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Gulf Menhaden

Brevoortia patronus Goode 1878

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Diagnostic Description

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Body fairly deep and compressed, scutes apparent along belly. Upper jaw with distinct median notch, no teeth. Pelvic fin with rounded hind margin, inner finrays equal or nearly equal to outer finrays when fin folded back. Pre-dorsal scales modified; scales in lateral series 42 to 48, large, those on back and above anal fin base only a little smaller and more irregular than rest. A black spot behind gill opening, followed by a series of spots along flank and often further spots above and below. Overlaps B. gunteri in range, but that species has more scales (60 to 77) and more pointed pelvic fins (inner rays markedly shorter than outer when fin folded bask), also no line of spots on flank (the same Characters separate it from B. smithi of Gulf coasts of Florida). Other clupeids lack the modified pre-dorsal scales.

Reference

See synonymy, of which Hildebrand (i.e. FWNA, 1964) and Dahlberg, (1970) are the best summaries. Hybrids with. B. smithi were described by Dahlberg (1970 - common).

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bibliographic citation
FAO Species catalogue Vol. 7. Clupeoid fishes of the world. (Suborder CLUPEOIDEI) An annotated and illustrated catalogue of the herrings, sardines, pilchards, sprats, anchovies and wolf-herrings. Part 1. Chirocentridae, Clupeidae and Pristigasteridae.Whitehead, P.J.P. 1985.  FAO Fish. Synop., (125) Vol.7 Pt. 1:303 p.
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Distribution

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Gulf of Mexico (Florida Bay, gulf of Campeche, Mexico), but no certain records from Caribbean.
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FAO Species catalogue Vol. 7. Clupeoid fishes of the world. (Suborder CLUPEOIDEI) An annotated and illustrated catalogue of the herrings, sardines, pilchards, sprats, anchovies and wolf-herrings. Part 1. Chirocentridae, Clupeidae and Pristigasteridae.Whitehead, P.J.P. 1985.  FAO Fish. Synop., (125) Vol.7 Pt. 1:303 p.
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Food and Agriculture Organization of the UN
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Size

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25 cm standard length, usually about 20 cm.
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FAO Species catalogue Vol. 7. Clupeoid fishes of the world. (Suborder CLUPEOIDEI) An annotated and illustrated catalogue of the herrings, sardines, pilchards, sprats, anchovies and wolf-herrings. Part 1. Chirocentridae, Clupeidae and Pristigasteridae.Whitehead, P.J.P. 1985.  FAO Fish. Synop., (125) Vol.7 Pt. 1:303 p.
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Brief Summary

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Marine, pelagic, schooling,inshore in summer, but at least some moving out into deeper waters from October (Mississippi delta area), although adults have been recorded near shore in winter (Gulf Coast of Florida);euryhaline, the commercial catch mostly in salinities of 5 to 24°/oo, but also in fully salt water and up to 60°/oo in the hypersaline Laguna Madre, Texas, and down to 0.1°/oo in Grand Lake, Louisiana. Feeds in dense schools, filtering phytoplankton, but probably also feeds at bottom (mud in stomach). Apparently breeds in winter (October to February suggested by Suttkus, 1956, based on larvae entering Lake Pontchartrain, Louisiana in December to March; a peak in January fide Suttkus & Sundararaj, 1961, based on gonad states off the Louisiana coast).
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bibliographic citation
FAO Species catalogue Vol. 7. Clupeoid fishes of the world. (Suborder CLUPEOIDEI) An annotated and illustrated catalogue of the herrings, sardines, pilchards, sprats, anchovies and wolf-herrings. Part 1. Chirocentridae, Clupeidae and Pristigasteridae.Whitehead, P.J.P. 1985.  FAO Fish. Synop., (125) Vol.7 Pt. 1:303 p.
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Benefits

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Since 1959, catches of Brevoortia patronus have been ranging between 400,000 and 900 000 twith a minimum of 373 019 t in 1967 and a maximum in 1984 with 982 888 t In 1995, The total catch reported for this species to FAO for 1999 was 694 242 t. The countries with the largest catches were USA (694 242 t).
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FAO Species catalogue Vol. 7. Clupeoid fishes of the world. (Suborder CLUPEOIDEI) An annotated and illustrated catalogue of the herrings, sardines, pilchards, sprats, anchovies and wolf-herrings. Part 1. Chirocentridae, Clupeidae and Pristigasteridae.Whitehead, P.J.P. 1985.  FAO Fish. Synop., (125) Vol.7 Pt. 1:303 p.
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Diagnostic Description

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Scutes along belly; upper jaw with median notch. Pelvic fin with rounded hind margin, inner fin rays equal or nearly equal to outer fin rays when fin folded back. Pre-dorsal scales modified; scales in lateral series large, those on back and above anal fin base a little smaller and more irregular than rest. A black spot behind gill opening, followed by a series of spots along flank (Ref. 188). Back bluish gray, Sides brassy green (Ref. 37032).
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Recorder
Crispina B. Binohlan
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Life Cycle

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Make inshore-offshore movements (Ref. 34923). Larvae stay in offshore waters for 3-5 weeks before moving into estuaries where they grow into adults (Ref. 34923).
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Morphology

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Dorsal spines (total): 0; Analspines: 0
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Trophic Strategy

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Inshore in summer, but at least some moving out into deeper waters from October (Mississippi delta area), although adults have been recorded near the shore in winter (Gulf of Florida). Feeds in dense schools as filter-feeders, but probably also feeds at bottom because of the presence of mud in the stomach.
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Biology

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Occur inshore in summer, but at least some moving into deeper waters from October (Mississippi Delta area). Feed in dense schools, filtering phytoplankton, but probably also feed at the bottom. Apparently breed in winter (October to February, with a peak in January). Salinity tolerance range from 0.1-60 ppt, but the commercial catch is mostly from 5.0-24 ppt. Marketed fresh, salted or canned. Mainly used as source of fish oil; also as fish meal (Ref. 188). Isopod is found in the mouth (Ref. 37032).
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Importance

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fisheries: highly commercial; price category: low; price reliability: reliable: based on ex-vessel price for this species
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Gulf menhaden

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The Gulf menhaden (Brevoortia patronus) is a small marine filter-feeding fish belonging to the family Clupeidae. The range of Gulf menhaden encompasses the entirety of the Gulf of Mexico nearshore waters, with the exception of the extreme eastern Yucatan and western Cuba.[2] Evidence from morphology [3] and DNA analyses [4] suggest that the Gulf menhaden is the Gulf of Mexico complement to the Atlantic menhaden (Brevoortia tyrannus). Both species support large commercial reduction fisheries,[5] with Gulf menhaden supporting the second largest fishery, by weight, in the United States.[6]

Range and distribution

The Gulf menhaden occurs throughout the Gulf of Mexico, but its distribution is patchy. The center of distribution of the species appears to be the northwest/northcentral Gulf,[2] particularly in Louisiana and Texas where populations are very large and numerous. In the southern Gulf of Mexico, the range of Gulf menhaden overlaps that of the closely related finescale menhaden (Brevoortia gunteri),[7] and there is evidence for resource partitioning (a process whereby closely related species occurring in close proximity results in subtle differences in ecological niches) between these species.[8] In the eastern Gulf, the range of Gulf menhaden overlaps that of the yellowfin menhaden (Brevoortia smithi), and hybridization between these species has been demonstrated using morphological [3] and DNA evidence.[9] Gulf menhaden also may have a presence on the southern Atlantic coast of Florida,[9][10] although this finding is based primarily upon DNA evidence.

General biology

Gulf menhaden are commonly 8 inches in length but can reach 12 inches. Gulf menhaden are a dull silver with a greenish back. Like their Atlantic counterpart, Gulf menhaden have a prominent black spot found behind the gill cover followed by a row of smaller spots [11]

Diet

Gulf menhaden are filter feeders, meaning that they collect food by filtering water through modifications of the branchial apparatus (gill or branchial arches and gill rakers). Like Atlantic menhaden, Gulf menhaden's diet depends on the size of their gill rakers, which change as menhaden age. Larval gulf menhaden feed primary on zooplankton because the rakers are not well developed. The juveniles, which generally correspond to when they are under the age of 1, feed on phytoplankton. As they age and their gill rakers fully developed, menhaden shift their diet to primarily consume zooplankton.[12]

Life cycle

Spawning occurs offshore in winter (October–March).[2] Eggs and larvae are pelagic and are carried into estuarine nursery areas via prevailing currents. As a result, migration at this stage can be lengthy, and populations of Gulf menhaden throughout the Gulf of Mexico are generally thought to comprise a single genetic stock.[13]

Relationship with humans

Commercial fishery

The Gulf menhaden fishery is one of the largest in the United States. In 2013, the fishery supported four of the nation's top ten ports by volume of landings.[14] Gulf menhaden are harvested primarily for fish meal and fish oil based products. A much smaller number of menhaden are caught for use as bait. In addition to being one of the largest fisheries in the US, the Gulf menhaden fishery has also been recognized internationally for its sustainability.

The fishery's sustainability has also been certified by independent organizations. Friend of the Sea, an international seafood sustainability certification program, has recognized both the Atlantic menhaden and Gulf menhaden fisheries as sustainable.[15] This is both due to the healthy status of the stock as well as the fishery's low levels of bycatch, which it achieves with the use of purse seine nets.[16]

Recreational fishery

The gulf menhaden is an important bait fish for recreational anglers.[17]

Management

Gulf menhaden are managed by an interstate compact called the Gulf States Marine Fisheries Commission (GSMFC). According to the most recent 2013 stock assessment by the GSMFC, Gulf menhaden are “neither overfished nor experiencing overfishing.”[18] According to the GSMFC, “the Gulf menhaden fishery is probably the most closely monitored and managed fishery in the Gulf of Mexico.”[12] An example of the fishery's monitoring is the Gulf of Mexico purse seine fishery's participation in NOAA's Southeast Fisheries Observer Program since 2011.[19] Specifically, the Menhaden Advisory Committee (MAC) is the GSMFC subcommittee that oversees menhaden management.

Dead zones

According to the GSMFC: “Menhaden do not have the capacity to reduce unwanted phytoplankton blooms that arise from manmade sources, primarily because they eat mostly zooplankton. In addition, menhaden excrete large amounts of ammonia (a nitrogenous product), contributing to an already high nitrogen load.”[12] In addition, the commercial menhaden fishery only targets adult menhaden, which consume zooplankton, not juvenile menhaden, which do consume phytoplankton [20]

Sources

  1. ^ Collette, B.; Grubbs, D.; Pezold, F.; Simons, J.; Carlson, J.; Caruso, J.; McEachran, J.D.; Brenner, J.; Tornabene, L.; Robertson, R.; Chakrabarty, P. (2015). "Brevoortia patronus". IUCN Red List of Threatened Species. 2015: e.T191208A1972860. doi:10.2305/IUCN.UK.2015-4.RLTS.T191208A1972860.en. Retrieved 12 November 2021.
  2. ^ a b c FAO 2002. The living marine resources of the western central Atlantic. ASIH special publication No. 5, Kent E. Carpenter, ed. ISSN 1020-6868.
  3. ^ a b Dahlberg, M.D. 1970. Atlantic and Gulf of Mexico menhadens, genus Brevoortia (Pisces:Clupeidae). Bulletin of the Florida State Museum, Biological Sciences 15:91-162.
  4. ^ Anderson, J.D. 2007. Systematics of the North American menhadens: molecular evolutionary reconstructions in the genus Brevoortia (Clupeiformes: Clupeidae). Fishery Bulletin 205:368-378.
  5. ^ Vaughan, D.S. and C. Strobeck. 1998. Assessment and management of Atlantic and Gulf menhaden stocks. Marine Fishery Review 53, 47-55.
  6. ^ Pritchard, E.S. 2005. Fisheries of the United States 2004. Silver Spring, MD: National Marine Fisheries Service, Office of Science and Technology, pp. 1-19.
  7. ^ Anderson, J.D. and D.L. McDonald. 2007. Morphological and genetic investigations of two western Gulf of Mexico menhadens (Brevoortia spp.). Journal of Fish Biology 70a:139-147.
  8. ^ Castillo-Revera, M., A. Kobelkowsky and V. Zamayoa. 1996. Food resource partitioning and trophic morphology of Brevoortia gunteri and B. patronus. Journal of Fish Biology 49:1102-1111.
  9. ^ a b Anderson, J.D. and W.J. Karel. 2007. Genetic evidence for asymmetric hybridization between menhadens (Brevoortia spp.) from peninsular Florida. Journal of Fish Biology 71b:235-249.
  10. ^ Reintjes, J.W. 1959. Continuous distribution of menhaden along the south Atlantic and Gulf coasts of the United States. Proceedings of the Gulf and Caribbean Fisheries Institute 12, 31-35.
  11. ^ Louisiana Fisheries
  12. ^ a b c “Menhaden Facts.” Gulf States Marine Fisheries Commission. Archived 2015-02-17 at the Wayback Machine
  13. ^ Anderson, J.D. 2006. Conservation Genetics of Gulf Menhaden (Brevoortia patronus): Implications for the Management of a Critical Forage Component for Texas Coastal Gamefish Ecology. Federal Aid in Sportfish Restoration Act Technical Series, F-144-R.
  14. ^ National Marine Fisheries Service Office of Science and Technology, “Fisheries of the United States 2013,” September 2014
  15. ^ Friend of the Sea, “Fisheries USA – Purse seine – Gulf menhaden, Atlantic menhaden – FAO Western Atlantic Ocean”
  16. ^ "Friend of the Sea, "Omega Protein's Purse Seine Menhaden fleet"". Archived from the original on 2015-02-17. Retrieved 2015-02-17.
  17. ^ Daniello, Capt. Vincent. "A Guide to Saltwater Live Baits". sportfishingmag.com. Sport Fishing Magazine. Retrieved 21 June 2019.
  18. ^ Gulf States Marine Fisheries Commission, “Stock Assessment Report for Gulf of Mexico Gulf Menhaden (SEDAR32A) and Adoption of Reference Points,” November 14, 2013
  19. ^ [NOAA, “National Observer Program, FY 2011 Annual Report”]
  20. ^ NOAA, “Brief History of the Gulf Menhaden Purse-Seine Fishery”

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Gulf menhaden: Brief Summary

provided by wikipedia EN

The Gulf menhaden (Brevoortia patronus) is a small marine filter-feeding fish belonging to the family Clupeidae. The range of Gulf menhaden encompasses the entirety of the Gulf of Mexico nearshore waters, with the exception of the extreme eastern Yucatan and western Cuba. Evidence from morphology and DNA analyses suggest that the Gulf menhaden is the Gulf of Mexico complement to the Atlantic menhaden (Brevoortia tyrannus). Both species support large commercial reduction fisheries, with Gulf menhaden supporting the second largest fishery, by weight, in the United States.

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