Trachelyopterus

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Trachelyopterus
Parauchenipterus paseae.jpg
Trachelyopterus galeatus
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Actinopterygii
Order: Siluriformes
Family: Auchenipteridae
Subfamily: Auchenipterinae
Genus: Trachelyopterus
Valenciennes, 1840
Type species
Trachelyopterus coriaceus
Valenciennes, 1840
Species

See text.

Synonyms

Parauchenipterus Bleeker, 1862

Trachelyopterus is a genus of driftwood catfishes. They have been found in South American environments, including Venezuela, Colombia, Peru, Argentina, and several places in Brazil. [1] They have a body pattern that follows bilateral symmetry and reproduce sexually. [1] In terms of sensory systems, Trachelypterus’ have otoliths for hearing and lens eyes for seeing; they also have capabilities of electroreception. [1] The size and appearance of different species within the Trachelyopterus genus varies, with sizes ranging from 5.5 inches in T. albicrux to 7.9 inches in T. insignis to 8.4 inches in T. lucenai. [2] [3] [4] These small catfishes are marketed towards aquariums. [3]

Contents

Feeding and diet

The Trachelyopterus lucenai catfishes feed primarily on autochthonous materials in the ecosystem but do consume allochthonous particulate as well. [5] A study by Becker found that the stomach contents of these catfishes varied widely among trophic levels; organisms ranging from fish to crabs to insects. [5] Given this diversity found in the stomach content of T. lucenai, it is reasonable to conclude that these animals navigate throughout the whole water column in search of food, rather than limiting their niche to only surface waters or only benthic habitats. [5] Furthermore, this variability in eating behavior lends to the characterization of the driftwood catfishes as omnivorous organisms, since they feed at more than one trophic level. [5] Additionally, this genus may be considered to follow opportunistic feeding behaviors. [5] Opportunistic feeding behaviors are characterized by a varied food selection which ultimately contributes to increased adaptability as animals rely on more than one source of energy. [6] There were no significant differences in feeding habits observed between males and females. [5]

Reproductive period and strategies

Trachelyopterus lucenai has a reproductive season from October through March. [7] These reproductive months correspond to species abundance; the highest prevalence of the driftwood catfishes falls from October to March, while they are least abundant from April through December. [7] Maia, et al also found that temperature may be an important consideration when determining reproductive season for these individuals. [7] In another study, Fontoura, et al. also examined reproductive details and found that the gonadosomatic index (GSI) values were highest in November through February. [8] These data correspond to one another in that Fontoura, et al.’s findings fit within the expected reproductive period given by Maia, et al. In terms of fecundity, T. lucenai females produce about 1536 oocytes each. [7] Additionally, there was a correlation noticed between female length and number of oocytes; the longer the length of the female, the more oocytes were produced, indicating a positive relationship. [7]

Trachelyopterus striatulus was studied in terms of reproductive strategies. [9] Paired testes in males were observed. [9] The testes are composed of two regions: the interstitial region, which is responsible for steroid hormone genesis, and the tubular region, which is responsible for the production of sperm. [9] In their work, Santos, et al., found that T. striatus fishes were about 15 cm long, with a whole-body weight of about 81.17 +/- 34.51 grams. [9] The weight of the testes was 9.16 +/- 6.11 grams with an average length of about 35.23 +/- 6.94 mm. [9] The researchers found that sperm of T. striatulus developed in cysts, which would then burst, ultimately leading to the release of the sperm that were housed within. [9] The process of sperm formation occurs in steps. The first form developed is the primary spermatogonia, which is the largest of the cells in the process of spermatogenesis. [9] Following the formation of the primary spermatogonia, the secondary spermatogonia is developed, then the primary spermatocyte, the secondary spermatocyte, the spermatid, and finally the spermatozoa; there is a decrease in the size of these cells as they are developed throughout the process. [9]

Further support that Trachelyopterus catfishes reproduce via insemination was gathered from work done by Burns, et al., who studied the ultrastructure of sperm in these animals. [10] They found that the sperm cells of T. lucenai have a single flagellum and are characterized by both elongated nuclear and middle section. [10] The elongation of the middle section of the sperm cell was associated with higher levels of mitochondria; this could suggest that the mitochondria were supplying energy to the cell to aid in the transport to the female reproductive tract. [10] Furthermore, the presence of other structures, like microtubules, suggest the importance of structural integrity needed to move through fluids. [10]

Threats

Research within the Trachelyopterus genus on the species T. striatulus focused on these organisms as hosts for parasitic activity. Researchers found that T. striatulus individuals host a variety of parasites at somewhat high levels, with about 40.6 parasites found per fish. [11] No significant relationship was concluded between parasitic frequency in respect to sex nor with parasitism in respect to length of fish body. [11] Perhaps this could be interpreted to mean that the fish maintain similar eating habits, regardless of sex or age. [9] Furthermore, the article suggests that one type of parasite, the monogeneans, might lead to increased production and development of mucus on the fish skin, leading to difficulties in respiration for these individuals. [11] Furthermore, in a different study, done by Santos, et al., looked at the parasite Kudoa orbicularis and its relationship to T. galeatus. [12] The individuals of the T. galeatus species that were observed for this study were found in Marajó Island of northern Brazil. [12] They described the K. orbicularis species to appear as pseudocysts in the muscle tissue of T. galeatus. [12] The parasite apparently took over in such a way as to replace the sarcoplasmic reticulum within the musculature tissue, disrupting the integrtiey of the muscle’s structure. [12] Despite this change in structure to muscle, T. galeatus did not exhibit signs of an inflammatory response. [12]

Genetics

When B chromosomes were studied in some species within the Trachelyopterus genus, specifically T. galeatus and T. porosus, it was determined that both of these species had 58 chromosomes, following a diploid structure. [13] This finding was the same for both males and females. [13]

Species

Trachelyopterus currently contains 18 described species: [14]

Related Research Articles

<i>Ancistrus</i> Genus of fishes

Ancistrus is a genus of nocturnal freshwater fish in the family Loricariidae of order Siluriformes, native to freshwater habitats in South America and Panama. Fish of this genus are common in the aquarium trade where they are known as bushynose or bristlenose catfish. In the aquarium hobby they are often referred to as bushynose or bristlenose plecos instead, but this may lead to confusion as "pleco" usually is used for Hypostomus plecostomus and its allies and is often used as a catchall term for any loricariids remotely resembling that species.

<span class="mw-page-title-main">Driftwood catfish</span> Family of fishes

The driftwood catfishes are catfishes of the family Auchenipteridae. The two genera of the former family Ageneiosidae have been placed here, resulting in a grouping of about 125 species in about 22 genera.

<span class="mw-page-title-main">Loricariidae</span> Largest family of catfish

Loricariidae is the largest family of catfish, with over 90 genera and just over 680 species. Loricariids originate from freshwater habitats of Costa Rica, Panama, and tropical and subtropical South America. These fish are noted for the bony plates covering their bodies and their suckermouths. Several genera are sold as "plecos", notably the suckermouth catfish, Hypostomus plecostomus, and are popular as aquarium fish.

<i>Rineloricaria</i> Genus of fishes

Rineloricaria is a genus of freshwater tropical catfish belonging to the family Loricariidae. They are commonly called whiptail catfish because of the long filament that grows out of the tip of the caudal fin that is characteristic of the genus. With the exception of R. altipinnis from Panama, they are native to the rivers of northern and central South America. Some species are regularly seen in the aquarium trade.

<span class="mw-page-title-main">Striped Raphael catfish</span> Species of fish

The striped Raphael catfish is a catfish of the family Doradidae. It may also be called Southern striped Raphael, talking catfish, chocolate doradid, chocolate catfish or thorny catfish. It is native to the Amazon, Paraguay–Paraná and lower Orinoco basins in South America. This peaceful, nocturnal species is a popular aquarium fish due to its pleasant temperament and curious nature.

<i>Auchenipterichthys</i> Genus of fishes

Auchenipterichthys is a genus of driftwood catfishes found in South America.

<i>Ageneiosus</i> Genus of fishes

Ageneiosus is a genus of driftwood catfishes found mostly in South America with one species extending into Central America.

<i>Auchenipterus</i> Genus of fishes

Auchenipterus is a genus of driftwood catfishes.

Tympanopleura is a genus of driftwood catfishes found mostly in South America with one species extending into Central America.

<i>Entomocorus benjamini</i> Species of fish

Entomocorus benjamini is a species of driftwood catfish found in the Madeira River system in Bolivia and Brazil. This species grows to a length of 7.0 cm and can be distinguished from it congeners in that the distal half of dorsal caudal fin lobe and the edge of the ventral lobe is pigmented.

<i>Chaetostoma</i> Genus of fishes

Chaetostoma, also known as the bristlemouth catfish, is a genus of suckermouth armored catfishes native to South America with one species, C. fischeri, extending into Panama. Most species inhabit flowing rivers in the lower Andes and its foothills. Some species are kept in unheated aquaria.

<i>Tatia</i> Genus of fishes

Tatia is a genus of small South American catfishes belonging to Auchenipteridae, the driftwood catfish family.

Centromochlus is a genus of fish in the family Auchenipteridae native to South America.

Spinipterus is a genus of catfishes of the family Auchenipteridae.

<i>Ageneiosus inermis</i> Species of fish

Ageneiosus inermis, also known as Fidalgo, Dawala or Mandubé, is a species of driftwood catfish of the family Auchenipteridae. It can be found throughout South America, from Colombia and Venezuela to Uruguay and northern Argentina.

Tympanopleura brevis is a species of driftwood catfish of the family Auchenipteridae. It can be found on the Amazon basin.

Tympanopleura piperata is a species of driftwood catfish of the family Auchenipteridae. It can be found on the Essequibo River, Guyana.

Tympanopleura rondoni is a species of driftwood catfish of the family Auchenipteridae. It can be found on the Amazon basin.

<i>Trachelyopterus insignis</i> Species of fish

Trachelyopterus insignis is a species of catfish from the freshwater driftwood catfish family, Auchenipteridae. It is commonly found in rivers of northern South America, where it is called the chivo, the rengue, or the doncella.

<i>Trachelyopterus fisheri</i> Species of fish

Trachelyopterus fisheri is a freshwater demersal fish native to the Sucio River in Colombia. Synonyms are Parauchenipterus fisheri and Trachycorystes fisheri. Common names are Driftwood catfish or fisher wood catfish.

References

  1. 1 2 3 "Trachelyopterus". Encyclopedia of Life . National Museum of Natural History . Retrieved 2023-05-08.
  2. "Trachelyopterus albicrux • Auchenipteridae • Cat-eLog". www.planetcatfish.com. Retrieved 2023-05-08.
  3. 1 2 "Trachelyopterus lucenai • Auchenipteridae • Cat-eLog". www.planetcatfish.com. Retrieved 2023-05-08.
  4. "Trachelyopterus insignis • Auchenipteridae • Cat-eLog". www.planetcatfish.com. Retrieved 2023-05-08.
  5. 1 2 3 4 5 6 Fernando, Becker (June 1998). "Feeding Habits of Trachelyopterus lucenai (Pisces, Auchenipteridae) in Lake Guaíba, RS, Brazil". Biociências. 6 (1): 89–90 via Research Gate.
  6. Knowlton, Chris. "opportunistic feeding". Discovery of Sound in the Sea. Retrieved 2023-05-08.
  7. 1 2 3 4 5 Maia, Renata; Artioli, Luiz G. S.; Hartz, Sandra M. (June 2013). "Diet and reproductive dynamics of Trachelyopterus lucenai (Siluriformes: Auchenipteridae) in subtropical coastal lagoons in southern Brazil". Zoologia (Curitiba). 30 (3): 255–265. doi: 10.1590/S1984-46702013000300002 . ISSN   1984-4689.
  8. Fontoura, Nelson Ferreira; Ceni, Gianfranco; Braun, Aloisio Sirangelo; Marques, Camilla da Silva (2018-07-16). "Defining the reproductive period of freshwater fish species using the Gonadosomatic Index: a proposed protocol applied to ten species of the Patos Lagoon basin". Neotropical Ichthyology. 16 (2). doi: 10.1590/1982-0224-20170006 . ISSN   1982-0224.
  9. 1 2 3 4 5 6 7 8 9 Santos, M. L.; Sales, N. G.; Arantes, F. P.; Pessali, T. C.; Bazzoli, N.; Santos, J. E. (August 2014). "Anatomical and Histological Organization of the Testes of the Inseminating Catfish Trachelyopterus striatulus (Steindachner, 1877) (Siluriformes: Auchenipteridae)". Anatomia, Histologia, Embryologia. 43 (4): 310–316. doi:10.1111/ahe.12082.
  10. 1 2 3 4 Burns, John (February 8, 2002). "Sperm and Spermatozeugma Ultrastructure in the Inseminating Catfish, Trachelyopterus lucenai (Ostariophysi: Siluriformes: Auchenipteridae)". Copeia. 2002 (1): 173–179 via JSTOR.
  11. 1 2 3 Mesquita, Rlb.; Azevedo, Rk.; Abdallah, Vd.; Luque, Jl. (August 2011). "Ectoparasites as numerical dominant species in parasite community of Trachelyopterus striatulus (Siluriformes: Auchenipteridae) from Guandu River, southeastern Brazil". Brazilian Journal of Biology. 71 (3): 623–627. doi: 10.1590/S1519-69842011000400006 . ISSN   1519-6984.
  12. 1 2 3 4 5 Santos, Weverton John Pinheiro dos; Silva, Diehgo Tuloza da; Santos, Patrícia de Fátima Saco dos; Matos, Edilson Rodrigues; Hamoy, Igor Guerreiro (July 2019). "New occurrence of Kudoa orbicularis parasitizing the freshwater catfish Trachelyopterus galeatus (Siluriformes: Auchenipteridae) in the Brazlian Amazon region". Revista Brasileira de Parasitologia Veterinária. 28 (3): 416–424. doi: 10.1590/s1984-29612019047 . ISSN   1984-2961.
  13. 1 2 Felicetti, Denise; Haerter, Chrystian A.G.; Baumgärtner, Lucas; Paiz, Leonardo M.; Takagui, Fábio H.; Margarido, Vladimir P.; Blanco, Daniel R.; Feldberg, Eliana; da Silva, Maelin; Lui, Roberto L. (2021). "A New Variant B Chromosome in Auchenipteridae: The Role of (GATA)n and (TTAGGG)n Sequences in Understanding the Evolution of Supernumeraries in Trachelyopterus". Cytogenetic and Genome Research. 161 (1–2): 70–81. doi:10.1159/000513107. ISSN   1424-8581.
  14. Froese, Rainer; Pauly, Daniel (eds.). "Species in genus Trachelyopterus". FishBase . October 2024 version.
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