Catfish

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Siluriformes
Temporal range: Late Cretaceous – present 100–0 Ma

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Black bullhead

Scientific classification edit
Kingdom:
Animalia
Phylum:
Chordata
Class:
Actinopterygii
Superorder:
Ostariophysi
Order:
Siluriformes
G. Cuvier, 1817
Families[2]

– Extant families -
Ailiidae[1]
Akysidae
Amblycipitidae
Amphiliidae
Anchariidae
Ariidae
Aspredinidae
Astroblepidae
Auchenipteridae
Austroglanididae
Bagridae
Callichthyidae
Cetopsidae
Chacidae
Clariidae
Claroteidae
Cranoglanididae
Diplomystidae
Doradidae
Erethistidae
Heptapteridae
Heteropneustidae
Horabagridae[1]
Ictaluridae
Kryptoglanidae
Lacantuniidae
Loricariidae
Malapteruridae
Mochokidae
Nematogenyiidae
Pangasiidae
Pimelodidae
Plotosidae
Pseudopimelodidae
Schilbeidae
Scoloplacidae
Siluridae
Sisoridae
Trichomycteridae

incertae sedis

  Conorhynchos


– Extinct family -
Andinichthyidae †


Catfish (or catfishes; order Siluriformes or Nematognathi) are a diverse group of ray-finned fish. Named for their prominent barbels, which resemble a cat's whiskers, catfish range in size and behavior from the three largest species, the Mekong giant catfish from Southeast Asia, the wels catfish of Eurasia and the piraíba of South America, to detritivores (species that eat dead material on the bottom), and even to a tiny parasitic species commonly called the candiru, Vandellia cirrhosa. There are armour-plated types and there are also naked types, neither having scales. Despite their name, not all catfish have prominent barbels. Members of the Siluriformes order are defined by features of the skull and swimbladder. Catfish are of considerable commercial importance; many of the larger species are farmed or fished for food. Many of the smaller species, particularly the genus Corydoras, are important in the aquarium hobby. Many catfish are nocturnal,[3][4] but others (many Auchenipteridae) are crepuscular or diurnal (most Loricariidae or Callichthyidae, for example).




Contents





  • 1 Ecology

    • 1.1 Distribution and habitat


    • 1.2 As invasive species



  • 2 Physical characteristics

    • 2.1 External anatomy of catfish


    • 2.2 Size


    • 2.3 Internal anatomy



  • 3 Communication

    • 3.1 Sound production and interpretation



  • 4 Economic importance

    • 4.1 Aquaculture


    • 4.2 Catfish as food



  • 5 Dangers to humans


  • 6 Taxonomy


  • 7 Phylogeny

    • 7.1 Timeline



  • 8 Catfish fishing records


  • 9 References


  • 10 External links




Ecology



Distribution and habitat




Catfish vendor in Ilorin, Kwara


Extant catfish species live inland or in coastal waters of every continent except Antarctica. Catfish have inhabited all continents at one time or another.[5] Catfish are most diverse in tropical South America, Asia and Africa with one family native to North America and one family in Europe.[6] More than half of all catfish species live in the Americas. They are the only ostariophysans that have entered freshwater habitats in Madagascar, Australia, and New Guinea.[7]


They are found in freshwater environments, though most inhabit shallow, running water.[7] Representatives of at least eight families are hypogean (live underground) with three families that are also troglobitic (inhabiting caves).[8][9] One such species is Phreatobius cisternarum, known to live underground in phreatic habitats.[10] Numerous species from the families Ariidae and Plotosidae, and a few species from among the Aspredinidae and Bagridae, are found in salt water.[11][12]


In the Southern United States, catfish species may be known by a variety of slang names, such as "mud cat", "polliwogs", or "chuckleheads".[13] These nicknames are not standardized, so one area may call a bullhead catfish by the nickname "chucklehead", while in another state or region, that nickname refers to the blue catfish.



As invasive species





Walking catfish is an invasive species in Florida.


Representatives of the genus Ictalurus have been introduced into European waters in the hope of obtaining a sporting and food resource. However, the European stock of American catfishes has not achieved the dimensions of these fish in their native waters, and have only increased the ecological pressure on native European fauna. Walking catfish have also been introduced in the freshwaters of Florida, with the voracious catfish becoming a major alien pest there. Flathead catfish, Pylodictis olivaris, is also a North American pest on Atlantic slope drainages.[6]Pterygoplichthys species, released by aquarium fishkeepers, have also established feral populations in many warm waters around the world.[14][15][16][17][18]



Physical characteristics



External anatomy of catfish




The armor plates are evident in Corydoras semiaquilus.


Most catfish are bottom feeders. In general, they are negatively buoyant, which means that they will usually sink rather than float due to a reduced gas bladder and a heavy, bony head.[7] Catfish have a variety of body shapes, though most have a cylindrical body with a flattened ventrum to allow for benthic feeding.[7]


A flattened head allows for digging through the substrate as well as perhaps serving as a hydrofoil. Some have a mouth that can expand to a large size and contains no incisiform teeth; catfish generally feed through suction or gulping rather than biting and cutting prey.[7] However, some families, notably Loricariidae and Astroblepidae, have a suckermouth that allows them to fasten themselves to objects in fast-moving water. Catfish also have a maxilla reduced to a support for barbels; this means that they are unable to protrude their mouths as other fish such as carp.[7]


Catfish may have up to four pairs of barbels: nasal, maxillary (on each side of mouth), and two pairs of chin barbels, even though pairs of barbels may be absent depending on the species. Catfish barbels always come as pairs. Many larger catfish also have chemoreceptors across their entire bodies, which means they "taste" anything they touch and "smell" any chemicals in the water. "In catfish, gustation plays a primary role in the orientation and location of food".[19] Because their barbels and chemoreception are more important in detecting food, the eyes on catfish are generally small. Like other ostariophysans, they are characterized by the presence of a Weberian apparatus.[5] Their well-developed Weberian apparatus and reduced gas bladder allow for improved hearing as well as sound production.[7]


Catfish do not have scales; their bodies are often naked. In some species, the mucus-covered skin is used in cutaneous respiration, where the fish breathes through its skin.[7] In some catfish, the skin is covered in bony plates called scutes; some form of body armor appears in various ways within the order. In loricarioids and in the Asian genus Sisor, the armor is primarily made up of one or more rows of free dermal plates. Similar plates are found in large specimens of Lithodoras. These plates may be supported by vertebral processes, as in scoloplacids and in Sisor, but the processes never fuse to the plates or form any external armor. By contrast, in the subfamily Doumeinae (family Amphiliidae) and in hoplomyzontines (Aspredinidae), the armor is formed solely by expanded vertebral processes that form plates. Finally, the lateral armor of doradids, Sisor, and hoplomyzontines consists of hypertrophied lateral line ossicles with dorsal and ventral lamina.[20]




The channel catfish has four pairs of barbels.


All catfish, except members of Malapteruridae (electric catfish), possess a strong, hollow, bony leading spine-like ray on their dorsal and pectoral fins. As a defense, these spines may be locked into place so that they stick outwards, which can inflict severe wounds.[6] In several species catfish can use these fin rays to deliver a stinging protein if the fish is irritated.[21] This venom is produced by glandular cells in the epidermal tissue covering the spines.[5] In members of the family Plotosidae, and of the genus Heteropneustes, this protein is so strong it may hospitalize humans who are unfortunate enough to receive a sting; in Plotosus lineatus, the stings may result in death.[5]


Juvenile catfish, like most fish, have relatively large heads, eyes and posterior median fins in comparison to larger, more mature individuals. These juveniles can be readily placed in their families, particularly those with highly derived fin or body shapes; in some cases identification of the genus is possible. As far as known for most catfish, features that are often characteristic of species such as mouth and fin positions, fin shapes, and barbel lengths show little difference between juveniles and adults. For many species, pigmentation pattern is also similar in juveniles and adults. Thus, juvenile catfishes generally resemble and develop smoothly into their adult form without distinct juvenile specializations. Exceptions to this are the ariid catfishes, where the young retain yolk sacs late into juvenile stages, and many pimelodids, which may have elongated barbels and fin filaments or coloration patterns.[22]


Sexual dimorphism is reported in about half of all families of catfish.[23] The modification of the anal fin into an intromittent organ (in internal fertilizers) as well as accessory structures of the reproductive apparatus (in both internal and external fertilizers) have been described in species belonging to 11 different families.[24]



Size




Giant Bagarius yarrelli (Goonch) caught in India. Some Goonch in the Kali river grow large enough to attack humans and water buffalo.


Catfish have one of the greatest ranges in size within a single order of bony fish.[7] Many catfish have a maximum length of under 12 cm.[5] Some of the smallest species of Aspredinidae and Trichomycteridae reach sexual maturity at only 1 centimetre (0.39 in).[6]


The wels catfish, Silurus glanis, and the much smaller related Aristotle's catfish are the only catfish indigenous to Europe: the former ranging throughout Europe, and the latter restricted to Greece. Mythology and literature record wels catfish of astounding proportions, yet to be proven scientifically. The average size of the species is about 1.2–1.6 m (3.9–5.2 ft), and fish more than 2 metres (6.6 ft) are rare. However, they are known to exceed 2.5 metres (8.2 ft) in length and 100 kilograms (220 lb) in weight. In July 2009, a catfish weighing 88 kilograms (194 lb) was caught in the River Ebro, Spain, by an 11-year-old British schoolgirl.[25]


In North America the largest Ictalurus furcatus (Blue catfish) caught in the Missouri River on 20 July 2010, weighed 59 kilograms (130 lb). The largest flathead catfish, Pylodictis olivaris, ever caught was in Independence, Kansas, weighing 56 kilograms (123 lb).


These records pale in comparison to a giant Mekong catfish caught in northern Thailand on 1 May 2005 and reported to the press almost 2 months later that weighed 293 kilograms (646 lb). This is the largest giant Mekong catfish caught since Thai officials started keeping records in 1981.[26] This species is not well studied since it lives in developing countries and it is quite possible it can grow even larger.[citation needed]
Also in Asia, Jeremy Wade caught a 75.5 kilograms (166.4 lb) Goonch following three fatal attacks on humans in the Kali River on the India-Nepal border. Wade was of the opinion that the offending fish must have been significantly larger than this to have taken an 18-year-old boy as well as a water buffalo.


Piraíba (Brachyplatystoma filamentosum) can grow exceptionally large and are native to the Amazon basin. They can occasionally grow to 400 lbs, as evidenced by numerous catches. There are also reports in the region of deaths from being swallowed by these fish.



Internal anatomy





Kryptopterus vitreolus (glass catfish) have transparent bodies lacking both scales and pigments. Most of the internal organs are located near the head.


In many catfish, the humeral process is a bony process extending backward from the pectoral girdle immediately above the base of the pectoral fin. It lies beneath the skin where its outline may be determined by dissecting the skin or probing with a needle.[27]


The retina of catfish are composed of single cones and large rods. Many catfish have a tapetum lucidum which may help enhance photon capture and increase low-light sensitivity. Double cones, though present in most teleosts, are absent from catfish.[28]


The anatomical organization of the testis in catfish is variable among the families of catfish, but the majority of them present fringed testis: Ictaluridae, Claridae, Auchenipteridae, Doradidae, Pimelodidae, and Pseudopimelodidae.[29] In the testes of some species of Siluriformes, organs and structures such as a spermatogenic cranial region and a secretory caudal region are observed, in addition to the presence of seminal vesicles in the caudal region.[30] The total number of fringes and their length are different in the caudal and cranial portions between species.[29] Fringes of the caudal region may present tubules, in which the lumen is filled by secretion and spermatozoa.[29] Spermatocysts are formed from cytoplasmic extensions of Sertoli cells; the release of spermatozoa is allowed by breaking of the cyst walls.[29]


The occurrence of seminal vesicles, in spite of their interspecific variability in size, gross morphology and function, has not been related to the mode of fertilization. They are typically paired, multi-chambered, and connected with the sperm duct, and have been reported to play a glandular and a storage function. Seminal vesicle secretion may include steroids and steroid glucuronides, with hormonal and pheromonal functions, but it appears to be primarily constituted of mucoproteins, acid mucopolysaccharides, and phospholipids.[24]


Fish ovaries may be of two types: gymnovarian or cystovarian. In the first type, the oocytes are released directly into the coelomic cavity and then eliminated. In the second type, the oocytes are conveyed to the exterior through the oviduct.[30] Many catfish are cystovarian in type, including Pseudoplatystoma corruscans, P. fasciatum, Lophiosilurus alexandri, and Loricaria lentiginosa.[29][30]



Communication



Sound production and interpretation


Catfish can produce different types of sounds and also have well-developed auditory reception used to discriminate between sounds with different pitches and velocities. They are also able to determine the distance of the sound's origin and from what direction it originated.[31] This is a very important fish communication mechanism, especially during agonistic and distress behaviors. Catfish are able to produce a variety of sounds for communication that can be classified into two groups: drumming sounds and stridulation sounds.[32] The variability in catfish sound signals differs due to a few factors: the mechanism by which the sound is produced, the function of the resulting sound, and physiological differences such as size, sex, and age.[33] To create a drumming sound, catfish use an indirect vibration mechanism using a swimbladder. In these fishes, sonic muscles insert on the ramus Mulleri, also known as the elastic spring. The sonic muscles pull the elastic spring forward and extend the swimbladder. When the muscles relax, the tension in the spring quickly returns the swimbladder to its original position, which produces the sound.[34]


Catfish also have a sound-generating mechanism in their pectoral fins. Many species in the catfish family possess an enhanced first pectoral fin ray, called the spine, which can be moved by large abductor and adductor muscles. The base of the catfishes' spines has a sequence of ridges, and the spine normally slides within a groove on the fish's pelvic girdle during routine movement; but, pressing the ridges on the spine against the pelvic girdle groove creates a series of short pulses.[31][34] The movement is analogous to a finger moving down the teeth of a comb, and consequently a series of sharp taps is produced.[33]


Sound-generating mechanisms are often different between genders. In some catfishes, pectoral fins are longer in males than in females of similar length, and differences in the characteristic of the sounds produced were also observed.[34] Comparison between families of the same order of catfish demonstrated family and species-specific patterns of vocalization, according to a study by Maria Clara Amorim. During courtship behavior in three species of Corydoras catfishes, all males actively produced stridulation sounds before egg fertilization, and the species' songs were different in pulse number and sound duration.[35]


Sound production in catfish may also be correlated with fighting and alarm calls. According to a study by Kaatz, sounds for disturbance (e.g. alarm) and agonistic behavior were not significantly different, which suggests distress sounds can be used to sample variation in agonistic sound production.[35] However, in a comparison of a few different species of tropical catfish, some fish put under distress conditions produced a higher intensity of stridulatory sounds than drumming sounds.[36] Differences in the proportion of drumming versus stridulation sounds depend on morphological constraints, such as different sizes of drumming muscles and pectoral spines. Due to these constraints, some fish may not even be able to produce a specific sound. In several different species of catfish, aggressive sound production occurs during cover site defense or during threats from other fish. More specifically, in long-whiskered catfishes, drumming sounds are used as a threatening signal and stridulations are used as a defense signal. Kaatz investigated 83 species from 14 families of catfish, and determined that catfishes produce more stridulatory sounds in disturbance situations and more swimbladder sounds in intraspecific conflicts.[36]



Economic importance



Aquaculture




Loading U.S. Farm-Raised Catfish.



Catfish are easy to farm in warm climates, leading to inexpensive and safe food at local grocers. About 60% of U.S. farm-raised catfish are grown within a 65-mile (100-km) radius of Belzoni, Mississippi.[37]Channel catfish (Ictalurus punctatus) supports a $450 million/yr aquaculture industry.[6] The largest producers are located in the Southern United States, including Mississippi, Alabama, and Arkansas.[38]


Catfish raised in inland tanks or channels are considered safe for the environment, since their waste and disease should be contained and not spread to the wild.[39]


In Asia, many catfish species are important as food. Several walking catfish (Clariidae) and shark catfish (Pangasiidae) species are heavily cultured in Africa and Asia. Exports of one particular shark catfish species from Vietnam, Pangasius bocourti, has met with pressures from the U.S. catfish industry. In 2003, The United States Congress passed a law preventing the imported fish from being labeled as catfish.[40] As a result, the Vietnamese exporters of this fish now label their products sold in the U.S. as "basa fish." Trader Joe's has labeled frozen fillets of Vietnamese Pangasius hypophthalmus as "striper."[41]


There is a large and growing ornamental fish trade, with hundreds of species of catfish, such as Corydoras and armored suckermouth catfish (often called plecos), being a popular component of many aquaria. Other catfish commonly found in the aquarium trade are banjo catfish, talking catfish, and long-whiskered catfish.



Catfish as food




Catfish in a restaurant in Wuhan (China)


Catfish have widely been caught and farmed for food for hundreds of years in Africa, Asia, Europe, and North America. Judgments as to the quality and flavor vary, with some food critics considering catfish excellent to eat, while others dismiss them as watery and lacking in flavor.[42] Catfish is high in vitamin D.[43] Farm-raised catfish contains low levels of omega-3 fatty acids and a much higher proportion of omega-6 fatty acids.[44]


In Central Europe, catfish were often viewed as a delicacy to be enjoyed on feast days and holidays. Migrants from Europe and Africa to the United States brought along this tradition, and in the Southern United States, catfish is an extremely popular food.


The most commonly eaten species in the United States are the channel catfish and the blue catfish, both of which are common in the wild and increasingly widely farmed. Farm-raised catfish became such a staple of the diet of the United States that on 25 June 1987, President Ronald Reagan established National Catfish Day to recognize "the value of farm-raised catfish."


Catfish is eaten in a variety of ways. In Europe it is often cooked in similar ways to carp, but in the United States it is popularly crumbed with cornmeal and fried.[42]





Pecel lele served with sambal, tempeh and lalab vegetables in a humble tent warung in Jakarta, Indonesia


In Indonesia, catfish is usually served fried or grilled in street stalls called warung and eaten with vegetables and sambal; the dish is called pecel lele or pecak lele. The same dish can also be called as lele penyet (squashed catfish) if the fish is lightly squashed along with sambal in the stone mortar. The pecel/pecak version present the fish in separate plate while the stone mortar is solely for sambal (Lele is the Indonesian word for catfish.)


In Malaysia catfish, called "ikan keli", is fried with spices or grilled and eaten with tamarind and Thai chillies gravy and also is often eaten with steamed rice.


In Bangladesh and the Indian states of Odisha, West Bengal and Assam catfish (locally known as Magur) is eaten as a favored delicacy during the monsoons. Catfish, locally known as thedu or etta in Malayalam, is popular in the Indian state Kerala.


In Hungary catfish is often cooked in paprika sauce (Harcsapaprikás) typical of Hungarian cuisine. It is traditionally served with pasta smothered with curd cheese (túrós csusza).


In Myanmar (formally Burma), catfish is usually used in Mohinga, a traditional noodle fish soup cooked with lemon grass, ginger, garlic, pepper, banana steam, onions, and other local ingredients.





Filipino fried hito (catfish) with vinegar and kalamansi dip sauce


Vietnamese catfish (Pangasius) cannot be legally marketed as catfish in the United States, and so is referred to as swai or basa[45] Only fish of the family Ictaluridae may be marketed as catfish in the United States.[46] In the UK, Vietnamese catfish is sold as "Vietnamese river cobbler".[47]


In Nigeria, catfish is often cooked in a variety of stews. It is particularly cooked in a delicacy popularly known as "Catfish Pepper Soup" which is enjoyed throughout the nation.[48]


Fish must have fins and scales to be kosher.[49] Since catfish lacks scales, they are not kosher.



Dangers to humans




A sting from the striped eel catfish, Plotosus lineatus, may be fatal.


While the vast majority of catfish are harmless to humans, a few species are known to present some risk. Many catfish species have “stings” (actually non-venomous in most cases) embedded behind their fins; thus precautions must be taken when handling them.



Taxonomy


The catfish are a monophyletic group. This is supported by molecular evidence.[50]


Catfish belong to a superorder called the Ostariophysi, which also includes the Cypriniformes, Characiformes, Gonorynchiformes and Gymnotiformes, a superorder characterized by the Weberian apparatus. Some place Gymnotiformes as a sub-order of Siluriformes, however this is not as widely accepted. Currently, the Siluriformes are said to be the sister group to the Gymnotiformes, though this has been debated due to more recent molecular evidence.[5] As of 2007[update] there are about 36 extant catfish families, and about 3,093 extant species have been described.[51] This makes the catfish order the second or third most diverse vertebrate order; in fact, 1 out of every 20 vertebrate species is a catfish.[6]


The taxonomy of catfish is quickly changing. In a 2007 and 2008 paper, Horabagrus, Phreatobius, and Conorhynchos were not classified under any current catfish families.[51] There is disagreement on the family status of certain groups; for example, Nelson (2006) lists Auchenoglanididae and Heteropneustidae as separate families, while the All Catfish Species Inventory (ACSI) includes them under other families. Also, FishBase and the Integrated Taxonomic Information System lists Parakysidae as a separate family, while this group is included under Akysidae by both Nelson (2006) and ACSI.[5][52][53][54] Many sources do not list the recently revised family Anchariidae.[55] The family Horabagridae, including Horabagrus, Pseudeutropius, and Platytropius, is also not shown by some authors but presented by others as a true group.[50] Thus, the actual number of families differs between authors. The species count is in constant flux due to taxonomic work as well as description of new species. On the other hand, our understanding of catfish should increase in the next few years due to work by the ACSI.[5]


The rate of description of new catfish is at an all-time high. Between 2003 and 2005, over 100 species have been named, a rate three times faster than that of the past century.[56] In June 2005, researchers named the newest family of catfish, Lacantuniidae, only the third new family of fish distinguished in the last 70 years (others being the coelacanth in 1938 and the megamouth shark in 1983). The new species in Lacantuniidae, Lacantunia enigmatica, was found in the Lacantun river in the Mexican state of Chiapas.[57]


The higher-level phylogeny of Siluriformes has gone through several recent changes, mainly due to molecular phylogenetic studies. While most studies, both morphological and molecular, agree that catfishes are arranged into three main lineages, the relationship among these lineages has been a contentious point in which morphological and molecular phylogenetic studies differ.[58][59][60][61][62] The three main lineages in Siluriformes are the family Diplomystidae, the denticulate catfish suborder Loricarioidei (which includes the families Nematogenyidae, Trichomycteridae, Callichthyidae, Scoloplacidae, Astroblepidae, and Loricariidae, which is sometimes referred to as the superfamily Loricarioidea), and the suborder Siluroidei, which contains the remaining families of the order. According to morphological data, Diplomystidae is usually considered to be the earliest branching catfish lineage and the sister group to the other two lineages, Loricarioidei and Siluroidei.[61][62][63] Molecular evidence usually contrasts with this hypothesis, and shows the suborder Loricarioidei as the earliest branching catfish lineage, and sister to a clade that includes the Diplomystidae and Siluroidei. While in the first study this relationship was proposed[50] the "morphological" hypothesis could not be rejected, the new, "molecular" phylogenetic hypothesis was later obtained in numerous other phylogenetic studies based on genetic data.[58][59][64] However, a recent study based on molecular data argued that the previous "molecular" hypothesis is the result of phylogenetic artifacts due to a strong heterogeneity in evolutionary rates among siluriform lineages.[60] In that study it was suggested that the fast evolution of the Loricarioidei suborder was attracting this clade to the outgroups through long branch attraction, incorrectly placing it as the earliest-branching catfish lineage. When a data filtering method[65] was used to reduce lineage rate heterogeneity (the potential source of bias) on their dataset, a final phylogeny was recovered which showed the Diplomystidae are the earliest-branching catfish, followed by Loricarioidei and Siluroidei as sister lineages. Thus, there is currently both morphological and molecular evidence for a higher-level phylogenetic arrangement of Siluriformes in which Diplomystidae is the earliest branching catfish, sister to a clade including the Loricarioidei and Siluroidei suborders.


Below is a list of family relationships by different authors. Lacantuniidae is included in the Sullivan scheme based on recent evidence that places it sister to Claroteidae.[66]









Nelson, 2006[5]Sullivan et al., 2006[50]

  • Unresolved families
    • Cetopsidae

    • Pseudopimelodidae

    • Heptapteridae

    • Cranoglanididae

    • Ictaluridae



  • Loricarioidea
    • Amphiliidae

    • Trichomycteridae

    • Nematogenyiidae

    • Callichthyidae

    • Scoloplacidae

    • Astroblepidae

    • Loricariidae



  • Sisoroidea
    • Amblycipitidae

    • Akysidae

    • Sisoridae

    • Erethistidae

    • Aspredinidae


  • Doradoidea
    • Mochokidae

    • Doradidae

    • Auchenipteridae



  • Siluroidea
    • Siluridae

    • Malapteruridae

    • Auchenoglanididae

    • Chacidae

    • Plotosidae

    • Clariidae

    • Heteropneustidae


  • Bagroidea
    • Austroglanididae

    • Claroteidae

    • Ariidae

    • Schilbeidae

    • Pangasiidae

    • Bagridae

    • Pimelodidae



  • Unresolved families
    • Cetopsidae

    • Plotosidae

    • Chacidae

    • Siluridae

    • Pangasiidae


  • Suborder Loricarioidei
    • Trichomycteridae

    • Nematogenyiidae

    • Callichthyidae

    • Scoloplacidae

    • Astroblepidae

    • Loricariidae


  • Clarioidea
    • Clariidae

    • Heteropneustidae


  • Arioidea
    • Ariidae

    • Anchariidae


  • Pimelodoidea
    • Pimelodidae

    • Pseudopimelodidae

    • Heptapteridae

    • Conorhynchos


  • Ictaluroidea
    • Ictaluridae

    • Cranoglanididae



  • Doradoidea (sister to Aspredinidae)
    • Doradidae

    • Auchenipteridae


  • "Big Asia"
    • Sisoroidea
      • Amblycipitidae

      • Akysidae

      • Sisoridae

      • Erethistidae



    • Ailia + Laides (Asian schilbeids)

    • Horabagridae (Horabagrus + Pseudeutropius + Platytropius)

    • Bagridae (without Rita)


  • "Big Africa"
    • Mochokidae

    • Malapteruridae

    • Amphiliidae

    • Claroteidae

    • Lacantuniidae

    • Schilbeidae



Phylogeny


Phylogeny of living Siluriformes based on 2017[67] and extinct families based on Nelson, Grande & Wilson 2016.[68].mw-parser-output table.cladeborder-spacing:0;margin:0;font-size:100%;line-height:100%;border-collapse:separate;width:auto.mw-parser-output table.clade table.cladewidth:100%.mw-parser-output table.clade tdborder:0;padding:0;vertical-align:middle;text-align:center.mw-parser-output table.clade td.clade-labelwidth:0.8em;border:0;padding:0 0.2em;vertical-align:bottom;text-align:center.mw-parser-output table.clade td.clade-slabelborder:0;padding:0 0.2em;vertical-align:top;text-align:center.mw-parser-output table.clade td.clade-barvertical-align:middle;text-align:left;padding:0 0.5em.mw-parser-output table.clade td.clade-leafborder:0;padding:0;text-align:left;vertical-align:middle.mw-parser-output table.clade td.clade-leafRborder:0;padding:0;text-align:right




Siluriformes








†Andinichthyidae










Loricaroidei















Nematogenyidae





Trichomycteridae













Callichthyidae












Astroblepidae





Loricariidae













Diplomystoidei








Diplomystidae





†Bachmanniidae




Siluroidei






Hypsidoroidea

†Hypsidoridae










Cetopsoidea

Cetopsidae










Siluroidea

Siluridae
























Arioidea

Pangasiidae



Big African
catfishes








Mochokidae





Claroteidae












Ictaluroidea








Plotosidae





Ictaluridae











Clarioidea

Clariidae



Sisoroidea








Ailiidae












Sisoridae





Bagridae















Doradoidea








Aspredinidae












Doradidae





Auchenipteridae





Pimelodoidea








Heptapteridae












Pseudopimelodidae





Pimelodidae













Unassigned families:



  • Scoloplacidae (Loricarioidei)


  • Akysidae (Sisoroidea)


  • Amblycipitidae (Sisoroidea)


  • Anchariidae (Arioidea)


  • Ariidae (Arioidea)


  • Amphiliidae (Big African catfishes)


  • Austroglanididae (Arioidea)


  • Chacidae (Siluroidei)


  • Conorhynchos (Pimelodoidea)


  • Cranoglanididae (Ictaluroidea)


  • Heteropneustidae (Clarioidea)


  • Horabagridae (Sisoroidea)


  • Kryptoglanidae (Siluroidea)


  • Lacantuniidae (Big African catfishes)


  • Malapteruridae (Big African catfishes)


  • Phreatobiidae (Pimelodoidea)


  • Rita (Sisoroidea)


  • Schilbeidae (Big African catfishes)


Timeline



QuaternaryNeogenePaleogeneCretaceousHolocenePleistocenePlioceneMioceneOligoceneEocenePaleoceneLate CretaceousEarly CretaceousSelenaspisEopeyeriaArius (genus)QuaternaryNeogenePaleogeneCretaceousHolocenePleistocenePlioceneMioceneOligoceneEocenePaleoceneLate CretaceousEarly Cretaceous


Catfish fishing records


By information from International Game Fish Association IGFA the most outstanding record:[69]


  • The biggest flathead catfish caught was by Ken Paulie in the Elk City Reservoir in Kansas. USA on May 19, 1998 that weighed 55.79 kg (123 lbs. 0 oz.)


References





  1. ^ ab Wang, J., Lu, B., Zan, R., Chai, J., Ma, W., Jin, W., Duan, R., Luo, J., Murphy, R.W., Xiao, H. & Chen, Z. (2016): Phylogenetic Relationships of Five Asian Schilbid Genera Including Clupisoma (Siluriformes: Schilbeidae). PLoS ONE, 11 (1): e0145675.


  2. ^ Froese, Rainer, and Daniel Pauly, eds. (2011). "Siluriformes" in FishBase. December 2011 version.


  3. ^ Catfish Varieties. animal-world.com


  4. ^ Wong, Kate (6 June 2001) "How Nocturnal Catfish Stalk Their Prey". Scientific American.


  5. ^ abcdefghi Nelson, Joseph S. (2006). Fishes of the World. John Wiley & Sons, Inc. ISBN 978-0-471-25031-9..mw-parser-output cite.citationfont-style:inherit.mw-parser-output qquotes:"""""""'""'".mw-parser-output code.cs1-codecolor:inherit;background:inherit;border:inherit;padding:inherit.mw-parser-output .cs1-lock-free abackground:url("//upload.wikimedia.org/wikipedia/commons/thumb/6/65/Lock-green.svg/9px-Lock-green.svg.png")no-repeat;background-position:right .1em center.mw-parser-output .cs1-lock-limited a,.mw-parser-output .cs1-lock-registration abackground:url("//upload.wikimedia.org/wikipedia/commons/thumb/d/d6/Lock-gray-alt-2.svg/9px-Lock-gray-alt-2.svg.png")no-repeat;background-position:right .1em center.mw-parser-output .cs1-lock-subscription abackground:url("//upload.wikimedia.org/wikipedia/commons/thumb/a/aa/Lock-red-alt-2.svg/9px-Lock-red-alt-2.svg.png")no-repeat;background-position:right .1em center.mw-parser-output .cs1-subscription,.mw-parser-output .cs1-registrationcolor:#555.mw-parser-output .cs1-subscription span,.mw-parser-output .cs1-registration spanborder-bottom:1px dotted;cursor:help.mw-parser-output .cs1-hidden-errordisplay:none;font-size:100%.mw-parser-output .cs1-visible-errorfont-size:100%.mw-parser-output .cs1-subscription,.mw-parser-output .cs1-registration,.mw-parser-output .cs1-formatfont-size:95%.mw-parser-output .cs1-kern-left,.mw-parser-output .cs1-kern-wl-leftpadding-left:0.2em.mw-parser-output .cs1-kern-right,.mw-parser-output .cs1-kern-wl-rightpadding-right:0.2em


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  8. ^ Langecker, Thomas G.; Longley, Glenn (1993). "Morphological Adaptations of the Texas Blind Catfishes Trogloglanis pattersoni and Satan eurystomus (Siluriformes: Ictaluridae) to Their Underground Environment". Copeia. 1993 (4): 976–986. doi:10.2307/1447075. JSTOR 1447075.


  9. ^ Hendrickson, Dean A.; Krejca, Jean K.; Martinez, Juan Manuel Rodríguez (2001). "Mexican blindcats genus Prietella (Siluriformes: Ictaluridae): an overview of recent explorations". Environmental Biology of Fishes. 62: 315–337. doi:10.1023/A:1011808805094.


  10. ^ Froese, Rainer and Pauly, Daniel, eds. (2007). "Phreatobius cisternarum" in FishBase. Apr 2007 version.


  11. ^ Monks N. (editor): Brackish Water Fishes, TFH 2006,
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  12. ^ Schäfer F: Brackish Water Fishes, Aqualog 2005,
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  13. ^ Texas Dept. Wildlife


  14. ^ Nico, Leo G.; Martin, R. Trent (2001). "The South American Suckermouth Armored Catfish, Pterygoplichthys anisitsi (Pisces: Loricaridae), in Texas, with Comments on Foreign Fish Introductions in the American Southwest". The Southwestern Naturalist. 46 (1): 98–104. doi:10.2307/3672381. JSTOR 3672381.


  15. ^ Wakida-Kusunokia, Armando T.; Ruiz-Carusb, Ramon; Amador-del-Angelc, Enrique (2007). "Amazon Sailfin Catfish, Pterygoplichthys pardalis (Castelnau, 1855) (Loricariidae), Another Exotic Species Established in Southeastern Mexico". The Southwestern Naturalist. 52 (1): 141–144. doi:10.1894/0038-4909(2007)52[141:ASCPPC]2.0.CO;2.


  16. ^ Chavez, Joel M.; de la Paz, Reynaldo M.; Manohar, Surya Krishna; Pagulayan, Roberto C.; Carandang Vi, Jose R. (2006). "New Philippine record of South American sailfin catfishes (Pisces: Loricariidae)" (PDF). Zootaxa. 1109: 57–68. Retrieved 22 June 2009.


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  21. ^ "Channel Catfish". Fairfax County Public Schools. Archived from the original on 3 June 2006. Retrieved 2 December 2006.


  22. ^ Lundberg, John G.; Berra, Tim M.; Friel, John P. (2004). "First description of small juveniles of the primitive catfish Diplomystes (Siluriformes: Diplomystidae)". Ichthyol. Explor. Freshwaters. 15 (1): 71–82.


  23. ^ Friel, John P.; Vigliotta, Thomas R. (2006). "Synodontis acanthoperca, a new species from the Ogôoué River system, Gabon with comments on spiny ornamentation and sexual dimorphism in mochokid catfishes (Siluriformes: Mochokidae)" (PDF). Zootaxa. 1125: 45–56. Retrieved 22 June 2009.


  24. ^ ab Mazzoldi, C.; Lorenzi, V.; Rasotto, M. B. (2007). "Variation of male reproductive apparatus in relation to fertilization modalities in the catfish families Auchenipteridae and Callichthyidae (Teleostei: Siluriformes)". Journal of Fish Biology. 70: 243–256. doi:10.1111/j.1095-8649.2006.01300.x.


  25. ^ "Schoolgirl nets 9ft monster fish". The Daily Telegraph. London. 15 July 2009. Retrieved 28 April 2010.


  26. ^ "Grizzly Bear-Size Catfish Caught in Thailand". National Geographic News. Retrieved 14 July 2006.


  27. ^ "Term : humeral process". FishBase. 2007. Archived from the original on 17 December 2007.


  28. ^ Douglas, Ron H.; Collin, Shaun P.; Corrigan, Julie (15 November 2002). "The eyes of suckermouth armoured catfish (Loricariidae, subfamily Hypostomus): pupil response, lenticular longitudinal spherical aberration and retinal topography" (PDF). Journal of Experimental Biology. The Journal of Experimental Biology. 205 (22): 3425–3433. PMID 12364396.


  29. ^ abcde Barros, Marcelo D. M.; Guimarães-Cruz, Rodrigo J.; Veloso-Júnior, Vanderlei C.; Santos, José E. dos (2007). "Reproductive apparatus and gametogenesis of Lophiosilurus alexandri Steindachner (Pisces, Teleostei, Siluriformes)". Revista Brasileira de Zoologia. 24 (1): 213–221. doi:10.1590/S0101-81752007000100028.


  30. ^ abc Brito, M.F.G.; Bazzoli, N. (2003). "Reproduction of the surubim catfish (Pisces, Pimelodidae) in the São Francisco River, Pirapora Region, Minas Gerais, Brazil". Arquivo Brasileiro de Medicina Veterinária e Zootecnia. 55 (5): 624. doi:10.1590/S0102-09352003000500018.


  31. ^ ab Kasumayan, A. O. (2008). "Sounds and Sound Production in Fishes". Journal of Ichthyology. 48 (11): 981–1030. doi:10.1134/S0032945208110039.


  32. ^ Lechner, Walter (2014). Young Squeaker Catfish can already talk and listen to their conspecifics. Witzany, G (ed). Biocommunication of Animals. Dortrecht, Springer, 321-335.


  33. ^ ab Vance, Theresa L. (2000). "Variation in Stridulatory Sound Production in the Channel Catfish, Ictalurus Punctatus". Bios. 71 (3): 79–84.


  34. ^ abc Ladich, Friedrich; Michael L. Fine (2006). "Sound-Generating Mechanisms in Fishes: A Unique Diversity in Vertebrates". Communication in Fishes. 1: 3–43.


  35. ^ ab Amorim, Maria Clara P. (2006). "Diversity of Sound Production in Fish". Communication in Fish. 1: 71–105.


  36. ^ ab Ladich, Friedrich; Myrberg, Arthur A, Jr. (2006). "Agonistic Behavior and Acoustic Communication". Communication in Fishes. 1: 121–148.CS1 maint: Multiple names: authors list (link)


  37. ^ Morris, J.E. (October 1993). "Pond Culture of Channel Catfish in the North Central Region" (PDF). North Central Regional Aquaculture Center. Archived from the original (PDF) on 6 February 2007. Retrieved 28 June 2006.


  38. ^ "Catfish Production" (PDF). www.nass.usda.gov. 21 July 2017. Retrieved 14 September 2017.


  39. ^ Rogers, Paul. "Economy of Scales". Stanford Magazine. Stanford Alumni Association (March / April 2006). Archived from the original on 11 June 2008. Retrieved 14 February 2008.


  40. ^ "'Catfish' bred in Asia move up on U.S. food chain"$, Associated Press via L.A. Times, 28 November 2006


  41. ^ Cole, Nancy (27 January 2006) Catfish imports not slowing. Northwest Arkansas News


  42. ^ ab Jenny Baker (1988), Simply Fish p 36-37. Faver & Faber, London.


  43. ^ "Vitamin D and Healthy Bones". New York State Department of Health. Retrieved 13 July 2007.


  44. ^ Fatty Fish Not Equal in Good Fats. Reuters. Source: Journal of the American Dietetic Association, July 2008


  45. ^ "Union Fish Company – Basa/Swai Details". Archived from the original on 9 November 2007. Retrieved 11 November 2007.


  46. ^ "United States Code, Title 21, section 343. Misbranded food".


  47. ^ "Fish Labelling (Amendment) (England) Regulations 2006" (PDF). COT. 26 May 2007. Retrieved 23 May 2013.


  48. ^ Oreva, Duke. "How to cook the irresistible catfish pepper soup". Retrieved 2018-05-16.


  49. ^ Leviticus 11:9-12


  50. ^ abcd Sullivan, JP; Lundberg JG; Hardman M (2006). "A phylogenetic analysis of the major groups of catfish (Teleostei: Siluriformes) using rag1 and rag2 nuclear gene sequences". Mol Phylogenet Evol. 41 (3): 636–62. doi:10.1016/j.ympev.2006.05.044. PMID 16876440.


  51. ^ ab Ferraris, Carl J., Jr.; Miya, M; Azuma, Y; Nishida, M (2007). "Checklist of catfish, recent and fossil (Osteichthyes: Siluriformes), and catalogue of siluriform primary types" (PDF). Zootaxa. 1418: 1–628. Retrieved 22 June 2009.


  52. ^ "Catfish Families". All Catfish Species Inventory. Retrieved 28 April 2007.


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  55. ^ Ng, Heok Hee; Sparks, John S. (2005). "Revision of the endemic Malagasy catfish family Anchariidae (Teleostei: Siluriformes), with descriptions of a new genus and three new species" (PDF). Ichthyol. Explor. Freshwaters. 16 (4): 303–323.


  56. ^ Ferraris, Carl J., Jr.; Reis, Roberto E. (2005). "Neotropical catfish diversity: an historical perspective". Neotropical Ichthyology. 3 (4): 453–454. doi:10.1590/S1679-62252005000400001.
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  57. ^ Rodiles-Hernández, Rocío; Hendrickson, Dean A.; Lundberg, John G.; Humphries, Julian M. (2005). "Lacantunia enigmatica (Teleostei: Siluriformes) a new and phylogenetically puzzling freshwater fish from Mesoamerica" (PDF). Zootaxa. 1000: 1–24. Retrieved 22 June 2009.


  58. ^ ab Arcila, Dahiana; Ortí, Guillermo; Vari, Richard; Armbruster, Jonathan W.; Stiassny, Melanie L. J.; Ko, Kyung D.; Sabaj, Mark H.; Lundberg, John; Revell, Liam J. (2017-01-13). "Genome-wide interrogation advances resolution of recalcitrant groups in the tree of life". Nature Ecology & Evolution. 1 (2): 0020. doi:10.1038/s41559-016-0020. ISSN 2397-334X. PMID 28812610.


  59. ^ ab Chen, Wei-Jen; Lavoué, Sébastien; Mayden, Richard L. (2013-04-09). "EVOLUTIONARY ORIGIN AND EARLY BIOGEOGRAPHY OF OTOPHYSAN FISHES (OSTARIOPHYSI: TELEOSTEI)". Evolution. 67 (8): 2218–2239. doi:10.1111/evo.12104. ISSN 0014-3820. PMID 23888847.


  60. ^ ab Rivera-Rivera, Carlos J.; Montoya-Burgos, Juan I. (October 2018). "Back to the roots: Reducing evolutionary rate heterogeneity among sequences gives support for the early morphological hypothesis of the root of Siluriformes (Teleostei: Ostariophysi)". Molecular Phylogenetics and Evolution. 127: 272–279. doi:10.1016/j.ympev.2018.06.004. ISSN 1055-7903. PMID 29885935.


  61. ^ ab Diogo, Rui (2004-11-01). "Phylogeny, origin and biogeography of catfishes: support for a Pangean origin of 'modern teleosts' and reexamination of some Mesozoic Pangean connections between the Gondwanan and Laurasian supercontinents". Animal Biology. 54 (4): 331–351. doi:10.1163/1570756042729546. ISSN 1570-7563.


  62. ^ ab Rui., Diogo (2007). The origin of higher clades : osteology, myology, phylogeny and evolution of bony fishes and the rise of tetrapods. Enfield, NH: Science Publishers. ISBN 9781578085590. OCLC 680560456.


  63. ^ YANG, LEI (April 2011). "GONORYNCHIFORMES AND OSTARIOPHYSAN RELATIONSHIPS: A COMPREHENSIVE REVIEW - Edited by T. Grande, F. J. Poyato-Ariza and R. Diogo". Journal of Fish Biology. 78 (4): 1277–1278. doi:10.1111/j.1095-8649.2011.02907.x. ISSN 0022-1112.


  64. ^ Nakatani, Masanori; Miya, Masaki; Mabuchi, Kohji; Saitoh, Kenji; Nishida, Mutsumi (2011-06-22). "Evolutionary history of Otophysi (Teleostei), a major clade of the modern freshwater fishes: Pangaean origin and Mesozoic radiation". BMC Evolutionary Biology. 11 (1): 177. doi:10.1186/1471-2148-11-177. ISSN 1471-2148. PMC 3141434. PMID 21693066.


  65. ^ Rivera-Rivera, Carlos Javier; Montoya-Burgos, Juan I. (2017-11-16). "LSX: Automated reduction of gene-specific lineage evolutionary rate heterogeneity for multi-gene phylogeny inference". bioRxiv: 220053. doi:10.1101/220053.


  66. ^ Lundberg, John G.; Sullivan, John P.; Rodiles-Hernández, Rocío; Hendrickson, Dean A. (2007). "Discovery of African roots for the Mesoamerican Chiapas catfish, Lacantunia enigmatica, requires an ancient intercontinental passage" (PDF). Proceedings of the Academy of Natural Sciences of Philadelphia. 156: 39–53. doi:10.1635/0097-3157(2007)156[39:DOARFT]2.0.CO;2. Archived from the original (PDF) on 26 March 2009. Retrieved 22 June 2009.


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  68. ^ Nelson, Joseph S.; Terry C. Grande; Mark V. H. Wilson (2016). Fishes of the World (5 ed.). John Wiley & Sons. ISBN 9781118342336.


  69. ^ "IGFA World Records". International Game Fish Association. Retrieved 1 November 2015.




External links








  • All catfish species inventory


  • "Giant Baghair caught in Jamuna" in The Daily Star (Bangladesh), 12 May 2009

  • Skelton, Paul H. and Teugels, Guy G. 1992. Ichthyological Bulletin; No. 56: Neotype description for the African catfish Clarias Gariepinus (Burchell, 1822) (Pisces: Siluroidei: Clariidae). J.L.B. Smith Institute of Ichthyology, Rhodes University, Grahamstown, South Africa











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