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Oikopleura Mertens 1830

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Oikopleura

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Oikopleura is a genus of Tunicata (sea-squirts) in the class Appendicularia (Larvacea), Order Copelata and Family Oikopleuridae.This tiny pelagic tunicate is abundant in offshore tropical waters of all oceans and seas, having been reported widely in the Caribbean Sea and the western coasts of the Atlantic Ocean.[2][3][4][5][6][7][8][9][10][11][12][13][14] Oikopleura has a body length of 1 mm. In Monterey Bay and other West Coast locations, it may occur in surface aggregations that form long parallel rows; individuals appear as closely spaced reddish specks. Oikopleura has the typical larvacean tadpole-like appearance with a tail that is 3 to 4 times the length of the body. When undisturbed, it produces 5 to 10 pea-sized mucous webs (the "house") a day that are used for feeding, protection and buoyancy. The house concentrates tiny food particles, which are transferred to the mouth for ingestion. Discarded houses are capable of producing bluish-green bioluminescent flashes, and also make a significant contribution to the steady rain of organic material (known as marine snow) that slowly descends into deeper water. Various species of Oikopleura are distributed throughout tropical and temperate seas. In boreal and Arctic waters, O. dioica is replaced by the more cold tolerant and larger O. vanhoeffeni and O. labradoriensis. It forms a mucus house every four hours at 20 degrees Celsius. The house has a coarse mesh to keep out big particles and a fine mesh that collects small particles, down to the nanoplankton that includes (pelagic) bacteria. Abandoned mucus houses sink to the deep, collecting organic particles during their descent, and make an important contribution to marine snow. Oikopleura is a very active filterer, using powerful strokes of its tail. The gelatinous body disappears in the preservation process, leaving hardly any trace. Oikopleura has about 15,000 genes. Oikopleura dioica is an anomaly among chordates. It has retained the fundamental body plan of the chordate, but has lost the mechanism for retinoic acid signaling which operates during chordate development. The loss raises the question of evolutionary constraints that prevented similar changes in the other chordates.[15] O. dioica hox genes are distributed in nine locations around the genome whereas other chordates have a cluster of hox genes.[Nature 2 Sept 2004] References 1. World Register of Marine Species: Oikopleura Mertens, 1830 AphiaID: 103367 http://www.marinespecies.org/aphia.php?p=taxdetails&id=103367 2. Flores-Coto C. 1965: Notas preliminares sobre la identificación de las apendicularias de las aguas veracruzanas. Anales del Instituto de Biología (México) 35: 293-296. 3. Flores-Coto C.. 1974: Contribución al conocimiento de las apendicularias del arrecife “La Blanquilla” Veracruz, México con descripción de una nueva especie. Anales del Centro de Ciencias del Mar y Limnología, Universidad Nacional Autónoma de México 1: 41-60. 4. Flores-Coto, César., Sanvicente-Añorve, Laura. & Sánchez-Ramírez, Marina. 2010: Appendicularian distribution and diversity in the southern Gulf of Mexico. Distribución y diversidad de apendicularias en el sur del golfo de México. Revista Mexicana de Biodiversidad, 81:123- 131. PDF 5. Castellanos, I. A. and E. Suárez-Morales. 2009. Appendicularia (Urochordata) of the Gulf of Mexico, Pp. 1217–1221 in Felder, D.L. and D.K. Camp (eds.), Gulf of Mexico–Origins, Waters, and Biota. Biodiversity. Texas A&M Press, College Station, Texas. 6. Márquez, Brightdoom., Marín, Baumar., Zoppi, Evelyn. & Moreno, Carlos. 2006: Zooplancton del Golfo De Cariaco. Bol. Inst. Oceanogr. Venezuela, Univ. Oriente. 45(1):61-78 PDF 7. Zoopp, Evelyn. 1971: Apendicularias de la Región Oriental de Venezuela. Studies on the Fauna of Curaçao and other caribbean Island, 132:76-109. Lam I – VI. 8. Carvalho, Pedro Freitas de. & Bonecker, Sérgio Luiz Costa. 2010: Seasonal and Spatial Variability of Appendicularian Density and Taxonomic Composition in the Caravelas Estuary (Northeastern Brazil) and Adjacent Coastal Area. Brazilian Archives of Biology and Technology, 53(1):161-169. 9. Esnal G. 1972: Apendicularias de la desembocadura del Río de la Plata. Physis (Argentina) 31: 259-272. 10. Esnal G. 1973: Apendicularias de las costas argentinas. Physis (Argentina) 32: 267-273. 11. Esnal G. 1979: Características generales de la distribución de tunicados pelágicos del Atlántico sudoccidental, con algunas observaciones morfológicas. Physis (Argentina) 38: 91-102. 12. Esnal G. 1981: Apendicularia. In: Boltovskoy (ed) Atlas del zooplancton del Atlántico sudoccidental y métodos de trabajo con el zooplancton marino: 809-820. Publicación Especial, Instituto Nacional de Investigación y Desarrollo Pesquero, Mar del Plata, Argentina. 936 pp. 13. Esnal G. 1999: Appendicularia. In: Boltovskoy D (ed). South Atlantic zooplancton: 1375-1399. Backhuys Publication, Leiden, The Netherlands. 14. Esnal G. & Castro, R. 1977: Distributional and biometrical study of appendicularians from the west south Atlantic. Ocean. Hydrobiologia 56:241. 15. Holland, Linda Z. "Developmental biology: A chordate with a difference." Nature 447.1 (2007): 153-55.
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Oikopleura

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Oikopleura is a genus of Tunicata (sea-squirts) in the class Appendicularia (Larvacea), Order Copelata and Family Oikopleuridae.This tiny pelagic tunicate is abundant in offshore waters of all oceans and seas, having been reported widely in the Caribbean Sea and the western coasts of the Atlantic Ocean.[2][3][4][5][6][7][8][9][10][11][12][13][14]

Oikopleura has a body length of 1 mm. In Monterey Bay and other West Coast locations, it may occur in surface aggregations that form long parallel rows; individuals appear as closely spaced reddish specks. Oikopleura has the typical larvacean tadpole-like appearance with a tail that is 3 to 4 times the body length. When undisturbed, it produces 5 to 10 pea-sized mucous webs (the "house") a day that are used for feeding, protection and buoyancy. It forms a house every four hours at 20 degrees Celsius. The house has a coarse mesh to keep out big particles and a fine mesh that collects small particles, down to the nanoplankton that includes (pelagic) bacteria. The house concentrates tiny food particles, which are transferred to the mouth for ingestion. Discarded or abandoned houses can produce bluish-green bioluminescent flashes and collect organic particles during their descent, contributing to the steady rain of organic material (marine snow) that slowly descends into deeper water. Oikopleura is a very active filterer, using powerful strokes of its tail. The gelatinous body disappears in the preservation process, leaving hardly any trace. Oikopleura has about 15,000 genes.

Oikopleura dioica is an anomaly among chordates. It has retained the fundamental body plan of the chordate, but has lost the mechanism for retinoic acid signaling which operates during chordate development. The loss raises the question of evolutionary constraints that prevented similar changes in the other chordates.[15] O. dioica hox genes are distributed in nine locations around the genome whereas other chordates have a cluster of hox genes.[Nature 2 Sept 2004]. In boreal and Arctic waters, O. dioica is replaced by the more cold tolerant and larger O. vanhoeffeni and O. labradoriensis.

References

1. World Register of Marine Species: Oikopleura Mertens, 1830 AphiaID: 103367 http://www.marinespecies.org/aphia.php?p=taxdetails&id=103367

2. Flores-Coto C. 1965: Notas preliminares sobre la identificación de las apendicularias de las aguas veracruzanas. Anales del Instituto de Biología (México) 35: 293-296.

3. Flores-Coto C.. 1974: Contribución al conocimiento de las apendicularias del arrecife “La Blanquilla” Veracruz, México con descripción de una nueva especie. Anales del Centro de Ciencias del Mar y Limnología, Universidad Nacional Autónoma de México 1: 41-60.

4. Flores-Coto, César., Sanvicente-Añorve, Laura. & Sánchez-Ramírez, Marina. 2010: Appendicularian distribution and diversity in the southern Gulf of Mexico. Distribución y diversidad de apendicularias en el sur del golfo de México. Revista Mexicana de Biodiversidad, 81:123- 131. PDF

5. Castellanos, I. A. and E. Suárez-Morales. 2009. Appendicularia (Urochordata) of the Gulf of Mexico, Pp. 1217–1221 in Felder, D.L. and D.K. Camp (eds.), Gulf of Mexico–Origins, Waters, and Biota. Biodiversity. Texas A&M Press, College Station, Texas.

6. Márquez, Brightdoom., Marín, Baumar., Zoppi, Evelyn. & Moreno, Carlos. 2006: Zooplancton del Golfo De Cariaco. Bol. Inst. Oceanogr. Venezuela, Univ. Oriente. 45(1):61-78 PDF

7. Zoopp, Evelyn. 1971: Apendicularias de la Región Oriental de Venezuela. Studies on the Fauna of Curaçao and other caribbean Island, 132:76-109. Lam I – VI.

8. Carvalho, Pedro Freitas de. & Bonecker, Sérgio Luiz Costa. 2010: Seasonal and Spatial Variability of Appendicularian Density and Taxonomic Composition in the Caravelas Estuary (Northeastern Brazil) and Adjacent Coastal Area. Brazilian Archives of Biology and Technology, 53(1):161-169.

9. Esnal G. 1972: Apendicularias de la desembocadura del Río de la Plata. Physis (Argentina) 31: 259-272.

10. Esnal G. 1973: Apendicularias de las costas argentinas. Physis (Argentina) 32: 267-273.

11. Esnal G. 1979: Características generales de la distribución de tunicados pelágicos del Atlántico sudoccidental, con algunas observaciones morfológicas. Physis (Argentina) 38: 91-102.

12. Esnal G. 1981: Apendicularia. In: Boltovskoy (ed) Atlas del zooplancton del Atlántico sudoccidental y métodos de trabajo con el zooplancton marino: 809-820. Publicación Especial, Instituto Nacional de Investigación y Desarrollo Pesquero, Mar del Plata, Argentina. 936 pp.

13. Esnal G. 1999: Appendicularia. In: Boltovskoy D (ed). South Atlantic zooplancton: 1375-1399. Backhuys Publication, Leiden, The Netherlands.

14. Esnal G. & Castro, R. 1977: Distributional and biometrical study of appendicularians from the west south Atlantic. Ocean. Hydrobiologia 56:241.

15. Holland, Linda Z. "Developmental biology: A chordate with a difference." Nature 447.1 (2007): 153-55.

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Oikopleura

provided by wikipedia EN

Oikopleura is a genus of tunicate in the class Appendicularia (larvaceans). It forms a mucus house every four hours at 20 degrees Celsius. This house has a coarse mesh to keep out big particles, and a fine mesh that collects the small particles, down to the nanoplankton that includes (pelagic) bacteria.

Abandoned mucus houses sink to the deep, collecting organic particles during their descent. They make an important contribution to marine snow, since Oikopleura is abundant and is a very active filterer, using powerful strokes of its tail. Its abundance is less obvious from preserved samples (that are usually analyzed) because the gelatinous body disappears in the preservation process while leaving hardly any trace.

Species of Oikopleura have the smallest genomes in the animal kingdom, only about 75Mb.

Oikopleura contains bioluminescent species.[1] About half of Oikopleura species are bioluminescent.[2][3]

Etymology

The genus name comes from oikos (meaning "house") and pleura ("rib", or "side of the body"), referring to their ability to build a mucus house like other larvaceans.[4]

Taxonomy

Phylogeny

Oikopleura has been found to possibly be paraphyletic with respect to several other oikopleurid genera, namely: Folia, Stegosoma, Mesoikopleura, and Megalocercus. The genus might also harbour more diversity than thought, with species complexes like Oikopleura dioica comprising several reproductively incompatible clades despite consistent general morphology.[5]

List of species

Distribution

The oikopleurids are distributed in the tropical waters of all oceans and seas of the globe, having been reported widely in the Caribbean Sea and the western coasts of the Atlantic Ocean.[7][8][9][10][11][12][13][14][15][16][17][18][19]

Oikopleura dioica

A species of particular interest under this genus is the Oikopleura dioica, which is an anomaly among chordates. It has retained the fundamental body plan of the chordate; yet, it has lost the mechanism for retinoic acid signaling which operates during chordate development. The loss raises the question of the evolutionary constraints that have prevented similar changes in the other chordates.[20]

Oikopleura dioica hox genes are distributed in nine locations around the genome whereas other chordates have a cluster of hox genes.[21] Of note, this is the first chordate among the eukaryotes found to have operons.[22]

References

  1. ^ Herring, Peter J. (1987). "Systematic distribution of bioluminescence in living organisms". Journal of Bioluminescence and Chemiluminescence. 1 (3): 147–163. doi:10.1002/bio.1170010303. PMID 3503524.
  2. ^ Galt, Charles P.; Grober, Matthews S.; Sykes, Paul F. (1985). "Taxonomic correlates of bioluminescence among appendicularians (Urochordata: Larvacea)". The Biological Bulletin. 168 (1): 125–134. doi:10.2307/1541178. JSTOR 1541178.
  3. ^ Haddock, Steven H.D.; Moline, Mark A.; Case, James F. (2010). "Bioluminescence in the Sea". Annual Review of Marine Science. 2 (1): 443–493. Bibcode:2010ARMS....2..443H. doi:10.1146/annurev-marine-120308-081028. ISSN 1941-1405. PMID 21141672.
  4. ^ Lindsay, Margaret Caroline Murray (June 2012). Distribution and abundance of Larvaceans in the Southern Ocean (PDF) (Thesis). University of Tasmania.
  5. ^ Masunaga, Aki; et al. (2022). "The cosmopolitan appendicularian Oikopleura dioica reveals hidden genetic diversity around the globe". Marine Biology. 169 (12). doi:10.1007/s00227-022-04145-5. S2CID 251556065.
  6. ^ a b c d e f g h i j k l m n o p q r s World Register of Marine Species: Oikopleura Mertens, 1830 AphiaID: 103367 http://www.marinespecies.org/aphia.php?p=taxdetails&id=103367
  7. ^ Flores-Coto C. 1965: Notas preliminares sobre la identificación de las apendicularias de las aguas veracruzanas. Anales del Instituto de Biología (México) 35: 293-296.
  8. ^ Flores-Coto C.. 1974: Contribución al conocimiento de las apendicularias del arrecife “La Blanquilla” Veracruz, México con descripción de una nueva especie. Anales del Centro de Ciencias del Mar y Limnología, Universidad Nacional Autónoma de México 1: 41-60.
  9. ^ Flores-Coto, César., Sanvicente-Añorve, Laura. & Sánchez-Ramírez, Marina. 2010: Appendicularian distribution and diversity in the southern Gulf of Mexico. Distribución y diversidad de apendicularias en el sur del golfo de México. Revista Mexicana de Biodiversidad, 81:123- 131. PDF Archived 2016-03-04 at the Wayback Machine
  10. ^ Castellanos, I. A. and E. Suárez-Morales. 2009. Appendicularia (Urochordata) of the Gulf of Mexico, Pp. 1217–1221 in Felder, D.L. and D.K. Camp (eds.), Gulf of Mexico–Origins, Waters, and Biota. Biodiversity. Texas A&M Press, College Station, Texas.
  11. ^ Márquez, Brightdoom., Marín, Baumar., Zoppi, Evelyn. & Moreno, Carlos. 2006: Zooplancton del Golfo De Cariaco. Bol. Inst. Oceanogr. Venezuela, Univ. Oriente. 45(1):61-78 PDF Archived 2011-03-22 at the Wayback Machine
  12. ^ Zoopp, Evelyn. 1971: Apendicularias de la Región Oriental de Venezuela. Studies on the Fauna of Curaçao and other caribbean Island, 132:76-109. Lam I – VI.
  13. ^ Carvalho, Pedro Freitas de.; Bonecker, Sérgio Luiz Costa (2010). "Seasonal and Spatial Variability of Appendicularian Density and Taxonomic Composition in the Caravelas Estuary (Northeastern Brazil) and Adjacent Coastal Area". Brazilian Archives of Biology and Technology. 53 (1): 161–169. doi:10.1590/s1516-89132010000100020.
  14. ^ Esnal G. 1972: Apendicularias de la desembocadura del Río de la Plata. Physis (Argentina) 31: 259-272.
  15. ^ Esnal G. 1973: Apendicularias de las costas argentinas. Physis (Argentina) 32: 267-273.
  16. ^ Esnal G. 1979: Características generales de la distribución de tunicados pelágicos del Atlántico sudoccidental, con algunas observaciones morfológicas. Physis (Argentina) 38: 91-102.
  17. ^ Esnal G. 1981: Apendicularia. In: Boltovskoy (ed) Atlas del zooplancton del Atlántico sudoccidental y métodos de trabajo con el zooplancton marino: 809-820. Publicación Especial, Instituto Nacional de Investigación y Desarrollo Pesquero, Mar del Plata, Argentina. 936 pp.
  18. ^ Esnal G. 1999: Appendicularia. In: Boltovskoy D (ed). South Atlantic zooplancton: 1375-1399. Backhuys Publication, Leiden, The Netherlands.
  19. ^ Esnal, G.; Castro, R. (1977). "Distributional and biometrical study of appendicularians from the west south Atlantic. Ocean". Hydrobiologia. 56 (3): 241. doi:10.1007/bf00017510. S2CID 21118473.
  20. ^ Holland, Linda Z (2007). "Developmental biology: A chordate with a difference". Nature. 447 (1): 153–55. Bibcode:2007Natur.447..153H. doi:10.1038/447153a. PMID 17495912. S2CID 5549210.
  21. ^ Seo, Hee-Chan; Edvardsen, Rolf Brudvik; Maeland, Anne Dorthea; Bjordal, Marianne; Jensen, Marit Flo; Hansen, Anette; Flaat, Mette; Weissenbach, Jean; Lehrach, Hans; Wincker, Patrick; Reinhardt, Richard (September 2004). "Hox cluster disintegration with persistent anteroposterior order of expression in Oikopleura dioica". Nature. 431 (7004): 67–71. Bibcode:2004Natur.431...67S. doi:10.1038/nature02709. ISSN 1476-4687. PMID 15343333. S2CID 4398158.
  22. ^ Blumenthal, T (2004). "Operons in eukaryotes". Briefings in Functional Genomics and Proteomics. 3 (3): 199–211. doi:10.1093/bfgp/3.3.199. PMID 15642184.

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wikipedia EN

Oikopleura: Brief Summary

provided by wikipedia EN

Oikopleura is a genus of tunicate in the class Appendicularia (larvaceans). It forms a mucus house every four hours at 20 degrees Celsius. This house has a coarse mesh to keep out big particles, and a fine mesh that collects the small particles, down to the nanoplankton that includes (pelagic) bacteria.

Abandoned mucus houses sink to the deep, collecting organic particles during their descent. They make an important contribution to marine snow, since Oikopleura is abundant and is a very active filterer, using powerful strokes of its tail. Its abundance is less obvious from preserved samples (that are usually analyzed) because the gelatinous body disappears in the preservation process while leaving hardly any trace.

Species of Oikopleura have the smallest genomes in the animal kingdom, only about 75Mb.

Oikopleura contains bioluminescent species. About half of Oikopleura species are bioluminescent.

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Distribution

provided by World Register of Marine Species
Only identified at generic level.

Reference

M'harzi, A. (1999). Phytoplankton community structuring in some areas of the North Sea. PhD Thesis. Vrije Universiteit Brussel: Brussel, Belgium. 221 pp.

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