- Pacific ocean perch
Taxobox
name = Pacific ocean perch
image_width = 250px
image_caption = Adult "S. alutus" in the Gulf of Alaska
regnum =Animal ia
phylum = Chordata
classis =Actinopterygii
ordo =Scorpaeniformes
familia =Sebastidae
genus = "Sebastes "
species = "S. alutus"
binomial = "Sebastes alutus"
binomial_authority = (Gilbert, 1890)The Pacific ocean perch ("Sebastes alutus") has a wide distribution in theNorth Pacific fromsouthern California around thePacific rim to northernHonshū , Japan, including theBering Sea . The species appears to be most abundant in northernBritish Columbia , theGulf of Alaska , and theAleutian Islands (Allen and Smith 1988).Habitat and migration
Adults are found primarily offshore on the outer
continental shelf and the uppercontinental slope in depths 150-420 m. Seasonal differences in depth distribution have been noted by many investigators. In the summer, adults inhabit shallower depths, especially those between 150 and 300 m. In the fall, the fish apparently migrate farther offshore to depths of ~300-420 m. They reside in these deeper depths until about May, when they return to their shallower summer distribution (Love "et al." 2002).This seasonal pattern is probably related to summer feeding and winter spawning. Although small numbers of Pacific ocean perch are dispersed throughout their preferred depth range on the continental shelf and slope, most of the population occurs in patchy, localized aggregations (Hanselman "et al." 2001). Pacific ocean perch are generally considered to be semi-
demersal but there can at times be a significantpelagic component to their distribution. Pacific ocean perch often move off-bottom at night to feed, apparently following dieleuphausiid migrations.Commercial fishing data in the Gulf of Alaska since 1995 show that pelagictrawl s fished off-bottom have accounted for as much as 20% of the annual harvest of this species.Life history
There is much uncertainty about the life history of Pacific ocean perch, although generally more is known than for other rockfish species (Kendall and Lenarz 1986). The species appears to be
viviparous (the eggs develop internally and receive at least some nourishment from the mother), with internalfertilization and the release of live young. Insemination occurs in the fall, andsperm are retained within the female until fertilization takes place ~2 months later. The eggs hatch internally, andparturition (release of larvae) occurs in April-May.Information on early life history is very sparse, especially for the first year of life. Pacific ocean perch larvae are thought to be pelagic and drift with the current, and oceanic conditions may sometimes cause
advection to suboptimal areas (Ainley "et al." 1993) resulting in high recruitment variability. However, larval studies of rockfish RB<3DK have been hindered by difficulties in species identification since many larval rockfish species share the same morphological characteristics (Kendall 2000). Genetic techniques usingallozyme s (Seeb and Kendall 1991) andmitochondrial DNA (Li 2004) are capable of identifying larvae and juveniles to species, but are expensive and time-consuming.Post-larval and early young-of-the-year Pacific ocean perch have been positively identified in offshore, surface waters of the GOA (Gharrett "et al." 2002), which suggests this may be the preferred habitat of this life stage. Transformation to a demersal existence may take place within the first year (Carlson and Haight 1976). Small juveniles probably reside inshore in very rocky, high relief areas, and by age 3 begin to migrate to deeper offshore waters of the continental shelf (Carlson and Straty 1981). As they grow, they continue to migrate deeper, eventually reaching the continental slope, where they attain adulthood.
Ecology
Pacific ocean perch are mostly
planktivorous (Carlson and Haight 1976, Yang 1993, 1996, Yang and Nelson 2000, Yang 2003). In a sample of 600 juvenile perchstomach s, Carlson and Haight (1976) found that juveniles fed on an equal mix ofcalanoid copepod s and euphausiids. Larger juveniles and adults fed primarily on euphausiids, and to a lesser degree, copepods,amphipod s andmysid s (Yang and Nelson 2000). In the Aleutian Islands,myctophid s have increasingly comprised a substantial portion of the Pacific ocean perch diet, which also compete for euphausiid prey (Yang 2003). It has been suggested that Pacific ocean perch andwalleye pollock compete for the same euphausiid prey. Consequently, the large removals of Pacific ocean perch by foreign fishermen in the Gulf of Alaska in the 1960s may have allowed walleye pollock stocks to greatly expand in abundance.Predators of adult Pacific ocean perch are likely
sablefish ,Pacific halibut , andsperm whales (Major and Shippen 1970). Juveniles are consumed byseabird s (Ainley "et al." 1993), other rockfish (Hobson "et al." 2001),salmon ,lingcod , and other large demersal fish.Population
Pacific ocean perch is a very slow growing species, with a low rate of natural mortality (estimated at 0.06), a relatively old age at 50% maturity (10.5 years for females in the Gulf of Alaska), and a very old maximum age of 98 years in Alaska (84 years maximum age in the Gulf of Alaska) (Hanselman "et al." 2003). Age at 50% recruitment to the commercial
fishery has been estimated to be between 7 and 8 years in the Gulf of Alaska. Despite their viviparous nature, the fish is relativelyfecund with number of eggs/female in Alaska ranging from 10,000-300,000, depending upon size of the fish (Leaman 1991).The evolutionary strategy of spreading reproductive output over many years is a way of ensuring some reproductive success through long periods of poor larval survival (Leaman and Beamish 1984). Fishing generally selectively removes the older and faster-growing portion of the population. If there is a distinct evolutionary advantage of retaining the oldest fish in the population, either because of higher fecundity or because of different spawning times, age-truncation could be ruinous to a population with highly episodic recruitment like rockfish (Longhurst 2002). Recent work on
black rockfish ("Sebastes melanops") has shown that larval survival may be dramatically higher from older female spawners (Berkeley "et al." 2004, Bobko and Berkeley 2004). The black rockfish population has shown a distinct downward trend in age-structure in recent fishery samples off the West Coast of North America, raising concerns about whether these are general results for most rockfish. De Bruin "et al." (2004) examined Pacific ocean perch (S. alutus) androugheye rockfish (S. aleutianus) for senescence in reproductive activity of older fish and found thatoogenesis continues at advanced ages. Leaman (1991) showed that older individuals have slightly higher egg dry weight than their middle-aged counterparts. Such relationships have not yet been determined to exist for Pacific ocean perch or other rockfish in Alaska.Few studies have been conducted on the stock structure of Pacific ocean perch. Based on allozyme variation, Seeb and Gunderson (1988) concluded that Pacific ocean perch are
genetically quite similar throughout their range, and genetic exchange may be the result of dispersion at early life stages. In contrast, preliminary analysis using mitochondrial DNA techniques suggest that genetically distinct populations of Pacific ocean perch exist (A. J. Gharrett pers. commun., University of Alaska Fairbanks, October 2000). Withler "et al." (2001) found distinct genetic populations on a small scale in British Columbia. Currently, genetic studies are underway that should clarify the genetic stock structure of Pacific ocean perch.The fishery for Pacific ocean perch developed nearly synchronously from the U.S. West Coast to the Bering Sea. The Gulf of Alaska fishing history captures a typical catch history: A Pacific ocean perch trawl fishery by the
U.S.S.R. andJapan began in the Gulf of Alaska in the early 1960's. This fishery developed rapidly, with massive efforts by the Soviet and Japanese fleets. Catches peaked in 1965, when a total of nearly 350,000metric ton s (t) was caught. This apparentoverfishing resulted in a precipitous decline in catches in the late 1960's. Catches continued to decline in the 1970's, and by 1978 catches were only 8,000 t. Foreign fishing dominated the fishery from 1977 to 1984, and catches generally declined during this period. Most of the catch was taken by Japan (Carlson "et al." 1986). Catches reached a minimum in 1985, after foreign trawling in the Gulf of Alaska was prohibited.Conservative management measures, an excellent observer program, and perhaps higher productivity in Alaska have allowed the stock to recover to a level to allow about 26,000 tons per annum. U.S. West Coast stocks are beginning to show signs of recovery, but are still in the process of rebuilding.
References
* [http://www.afsc.noaa.gov/refm/docs/2007/GOApop.pdf Gulf of Alaska Pacific ocean perch stock assessment (2007)]
* [http://www.afsc.noaa.gov/refm/docs/2006/BSAIpop.pdf Bering Sea and Aleutian Islands Pacific ocean perch stock assessment (2006)]
* [http://www.dfo-mpo.gc.ca/csas/Csas/DocREC/2001/RES2001_138e.pdf Canadian Pacific ocean perch stock assessment (2001)]
* [http://www.pcouncil.org/groundfish/gfsafe0803/pop.pdf U.S. West Coast Pacific ocean perch stock assessment (2003)]
* [http://www.afsc.noaa.gov NOAA's Alaska Fisheries Science Center]
*ITIS|ID=166707|taxon=Sebastes alutus|year=2006|date=1 August
*FishBase species | genus = Sebastes | species = alutus | month = May | year = 2006;Works cited
*cite journal |author=Ainley, D.G., Sydeman, W.J., Parrish, R.H., and Lenarz, W.H. |year=1993 |title=Oceanic factors influencing distribution of young rockfish (Sebastes) in central California: A predator's perspective |journal=CalCOFI Report |volume=34 |pages=133–139
*cite journal |author=Allen, M .J., and G. B. Smith |year=1988 |title=Atlas and zoogeography of common fishes in the Bering Sea and northeastern Pacific |publisher=U.S. Dep. Commer. |journal=NOAA Tech. Rept. NMFS |volume=66 |pages=151 p
*cite journal |author=Berkeley, S. A., C. Chapman, and S. M. Sogard |year=2004 |title=Maternal age as a determinant of larval growth and survival in a marine fish, Sebastes melanops |journal=Ecology |volume=85 |issue=5 |pages=1258–1264 |doi=10.1890/03-0706
*cite journal |author=Bobko, S.J. and S.A. Berkeley |year=2004 |title=Maturity, ovarian cycle, fecundity, and age-specific parturition of black rockfish (Sebastes melanops) |journal=Fisheries Bulletin |volume=102 |pages=418–429
*cite conference |author=Carlson, H.R., D.H. Ito, R.E. Haight, T.L. Rutecki, and J.F. Karinen |year=1986 |title=Pacific ocean perch |editor=R.L. Major (editor) |booktitle=Condition of groundfish resources of the Gulf of Alaska region as assessed in 1985 |pages=155-209 |publisher=U.S. Dept. Commer., NOAA Tech. Memo. NMFS F/NWC-106
*cite journal |author=Carlson, H. R., and R. E. Haight |year=1976 |title=Juvenile life of Pacific ocean perch, Sebastes alutus, in coastal fiords of southeastern Alaska: their environment, growth, food habits, and schooling behavior |journal=Trans. Am. Fish. Soc. |volume=105 |pages=191–201 |doi=10.1577/1548-8659(1976)105<191:JLOPOP>2.0.CO;2 |doilabel=10.1577/1548-8659(1976)105191:JLOPOP2.0.CO;2
*cite journal |author=Carlson, H. R., and R. R. Straty |year=1981 |title=Habitat and nursery grounds of Pacific rockfish, Sebastes spp., in rocky coastal areas of Southeastern Alaska |journal=Mar. Fish. Rev. |volume=43 |pages=13–19
*cite journal |author=de Bruin, J., R. Gosden, C. Finch, and B. Leaman |year=2004 |title=Ovarian aging in two species of long-lived rockfish, sebastes aleutianus and S. alutus |journal=Biol. Reprod. |volume=71 |pages=1036–1042 |doi=10.1095/biolreprod.103.019919
*cite paper |author=Gharrett, A. J., Z. Li, C. M. Kondzela, and A. W. Kendall |date=2002 |title=Final report: species of rockfish (Sebastes spp.) collected during ABL-OCC cruises in the Gulf of Alaska in 1998-2002 |publisher=(Unpubl. manuscr. available from the NMFS Auke Bay Laboratory, 11305 Glacier Hwy., Juneau AK 99801)
*cite conference |author=Hanselman, D.H., T.J. Quinn II, C. Lunsford, J. Heifetz and D.M. Clausen |year=2001 |title=Spatial implications of adaptive cluster sampling on Gulf of Alaska rockfish |booktitle=Proceedings of the 17th Lowell-Wakefield Symposium: Spatial Processes and Management of Marine Populations |pages=303-325 |publisher=Univ. Alaska Sea Grant Program |location=Fairbanks, AK
*cite journal |author=Hanselman, D.H., T.J. Quinn II, C. Lunsford, J. Heifetz and D.M. Clausen |year=2003 |title=Applications in adaptive cluster sampling of Gulf of Alaska rockfish |journal=Fish. Bull. |volume=101 |issue=3 |pages=501–512
*cite journal |author=Hobson, E.S., J.R. Chess, D.F. Howard |year=2001 |title=Interannual variation in predation on first-year Sebastes spp. by three northern California predators |journal=Fish. Bull. |volume=99 |pages=292–302
*cite conference |author=Kendall, A. W., and W. H. Lenarz |year=1986 |title=Status of early life history studies of northeast Pacific rockfishes |booktitle=Proc. Int. Rockfish Symp. Oct. 1986, Anchorage Alaska |pages=99-117
*cite journal |author=Kendall, A.W., Jr |year=2000 |title=An historical review of Sebastes taxonomy and systematics |journal=Mar. Fish. Rev |volume=62 |pages=1–16
*cite journal |author=Leaman, B. M. |year=1991 |title=Reproductive styles and life history variables relative to exploitation and management of Sebastes stocks |journal=Environmental Biology of Fishes |volume=30 |pages=253–271 |doi=10.1007/BF02296893
*cite journal |author=Leaman, B.M. and R.J. Beamish |year=1984 |title=Ecological and management implications of longevity in some Northeast Pacific groundfishes |journal=Int. North Pac. Fish. Comm. Bull. |volume=42 |pages=85–97
*cite paper |author=Li, Z. |date=2004 |title=Phylogenetic relationships and identification of juveniles of the genus Sebastes |publisher=University of Alaska-Fairbanks, School of Fisheries and Ocean Sciences. M.S. thesis
*cite journal |author=Longhurst, A. |year=2002 |title=Murphy's law revisited: longevity as a factor in recruitment to fish populations |journal=Fish. Res. |volume=56 |pages=125–131 |doi=10.1016/S0165-7836(01)00351-4
*cite book |author=Love M.S, M.M. Yoklavich, and L. Thorsteinson |year=2002 |title=The Rockfishes of the Northeast Pacific |publisher=University of California Press |location=Los Angeles
*cite journal |author=Major, R. L., and H. H. Shippen |year=1970 |title=Synopsis of biological data on Pacific ocean perch, Sebastodes alutus |journal=FAO Fisheries Synopsis No. 79, NOAA Circular 347 |pages=38 p
*cite journal |author=Seeb, L. W. and D.R. Gunderson |year=1988 |title=Genetic variation and population structure of Pacific ocean perch (Sebastes alutus) |journal=Can. J. Fish. Aquat. Sci. |volume=45 |pages=78–88
*cite journal |author=Seeb, L. W., and A. W. Kendall, Jr |year=1991 |title=Allozyme polymorphisms permit the identification of larval and juvenile rockfishes of the genus Sebastes |journal=Environmental Biology of Fishes |volume=30 |pages=191–201 |doi=10.1007/BF02296889
*cite journal |author=Withler, R.E., T.D. Beacham, A.D. Schulze, L.J. Richards, and K.M. Miller |year=2001 |title=Co-existing populations of Pacific ocean perch, Sebastes alutus, in Queen Charlotte Sound, British Columbia |journal=Mar. Bio. |volume=139 |pages=1–12 |doi=10.1007/s002270100560
*cite journal |author=Yang, M-S. |year=1993 |title=Food habits of the commercially important groundfishes in the Gulf of Alaska in 1990 |publisher=U.S. Dep. Commer. |journal=NOAA Tech. Memo. NMFS-AFSC-22 |pages=150 p
*cite journal |author=Yang, M-S. |year=1996 |title=Diets of the important groundfishes in the Aleutian Islands in summer 1991 |publisher=U.S. Dep. Commer. |journal=NOAA Tech. Memo. NMFS-AFSC-60 |pages=105 p
*cite journal |author=Yang, M.S. |year=2003 |title=Food habits of the important groundfishes of the Aleutian Islands in 1994 and 1997 |publisher=National Marine Fisheries Service |journal=AFSC Processed report 2003-07 |pages=233 pp
*cite journal |author=Yang, M.-S., and M.W. Nelson |year=2000 |title=Food habits of the commercially important groundfishes in the Gulf of Alaska in 1990, 1993, and 1996 |publisher=U.S. Dep. Commer. |journal=NOAA Tech. Memo. NMFS-AFSC-112 |pages=174 p
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