Atlantic herring 207888 221739802 2008-06-25T21:45:32Z Kaldari 59944 no citations {{no citations}} {{Taxobox | name = Atlantic herring | image = Herringadultkils.jpg | image_width = 240px | regnum = [[Animal]]ia | phylum = [[Chordata]] | classis = [[Actinopterygii]] | ordo = [[Clupeiformes]] | familia = [[Clupeidae]] | genus = ''[[Clupea]]'' | species = '''''C. harengus''''' | binomial = ''Clupea harengus'' | binomial_authority = [[Carolus Linnaeus|Linnaeus]], 1758 }} [[Image:Heringsfass.JPG|thumb|240px|Clupea harengus]] '''Atlantic herring''' (''Clupea harengus'') is the one of the most abundant species of [[fish]] on the planet. They can be found on both sides of the [[Atlantic Ocean]] congregating together in large ''schools'' (or ''[[swarm]]s''). They can grow up to 45 centimeters (approximately 18 inches) in length and weigh more than half a [[kilogram]]. They feed on [[copepod]]s, [[krill]] and small fish, and their natural predators are [[pinniped|seals]], [[whale]]s, [[cod]] and other larger fish. The Atlantic herring fishery has long been an important part of the economy of [[New England]] and the [[Canada|Canadian]] [[Maritime provinces]]. This is because the fish congregate relatively near to the coast in massive schools, notably in the cold waters of the semi-enclosed [[Gulf of Maine]] and [[Gulf of Saint Lawrence|Gulf of St. Lawrence]]. North Atlantic herring schools have been measured up to 4 cubic kilometers in size, containing an estimated 4 billion fish. ==Morphology== Atlantic herring have a fusiform body. Gill rakers are present in their mouths to filter incoming water, trapping any zooplankton, or phytoplankton. ==Ecological importance== Herring-like fish are the most important fish group on the planet, ''Clupea harengus'' the most frequent fish ([[Guinness Book of Records]]). They are the dominant converter of the enormous production of [[zooplankton]], utilizing the biomass of [[copepod]]s, [[mysid]]s and [[krill]] in the [[pelagic zone]]. They are on the other side a central prey item for higher trophic levels. The reasons for its success is still enigmatic; one speculation is attributing their dominance to the outstanding way of living in huge, extremely fast cruising schools. ==Geographical distribution== [[Image:Clupeaharengusdistkils.jpg|thumb|200px|right|''Clupea harengus'' distribution on a [[NASA]] [[SeaWIFS]] image - the main concentrations are in the [[North Atlantic]] at the [[North Sea]]]] Atlantic herring can be found on both sides of the Atlantic ocean. they have an extensive range that covers the North Atlantic waters such as the Gulf of Maine, the [[Gulf of St Lawrence]], the [[Bay of Fundy]], the [[Labrador Sea]], the [[Davis Straits]], the [[Beaufort Sea]], the [[Denmark Straits]], the [[Norwegian Sea]], the [[North Sea]], the [[Baltic Sea]] (a sub-species known as ''strömming'' in Swedish), the [[English Channel]], the [[Celtic Sea]] the [[Irish Sea]], and the [[Bay of Biscay]]. Although Atlantic herring are found in the northern waters surrounding the [[Arctic]] they are however, not considered to be an Arctic species. ==Biological specialities== Herring are amongst the most spectacular schoolers ("[[obligate schooler]]" under the old definitions), they aggregate together in groups that consist of thousands to hundreds of thousands of individuals these schools traverse the open oceans. A school of herring in general has a very precise arrangement thus allowing the school to maintain a relatively constant cruising speed. Schools that are made up of an individual stock generally travel in a triangular pattern between their spawning grounds e.g. Southern [[Norway]], their feeding grounds ([[Iceland]]) and also their nursery grounds (Northern Norway). Such wide triangular journeys are probably important because herring feast efficiently on their own offspring. A school of herring can react very quickly to evade predators; they have excellent hearing. Around SCUBA divers and ROVs they can form a vacuole ("fountain effect"). The phenomenon of schooling is however, far from understood, especially the implications on swimming and feeding-energetics. Many hypotheses have been put forward to explain the function of schooling, <!-- for an overview see Pitcher/ Teleost behaviour --> such as predator confusion, reduced risk of being found, better orientation, and [[synchronization|synchronized]] hunting. However, schooling can also have some disadvantages such as: oxygen- and food-depletion, excretion buildup in the breathing media. The school-array probably gives advantages in energy saving although this is a highly controversial and much debated field. Schools of herring can on calm days sometimes be detected at the surface from more than a mile away by the little waves they form, or from a few meters at night when they trigger the [[bioluminescence]] of surrounding [[plankton]] ("firing"). All underwater recordings show herring constantly cruising with high speeds up to 108 cm per second, and much higher escape speeds. ==Habitat requirements== Atlantic herring are in general very tender and fragile fish. They have extraordinarly large and delicate [[gill]] surfaces, and upon contact with foreign matter they can lose their large scales. They have retreated from many of the [[estuary|estuaries]] worldwide due to high [[pollution]] content within the water although in some of the estuaries that have been cleaned up herring have been observed returning. The appearance of their larvae is used as bioindicator for cleaner and better oxygenated waters. Because of their feeding habits, cruising desire, collective behavior and fragility they are only on display in very few [[aquaria]] worldwide, this despite their natural abundance in the ocean. Even with the best facilities that these aquaria can offer they appear slim and slow compared to a quivering school in the wild. ==Predators== [[Orca]], [[cod]], [[dolphin]]s, [[porpoise]]s, [[shark]]s, [[Rockfish]], seabird, [[Whale]], squid, [[Sea Lion]], [[pinniped|Seal]] ==Life history== [[Image:Clupeaharenguskils2.jpg|thumb|right|200px|Transparent eggs with the eyes visible, one larva hatched. Observe the [[yolk]].]] There is at least one herring stock spawning in any one month of the year, each race having a different spawning time and place (spring, summer, autumn and winter herrings) in 0 to 5 m off Greenland down to 200 m in autumn (bank) herrings of the North Sea. Eggs are laid on the sea bed, on rock, stones, gravel, sand or beds of algae. "...the fish were darting rapidly about, and those who have opportunity to see the fish spawning in more shallow water ... state that both males and females are in constant motion, rubbing against one another and upon the bottom, apparently by pressure aiding in the discharge of the eggs and milt" (Moore at Cross Island, Maine). [[Image:Clupealarvamatchkils.jpg|thumb|right|200px|Freshly hatched larvae in a drop of water besides a match to demonstrate how tiny the larvae are. The black eyes and the [[yolk]] are visible.]]A female herring may deposit from 20,000 up to 40,000 eggs, according to her age and size, averaging about 30000. In sexually mature herrings, the genital organs are so large just before spawning commences that they make up about one-fifth of the total weight of the fish. The eggs sink to the bottom, where they stick in layers or clumps to gravel, seaweeds or stones, by means of their coating mucus, or to any other objects on which they chance to settle. [[Image:Herringjuvenilekils.jpg|thumb|left|200px|Juvenile herring. Length ca. 38 mm, ca. 3 months old (still transparent). Visible are the [[otolith]]s, the gut, the silvery [[swimbladder]] and the heart. Click twice into the image for high resolution.]] If the layers get too thick they suffer from oxygen depletion and often die, entangled in a maze of [[fucus]]. They need a fair amount of water microturbulence, generally provided by wave action or coastal currents. Survival is highest in crevices and behind solid structures, because many predators feast on openly disposed eggs. The individual eggs are 1 to 1.4 mm in diameter, depending on the size of the parent fish and also on the local race. Incubation time is about 40 days at 3°C (38 F), 15 days at 7°C (45 F), 11 days at 10°C (50 F), they die at temperatures above 19°C (68 F). [[Image:Clupeaharenguslarvaeinsitukils.jpg|thumb|right|200px|Very young larvae imaged ''in situ'' in the typical oblique swimming position. The animal in the upper right is in the classical S-shape of the beginning phase of an attack of probably a [[copepod]]. The remains of the [[yolk]] and the long gut are very well visible in the transparent animal in the middle.]] The larvae are 5 to 6 mm long at hatching, with a small yolk sac that is absorbed by the time a length of 10 mm is reached. Only the eyes are well pigmented (a camera works only with a black housing) the rest of the body is as transparent as possible, and virtually invisible under water and natural luminance conditions. The dorsal fin is formed at 15 to 17 mm, the anal fin at about 30 mm - the ventral fins are visible and the tail becomes well forked at 30 to 35 mm - at about 40 mm the little fish begins to look like a herring. '''Larvae diagnostics''': The larvae of the herring family are very slender and can easily be distinguished from all other young fish of their distribution range of similar form by the location of the vent, which is so far back that it lies close to the base of the tail. But it requires critical examination to distinguish several clupeoids one from another in their early stages, especially herring from sprats. At the age of one year they are about 100 mm long, first spawning at 3 years. <br style="clear:both"> <!-- force image to begin on new line --> ==Schooling== Atlantic herring are world famous for their huge schools, often numbering in the hundreds of thousands or even millions. One recorded enormous school covered 4&nbsp;km² in area and reportedly had more than 4 billion fish. [[Image:fischool2.jpg|thumb|right|280px|school of juvenile herring close to the surface]] [[Image:Heringsschwarm.gif|thumb|left|280px|Underwater video (looping) of a school on its migration to their spawning grounds in the [[Baltic Sea]]. With such high speed they can migrate over thousands of kilometers. In the [[North Atlantic]] they cruise between [[Norway]] and [[Greenland]] every year.]] <br style="clear:both"> <!-- force image to begin on new line --> ==Feeding== [[Image:Cc3s.gif|thumb|right|Slow motion macrophotography video (50% timelag, looping, each image shifted to compensate the rolling microturbulences from the waves) of feeding juvenile herring (38 mm) on [[copepod]]s - the fish approach from below and catch each copepod individually. In the middle of the image a copepod escapes successfully to the left. Scanned with the [[ecoSCOPE]]]] [[Image:Cc8s.gif|thumb|left|In this sequence a herring attacks four times in a row (50% timelag, looping, each image shifted to compensate the rolling microturbulences from the waves). In the third attack the [[copepod]] is visible between the wide opened sides of the mouth. The [[Operculum (fish)|opercula]] are spread wide open to compensate the pressure wave which would alert the copepod to trigger a jump.]] Herring is a pelagic feeder - their prey consists of [[copepod]]s, [[amphipod]]s, larval [[snail]]s, [[diatom]]s (only herring larvae below 20 mm), peridinians, molluscan larvae, fish eggs, [[krill|euphausids]], [[mysid]]s, small fishes, herring larvae, menhaden larvae, [[pteropod]]s, [[annelid]]s, [[tintinnid]]s (only herring larvae below 45 mm), Haplosphaera, Calanus, Pseudocalanus, Acartia, Hyperia, Centropages, Temora, [[Meganyctiphanes norvegica]]. Young herring capture copepods predominantly individually ("particulate feeding" or "raptorial feeding") (Kils 1992), a feeding method also used by adult herring on large prey items like euphausids. If prey concentrations reach very high levels, as in microlayers, at fronts or directly below the surface, herring ram forwards with wide open mouth and far expanded opercula over several feet, then closing and cleaning the gill rakers for a few milliseconds ("sift feeding" or "filter feeding"). [[Image:Herringramkils.jpg|thumb|right|Herring ram feeding on a school of [[copepod]]s. All fish have the opercula wide open all at the same time (the red gills are visible) and the mouth wide open (click to enlarge). The fish swim in a grid with a distance of the jumplength of their prey, as indicated in the animation below.]] [[Image:Synchropredation.gif|thumb|200px|left|Juvenile herring hunt for the very alert and evasive [[copepod]]s in synchronization: The copepods can sense with their [[antenna (biology)|antennae]] the pressure-wave of the approaching herring and react with a fast escape jump. The length of the jump is quite similar. The fish arrange in a grid of this characteristic jumplength. The copepods can dart ca. 80 times before they tire out. It takes 60 milliseconds to spread out the antennae again, and this timeslot is utilized often by the herring to snap finally a copepod. A single juvenile herring would never be able to catch a large copepod ("Synchropredation" - results from ''in situ'' videos taken from the [[ATOLL (oceanography)|ATOLL]] laboratory).]] <br style="clear:both"> <!-- force image to begin on new line --> ==References== * {{ITIS|ID=161722|taxon=Clupea harengus|year=2006|date=11 March}} *Guinness Book of World Records *Kils, U., [http://www.ecoscope.com/ecos_t_1.htm The ecoSCOPE and dynIMAGE: Microscale Tools for ''in situ'' Studies of Predator Prey Interactions]. Arch Hydrobiol Beih 36:83-96;1992 ==Further reading== *Bigelow, H.B., M.G. Bradbury, J.R. Dymond, J.R. Greeley, S.F. Hildebrand, G.W. Mead, R.R. Miller, L.R. Rivas, W.L. Schroeder, R.D. Suttkus and V.D. Vladykov (1963) ''Fishes of the western North Atlantic. Part three'' New Haven, Sears Found. Mar. Res., Yale Univ. *Eschmeyer, William N., ed. 1998 ''Catalog of Fishes'' Special Publication of the Center for Biodiversity Research and Information, no. 1, vol 1-3. California Academy of Sciences. San Francisco, California, USA. 2905. ISBN 0-940228-47-5. *Fish, M.P. and W.H. Mowbray (1970) ''Sounds of Western North Atlantic fishes. A reference file of biological underwater sounds'' The Johns Hopkins Press, Baltimore. *Flower, S.S. (1935) ''Further notes on the duration of life in animals. I. Fishes: as determined by otolith and scale-readings and direct observations on living individuals'' Proc. Zool. Soc. London 2:265-304. *Food and Agriculture Organization (1992). FAO yearbook 1990. ''Fishery statistics. Catches and landings'' FAO Fish. Ser. (38). FAO Stat. Ser. 70:(105):647 p. *Joensen, J.S. and Å. Vedel Tåning (1970) ''Marine and freshwater fishes. Zoology of the Faroes LXII - LXIII'', 241 p. Reprinted from, *Jonsson, G. (1992). Islenskir fiskar. Fiolvi, Reykjavik, 568 pp. *Kinzer, J. (1983) ''Aquarium Kiel: Beschreibungen zur Biologie der ausgestellten Tierarten.'' Institut für Meereskunde an der Universität Kiel. pag. var. *Koli, L. (1990) ''Suomen kalat. [Fishes of Finland]'' Werner Söderström Osakeyhtiö. Helsinki. 357 p. (in Finnish). *Laffaille, P., E. Feunteun and J.C. Lefeuvre (2000) ''Composition of fish communities in a European macrotidal salt marsh (the Mont Saint-Michel Bay, France)'' Estuar. Coast. Shelf Sci. 51(4):429-438. *Landbrugs -og Fiskeriministeriet. (1995). Fiskeriårbogen 1996 ''Årbog for den danske fiskerflåde'' Fiskeriårbogens Forlag ved Iver C. Weilbach & Co A/S, Toldbodgade 35, Postbox 1560, DK-1253 København K, Denmark. p 333-338, 388, 389 (in Danish). *Linnaeus, C. (1758) ''Systema Naturae per Regna Tria Naturae secundum Classes, Ordinus, Genera, Species cum Characteribus, Differentiis Synonymis, Locis'' 10th ed., Vol. 1. Holmiae Salvii. 824 p. *Munroe, Thomas, A. / Collette, Bruce B., and Grace Klein-MacPhee, eds. 2002 ''Herrings: Family Clupeidae. Bigelow and Schroeder's Fishes of the Gulf of Maine'', Third Edition. Smithsonian Institution Press. Washington, DC, USA. 111-160. ISBN 1-56098-951-3. *Murdy, Edward O., Ray S. Birdsong, and John A. Musick 1997 ''Fishes of Chesapeake Bay'' Smithsonian Institution Press. Washington, DC, USA. xi + 324. ISBN 1-56098-638-7. *Muus, B., F. Salomonsen and C. Vibe (1990) ''Grønlands fauna (Fisk, Fugle, Pattedyr)'' Gyldendalske Boghandel, Nordisk Forlag A/S København, 464 p. (in Danish). *Muus, B.J. and J.G. Nielsen (1999) ''Sea fish. Scandinavian Fishing Year Book'' Hedehusene, Denmark. 340 p. *Muus, B.J. and P. Dahlström (1974) ''Collins guide to the sea fishes of Britain and North-Western Europe'' Collins, London, UK. 244 p. *Robins, Richard C., Reeve M. Bailey, Carl E. Bond, James R. Brooker, Ernest A. Lachner, et al. 1991 ''Common and Scientific Names of Fishes from the United States and Canada'', Fifth Edition. American Fisheries Society Special Publication, no. 20. American Fisheries Society. Bethesda, Maryland, USA. 183. ISBN 0-913235-70-9. *Robins, Richard C., Reeve M. Bailey, Carl E. Bond, James R. Brooker, Ernest A. Lachner, et al. 1991 ''Common and Scientific Names of Fishes from the United States and Canada'', Fifth Edition. American Fisheries Society Special Publication, no. 20. American Fisheries Society. Bethesda, Maryland, USA. 183. ISBN 0-913235-70-9. *Whitehead, P.J.P. (1985). FAO species catalogue. Vol. 7. ''Clupeoid fishes of the world (suborder Clupeioidei). An annotated and illustrated catalogue of the herrings, sardines, pilchards, sprats, shads, anchovies and wolf-herrings Part 1 - Chirocentridae'' *Whitehead, P.J.P. (1985). FAO species catalogue. Vol. 7. ''Clupeoid fishes of the world (suborder Clupeioidei). An annotated and illustrated catalogue of the herrings, sardines, pilchards, sprats, shads, anchovies and wolf-herrings Part 1 - Chirocentridae, Clupeidae and Pristigaste'' FAO Fish. Synop. 125(7/1):1-303. *Whitehead, Peter J. P. 1985. ''Clupeoid Fishes of the World (Suborder Clupeoidei): An Annotated and Illustrated Catalogue of the Herrings, Sardines, Pilchards, Sprats, Shads, Anchovies and Wolf-herrings: Part 1 - Chirocentridae, Clupeidae and Pristigasteridae'' FAO Fisheries Synopsis, no. 125, vol. 7, pt. 1. Food and Agriculture Organization of the United Nations. Rome, Italy. x + 303. ISBN 92-5-102340-9. ==External links== *[http://www.fishbase.org/Summary/SpeciesSummary.cfm?ID=24&genusname=Clupea&speciesname=harengus%20harengus Information on Fishbase] *[http://clupea.de/biology/index.html Information on clupea.de] *[http://www.gma.org/herring/biology/default.asp Atlantic herring] (Clupea harengus) pages on Gulf of Maine Research Institute [[Category:Clupeidae]] [[Category:Fish of Europe]] [[Category:Commercial fish]] [[cs:Sleď obecný]] [[da:Sild]] [[de:Atlantischer Hering]] [[fr:Hareng]] [[io:Haringo]] [[id:Haring Atlantik]] [[is:Síld]] [[it:Clupea harengus]] [[lb:Hierk]] [[lt:Atlantinė silkė]] [[no:Sild]] [[nn:Sild]] [[pl:Śledź]] [[simple:Atlantic Herring]] [[fi:Silli]] [[sv:Sill]]