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词条 Larvacea
释义

  1. Biology

  2. References

{{Redirect|Appendicularia|the plant genus|Appendicularia (plant)}}{{Taxobox
| name = Appendicularia
| image = Oikopleura dioica.gif
| image_caption= Oikopleura dioica
| regnum = Animalia
| phylum = Chordata
| subphylum = Tunicata
| classis = Appendicularia Lahille 1890
| ordo = Copelata
| synonyms= Larvacea Herdman1891

Perennichordata Balfour 1881


| subdivision_ranks = Families
| subdivision =
  • Kowalevskiidae Lahille 1888
    • Kowalevskia Fol 1872
  • Fritillariidae Seeliger 1895
    • Appendicularia Fol 1874
    • Tectillaria Lohmann & Buckman 1926
    • Fritillaria Quoy & Gaimard 1835
  • Oikopleuridae Lahille 1887
    • Bathochordaeus Chun 1900
    • Mesochordaeus Fenaux & Youngbluth 1990
    • Althoffia Lohmann 1892
    • Mesoikopleura Fenaux 1993
    • Pelagopleura Lohmann 1926
    • Sinisteroffia Tokioka 1957
    • Chunopleura Lohmann 1914
    • Folia Lohmann 1892
    • Megalocercus Chun 1887
    • Oikopleura Mertens 1830
    • Stegosoma Chun 1887

}}

Larvaceans (Class Appendicularia) are solitary, free-swimming tunicates found throughout the world's oceans. Like most tunicates, appendicularians are filter feeders. Unlike most other tunicates, they live in the pelagic zone, specifically in the upper sunlit portion of the ocean (photic zone) or sometimes deeper. They are transparent planktonic animals, generally less than {{convert|1|cm|abbr=on}} in body length (excluding the tail).

Biology

The appendicularian body shape resembles that of the tadpole-like larvae of most tunicates. Like a common tunicate larva, the adult appendicularian form has a discrete trunk and tail. Evolution by retaining juvenile traits as an adult is known as neoteny.

Like most tunicates, appendicularians feed by drawing particulate food matter into their pharyngobranchial region, where food particles are trapped on a mucus mesh produced by the pharynx and drawn into the digestive tract. The mucus mesh lies over two clefts in the pharynx, one on either side, rather than the much larger number of clefts found in most other tunicates. Furthermore, the clefts, and the anus open directly to the outside, so the animal lacks the atrium and atrial siphon found in related classes.

Appendicularians have greatly improved the efficiency of food intake by producing a test (a kind of skeleton) known as a "house" of protein and cellulose that, in most cases, surrounds the animal like a bubble, and which contains a complicated arrangement of filters that allow food in the surrounding water to be brought in and concentrated prior to feeding. Even in those species in which the house does not completely surround the body, such as Fritillaria, it is always present and attached to at least one surface. The high efficiency of this method allows larvaceans to feed on much smaller nanoplankton than most other filter feeders.

These houses are discarded and replaced regularly as the animal grows in size and the filters become clogged; in Oikopleura, a house is kept for no more than four hours before being replaced. No other tunicate is able to abandon its test in this fashion. Discarded larvacean houses account for a significant fraction of organic material descending to the ocean depths.[1]

The tail of appendicularians contains a central notochord, a dorsal nerve cord, and a series of striated muscle bands enveloped either by epithelial tissue (oikopleurids) or by an acellular basement membrane (fritillarids). Unlike the Ascidiacea larvae, the tail nerve cord in appendicularians contains some neurons.[2] By regularly beating the tail, the appendicularian can generate water currents within its house that allow the concentration of food.

Appendicularians reproduce sexually. The immature animals resemble the tadpole larvae of ascidians, albeit with the addition of developing viscera. Once the trunk is fully developed, the larva undergoes "tail shift", in which the tail moves from a rearward position to a ventral orientation and twists 90° relative to the trunk. Following tail shift, the appendicularian begins secretion of the first house.

The recent development of techniques for expressing foreign genes in Oikopleura dioica has led to the advancement of this species as a model organism for the study of gene regulation, chordate evolution, and development.

References

1. ^{{cite journal | author=Robison, BH., Reisenbichler, KR., RE. Sherlock | title=Giant Larvacean Houses: Rapid Carbon Transport to the Deep Sea Floor | journal=Science | volume=308 | issue=5758 | year=2005 | pages=1609–1611 | url=http://www.sciencemag.org/cgi/content/abstract/308/5728/1609 | doi=10.1126/science.1109104 | pmid=15947183}}
2. ^{{cite book |last=Kaas |first=Jon H. |title=Evolution of Nervous Systems |url=https://books.google.com/books?id=XTUYCwAAQBAJ&pg=PA14 |year=2016 |publisher=Elsevier Science |isbn=978-0-12-804096-6 |pages=14–}}
  • Bone, Q. 1998. The Biology of Pelagic Tunicates. Oxford University Press.
  • {{Citation

| last=Clarke| first=T. | last2=Bouquet| first2=JM
| last3=Fu | first3=X | last4=Kallesøe | first4=T.
| last5=Schmid | first5=M | last6=Thompson | first6=E.M.
| title=Rapidly evolving lamins in a chordate, Oikopleura dioica, with unusual nuclear architecture
| journal=Gene | volume=396 |issue=1 | year=2007 | pages=159–169
| doi=10.1016/j.gene.2007.03.006 | pmid=17449201{{Wikispecies}}{{Chordata}}{{Taxonbar|from=Q28960}}Copelata

1 : Appendicularia

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