Botryllus schlosseri

Botryllus schlosseri
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Subphylum: Tunicata
Class: Ascidiacea
Order: Pleurogona
Family: Botryllidae
Genus: Botryllus
Species: B. schlosseri
Binomial name
Botryllus schlosseri
(Pallas, 1766) [1]
Synonyms [1]
  • Alcyonium borlasii Turton, 1807
  • Alcyonium schlosseri Pallas, 1766
  • Aplidium verrucosum Dalyell, 1839
  • Botryllus aurolineatus Giard, 1872
  • Botryllus badium Alder & Hancock, 1912
  • Botryllus badius Alder & Hancock, 1912
  • Botryllus bivittatus Milne-Edwards, 1841
  • Botryllus calendula Giard, 1872
  • Botryllus calyculatus Alder & Hancock, 1907
  • Botryllus castaneus Alder & Hancock, 1848
  • Botryllus gemmeus Savigny, 1816
  • Botryllus gouldii Verrill, 1871
  • Botryllus marionis Giard, 1872
  • Botryllus miniatus Alder & Hancock, 1912
  • Botryllus minutus Savigny, 1816
  • Botryllus morio Giard, 1872
  • Botryllus polycyclus Savigny, 1816
  • Botryllus pruinosus Giard, 1872
  • Botryllus rubens Alder & Hancock, 1848
  • Botryllus rubigo Giard, 1872
  • Botryllus smaragdus Milne-Edwards, 1841
  • Botryllus stellatus Gaertner, 1774
  • Botryllus violaceus Milne-Edwards, 1841
  • Botryllus violatinctus Hartmeyer, 1909
  • Botryllus virescens Alder & Hancock, 1848
  • Polycyclus renieri Salfi, 1931

Botryllus schlosseri, commonly known as the star ascidian[2] or golden star tunicate, is an invasive, colonial ascidian tunicate that grows on slow-moving, submerged objects, plants, and animals in nearshore saltwater environments.

Individual zooids may grow to 3 millimetres (0.12 in) in size, with colonies reaching 50 millimetres (2.0 in) long .[3]

Its range has spread over the last 100 years to a nearly worldwide extent. Ranging in the western Atlantic Ocean from the Bay of Fundy to North Carolina, this is "the most common colonial tunicate in North America."[4]

This species can be distinguished from Botrylloides sp. by the pattern of zooid growth. B. schlosseri zooids emanate from a center in the manner of the arms of a star. Also, there usually are fewer zooids per cluster (5–8 in B. schlosseri and 10 or more in Botrylloides). There are many colors in which this species can be found, ranging from orange, blue and grey. A colony can be easily be separated from the main body to form an independent colony usually referred to as a subclone. Two colonies may also fuse together if they share a common allele for fusibility histocompactibility.[5]

When sexually productive, these Botryllus are known to produce,"yellowish-white or pale orange tadpole larva" exhibiting an oval outline.[6]

In a study conducted by Heather Boyd, from Stanford University, it was concluded by comparing morphological and genetic experiments that "Botryllus from the Monterey and from Woods Hole, Massachusetts, may be designated contingently as Botryllus schlosseri."[6]

References

  1. ^ a b Claude Monniot (2009). "Botryllus schlosseri (Pallas, 1766)". World Register of Marine Species. http://www.marinespecies.org/aphia.php?p=taxdetails&id=103862. Retrieved January 20, 2010. 
  2. ^ "Star ascidian (Botryllus schlosseri)". ARKive. http://www.arkive.org/star-ascidian/botryllus-schlosseri/info.html. Retrieved January 20, 2010. 
  3. ^ M. J. de Kluijver & S. S. Ingalsuo. "Botryllus schlosseri". Macrobenthos of the North Sea: Tunicata. Universiteit van Amsterdam. http://ip30.eti.uva.nl/bis/tunicata.php?selected=beschrijving&menuentry=soorten&id=21. Retrieved January 20, 2010. 
  4. ^ Andrew J. Martinez & Candace Storm Martinez (2003). Marine Life of the North Atlantic: Canada to New England. Aqua Quest Publications. pp. 272. ISBN 9781881652328. 
  5. ^ Irving L. Weissman, Yasunori Saito & Baruch Rinkevich (1990). "Allorecognition histocompatibility in a protochordate species: is the relationship to MHC somatic or structural?". Immunology Review 113: 227–241. doi:10.1111/j.1600-065X.1990.tb00043.x. PMID 2180808. 
  6. ^ a b Heather C. Boyd; Weissman, I. L.; Saito, Y. (1990). "Morphologic and genetic verification that Monterey Botryllus and Woods Hole Botryllus are the same species". The Biological Bulletin 178 (3): 239–250. doi:10.2307/1541825. JSTOR 1541825. http://www.biolbull.org/cgi/content/abstract/178/3/239.