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The Eurasian minnow, minnow, or common minnow (''Phoxinus phoxinus'') is a small
species In biology, a species is the basic unit of classification and a taxonomic rank of an organism, as well as a unit of biodiversity. A species is often defined as the largest group of organisms in which any two individuals of the appropriate s ...
of freshwater
fish Fish are aquatic, craniate, gill-bearing animals that lack limbs with digits. Included in this definition are the living hagfish, lampreys, and cartilaginous and bony fish as well as various extinct related groups. Approximately 95% of ...
in the carp
family Family (from la, familia) is a group of people related either by consanguinity (by recognized birth) or affinity (by marriage or other relationship). The purpose of the family is to maintain the well-being of its members and of society. Idea ...
Cyprinidae. It is the
type species In zoological nomenclature, a type species (''species typica'') is the species name with which the name of a genus or subgenus is considered to be permanently taxonomically associated, i.e., the species that contains the biological type specime ...
of
genus Genus ( plural genera ) is a taxonomic rank used in the biological classification of living and fossil organisms as well as viruses. In the hierarchy of biological classification, genus comes above species and below family. In binomial nom ...
''
Phoxinus ''Phoxinus'' is a genus of freshwater fish in the family Leuciscidae of order Cypriniformes, and the only members of the subfamily Phoxininae, or Eurasian minnows. The type species is ''Phoxinus phoxinus''. The other species in this genus are al ...
''. It is
ubiquitous Omnipresence or ubiquity is the property of being present anywhere and everywhere. The term omnipresence is most often used in a religious context as an attribute of a deity or supreme being, while the term ubiquity is generally used to describ ...
throughout much of
Eurasia Eurasia (, ) is the largest continental area on Earth, comprising all of Europe and Asia. Primarily in the Northern and Eastern Hemispheres, it spans from the British Isles and the Iberian Peninsula in the west to the Japanese archipelago ...
, from
Britain Britain most often refers to: * The United Kingdom, a sovereign state in Europe comprising the island of Great Britain, the north-eastern part of the island of Ireland and many smaller islands * Great Britain, the largest island in the United King ...
and
Spain , image_flag = Bandera de España.svg , image_coat = Escudo de España (mazonado).svg , national_motto = ''Plus ultra'' (Latin)(English: "Further Beyond") , national_anthem = (English: "Royal March") , i ...
to eastern
Siberia Siberia ( ; rus, Сибирь, r=Sibir', p=sʲɪˈbʲirʲ, a=Ru-Сибирь.ogg) is an extensive region, geographical region, constituting all of North Asia, from the Ural Mountains in the west to the Pacific Ocean in the east. It has been a ...
, predominantly in cool () streams and well- oxygenated lakes and
ponds A pond is an area filled with water, either natural or artificial, that is smaller than a lake. Defining them to be less than in area, less than deep, and with less than 30% emergent vegetation helps in distinguishing their ecology from t ...
. It is noted for being a
gregarious Sociality is the degree to which individuals in an animal population tend to associate in social groups (gregariousness) and form cooperative societies. Sociality is a survival response to evolutionary pressures. For example, when a mother wasp ...
species,
shoaling In biology, any group of fish that stay together for social reasons are shoaling, and if the group is swimming in the same direction in a coordinated manner, they are schooling. In common usage, the terms are sometimes used rather loosely. Ab ...
in large numbers.


Description

The common minnow is a small fish which reaches a maximum total length of , but is normally around in length. It has 3 spines and 6–8 soft rays in its
dorsal fin A dorsal fin is a fin located on the back of most marine and freshwater vertebrates within various taxa of the animal kingdom. Many species of animals possessing dorsal fins are not particularly closely related to each other, though through c ...
with 3 spines and 6–8 soft rays in its anal fin. Its spine is made up of 38–40
vertebrae The spinal column, a defining synapomorphy shared by nearly all vertebrates, Hagfish are believed to have secondarily lost their spinal column is a moderately flexible series of vertebrae (singular vertebra), each constituting a characteristi ...
. It is distinguished from similar species which occur in Europe by having the lateral line normally extending beyond the nase of the anal fin, by a line of vertically elongated blotches along the lateral line each with a depth equivalent to 1/3–1/2 of the body's depth at same position, these blotches often fuse to form a midlateral stripe, caudal peduncle has a depth of 2.6–3.1 times its length. The scales on the breast are patchy and the patches of scales are separated by unscaled areas although they are rarely connected by 1–2 rows of scales. Its snout length is 29–34% of the head length and is 1.1–1.4 times the diameter of the eye. The anal fin has its origin in front of the base of the last dorsal ray. The
caudal fin Fins are distinctive anatomical features composed of bony spines or rays protruding from the body of a fish. They are covered with skin and joined together either in a webbed fashion, as seen in most bony fish, or similar to a flipper, as ...
consists of 19 soft rays. The back is normally brownish-green, and is separated from the whitish-gray underside by the lateral stripe or blotches described above,


Distribution

The common minnow is found in northern Eurasia from Ireland in the west and in the east to the
Amur The Amur (russian: река́ Аму́р, ), or Heilong Jiang (, "Black Dragon River", ), is the world's tenth longest river, forming the border between the Russian Far East and Northeastern China ( Inner Manchuria). The Amur proper is long, ...
drainage and Korea. In Great Britain occurs to 58 °N and in Scandinavia and Russia occur up to the northernmost extremities. In western Europe the southern limit appears to be the
Garonne The Garonne (, also , ; Occitan, Catalan, Basque, and es, Garona, ; la, Garumna or ) is a river of southwest France and northern Spain. It flows from the central Spanish Pyrenees to the Gironde estuary at the French port of Bordeaux – ...
and the upper Rhone. It has been recorded in the drainages of the
Volga The Volga (; russian: Во́лга, a=Ru-Волга.ogg, p=ˈvoɫɡə) is the longest river in Europe. Situated in Russia, it flows through Central Russia to Southern Russia and into the Caspian Sea. The Volga has a length of , and a catchm ...
and the
Ural Ural may refer to: *Ural (region), in Russia and Kazakhstan *Ural Mountains, in Russia and Kazakhstan *Ural (river), in Russia and Kazakhstan * Ual (tool), a mortar tool used by the Bodo people of India *Ural Federal District, in Russia *Ural econ ...
, as well as in
Lake Balkhash Lake Balkhash ( kk, Балқаш көлі, ''Balqaş kóli'', ; russian: озеро Балхаш, ozero Balkhash) is a lake in southeastern Kazakhstan, one of the largest lakes in Asia and the 15th largest in the world. It is located in the ea ...
and the upper Syr-Darya drainage. Records else where require confirmation as this species is similar to a number of others. In Scotland it is regarded as an introduced non native species, and this is probably the case in Ireland. Introductions are likely to have occurred elsewhere, including Norway.


Habitat

The common minnow is found in a wide variety of environments that have cold, well oxygenated water, often in syntopy with salmonids. These include small streams with fast currents, and, in the more northerly parts of its range, large lowland rivers. It also lives in still waters as varied as small mountain lakes to large, oligotrophic lakes. For spawning, it requires clean gravel areas in well oxygenated flowing water or where waves wash on lake shores. It also needs deep pools with low current to overwinter in, and these must have a coarse substrate among which the fish can hide.


Behavior


Shoaling

Shoaling and schooling In biology, any group of fish that stay together for social reasons are shoaling, and if the group is swimming in the same direction in a coordinated manner, they are schooling. In common usage, the terms are sometimes used rather loosely. Ab ...
behavior of common minnows occur early in their development, as soon as they become capable of swimming. Shoaling behavior then increases and becomes dominant by three to four weeks after its emergence. This behavior generally benefits individual minnows by improving predator avoidance and foraging. However, there are also costs of living in groups such as increased competition for food and risk of infection. Shoaling behavior is modified depending on the situation such as presence of predators or resource availability.


Predator avoidance

The group formation of common minnows can be explained by the selfish herd effect proposed by W.D. Hamilton. According to the
selfish herd theory The selfish herd theory states that individuals within a population attempt to reduce their predation risk by putting other conspecifics between themselves and predators. A key element in the theory is the domain of danger, the area of ground in wh ...
, a group forms as individuals try to reduce their domain of danger by approaching others and continuously moving toward the center of the group where the risk of predation is the lowest. As the theory predicts, common minnows increase their shoaling behavior in response to increased predation pressure.


Alarm substance

Common minnows can detect the predators’ presence and communicate with their shoalmates by a chemical signal that is detected by olfactory nerves. The chemical, named
Schreckstoff In 1938, the Austrian ethologist Karl von Frisch made his first report on the existence of the chemical alarm signal known as ''Schreckstoff'' (fright substance) in minnows. An alarm signal is a response produced by an individual, the “sender” ...
after a German word meaning "fear substance" by Karl von Frisch who first described it, is contained in specialized skin cells called alarm substance cells and is released from an injured or killed minnow. The shoalmates can detect the chemical and respond to the increased risk of predation. The production and release of this alarm substance are
altruistic Altruism is the principle and moral practice of concern for the welfare and/or happiness of other human beings or animals, resulting in a quality of life both material and spiritual. It is a traditional virtue in many cultures and a core asp ...
because the sender of the signal, who does not directly benefit from the signal released upon its injury, has to pay the cost for the production and release of the chemical. In fact, the alarm substance cells decrease in number when the common minnows are in poor physical condition due to scarce food, indicating that there is metabolic cost for producing and maintaining the specialized cells. The apparent altruistic behavior is not clearly understood, because the likely explanation of kin selection is not supported by the shoal structure of common minnows in which shoalmates are not necessarily closely related.


Shoaling adjustment in response to predation risk

When common minnows sense the alarm substance, they form tighter shoals as individuals move to be in the central position in their shoaling group. However, in an experiment where common minnows were habituated to the chemical by continuous exposure, common minnows did not react to the signal. Only the naïve common minnows reacted to the signal by relocating themselves to the central position in the group. In another experiment, researchers observed common minnows in semi-natural setting and found that common minnows’ shoaling behavior varies depending on the habitat's complexity. Minnows tend to respond to increased predation risk by forming larger shoals in structurally simple habitats and by reducing their rate of movement in complex habitats.


Predator inspection

When potential predators come near the shoal, some common minnows take the risk of approaching the predators in order to inspect the predator and assess the danger. Predator inspection behavior increases the risk of being attacked and eaten by the predator, but the behavior is beneficial to the inspectors as more alert minnows react more quickly to the attack of the predator. Common minnows are expected to recognize predators by their appearance. In an experiment, common minnows inspected a realistic-looking model of a pike, one of the major predators of minnows, and a simple cylinder model. Common minnows showed high level of
alertness Alertness is the state of active attention by high sensory awareness such as being watchful and prompt to meet danger or emergency, or being quick to perceive and act. It is related for psychology . A lack of alertness is a symptom of a ...
, such as low feeding rate and frequent skittering after their visit to the realistic model, but they became easily habituated to the simple model and resumed foraging even in proximity to the model. In addition to identifying predators by their appearance, common minnows can respond to the predators’ motivation to attack. In an experiment, common minnows inspected a
northern pike The northern pike (''Esox lucius'') is a species of carnivorous fish of the genus ''Esox'' (the pikes). They are typical of brackish and fresh waters of the Northern Hemisphere (''i.e.'' holarctic in distribution). They are known simply as a p ...
behind a clear partition at regular intervals until the pike tried to attack the minnows. Their responses differed depending on when their visit was made. Minnows that inspected the pike just before the pike attacked were more alarmed than those who inspected the pike long before the attack. The observation shows that common minnows can detect the predator's impending aggressiveness and motivation to attack.


Variations in anti-predator activities

Different populations of common minnows show varying degrees of anti-predatory activities. Common minnows from populations in high-predation areas usually show more intense predator inspection than those from low-predation areas. They tend to commence inspection sooner, form larger group of inspectors, inspect more frequently, and approach less to the predator. Some components of anti-predator activities are inherited, as indicated in the early emergence of shoaling behavior in laboratory-raised immature minnows. The varying levels of predator inspection and shoaling behavior in response to predator's presence can arise in laboratory-raised minnows even though they do not have any experience of predators. Their anti-predatory behaviors are qualitatively and quantitatively similar to their wild-caught counterparts. Anti-predatory behaviors are modified by early experience of predators. Early exposure to predators increases the inspection rate and shoaling tendency.


Foraging

Shoaling behavior improves foraging success, because the demand for anti-predatory activities per individual is reduced and because more individuals scanning for food leads to quicker detection. In general, a larger shoal of fish locates food faster, which was confirmed to be true in common minnows.


Individual recognition and shoal choice

Common minnows do not randomly choose shoalmates to forage with. They tend to associate with familiar shoalmates and prefer to form shoals with poor competitors for food, which indicates that they can recognize individual conspecifics. It is more beneficial to shoal with poor competitors because while group foraging helps the search for food, it also leads to competition for food among the shoalmates. Common minnows tend to associate with familiar shoalmates, but new alliances can form when different groups encounter. In an experiment in which common minnows from different groups were introduced to a common environment and monitored, they associated significantly more frequently with familiar individuals than unfamiliar individuals. The preference lasted up to two weeks, but by the third week, new association patterns were observed.


Breeding in captivity

The Eurasian minnow breeds well in cold fresh water aquariums, but it is rarely sold as an aquarium fish. They need a good supply of oxygen (some air bubblers do fine), a reasonable current (which is often provided by the bubblers if they are good strong ones), and a gravel bottom. It is not clear what size works best although smallish ( each) works well. Clean water helps and so do plant life and general good quality aquarium conditions. Breeding begins around late May when the fish become noticeably more active, and the fish begin to change colour. The females don't change their colour so much, more the shape of their body; in fact the colours seem to fade if anything except for the fins which become slightly more red. Their body becomes more deep set toward the abdomen, which area also starts bulking out. Although the changes in the female are small, the changes in the male are huge. First of all, the difference in the shades of colour on the fish become stronger (dark gets darker, light gets lighter), and the fins, throat and some other areas redden. These colour changes strengthen as the fish gets closer to breeding. The body becomes much bulkier, and the gills become very pale with iridescent light blue patches towards the bottom and below. This contrasts with the now very dark body. Later the scales on the lower half of the body begin to stand out more and become slightly gold-lined. All these strengthen as time passes on. All the fins, especially the dorsal, start to stick out more; this happens in both sexes. The males begin to chase females around, rubbing their sides against them, and this becomes very frenzied and aggressive towards the mating. Mating happens when this behaviour reaches its climax where the female releases the eggs and the male fertilizes them. Fertilised eggs promptly sink to the bottom and into the gravel. The other fish will start eating the eggs and picking at the gravel to find them. The male will then ferociously guard them for a period of time. A few days later the eggs will hatch and the fry will emerge. It is very important to have much plant cover for the fry to hide in as the adult fish will try to eat them especially if underfed and if not much other live food is given. The baby fry feed on small organisms called
infusoria Infusoria are minute freshwater life forms including ciliates, euglenoids, protozoa, unicellular algae and small invertebrates. Some authors (e.g., Bütschli) used the term as a synonym for Ciliophora. In modern formal classifications, the term ...
and algae. To grow infusoria for feeding just get a jam jar of pond water and run it through some cotton wool or muslin to get out any larger predatory organisms like daphnia which will eat the infusoria and add hay to the water. Leave it for a few days in a dimly lit room at about room temp. There will be many tiny white dots in the water which, if looked at under a microscope reveal to be many types of infusoria in their millions. These can be fed to the fry by adding them to the tank. To get more just add some of the old water containing the infusoria to cooled, boiled tap water with hay and repeat the other procedures. As the fry grow their diet changes. When they reach about they can be fed small organisms like daphnia or cyclops. These can be obtained by dragging a net through water where they can be seen or they can be purchased from aquarium dealers. Soon the fish will eat the same food as the adults and will quickly grow.


Endocrinology

Skin color changes are controlled by photoreceptors deep in the brain. This has contributed greatly to understanding of photoactivation of various processes across vertebrates - including for example, seasonality.


References


External links

* {{Authority control Phoxinus Fish described in 1758 Fish of Asia Freshwater fish of Europe Taxa named by Carl Linnaeus