During the Devonian, fish diversity greatly increased, including among the placoderms, lobe-finned fishes, and early sharks, earning the Devonian the epithet "the age of fishes".[13][14]
Phylogeny
Fishes are a paraphyletic group, since any clade containing all fish, such as the Gnathostomata or (for bony fish) Osteichthyes, also contains the clade of tetrapods (four-limbed vertebrates, mostly terrestrial), which used not to be considered to be fish.[15][16] Some tetrapods, such as cetaceans and ichthyosaurs, have secondarily acquired a fish-like body shape through convergent evolution.[17]Fishes of the World comments that "it is increasingly widely accepted that tetrapods, including ourselves, are simply modified bony fishes, and so we are comfortable with using the taxon Osteichthyes as a clade, which now includes all tetrapods".[16] The biodiversity of extant fish is unevenly distributed among the various groups; teleosts, bony fishes able to protrude their jaws, make up 96% of fish species.[18][16] The cladogram[19] shows the evolutionary relationships of all groups of living fishes (with their respective diversity[16]) and the tetrapods.[20]Extinct groups are marked with a dagger (†); groups of uncertain placement[19] are labelled with a question mark (?) and dashed lines (- - - - -).
Fishes (without tetrapods) are a paraphyletic group and for this reason, the class Pisces seen in older reference works is no longer used in formal classifications. Traditional classification divides fish into three extantclasses (Agnatha, Chondrichthyes, and Osteichthyes), and with extinct forms sometimes classified within those groups, sometimes as their own classes.[21]
Fish account for more than half of vertebrate species. As of 2016, there are over 32,000 described species of bony fish, over 1,100 species of cartilaginous fish, and over 100 hagfish and lampreys. A third of these fall within the nine largest families; from largest to smallest, these are Cyprinidae, Gobiidae, Cichlidae, Characidae, Loricariidae, Balitoridae, Serranidae, Labridae, and Scorpaenidae. About 64 families are monotypic, containing only one species.[16]
Swimming performance varies from fish such as tuna, salmon, and jacks that can cover 10–20 body-lengths per second to species such as eels and rays that swim no more than 0.5 body-lengths per second.[25]
A typical fish is cold-blooded, has a streamlined body for rapid swimming, extracts oxygen from water using gills, has two sets of paired fins, one or two dorsal fins, an anal fin and a tail fin, jaws, skin covered with scales, and lays eggs. Each criterion has exceptions, creating a wide diversity in body shape and way of life. For example, some fast-swimming fish are warm-blooded, while some slow-swimming fish have abandoned streamlining in favour of other body shapes.[26]
Fish species are roughly divided equally between freshwater and marine (oceanic) ecosystems; there are some 15,200 freshwater species and around 14,800 marine species.[27]Coral reefs in the Indo-Pacific constitute the center of diversity for marine fishes,[28] whereas continental freshwater fishes are most diverse in large river basins of tropical rainforests, especially the Amazon, Congo, and Mekong basins.[29] More than 5,600 fish species inhabit Neotropical freshwaters alone, such that Neotropical fishes represent about 10% of all vertebrate species on the Earth.[30]
Fish are abundant in most bodies of water. They can be found in nearly all aquatic environments, from high mountain streams (e.g., char and gudgeon) to the abyssal and even hadal depths of the deepest oceans (e.g., cusk-eels and snailfish), although none have been found in the deepest 25% of the ocean.[31] The deepest living fish in the ocean so far found is a cusk-eel, Abyssobrotula galatheae, recorded at the bottom of the Puerto Rico trench at 8,370 m (27,460 ft).[32]
In terms of temperature, Jonah's icefish live in cold[a] waters of the Southern Ocean, including under the Filchner–Ronne Ice Shelf at a latitude of 79°S,[34] while desert pupfish live in desert springs, streams, and marshes, sometimes highly saline, with water temperatures as high as 36 C.[35][36]
Like other animals, fish suffer from parasitism. Some species use cleaner fish to remove external parasites. The best known of these are the bluestreak cleaner wrasses of coral reefs in the Indian and Pacific oceans. These small fish maintain cleaning stations where other fish congregate and perform specific movements to attract the attention of the cleaners.[42] Cleaning behaviors have been observed in a number of fish groups, including an interesting case between two cichlids of the same genus, Etroplus maculatus, the cleaner, and the much larger E. suratensis.[43]
The body of a typical fish is adapted for efficient swimming by alternately contracting paired sets of muscles on either side of the backbone. These contractions form S-shaped curves that move down the body. As each curve reaches the tail fin, force is applied to the water, moving the fish forward. The other fins act as control surfaces like an aircraft's flaps, enabling the fish to steer in any direction.[46]
Anatomy of a typical fish (lanternfish shown): 1) gill cover 2) lateral line 3) dorsal fin 4) fat fin 5) caudal peduncle 6) caudal fin 7) anal fin 8) photophores 9) pelvic fins 10) pectoral fins
Since body tissue is denser than water, fish must compensate for the difference or they will sink. Many bony fish have an internal organ called a swim bladder that allows them to adjust their buoyancy by increasing or decreasing the amount of gas it contains.[47]
The scales of fish provide protection from predators at the cost of adding stiffness and weight.[48] Fish scales are often highly reflective; this silvering provides camouflage in the open ocean. Because the water all around is the same colour, reflecting an image of the water offers near-invisibility.[49]
Silvered scales of a rohu provide protection and camouflage.
Circulation
Fish have a closed-loop circulatory system. The heart pumps the blood in a single loop throughout the body; for comparison, the mammal heart has two loops, one for the lungs to pick up oxygen, one for the body to deliver the oxygen. In fish, the heart pumps blood through the gills. Oxygen-rich blood then flows without further pumping, unlike in mammals, to the body tissues. Finally, oxygen-depleted blood returns to the heart.[50]
Fish exchange gases using gills on either side of the pharynx. Gills consist of comblike structures called filaments. Each filament contains a capillary network that provides a large surface area for exchanging oxygen and carbon dioxide. Fish exchange gases by pulling oxygen-rich water through their mouths and pumping it over their gills. Capillary blood in the gills flows in the opposite direction to the water, resulting in efficient countercurrent exchange. The gills push the oxygen-poor water out through openings in the sides of the pharynx. Cartilaginous fish have multiple gill openings: sharks usually have five, sometimes six or seven pairs; they often have to swim to oxygenate their gills. Bony fish have a single gill opening on each side, hidden beneath a protective bony cover or operculum. They are able to oxygenate their gills using muscles in the head.[51]
Some 400 species of fish in 50 families can breathe air, enabling them to live in oxygen-poor water or to emerge on to land.[52] The ability of fish to do this is potentially limited by their single-loop circulation, as oxygenated blood from their air-breathing organ will mix with deoxygenated blood returning to the heart from the rest of the body. Lungfish, bichirs, ropefish, bowfins, snakefish, and the African knifefish have evolved to reduce such mixing, and to reduce oxygen loss from the gills to oxygen-poor water. Bichirs and lungfish have tetrapod-like paired lungs, requiring them to surface to gulp air, and making them obligate air breathers. Many other fish, including inhabitants of rock pools and the intertidal zone, are facultative air breathers, able to breathe air when out of water, as may occur daily at low tide, and to use their gills when in water. Some coastal fish like rockskippers and mudskippers choose to leave the water to feed in habitats temporarily exposed to the air.[52] Some catfish absorb air through their digestive tracts.[53]
Digestion
The digestive system consists of a tube, the gut, leading from the mouth to the anus. The mouth of most fishes contains teeth to grip prey, bite off or scrape plant material, or crush the food. An esophagus carries foot to the stomach where food may be stored and partially digested. A sphincter, the pylorus, releases food to the intestine at intervals. Many fish have finger-shaped pouches, pyloric caeca, around the pylorus, of doubtful function. The pancreas secretes enzymes into the intestine to digest the food; other enzymes are secreted directly by the intestine itself. The liver produces bile which helps to break up fat into an emulsion which can be absorbed in the intestine.[54]
Excretion
Most fish release their nitrogenous wastes as ammonia. This may be excreted through the gills or filtered by the kidneys. Salt is excreted by the rectal gland.[55] Saltwater fish tend to lose water by osmosis; their kidneys return water to the body, and produce a concentrated urine. The reverse happens in freshwater fish: they tend to gain water osmotically, and produce a dilute urine. Some fish have kidneys able to operate in both freshwater and saltwater.[56]
Brain
Fish have small brains relative to body size compared with other vertebrates, typically one-fifteenth the brain mass of a similarly sized bird or mammal.[57] However, some fish have relatively large brains, notably mormyrids and sharks, which have brains about as large for their body weight as birds and marsupials.[58] At the front of the brain are the olfactory lobes, a pair of structures that receive and process signals from the nostrils via the two olfactory nerves. Fish that hunt primarily by smell, such as hagfish and sharks, have very large olfactory lobes. Behind these is the telencephalon, which in fish deals mostly with olfaction. Together these structures form the forebrain. Connecting the forebrain to the midbrain is the diencephalon; it works with hormones and homeostasis. The pineal body is just above the diencephalon; it detects light, maintains circadian rhythms, and controls color changes. The midbrain contains the two optic lobes. These are very large in species that hunt by sight, such as rainbow trout and cichlids. The hindbrain controls swimming and balance.The single-lobed cerebellum is the biggest part of the brain; it is small in hagfish and lampreys, but very large in mormyrids, processing their electrical sense. The brain stem or myelencephalon controls some muscles and body organs, and governs respiration and osmoregulation.[57]
The lateral line system is a network of sensors in the skin which detects gentle currents and vibrations, and senses the motion of nearby fish, whether predators or prey.[59] This can be considered both a sense of touch and of hearing. Blind cave fish navigate almost entirely through the sensations from their lateral line system.[60] Some fish, such as catfish and sharks, have the ampullae of Lorenzini, electroreceptors that detect weak electric currents on the order of millivolt.[61]
Hearing too is an important sensory system in fish. Fish sense sound using their lateral lines and otoliths in their ears, inside their heads. Some can detect sound through the swim bladder.[66]
Some fish, including salmon, are capable of magnetoreception; when the axis of a magnetic field is changed around a circular tank of young fish, they reorient themselves in line with the field.[67][68] The mechanism of fish magnetoreception remains unknown;[69] experiments in birds imply a quantum radical pair mechanism.[70]
The cognitive capacities of fish include self-awareness, as seen in mirror tests. Manta rays and wrasses placed in front of a mirror repeatedly check whether their reflection's behavior mimics their body movement.[71][72]Choerodon wrasse, archerfish, and Atlantic cod can solve problems and invent tools.[73] The monogamous cichlid Amatitlania siquia exhibits pessimistic behavior when prevented from being with its partner.[74] Fish orient themselves using landmarks; they may use mental maps based on multiple landmarks. Fish are able to learn to traverse mazes, showing that they possess spatial memory and visual discrimination.[75]
Most fish are exclusively cold-blooded or ectothermic. However, the Scombroidei are warm-blooded (endothermic), including the billfishes and tunas.[78] The opah, a lampriform, uses whole-body endothermy, generating heat with its swimming muscles to warm its body while countercurrent exchange minimizes heat loss.[79] Among the cartilaginous fishes, sharks of the families Lamnidae (such as the great white shark) and Alopiidae (thresher sharks) are endothermic. The degree of endothermy varies from the billfishes, which warm only their eyes and brain, to the bluefin tuna and the porbeagle shark, which maintain body temperatures more than 20 °C (68 °F) above the ambient water.[78][80][81]
The primary reproductive organs are paired testicles and ovaries.[82] Eggs are released from the ovary to the oviducts.[83] Over 97% of fish, including salmon and goldfish, are oviparous, meaning that the eggs are shed into the water and develop outside the mother's body.[84] The eggs are usually fertilized outside the mother's body, with the male and female fish shedding their gametes into the surrounding water. In a few oviparous fish, such as the skates, fertilization is internal: the male uses an intromittent organ to deliver sperm into the female's genital opening of the female.[85] Marine fish release large numbers of small eggs into the open water column. Newly hatched young of oviparous fish are planktonic larvae. They have a large yolk sac and do not resemble juvenile or adult fish. The larval period in oviparous fish is usually only some weeks, and larvae rapidly grow and change in structure to become juveniles. During this transition, larvae must switch from their yolk sac to feeding on zooplankton prey.[85] Some fish such as surf-perches, splitfins, and lemon sharks are viviparous or live-bearing, meaning that the mother retains the eggs and nourishes the embryos via a structure analogous to the placenta to connect the mother's blood supply with the embryo's.[85]
Fish have both non-specific and immune defenses against disease. Non-specific defenses include the skin and scales, as well as the mucus layer secreted by the epidermis that traps and inhibits the growth of microorganisms. If pathogens breach these defenses, the innate immune system can mount an inflammatory response that increases blood flow to the infected region and delivers white blood cells that attempt to destroy pathogens, non-specifically. Specific defenses respond to particular antigens, such as proteins on the surfaces of pathogenic bacteria, recognised by the adaptive immune system.[86] Immune systems evolved in deuterostomes as shown in the cladogram.[87]
A shoal is a loosely organised group where each fish swims and forages independently but is attracted to other members of the group and adjusts its behaviour, such as swimming speed, so that it remains close to the other members of the group. A school is a much more tightly organised group, synchronising its swimming so that all fish move at the same speed and in the same direction.[92] Schooling is sometimes an antipredator adaptation, offering improved vigilance against predators. It is often more efficient to gather food by working as a group, and individual fish optimise their strategies by choosing to join or leave a shoal. When a predator has been noticed, prey fish respond defensively, resulting in collective shoal behaviours such as synchronised movements. Responses do not consist only of attempting to hide or flee; antipredator tactics include for example scattering and reassembling. Fish also aggregate in shoals to spawn.[91] The capelin migrates annually in large schools between its feeding areas and its spawning grounds.[93]
Fish communicate by transmitting acoustic signals (sounds) to each other. This is most often in the context of feeding, aggression or courtship.[94] The sounds emitted vary with the species and stimulus involved. Fish can produce either stridulatory sounds by moving components of the skeletal system, or can produce non-stridulatory sounds by manipulating specialized organs such as the swimbladder.[95]
Some fish produce sounds by rubbing or grinding their bones together. These sounds are stridulatory. In Haemulon flavolineatum, the French grunt fish, as it produces a grunting noise by grinding its teeth together, especially when in distress. The grunts are at a frequency of around 700 Hz, and last approximately 47 milliseconds.[95] The longsnout seahorse, Hippocampus reidi produces two categories of sounds, 'clicks' and 'growls', by rubbing their coronet bone across the grooved section of their neurocranium.[96] Clicks are produced during courtship and feeding, and the frequencies of clicks were within the range of 50 Hz-800 Hz. The frequencies are at the higher end of the range during spawning, when the female and male fishes were less than fifteen centimeters apart. Growls are produced when the H. reidi are stressed. The 'growl' sounds consist of a series of sound pulses and are emitted simultaneously with body vibrations.[97]
Some fish species create noise by engaging specialized muscles that contract and cause swimbladder vibrations. Oyster toadfish produce loud grunts by contracting sonic muscles along the sides of the swim bladder.[98] Female and male toadfishes emit short-duration grunts, often as a fright response.[99] In addition to short-duration grunts, male toadfishes produce "boat whistle calls".[100] These calls are longer in duration, lower in frequency, and are primarily used to attract mates.[100] The various sounds have frequency range of 140 Hz to 260 Hz.[100] The frequencies of the calls depend on the rate at which the sonic muscles contract.[101][98]
The red drum, Sciaenops ocellatus, produces drumming sounds by vibrating its swimbladder. Vibrations are caused by the rapid contraction of sonic muscles that surround the dorsal aspect of the swimbladder. These vibrations result in repeated sounds with frequencies from 100 to >200 Hz. S. ocellatus produces different calls depending on the stimuli involved, such as courtship or a predator's attack. Females do not produce sounds, and lack sound-producing (sonic) muscles.[102]
Conservation
The 2024 IUCNRed List names 2,168 fish species that are endangered or critically endangered.[103] Included are species such as Atlantic cod,[104]Devil's Hole pupfish,[105]coelacanths,[106] and great white sharks.[107] Because fish live underwater they are more difficult to study than terrestrial animals and plants, and information about fish populations is often lacking. However, freshwater fish seem particularly threatened because they often live in relatively small water bodies. For example, the Devil's Hole pupfish occupies only a single 3 by 6 metres (10 by 20 ft) pool.[108]
The Food and Agriculture Organization reports that "in 2017, 34 percent of the fish stocks of the world's marine fisheries were classified as overfished".[110] Overfishing is a major threat to edible fish such as cod and tuna.[111][112] Overfishing eventually causes fish stocks to collapse, because the survivors cannot produce enough young to replace those removed. Such commercial extinction does not mean that the species is extinct, merely that it can no longer sustain a fishery. In the case of the Pacific sardine fishery off the California coast, the catch steadily declined from a 1937 peak of 800,000 tonnes to an economically inviable 24,000 tonnes in 1968.[113] In the case of the Atlantic northwest cod fishery, overfishing reduced the fish population to 1% of its historical level by 1992.[109]Fisheries scientists and the fishing industry have sharply differing views on the resiliency of fisheries to intensive fishing. In many coastal regions the fishing industry is a major employer, so governments are predisposed to support it.[114][115] On the other hand, scientists and conservationists push for stringent protection, warning that many stocks could be destroyed within fifty years.[116][117]
Other threats
A key stress on both freshwater and marine ecosystems is habitat degradation including water pollution, the building of dams, removal of water for use by humans, and the introduction of exotic species including predators.[118] Freshwater fish, especially if endemic to a region (occurring nowhere else), may be threatened with extinction for all these reasons, as is the case for three of Spain's ten endemic freshwater fishes.[119] River dams, especially major schemes like the Kariba Dam (Zambezi river) and the Aswan Dam (River Nile) on rivers with economically important fisheries, have caused large reductions in fish catch.[120] Industrial bottom trawling can damage seabed habitats, as has occurred on the Georges Bank in the North Atlantic.[121] Introduction of aquatic invasive species is widespread. It modifies ecosystems, causing biodiversity loss, and can harm fisheries. Harmful species include fish but are not limited to them;[122] the arrival of a comb jelly in the Black Sea damaged the anchovy fishery there.[123][122] The opening of the Suez Canal in 1869 has created Lessepsian migration, in which hundreds of species of fish, algae, and invertebrates have entered the Mediterranean Sea, changing its ecology.[124] The predatory Nile perch was deliberately introduced to Lake Victoria in the 1960s as a commercial and sports fish. The lake had high biodiversity, with some 500 endemic species of cichlid fish. It drastically altered the lake's ecology, and simplified the fishery from multi-species to just three: the Nile perch, the silver cyprinid, and another introduced fish, the Nile tilapia. The haplochromine cichlid populations have collapsed.[125][126]
Throughout history, humans have used fish as a food source for dietary protein. Historically and today, most fish harvested for human consumption has come by means of catching wild fish. However, fish farming, which has been practiced since about 3,500 BCE in ancient China,[127] is becoming increasingly important in many nations. Overall, about one-sixth of the world's protein is estimated to be provided by fish.[128]Fishing is accordingly a large global business which provides income for millions of people.[128] The Environmental Defense Fund has a guide on which fish are safe to eat, given the state of pollution in today's world, and which fish are obtained in a sustainable way.[129] As of 2020, over 65 million tonnes (Mt) of marine fish and 10 Mt of freshwater fish were captured, while some 50 Mt of fish, mainly freshwater, were farmed. Of the marine species captured in 2020, anchoveta represented 4.9 Mt, Alaska pollock 3.5 Mt, skipjack tuna 2.8 Mt, and Atlantic herring and yellowfin tuna 1.6 Mt each; eight more species had catches over 1 Mt.[130]
Fish have been recognized as a source of beauty for almost as long as used for food, appearing in cave art, being raised as ornamental fish in ponds, and displayed in aquariums in homes, offices, or public settings. Recreational fishing is fishing primarily for pleasure or competition; it can be contrasted with commercial fishing, which is fishing for profit, or artisanal fishing, which is fishing primarily for food. The most common form of recreational fishing employs a rod, reel, line, hooks, and a wide range of baits. Recreational fishing is particularly popular in North America and Europe; government agencies often actively manage target fish species.[131][132]
Fish themes have symbolic significance in many religions. In ancient Mesopotamia, fish offerings were made to the gods from the very earliest times.[133] Fish were also a major symbol of Enki, the god of water.[133] Fish frequently appear as filling motifs in cylinder seals from the Old Babylonian (c. 1830 BC – c. 1531 BC) and Neo-Assyrian (911–609 BC) periods.[133] Starting during the Kassite Period (c. 1600 BC – c. 1155 BC) and lasting until the early Persian Period (550–30 BC), healers and exorcists dressed in ritual garb resembling the bodies of fish.[133] During the Seleucid Period (312–63 BC), the legendary Babylonian culture heroOannes was said to have dressed in the skin of a fish.[133] Fish were sacred to the Syrian goddess Atargatis[134] and, during her festivals, only her priests were permitted to eat them.[134] In the Book of Jonah, the central figure, a prophet named Jonah, is swallowed by a giant fish after being thrown overboard by the crew of the ship he is travelling on.[135]Early Christians used the ichthys, a symbol of a fish, to represent Jesus.[134][136] Among the deities said to take the form of a fish are Ikatere of the Polynesians,[137]
the shark-god Kāmohoaliʻi of Hawaiʻi,[138]
and Matsya of the Hindus.[139] The constellation Pisces ("The Fishes") is associated with a legend from Ancient Rome that Venus and her son Cupid were rescued by two fishes.[140]
Fish feature prominently in art,[141] in films such as Finding Nemo[142] and books such as The Old Man and the Sea.[143] Large fish, particularly sharks, have frequently been the subject of horror movies and thrillers, notably the novel Jaws, made into a film which in turn has been parodied and imitated many times.[144] Piranhas are shown in a similar light to sharks in films such as Piranha.[145]
^The temperature is often around 0 C. The freezing point of seawater at the surface is -1.85 C, falling to -2.62 C at a depth of 1000 metres. However, the water can be supercooled somewhat below these temperatures.[33]
^Davis, R. W. (2019). "Return to the Sea: The Evolution of Marine Mammals". In Davis, R. W. (ed.). Marine Mammals: Adaptations for an Aquatic Life. New York: Springer International Publishing. pp. 7–27. ISBN978-3-3199-8278-6.
^Benton, M.J. (1998). "The quality of the fossil record of vertebrates". In Donovan, S.K.; Paul, C.R.C. (eds.). The adequacy of the fossil record. Wiley. pp. 269–303, Fig. 2.
^Henderson, P.A.; Walker, I. (1990). "Spatial organization and population density of the fish community of the litter banks within a central Amazonian blackwater stream". Journal of Fish Biology. 37 (3): 401–411. Bibcode:1990JFBio..37..401H. doi:10.1111/j.1095-8649.1990.tb05871.x.
^Helfman, G.S. (2007). Fish Conservation: A Guide to Understanding and Restoring Global Aquatic Biodiversity and Fishery Resources. Island Press. pp. 41–42. ISBN978-1-55963-595-0.
^Wyman, Richard L.; Ward, Jack A. (1972). "A Cleaning Symbiosis between the Cichlid Fishes Etroplus maculatus and Etroplus suratensis. I. Description and Possible Evolution". Copeia. 1972 (4): 834–838. doi:10.2307/1442742. JSTOR1442742.
^Quan, Haocheng; Yang, Wen; Lapeyriere, Marine; Schaible, Eric; Ritchie, Robert O.; Meyers, Marc A. (2020). "Structure and Mechanical Adaptability of a Modern Elasmoid Fish Scale from the Common Carp". Matter. 3 (3): 842–863. doi:10.1016/j.matt.2020.05.011.
^ abAlbert, J. S.; Crampton, W. G. (2006). "Electroreception and Electrogenesis". In Lutz, P. L. (ed.). The Physiology of Fishes. Boca Raton, Florida: CRC Press. pp. 429–470. ISBN978-0-8493-2022-4.
^Scott, Peter (1997). Livebearing Fishes. Tetra Press. p. 13. ISBN1-56465-193-2.
^ abcMiller, Bruce; Kendall, Arthur W. (2009). "1. Fish Reproduction"(PDF). Early Life History of Marine Fishes. University of California Press. pp. 11–37. ISBN9780520249721. Archived(PDF) from the original on 7 March 2016.
^Zapata, A.G.; Chiba, A.; Vara, A. (1996). "Cells and tissues of the immune system of fish". In Iwama, G. Iwama; Nakanishi, T. (eds.). The Fish Immune System: Organism, Pathogen and Environment. Fish Immunology. New York: Academic Press. pp. 1–55.
^Colson, D.J.; Patek, S.N.; Brainerd, E.L.; Lewis, S.M. (February 1998). "Sound production during feeding in Hippocampus seahorses (Syngnathidae)". Environmental Biology of Fishes. 51 (2): 221–229. Bibcode:1998EnvBF..51..221C. doi:10.1023/A:1007434714122. S2CID207648816.
^Oliveira, T.P.R.; Ladich, F.; Abed-Navandi, D.; Souto, A.S.; Rosa, I.L. (26 June 2014). "Sounds produced by the longsnout seahorse: a study of their structure and functions". Journal of Zoology. 294 (2): 114–121. doi:10.1111/jzo.12160.
^ abLovell, Sabrina J.; Stone, Susan F.; Fernandez, Linda (2006). "The economic impacts of aquatic invasive species: a review of the literature". Agricultural and Resource Economics Review. 35 (1): 195–208. doi:10.1017/S1068280500010157.
^Knowler, D.; Barbier, E.B. (2000). "The Economics of an Invading Species: a Theoretical Model and Case Study Application". In Perrings, C.; Williamson, M.; Dalmazzone, S. (eds.). The Economics of Biological Invasions. Cheltenham: Edward Elgar. pp. 70–93.
^Golani, Daniel (1998). "Impact of Red Sea fish migrants through the Suez Canal on the aquatic environment of the Eastern Mediterranean". Bulletin Series Yale School of Forestry and Environmental Studies (103): 375–387.
^Coulter, George W.; Allanson, Brian R.; Bruton, Michael N.; Greenwood, P. Humphry; Hart, Robert C.; Jackson, Peter B. N.; Ribbink, Anthony J. (1986). "Unique qualities and special problems of the African Great Lakes". Environmental Biology of Fishes. 17 (3). Springer Science and Business Media: 161–183. Bibcode:1986EnvBF..17..161C. doi:10.1007/bf00698196. ISSN0378-1909.
^ abHelfman, Gene S. (2007). Fish Conservation: A Guide to Understanding and Restoring Global Aquatic Biodiversity and Fishery Resources. Island Press. p. 11. ISBN978-1-59726-760-1.
^Beard, T. Douglas, ed. (2011). The Angler in the Environment: Social, Economic, Biological, and Ethical Dimensions. Bethesda, Maryland: American Fisheries Society. p. 365. ISBN978-1-934874-24-0.
^Hickley, Phil; Tompkins, Helena, eds. (1998). Recreational Fisheries: Social, Economic and Management Aspects. Wiley-Blackwell. p. 328. ISBN978-0-852-38248-6.
^Durga, P.; Sai, Kanaka (2017). "Nature of Existential Struggle in The Old Man and the Sea". Journal of English Language and Literature JOELL. 4 (4): 19–21.
^Alabaster, Jay (2023). "The Goofy Great White: Jaws and Our Love for an Apex Predator". In Jackson, Kathy Merlock; Simpson, Philip L. (eds.). This shark, swallow you whole": Essays on the Cultural Influence of Jaws. McFarland. pp. 124–. ISBN978-1-4766-7745-3.
Eschmeyer, William N.; Fong, Jon David (2013). "Catalog of Fishes". California Academy of Sciences. Archived from the original on 21 November 2018. Retrieved 28 February 2013.
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Ne doit pas être confondu avec Bourse de Paris. Bourse de commerce de ParisPrésentationType Bourse de commerce, bâtiment commercialArchitectes François-Joseph Bélanger, Henri BlondelOuverture 1767Occupant Bourse de Commerce - Pinault Collection (d) (depuis 2021)Patrimonialité Classé MH (1986) Inscrit MH (1975)LocalisationAdresse www.boursedecommerce.fr 1er arrondissement de Paris, Paris FranceAccès et transportMétro Louvre - Rivoli Les Halles Châtelet - L…
Die Liste der Kulturdenkmale in Trachenberge umfasst die Kulturdenkmale der Dresdner Gemarkung Trachenberge basierend auf dem Themenstadtplan Dresden. Die Anmerkungen sind zu beachten. Diese Liste ist eine Teilliste der Liste der Kulturdenkmale in Dresden. Diese Liste ist eine Teilliste der Liste der Kulturdenkmale in Sachsen. Inhaltsverzeichnis 1 Legende 2 Liste der Kulturdenkmale in Trachenberge 3 Ehemalige Kulturdenkmale 4 Anmerkungen 5 Ausführliche Denkmaltexte 6 Quellen 7 Weblinks Legende …
هذه المقالة بحاجة لصندوق معلومات. فضلًا ساعد في تحسين هذه المقالة بإضافة صندوق معلومات مخصص إليها. يفتقر محتوى هذه المقالة إلى الاستشهاد بمصادر. فضلاً، ساهم في تطوير هذه المقالة من خلال إضافة مصادر موثوق بها. أي معلومات غير موثقة يمكن التشكيك بها وإزالتها. (مايو 2020) هذه مقالة …
هذه المقالة يتيمة إذ تصل إليها مقالات أخرى قليلة جدًا. فضلًا، ساعد بإضافة وصلة إليها في مقالات متعلقة بها. (أبريل 2019) دونالد ر. بيرس معلومات شخصية الميلاد 13 أبريل 1937 (86 سنة) مواطنة الولايات المتحدة الحياة العملية المهنة فارس الرياضة سباق الخيل تعديل مصدري - تعديل …
Dieser Artikel beschäftigt sich mit Landschaftsräumen, für die Operationszone Alpenvorland siehe dort. Abgrenzung des Alpenvorlandes in Süddeutschland Das österreichische Alpenvorland, geteilt durch Karpatenvorland und Wiener Becken Alpenvorland bei Kempten im Allgäu Als Alpenvorland bezeichnet man das Hochland rund um die Alpen. Inhaltsverzeichnis 1 Gliederung 2 Begriffsklärung, Geologie 2.1 Nördliches Alpenvorland 3 Geschichtliche Bedeutung 4 Morphologie 5 Einteilung 5.1 Nördliches Al…
Suburb of London Human settlement in EnglandNew MaldenClockwise from top: New Malden High Street with Apex Tower in the background, a Korean supermarket, Cycleway 31 along the Cut, New Malden station and New Malden Town HallNew MaldenLocation within Greater LondonOS grid referenceTQ215685• Charing Cross9.4 mi (15.1 km) NELondon boroughKingstonMertonCeremonial countyGreater LondonRegionLondonCountryEnglandSovereign stateUnited KingdomPost townNEW MAL…
German Holocaust perpetrator (1900–1977) Waldemar KlingelhöferKlingelhöfer's mugshot after his indictment for the Nuremberg Military Tribunal (July 1947)Born4 April 1900 (1900-04-04)Moscow, Moscow Governorate, Russian EmpireDied18 January 1977(1977-01-18) (aged 76)Villingen-Schwenningen, Baden-Württemberg, West GermanyOccupation(s)Opera singer, Nazi official, office clerkCriminal statusDeceasedMotiveNazismConviction(s)Crimes against humanityWar crimesMembership in a criminal organ…
Territoire roumain en mai 1942. L' accord de Tiraspol (roumain : Acordul de la Tiraspol ; allemand : Tiraspoler Abkommen) est un accord entre l'Allemagne nazie et la Roumanie signé le 19 août 1941 dans la ville de Tiraspol (aujourd'hui en Moldavie, sous contrôle transnistrien) concernant l'administration roumaine de la région de Transnistrie, qui devint le gouvernorat de Transnistrie. Il tombe sous le règne de Gheorghe Alexianu, sous la subordination immédiate d'Ion Antonesc…
2015 documentary film about the events of 1964 1964Written byStephen IvesDirected byStephen IvesNarrated byOliver PlattMusic byPeter RundquistCountry of originUnited StatesOriginal languageEnglishProductionProducerAmanda PollakCinematographyAndrew Young Haskell WexlerEditorsGeorge O’Donnell Amy FooteRunning time120 minutesProduction companyInsignia FilmsOriginal releaseRelease January 2015 (2015-01) 1964 is a documentary film produced by Insignia Films for the American Experience ser…
Baseball park in Williamsport, Pennsylvania, USA, home to the Williamsport Crosscutters For other uses, see Bowman Field (disambiguation). Journey Bank Ballpark at Historic Bowman FieldHistoric Bowman FieldFormer namesMemorial Field (1926–1929)Bowman Field (1929–2000)Historic Bowman Field (2000–2014)Susquehanna Bank Park at Historic Bowman Field (2014–2016)BB&T Ballpark at Historic Bowman Field (2016–2021)Muncy Ballpark at Historic Bowman Field (2021–2023)LocationWilliamsport, Pe…
Anya Taylor-JoyTaylor-Joy pada 2019LahirAnya-Josephine Marie Taylor-Joy16 April 1996 (umur 27)Miami, Florida, Amerika SerikatPekerjaanAktrismodelTahun aktif2014–sekarang Anya Josephine Marie Taylor-Joy (lahir 16 April 1996)[1] adalah aktris dan model berkebangsaan Amerika Serikat keturunan Argentina-Inggris.[2] Ia telah membintangi film-film horor seperti The Witch dan Morgan.[3] Kehidupan awal Taylor-Joy lahir di Miami, Florida, sebagai anak bungsu dari enam …
American TV series or program Fantasia for RealGenreDocumentaryStarringFantasia BarrinoCountry of originUnited StatesOriginal languageEnglishNo. of seasons2No. of episodes20ProductionExecutive producers Fenton Bailey Jeff Olde Jeremy Simmons Jill Holmes Kristen Kelly Randy Barbato Tom Campbell Running time21 to 23 minutesProduction companyWorld of Wonder ProductionsOriginal releaseNetworkVH1ReleaseJanuary 11 (2010-01-11) –November 28, 2010 (2010-11-28) Fantasia for Real is …
Spanish municipal election 2023 Zaragoza City Council election ← 2019 28 May 2023 All 31 seats in the City Council of Zaragoza16 seats needed for a majorityOpinion polls First party Second party Third party Leader Natalia Chueca Lola Ranera Julio Calvo Party PP PSOE Vox Leader since January 2023 19 February 2020 22 April 2019 Last election 8 seats, 22.0% 10 seats, 28.0% 2 seats, 6.2% Seats won 15 10 4 Seat change 7 0 2 Popular vote 125,751 8…
1976 Indian filmZidPosterDirected byVijayStarringNutanSarikaSachinPremnathMusic byRavindra JainRelease date1976Running time110 min.CountryIndiaLanguageHindi Zid is a 1976 Indian Hindi-language film directed by Vijay,[1] starring Nutan, Sarika, Sachin and Premnath.[2][3] Plot This article needs a plot summary. Please add one in your own words. (January 2016) (Learn how and when to remove this template message) Cast Nutan Sarika Sachin Premnath Music All songs were written …
Italian painter (1822–1897) Self-portrait (1861) A Walking Tour at the Muro Torto [it] Antonio Puccinelli (19 March 1822, Castelfranco di Sotto - 22 July 1897, Florence) was an Italian painter; one of the group known as the Macchiaioli. Biography He was the son of a tailor and was planning to follow his father in that trade, but a group of local citizens noticed his talent for art. Thanks to a scholarship, he was able to attend the Accademia di Belle Arti di Firenze, where he stud…
Challenge Cup Sportart Rugby League Gegründet 1896 Mannschaften 94 Länder England EnglandFrankreich FrankreichRussland RusslandSchottland SchottlandWales Wales Website rugby-league.com Der Challenge Cup ist ein seit 1896 jährlich ausgetragener Pokalwettbewerb für Rugby-League-Mannschaften in Europa. Ursprünglich stand er lediglich britischen Mannschaften offen, doch wurde der Wettbewerb in den letzten Jahren auf Frankreich und Russland ausgedehnt. Es nehmen Amateur-,…
Пётр КарпошПетър Карпош Король Куманова Предшественник должность учреждена Наследник должность упразднена Рождение XVII векВойник, Османская империя Смерть 1689 (?)Скопье, Османская империя (?) Медиафайлы на Викискладе Карпош (Карпуз) — македонский герой и государстве…
Questa voce o sezione sull'argomento applicazioni dell'informatica non cita le fonti necessarie o quelle presenti sono insufficienti. Puoi migliorare questa voce aggiungendo citazioni da fonti attendibili secondo le linee guida sull'uso delle fonti. Accesso universale è una tecnologia introdotta nel sistema operativo macOS per facilitare l'utilizzo del computer a tutte quelle che persone che hanno problemi uditivi, visivi o tattili. In sostanza sono una serie di accorgimenti per consentire…
Gingham CheckSampul edisi reguler Tipe ASingel oleh AKB48Sisi-BYume no Kawa (Tipe A)Doremifa Onchi (Tipe A)Nante Bohemian (Tipe B)Show Fight! (Tipe B)Ano Hi no Fūrin (Edisi Teater)Dirilis29 Agustus 2012 (2012-08-29) (Jepang)FormatSingel maxi, unduh digitalGenreJ-popLabelYou, Be Cool!/King RecordsPenciptaYasushi Akimoto (lirik)ProduserYasushi AkimotoVideo musikGingham Check (pratayang) di YouTube Video musikYume no Kawa (pratayang) di YouTube Video musikNante Bohemian (pratayang) di YouTube…
Donald Pleasence Pleasence en Londres, 1973Información personalNombre de nacimiento Donald Henry PleasenceNacimiento 5 de octubre de 1919 Worksop, Nottinghamshire,InglaterraFallecimiento 2 de febrero de 1995 (75 años) Saint-Paul de Vence,FranciaCausa de muerte Insuficiencia cardíaca Nacionalidad BritánicaCaracterísticas físicasAltura 1,70 mFamiliaCónyuge Miriam Raymond(1941–1958)Josephine Crombie(1959–1970)Meira Shore(1970–1988)Linda J. Kentwood(1988–1995)Hijos Angela Pleasen…
Distributed file synchronization system git-annexOriginal author(s)Joey HessInitial release19 October 2010; 13 years ago (2010-10-19)Stable release10.20230802 / 2 August 2023; 4 months ago (2023-08-02) Repositorygit-annex.branchable.com Written inHaskellOperating systemLinux, FreeBSD, Android, OS X, WindowsSize44.2 MBTypeFile synchronizationLicenseGPL3+, AGPL3+ [1]Websitegit-annex.branchable.com git-annex is a distributed file synchronization system wr…
This article has multiple issues. Please help improve it or discuss these issues on the talk page. (Learn how and when to remove these template messages) This article has an unclear citation style. The references used may be made clearer with a different or consistent style of citation and footnoting. (February 2012) (Learn how and when to remove this template message) This article needs additional citations for verification. Please help improve this article by adding citations to reliable sourc…
Sleeping Murder: Miss Marple's Last Case Berkas:Sleeping Murder First Edition Cover 1976.jpgIlustrasi edisi Inggris pertamaPengarangAgatha ChristiePerancang sampulTidak diketahuiNegaraBritania RayaBahasaInggrisGenreNovel kejahatanPenerbitCollins Crime ClubTanggal terbitOktober 1976Jenis mediaCetak (sampul keras & sampul kertas)Halaman224 pada edisi pertama, sampul kerasISBNISBN 0-00-231785-0OCLC2904600Desimal Dewey823/.9/12LCCPZ3.C4637 Sm PR6005.H66Didahului olehCurt…
Species of fish Sawtail grouper Conservation status Data Deficient (IUCN 3.1)[1] Scientific classification Domain: Eukaryota Kingdom: Animalia Phylum: Chordata Class: Actinopterygii Order: Perciformes Family: Serranidae Subfamily: Epinephelinae Genus: Mycteroperca Species: M. prionura Binomial name Mycteroperca prionuraRosenblatt & Zahuranec, 1967 The sawtail grouper (Mycteroperca prionura)is a species of marine ray-finned fish, a grouper from the subfamily Epinephelinae wh…
Fonseca Datos generalesNombre Fonseca Atlético ClubeApodo(s) Galo CarijóFundación 12 de octubre de 1917 (106 años)Desaparición 1965InstalacionesEstadio Estádio NiteróiCapacidad 2.000Ubicación Niterói, Brasil Titular Alternativo Última temporadaLiga Campeonato Niteroiense() 4ºTítulos 11 (por última vez en 1962) Página web oficial[editar datos en Wikidata] El Fonseca Atlético Clube es un equipo polideportivo de la ciudad de Niterói en Río de Janeiro. Historia F…
Den här artikeln behöver källhänvisningar för att kunna verifieras. (2011-10) Åtgärda genom att lägga till pålitliga källor (gärna som fotnoter). Uppgifter utan källhänvisning kan ifrågasättas och tas bort utan att det behöver diskuteras på diskussionssidan. Androgener är den övergripande termen för de manliga könshormonerna hos ryggradsdjur samt de syntetiska substanser som verkar på liknande sätt. Båda könen har normalt både kvinnliga och manliga könshormoner, men m…