Biology:Dicyemida

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Short description: Phylum of tiny parasites of cephalopods

Dicyemida
Dicyema japonicum.png
Photomicrograph of Dicyema japonicum
Scientific classification e
Domain: Eukaryota
Kingdom: Animalia
Subkingdom: Eumetazoa
Clade: ParaHoxozoa
Clade: Bilateria
Clade: Nephrozoa
(unranked): Protostomia
(unranked): Spiralia
Clade: Platytrochozoa
(unranked): Mesozoa
Phylum: Dicyemida
Class: Rhombozoa

Dicyemida, also known as Rhombozoa, is a phylum of tiny parasites that live in the renal appendages of cephalopods.

Taxonomy

Dicyema macrocephalum

Classification is controversial.[1] Traditionally, dicyemids have been grouped with the Orthonectida in the phylum Mesozoa and, from 2017, molecular evidence[2][3] appears to confirm this.

However, other molecular phylogenies have placed the dicyemids more closely related to the roundworms.[4] Additional molecular evidence suggests that this phylum is derived from the Lophotrochozoa.[5][6]

The phylum (or class if retained within Mesozoa) contains three families, Conocyemidae, Dicyemidae and Kantharellidae,[7] which have sometimes been further grouped into orders. The phylum or class name Rhombozoa is preferred as more inclusive by authors who treat Dicyemida as an order and separate the family Conocyemidae into the order Heterocyemida.[3][4][8][9]

Anatomy

Adult dicyemids range in length from 0.5 to 7 millimetres (0.020 to 0.276 in), and they can be easily viewed through a light microscope.[10] They display eutely, a condition in which each adult individual of a given species has the same number of cells, making cell number a useful identifying character. Dicyemida lack respiratory, circulatory, excretory, digestive, and nervous systems.

The organism's structure is simple: a single axial cell is surrounded by a jacket of twenty to thirty ciliated cells. The anterior region of the organism is termed a calotte and functions to attach the parasite to folds on the surface of its host's renal appendages.[10]

Life cycle

Dicyemids exist in both asexual and sexual forms. The former predominate in juvenile and immature hosts, and the latter in mature hosts. The asexual stage is termed a nematogen; it produces vermiform larvae within the axial cell. These mature through direct development to form more nematogens.[10] Nematogens proliferate in young cephalopods, filling the kidneys.

As the infection ages, perhaps as the nematogens reach a certain density, vermiform larvae mature to form rhombogens, the sexual life stage, rather than more nematogens. This sort of density-responsive reproductive cycle is reminiscent of the asexual reproduction of sporocysts or rediae in larval trematode infections of snails. As with the trematode asexual stages, a few nematogens can usually be found in older hosts. Their function may be to increase the population of the parasite to keep up with the growth of the host.

Rhombogens contain hermaphroditic gonads developed within the axial cell. These gonads, more correctly termed infusorigens, self-fertilise to produce infusoriform larvae. These larvae possess a very distinctive morphology, swimming about with ciliated rings that resemble headlights. It has long been assumed that this sexually produced infusoriform, which is released when the host eliminates urine from the kidneys, is both the dispersal and the infectious stage. The mechanism of infection, however, remains unknown, as are the effects, if any, of dicyemids on their hosts.[10]

Some part of the dicyemid life cycle may be tied to temperate benthic environments, where they occur in greatest abundance[citation needed]. While dicyemids have occasionally been found in the tropics, the infection rates are typically quite low,[11][12] and many potential host species are not infected. Dicyemids have never been reported from truly oceanic cephalopods, who instead host a parasitic ciliate fauna[citation needed]. Most dicyemid species are recovered from only one or two host species. While not strictly host specific, most dicyemids are only found in a few closely related hosts[citation needed].

References

  1. "Dicyema Pax6 and Zic: tool-kit genes in a highly simplified bilaterian". BMC Evol. Biol. 7: 201. 25 October 2007. doi:10.1186/1471-2148-7-201. PMID 17961212. 
  2. Tsai-Ming Lu; Miyuki Kanda; Noriyuki Satoh; Hidetaka Furuya (May 2017). "The phylogenetic position of dicyemid mesozoans offers insights into spiralian evolution.". Zoological Letters 3 (1): 6. doi:10.1186/s40851-017-0068-5. PMID 28560048. 
  3. 3.0 3.1 Drábková, Marie; Kocot, Kevin M.; Halanych, Kenneth M.; Oakley, Todd H.; Moroz, Leonid L.; Cannon, Johanna T.; Kuris, Armand; Garcia-Vedrenne, Ana Elisa et al. (6 July 2022). "Different phylogenomic methods support monophyly of enigmatic 'Mesozoa' (Dicyemida + Orthonectida, Lophotrochozoa)". Proceedings of the Royal Society B: Biological Sciences 289 (1978): 20220683. doi:10.1098/rspb.2022.0683. PMID 35858055. 
  4. 4.0 4.1 "Origin of the Mesozoa inferred from 18S rRNA gene sequences". Mol. Biol. Evol. 13 (8): 1128–32. October 1996. doi:10.1093/oxfordjournals.molbev.a025675. PMID 8865666. 
  5. Kobayashi, M; Furuya, H; Wada, H (2009). "Molecular markers comparing the extremely simple body plan of dicyemids to that of lophotrochozoans: insight from the expression patterns of Hox, Otx, and brachyury". Evol Dev 11 (5): 582–589. doi:10.1111/j.1525-142x.2009.00364.x. PMID 19754714. 
  6. Suzuki, TG; Ogino, K; Tsuneki, K; Furuya, H (2010). "Phylogenetic analysis of dicyemid mesozoans (phylum Dicyemida) from innexin amino acid sequences: dicyemids are not related to Platyhelminthes". J Parasitol 96 (3): 614–625. doi:10.1645/ge-2305.1. PMID 20557208. 
  7. "Kantharellidae". Integrated Taxonomic Information System. https://www.itis.gov/servlet/SingleRpt/SingleRpt?search_topic=TSN&search_value=696110. 
  8. "Rhombozoa". Integrated Taxonomic Information System. https://www.itis.gov/servlet/SingleRpt/SingleRpt?search_topic=TSN&search_value=563954. 
  9. "Heterocyemida". Integrated Taxonomic Information System. https://www.itis.gov/servlet/SingleRpt/SingleRpt?search_topic=TSN&search_value=696107. 
  10. 10.0 10.1 10.2 10.3 Barnes, Robert D. (1982). Invertebrate Zoology. Philadelphia, PA: Holt-Saunders International. pp. 248–249. ISBN 0-03-056747-5. 
  11. Furuya, Hidetaka (2010). "Systematics, morphology, and life cycle of dicyemid mesozoans (中生動物ニハイチュウの分類、系統、生活史)". Jpn. J. Vet. Parasitol. 9 (1): 128–134. 
  12. Hochberg, F.G. (1990). Diseases caused by protistans and mesozoans.  in Kinne, Otto. Diseases of Marine animals. 3. Hamburg: Biologische Anstalt Helgoland. pp. 47–202. 

Further reading

  • "Biology of dicyemid mesozoans". Zool. Sci. 20 (5): 519–32. May 2003. doi:10.2108/zsj.20.519. PMID 12777824. 
  • Furuya, H.; Hochberg, F. G.; Tsuneki, K. (2003). "Reproductive traits in dicyemids". Marine Biology 142 (4): 693–706. doi:10.1007/s00227-002-0991-6. 
  • Hochberg, F.G. (1982). "The "kidneys" of cephalopods: a unique habitat for parasites". Malacologia 23: 121–134. 
  • McConnaughey, B.H. (1951). "The life cycle of the dicyemid Mesozoa". University of California Publications in Zoology 55: 295–336. 
  • "Origin of the Mesozoa inferred from 18S rRNA gene sequences". Mol. Biol. Evol. 13 (8): 1128–32. October 1996. doi:10.1093/oxfordjournals.molbev.a025675. PMID 8865666. 

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