals in freshwater ecosystems when the salmon are eggs or fry, through large fish, seabirds, and marine mammals when they are in the ocean.[14]

Eggs and the carcasses of spawned salmon adults can provide substantial nutrient subsidies to freshwater food webs. Where pink salmon are expanding into subarctic Norwegian rivers, their eggs are consumed by native salmonids.[15] In the Keogh River in Canada, higher numbers of pink salmon eggs were shown to reduce competition among other fish species relying on this food source.[16] Bears feed on adult migrating salmon, and choose to prey on salmon which have not yet spawned and thus are more nutritious, when they have a choice.[17] Many of the pink salmon that are caught by bears in Alaska are transported away from the water into riparian areas and forests,[18] and nutrients from the carcasses end up in plants and trees.[19] Carcasses of pink salmon that successfully spawn decompose rapidly, and are colonized by aquatic invertebrates in the process.[20] These resource subsidies to stream habitats can increase the growth of other salmonid species in the streams.[21]

Conservation status

NatureServe lists the pink salmon as critically imperiled in California, and imperiled in Washington. In Alaska and British Columbia, they are considered secure.[22] No pink salmon Evolutionary Significant Units are listed under the Endangered Species Act.

Fisheries and use

Alaskan pink salmon in its freshwater spawning phase.

The commercial harvest of pink salmon is a mainstay of fisheries of both the eastern and western North Pacific. In 2010, the total harvest was some 260 million fish, corresponding to 400,000 tonnes. Of this, 140 million fish were from Russian fisheries and 107 million from the USA (Alaska).[23] Pink salmon account for 69% of the total Russian salmon fisheries.[24] The majority of pink salmon are harvested using coastal set net traps, and the fisheries are concentrated on the east coast of Sakhalin (average 110,000 tonnes per year).[25]

In North America, beginning in the late 19th century fish traps were used to supply fish for commercial canning and salting. The industry expanded steadily until 1920. During the 1940s and 1950s, pink salmon populations declined drastically. Fish traps were prohibited in Alaska in 1959. Now, most pink salmon are taken with purse seines, drift nets or gillnets. Populations and harvests increased rapidly after the mid-1970s and have been at record high numbers since the 1980s.

More than 20 million harvested pink salmon are produced by fishery-enhancement hatcheries, particularly in the northern Gulf of Alaska.[26] Pink salmon are not grown in significant numbers in fish farms. The fish are often canned, smoked or salted. Pink salmon roe is also harvested for caviar, a particularly valuable product in Asia. There is some evidence the pink salmon fishery industry may be having an impact on the size of pink salmon & other salmon species as well as the abundance of species that compete for and serve as their food sources.[27][28]

References

Citations

  1. ^ Fisheries and Oceans Canada species account Retrieved 2007 October 16
  2. ^ Fishbase species account Retrieved 2007 October 16
  3. ^ J.R. Irvine, E. Linn, K. Gillespie, C. McLeod, and J.D. Reist (March 2009). Pacific Salmon in Canada's Arctic Draining Rivers, With Emphasis on Those in British Columbia and the Yukon (PDF) (Report). Pacific Fisheries Resource Conservation Council. Retrieved December 30, 2017.{{cite report}}: CS1 maint: uses authors parameter (link)
  4. ^ N. B. Scofield (1916). "The humpback and dog salmon taken in San Lorenzo River". California Fish and Game. 2 (1): 41.
  5. ^ Richard J. Hallock; Donald H. Fry Jr. "Five Species of Salmon, Oncorhynchus, in the Sacramento River, California". California Fish and Game. 53 (1): 5~22. CiteSeerX 10.1.1.475.6744.
  6. ^ Tom D. Skiles, Ronald M. Yoshiyama, Peter B. Moyle (2013). "Pink salmon (Oncorhynchus gorbuscha) in the Salinas River, California: new record and historical perspectives". California Fish and Game. 99 (1): 55–59. Retrieved December 30, 2017.{{cite journal}}: CS1 maint: uses authors parameter (link)
  7. ^ Tiffany Camhi (December 9, 2017). "Marin's Lagunitas Creek Welcomes Unexpected Guests in this Year's Spawning Season". KQED News California Report. Retrieved December 29, 2017.
  8. ^ "Pink Salmon (Oncorhynchus gorbuscha) - Species Profile".
  9. ^ O. gorbuscha (Walbaum, 1792) - горбуша. In Petrosyan, V.G. (ed), Позвоночные животные России (Vertebrates of Russia) information system
  10. ^ John D. Armstrong; Colin W. Bean; Alan Wells (2018). "The Scottish invasion of pink salmon in 2017" (PDF). Journal of Fish Biology. 93:8–11 (1): 8–11. doi:10.1111/jfb.13680. PMID 29956309. S2CID 49606948.
  11. ^ Furuly, Jan Gunnar (24 August 2021). "Nå invaderer monsterlaksen Akerselva. Men det er ikke aktuelt å fjerne den med garn eller harpun". Aftenposten.
  12. ^ "Pink salmon | Washington Department of Fish & Wildlife".
  13. ^ dfg.webmaster@alaska.gov. "Pink Salmon Species Profile, Alaska Department of Fish and Game". www.adfg.alaska.gov. Retrieved 2021-03-18.
  14. ^ Fisheries, NOAA (2021-01-27). "Pink Salmon | NOAA Fisheries". NOAA. Retrieved 2021-03-18.
  15. ^ Dunlop, Kathy; Eloranta, Antti P.; Schoen, Erik; Wipfli, Mark; Jensen, Jenny L. A.; Muladal, Rune; Christensen, Guttorm N. (2021). "Evidence of energy and nutrient transfer from invasive pink salmon (Oncorhynchus gorbuscha) spawners to juvenile Atlantic salmon (Salmo salar) and brown trout (Salmo trutta) in northern Norway". Ecology of Freshwater Fish. 30 (2): 270–283. doi:10.1111/eff.12582. ISSN 1600-0633.
  16. ^ Bailey, C. J.; Andersson, L. C.; Arbeider, M.; Bradford, K.; Moore, J. W. (2019-06-01). "Salmon egg subsidies and interference competition among stream fishes". Environmental Biology of Fishes. 102 (6): 915–926. doi:10.1007/s10641-019-00880-9. ISSN 1573-5133. S2CID 111389451.
  17. ^ Gende, S.M.; Quinn, T.P.; Willson, M.F. (2001-05-01). "Consumption choice by bears feeding on salmon". Oecologia. 127 (3): 372–382. Bibcode:2001Oecol.127..372G. doi:10.1007/s004420000590. ISSN 1432-1939. PMID 28547108. S2CID 41395058.
  18. ^ Quinn, Thomas P. QuinnT P.; Carlson, Stephanie M. CarlsonS M.; Gende, Scott M. GendeS M.; Harry B. Rich, Jr H. B. Rich (2009-02-13). "Transportation of Pacific salmon carcasses from streams to riparian forests by bears". Canadian Journal of Zoology. 87 (3): 195–203. doi:10.1139/Z09-004.
  19. ^ Helfield, James M.; Naiman, Robert J. (2001). "Effects of Salmon-Derived Nitrogen on Riparian Forest Growth and Implications for Stream Productivity". Ecology. 82 (9): 2403–2409. doi:10.1890/0012-9658(2001)082[2403:EOSDNO]2.0.CO;2. ISSN 1939-9170.
  20. ^ Chaloner, Dominic T.; Wipfli, Mark S.; Caouette, John P. (2002). "Mass loss and macroinvertebrate colonisation of Pacific salmon carcasses in south-eastern Alaskan streams". Freshwater Biology. 47 (2): 263–273. doi:10.1046/j.1365-2427.2002.00804.x. ISSN 1365-2427.
  21. ^ Wipfli, Mark S.; Hudson, John P.; Caouette, John P.; Chaloner, Dominic T. (2003-03-01). "Marine Subsidies in Freshwater Ecosystems: Salmon Carcasses Increase the Growth Rates of Stream-Resident Salmonids". Transactions of the American Fisheries Society. 132 (2): 371–381. doi:10.1577/1548-8659(2003)132<0371:MSIFES>2.0.CO;2. ISSN 0002-8487.
  22. ^ "Comprehensive Report Species - Oncorhynchus gorbuscha". www.natureserve.org. Retrieved 11 April 2018.
  23. ^ Annual Statistics 2010: Commercial salmon catch by species and country North Pacific Anadromous Fish Commission Statistical Yearbook. Retrieved 2015 March 16
  24. ^ Fisheries Improvement: Western Pacific Salmon: Overview Dec 2013 Sustainable Fisheries Partnership www.sustainablefish.org (retrieved March 2015)
  25. ^ Sakhalin Island Regional Salmon FIP salmonfippartnership.org (March 2015)
  26. ^ Salmon Enhancement and Hatcheries Retrieved 2007 October 16
  27. ^ Weiss, Miranda (June 3, 2022). "There are too many pink salmon in the Pacific". Popular Science. Retrieved June 11, 2022.
  28. ^ Batten, Sonia; Ruggerone, Gregory; Ortiz, Ivonne (June 8, 2018). "Pink Salmon induce a trophic cascade in plankton populations in the southern Bering Sea and around the Aleutian Islands". Fisheries Oceanography. 27 (6): 548–559. doi:10.1111/fog.12276. S2CID 90709968. Retrieved June 11, 2022.

Sources

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Pink salmon: Brief Summary

provided by wikipedia EN
Male spawning phase pink salmon Male pink salmon caught by a fly fisherman in its freshwater spawning phase Pink salmon spawning in the Indian River, Sitka, AK, September 2018

Pink salmon or humpback salmon (Oncorhynchus gorbuscha) is a species of anadromous fish in the salmon family. It is the smallest and most abundant of the Pacific salmon. The scientific species name is based on the Russian common name for this species gorbúša (горбуша), which literally means humpie.

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Diet

provided by World Register of Marine Species
Feeds on insects, copepods, tunicates, amphipods, euphausiids and fishes

Reference

North-West Atlantic Ocean species (NWARMS)

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Distribution

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Native of the North Pacific, introduced into the Atlantic regions of Maine and Newfoundland.

Reference

North-West Atlantic Ocean species (NWARMS)

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Habitat

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anadromous species; born in the river, migrates to sea as adults and returns to spawn

Reference

North-West Atlantic Ocean species (NWARMS)

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Habitat

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benthic

Reference

North-West Atlantic Ocean species (NWARMS)

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Habitat

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Known from seamounts and knolls

Reference

Stocks, K. 2009. Seamounts Online: an online information system for seamount biology. Version 2009-1. World Wide Web electronic publication.

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