Channel Catfish – (Ictalurus punctatus)

Channel Catfish Information

Channel catfish (Ictalurus punctatus) is North America‘s most numerous catfish species. It is the official fish of Kansas, Missouri, Iowa, Nebraska, and Tennessee, and is informally referred to as a “channel cat”. In the United States, they are the most fished catfish species with approximately 8 million anglers targeting them per year. The popularity of channel catfish for food has contributed to the rapid expansion of aquaculture of this species in the United States

Distribution and habitat

Channel catfish, Ictalurus punctatus blue catfish Channel Catfish - (Ictalurus punctatus) 150px Ictalurus punctatus1

Channel catfish, Ictalurus punctatus

Channel catfish are native to the Nearctic, being well distributed in lower Canada and the eastern and northern United States, as well as parts of northern Mexico. They have also been introduced into some waters of landlocked Europe and parts of Malaysia and almost as many parts of Indonesia.[4] They thrive in small and large rivers, reservoirs, natural lakes, and ponds. Channel “cats” are cavity nesters, meaning they lay their eggs in crevices, hollows, or debris, to protect them from swift currents.[5] In Canada, the species is largely, though not exclusively, limited to the Great Lakes watershed from Lake Nipigonsouthward.


Channel catfish possess very keen senses of smell and taste.[citation needed] At the pits of their nostrils (nares) are very sensitive odor sensing organs with a very high concentration of olfactory receptors.[citation needed] In channel catfish, these organs are sensitive enough to detect several amino acids at about one part per 100 million in water.[citation needed] In addition, the channel catfish has taste buds distributed over the surface of its entire body.[citation needed] These buds are especially concentrated on the fish’s four pair of barbels (whiskers) surrounding the mouth — about 25 buds per square millimeter.[citation needed] This combination of exceptional senses of taste and smell allows the channel catfish to find food in dark, stained, or muddy water with relative ease.[citation needed] Channel catfish also possess a Weberian apparatus, which amplifies sound waves that would otherwise not be perceivable.

Length and weight

A member of the Ictalurus genus of American catfishes, channel catfish have a top-end size of about 40–50 pounds (18–23 kg). The world record channel catfish weighed 58 pounds, and was taken from the Santee-Cooper Reservoir in South Carolina, on July 7, 1964. Realistically, a channel catfish over 20 lb (9 kg) is a spectacular specimen, and most catfish anglers view a 10-lb (4.5-kg) fish as a very admirable catch. Furthermore, the average size channel catfish an angler could expect to find in most waterways would be between two and four pounds.

Channel catfish will often coexist in the same waterways with its close relative, the blue catfish, which is somewhat less common, but tends to grow much larger (with several specimens confirmed to weigh above 100 lb).



Catfish have enhanced capabilities of taste perception, hence called the “swimming tongue”, due to the presence of taste buds all over the external body surface and inside the oropharyngeal cavity. Specifically, they have high sensitivity to amino acids, which explains their unique communication methods as follows. The catfish has a facial taste system that is extremely responsive to L-alanine and L-arginine. More specifically, their facial taste system senses heightened levels of L-amino acids in freshwater. Feeding behavior to food is due to amino acids released by food. It is reported that this causes maxillary and mandibular barbell movements, which orient the catfish’s posture and food search. When the food stimulates the taste receptors, it causes more excitation which see as exaggerated biting, turning, or mastication.[8]


The channel catfish is adapted to limited light conditions.[9] Members of the genus Ictalurus, which inhabit muddy waters, do not depend solely on visual cues. Instead, they are known to rely heavily on chemotaxic cues. Sound production may be another important means of communication among channel catfish and other species living in turbid habitats.[10]

Chemical communication

The North American channel catfish is an ostariophysan, or a bony fish occupying a freshwater habitat.[9] These fishes are known to produce club cells and alarm substances for communication purposes. Both the fish’s habitat and the presence of chemosensory cells covering the body are presumably the results of favored selection for this method of communication.[9] Catfishes are capable of producing and recognizing individual specific pheromones. Through these pheromones, a catfish can identify not only the species and sex of a conspecific, but also its age, size, reproductive state, or hierarchical social status.[9]

Territoriality in channel catfish is identifiable by a change in body odor, which is recognizable by other members of the same species.[9] This chemical change in the amino acid composition of the skin mucus can be noted by chromatographic methods, and are not long-lasting; rather, they last only long enough to communicate to other fish in the vicinity.[9]Changes may be the result of the release of the contents of the club cells. These cells do not open directly to the surface of the skin, but injury caused by fighting and other agonistic behaviors may release the cells’ contents.[9] Since catfish have a dominance hierarchy system, information relative to the change of status of any fish is important in recognition of the social strata.[9]

Distinction between a communication signal and an information signal

In the channel catfish, while a communication signal is directed toward the receiver and contains a specific message, an information signal is a part of the general existence of the individual or the group.[9] For example, release of an alarm signal will communicate danger, but the individual’s recognition odor is only an information signal identifying one fish from another.[9] With regards to the function and contents of the club cells, it is reasonable to suggest that the club cells serve different functions throughout the fish’s life cycle. Variation in the contents of the club cells’ information signals therefore may change with the species’ needs at different stages of life.[9]

Sound production

All species of catfishes can generate sound through stridulation, and many produce sounds through drumming.[11] Stridulation consists of the clicking or grinding of bony parts on the fish’s pectoral fins and pectoral girdle, and drumming consists of the contraction of specialized sonic muscles with subsequent reverberation through the swimbladder.[10] Variability in the sound signals created by the channel catfish depends on the mechanism by which the sound is produced, the function of the resultant sound, and physical factors such as sex, age, and temperature.[10] This variation may result in increased complexity of the outgoing signal and may allow for increased usefulness of the signal in interspecies communication.[10] In the channel catfish, sounds are produced only by pectoral stridulation, as this species does not express sonic muscles.[10] However, the swimbladder may still be used to help with audition.[11]

Due to the high density of water, sound travels 4.8 times faster and over longer distances underwater than in air. Consequently, sound production via stridulation is an excellent means of underwater communication for channel catfish.[10] The pectoral spine of the channel catfish is an enlarged fin ray with a slightly modified base that forms a complex articulation with several bones of the pectoral girdle.[12] Unlike the other pectoral fin rays, the individual fin segments of the spine are hypertrophied and fused, except for at the distal tip. The surface of the spine is often ornamented with a serrated edge and venomous tissues, designed to deter predators.[12][13] Sounds produced during fin abduction result from the movement of the base of the pectoral spine across the pectoral girdle channel.[10] Each sweep of sound consists of a number of discrete pulses created by the ridges lining the base of the pectoral spine as they pass over the rough surface of the girdle’s channel.[10] The stridulation sounds are extremely variable due to the range and flexibility of motion in fin use.[12] Different sounds may be used for different functions in communication, such as in behavior towards predators and in asserting dominance.[13]

In many channel catfish individuals favor one fin or another for stridulatory sound production (in the same way as humans are right-handed or left-handed).[14] The first ray of the channel catfish pectoral fin is a bilaterally symmetrical spinous structure that is minimally important for movement; however, it can be locked as a defensive adaptation or used as a means for sound production.[14] According to one scholar, most fish tend to produce sound with their right fin, although sound production with the left fin has also been observed.[12]


The inferior division of the inner ear, most prominently the utricle, is considered the primary area of hearing in most fishes.[15] The hearing ability of the channel catfish is enhanced by the presence of the swimbladder.[16] It is the main structure that reverberates the echo from other individuals’ sounds, as well as from sonar devices.[16] The volume of the swimbladder changes if fish move vertically, and thus is also considered to be the site of pressure sensitivity.[16] The latency of swimbladder adaptation after a change in pressure affects hearing and other possible swimbladder functions, presumably making audition more difficult.[16] Nevertheless, the presence of the swimbladder and a relatively complex auditory apparatus allows the channel catfish to discern different sounds and tell from which directions sounds have come.[11]

Communication to predators

Pectoral stridulation has been considered to be the main means of agonistic communication towards predators in channel catfish.[13] Sudden, relatively loud sounds are used to startle predators in a manner analogous to the well-documented, visual flash display of various lepidopterans.[17] In most catfish, a drumming sound can be produced for this use, and the incidences of the drumming sounds can reach up to 300 or 400 per second.[18] However, the channel catfish must resort instead to stridulation sounds and pectoral spine display for predator avoidance. In addition to communication towards predators, stridulation can be seen as a possible alarm signal to other catfish, in the sense of warning nearby individuals that a predator is near.[17]

Kentucky Department of Fish and Wildlife Ressources:

Here is a small definition and description of the Blue Catfish from the KY Dep. of Fish and Wildlife Ressources.

Channel Catfish catfish What is a catfish? Channelcatfishthumb blue catfish Channel Catfish - (Ictalurus punctatus) Channelcatfishthumb
  • A long, slender-bodied catfish with a deeply-forked caudal fin
  • Color is olive to pale gray on the back and sides, often with small black spots, and a white belly
  • Similar to the Blue Catfish but differs by having a rounded (vs. straight) anal fin margin and dark spots on the sides of the body (vs. spots absent)
  • Adults can grow to about 4 ft. (60 lbs.), but typically range from 12-32 in. (1-15 lbs.)
Identification:   A long, slender-bodied catfish with a deeply-forked caudal fin. Color is olive to pale gray on the back and sides, often with small black spots, and a white belly. It is similar to the Blue Catfish, but differs by having a rounded (vs. straight) anal fin margin and dark spots on the sides of the body (vs. spots absent). Adults can grow to about 4 ft. (60 lbs.), but typically range from 12-32 in. (1-15 lbs.).
Distribution and Habitat:   Common statewide in medium-sized streams to large rivers, but adaptable to a variety of habitats. Valued as a sport and food fish, the Channel Catfish is routinely stocked in ponds and reservoirs throughout the state.
Channel catfish
Ictalurus punctatus.jpg blue catfish Channel Catfish - (Ictalurus punctatus) 250px Ictalurus punctatus
Scientific classification
Species:I. punctatus
Binomial name
Ictalurus punctatus
(Rafinesque, 1818)
Distribution map of channel catfish.png blue catfish Channel Catfish - (Ictalurus punctatus) 220px Distribution map of channel catfish
Distribution of Ictalurus punctatus