Biology:Triplewart seadevil

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Short description: Species of fish

Triplewart seadevil
Cryptopsaras couesii.jpg
Triplewart seadevil (female)
Scientific classification edit
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Actinopterygii
Order: Lophiiformes
Family: Ceratiidae
Genus: Cryptopsaras
T. N. Gill, 1883
Species:
C. couesii
Binomial name
Cryptopsaras couesii
T. N. Gill, 1883

The triplewart seadevil (Cryptopsaras couesii) is a sea devil of the family Ceratiidae and the order Lophoiiformes.[1] This species is the only member of its genus.[1] Noted for its extreme sexual dimorphism, the triplewart seadevil's length ranges from 20 to 30 cm for females and 1 to 3 cm for males.[2]

Distribution

Triplewart seadevils are ceratioids commonly found worldwide in all major oceans.[3] They are seen in depths ranging from 75 to 4000 m (250 to 13,100 ft), with the majority of specimens found in the mesopelagic and bathypelagic zones between 500 and 1250 m (1600 to 4100 ft).[3][4] It is dispersed from the deep ocean to shallower water because its weak swimming power allows it to be carried over long distances by ocean currents.[2]

Morphology

Female triplewart seadevils have a laterally compressed, elongated body with a large head and a mouth that is nearly vertical when closed.[2][5] It has 2 to 3 rows of irregular depressible teeth, with significantly larger teeth on the lower jaw than the smaller upper jaw.[6] The body is covered by deeply embedded hollow spines. Only the tips show and there are no conical bone plates. The 3 lateral caruncles have club-shaped glands that secrete a slime containing luminous granules.[2] Adult females have jet-black pigmentation while juveniles are dark brown.[6] The triplewart seadevil uses an illicium, a modified dorsal spine on the snout, to lure prey. This apparatus is primarily composed of a terminating esca or lure supported by an extremely long pterygiophore bone encased in a dermal sheath.[3] Winding muscles control the anterior and posterior movement of the bone, suggesting extension and retraction by rotation.[3] The terminal esca contains bioluminescent bacterial symbionts, creating a glowing lure for their prey.[7][8][9]

Female Cryptopsaras couesii

Sexual dimorphism

The species displays extreme sexual dimorphism, where dwarfed males parasitize the larger females.[1] Their specialized jaw has an anterior pair of denticular teeth that are longer than their posterior pair.[10] Males permanently attach themselves to the ventral side of females with this specialized jaw meant for grasping a female mate.[2] Once attached, tissue fusion occurs, permanently binding the mouth and one side of the male to the surface of the female. After attachment, the male becomes dependent on the female for blood-circulated nutrients due to the fusion of the circulatory and digestive systems.[1] This case of extreme sexual dimorphism is favored by natural selection due to the random dispersal of individuals. If one of the relatively numerous males is fortunate enough to encounter a female, it attaches for the remainder of its life. This significantly increases the chance of reproduction for the individual and therefore increases its fitness.[1]

Reproduction

Female triplewart seadevil with parasitic male attached (arrow).

Female triplewart seadevils are receptive to parasitic males at a young age.[1] Once past metamorphosis, sexual parasitism may occur at almost any size (as small as 15 mm.) Despite this, the percentage of reproducing individuals is small. Of 600 metamorphosed females studied, only 6.2% were parasitized.[1] Spawning events occur more than once a year, and the Atlantic Ocean contains triplewart seadevil larvae for most of the year, with summer having the greatest occurrences.[2] The seadevil's method of sexual parasitism leads to the female to be akin to a self-fertilizing hermaphrodite. This is due to the nature of tissue fusion between mates and the continuous production of sperm by the male.[2] Unlike all other ceratioids, males do not have large nostrils for tracking species-specific pheromones emitted by the female. Instead, they have large eyes that degenerate upon attachment to the female.[1]

References

  1. 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 Pietsch, Theodore W. (2005-08-25). "Dimorphism, parasitism, and sex revisited: modes of reproduction among deep-sea ceratioid anglerfishes (Teleostei: Lophiiformes)" (in en). Ichthyological Research 52 (3): 207–236. doi:10.1007/s10228-005-0286-2. ISSN 1341-8998. 
  2. 2.0 2.1 2.2 2.3 2.4 2.5 2.6 Fast, Thomas N. (1957-08-26). "The Occurrence of the Deep-Sea Anglerfish, Cryptopsaras couesii, in Monterey Bay, California". Copeia 1957 (3): 237–. doi:10.2307/1439375. 
  3. 3.0 3.1 3.2 3.3 Shimazaki, Mitsuomi; Nakaya, Kazuhiro (2004-02-01). "Functional anatomy of the luring apparatus of the deep-sea ceratioid anglerfish Cryptopsaras couesii (Lophiiformes: Ceratiidae)". Ichthyological Research 51 (1): 33–37. doi:10.1007/s10228-003-0190-6. ISSN 1341-8998. 
  4. Miya, Masaki; Pietsch, Theodore W.; Orr, James W.; Arnold, Rachel J.; Satoh, Takashi P.; Shedlock, Andrew M.; Ho, Hsuan-Ching; Shimazaki, Mitsuomi et al. (2010-02-23). "Evolutionary history of anglerfishes (Teleostei: Lophiiformes): a mitogenomic perspective". BMC Evolutionary Biology 10 (1): 58. doi:10.1186/1471-2148-10-58. ISSN 1471-2148. PMID 20178642. 
  5. Ho, Hsuan-Ching (2016-06-09). "Records of deep-sea anglerfishes (Lophiiformes: Ceratioidei) from Indonesia, with descriptions of three new species" (in en). Zootaxa 4121 (3): 267–294. doi:10.11646/zootaxa.4121.3.3. ISSN 1175-5334. PMID 27395223. 
  6. 6.0 6.1 Kharin, V. E. (2006). "On the species composition and the distribution of Ceratiid anglers (Ceratiidae) in Russian and adjacent waters" (in en). Journal of Ichthyology 46 (5): 409–412. doi:10.1134/S0032945206050080. ISSN 0032-9452. 
  7. Freed, L.; Fenolio, D.; Easson, Cole; Hendry, T.; Sutton, Tracey; and Lopez, Jose V., "Anglerfish Bacterial Symbionts and Seawater from the Northern Gulf of Mexico" (2017). Marine & Environmental Sciences Faculty Proceedings, Presentations, Speeches, Lectures. 449.
  8. Daniel L. Distel; Haygood, Margo G. (1993). "Bioluminescent symbionts of flashlight fishes and deep-sea anglerfishes form unique lineages related to the genus Vibrio" (in en). Nature 363 (6425): 154–156. doi:10.1038/363154a0. ISSN 1476-4687. PMID 7683390. Bibcode1993Natur.363..154H. 
  9. Widder, E. A. (2010-05-07). "Bioluminescence in the Ocean: Origins of Biological, Chemical, and Ecological Diversity" (in en). Science 328 (5979): 704–708. doi:10.1126/science.1174269. ISSN 0036-8075. PMID 20448176. Bibcode2010Sci...328..704W. 
  10. Leslie, M. E. Anderson and R. W.. "REVIEW OF THE DEEP-SEA ANGLERFISHES (LOPHIIFORMES: CERATIOIDEI) OF SOUTHERN AFRICA" (in English). Ichthyological Bulletin (70): 1–32. ISSN 0073-4381. http://www.bioline.org.br/abstract?fb01002. 

External links

Wikidata ☰ Q1851870 entry