Asterozoa

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title: "Asterozoa" type: doc version: 1 created: 2026-02-28 author: "Wikipedia contributors" status: active scope: public tags: ["asterozoa", "animal-subphyla", "extant-ordovician-first-appearances"] description: "Subphylum of marine invertebrates" topic_path: "general/asterozoa" source: "https://en.wikipedia.org/wiki/Asterozoa" license: "CC BY-SA 4.0" wikipedia_page_id: 0 wikipedia_revision_id: 0

::summary Subphylum of marine invertebrates ::

| fossil_range = Late Cambrian/Early Ordovician to Holocene | image = Seeing_Stars_52868364563.jpg | image_caption = A brittle star on a starfish | taxon = Asterozoa | authority = von Zittel, 1895 | subdivision_ranks = Classes | subdivision_ref = | subdivision =

• Asteroidea de Blainville, 1830
• Ophiuroidea Gray, 1840
• †Somasteroidea Spencer, 1951
• †Stenuroidea Spencer, 1951 | synonyms =
• Stelleroidea Lamarck, 1816 [nom. transl. et correct. Gregory, 1900 (pro les Stellerides Lamarck, 1816)]

The Asterozoa are a subphylum in the phylum Echinodermata, within the Eleutherozoa. Characteristics include a star-shaped body and radially divergent axes of symmetry. The subphylum includes the classes Asteroidea (the starfish or sea stars), Ophiuroidea (the brittle stars and basket stars), Somasteroidea (early asterozoans from which the other classes most likely evolved), and Stenuroidea (early asterozoans with unclear relationships to extant classes). but was later demoted to the status of infraclass as the sister of Neoasteroidea within the asteroidean sublcass Ambuloasteroidea.

Taxonomy

Asterozoa was originally proposed in the late 1800s, but was not used in F.A. Bather's two-subphylum echinoderm taxonomy in 1900. However, it was adopted as part of a four-subphylum taxonomy by the Treatise on Invertebrate Paleontology in 1966.

Asterozoa is generally thought to be a monophyletic clade; its sister group within Eleutherozoa is Echinozoa. The external affinities of Asterozoa are unclear. It has been proposed to derive from either the Edrioasteroidea or the Crinoidea, but no form of either proposal has gained wide acceptance due to the lack of any transitional fossils.

Distinguishing the classes

|image1=Villebrunaster-virgals.png |caption1=Villebrunaster thorali (Somasteroidea) |image2=Chinianaster-virgals.png |caption2=Chiniaster (Somasteroidea) |image3=Stuertzaster-virgals.png |caption3=Stuertzaster (Stenuroidea) |footer=Differences in virgals between somasteroids and stenuroids; note that in somasteroids the number of virgals per ambulacral varies based on the width of the arm, while the number of virgals (labeled as inner and outer laterals) in stenuroids is the same along the entire length of the arm.

Somasteroids and stenuroids are distinguished from each other and from the extant asteroids and ophiuroids by the arrangements of a specific type of ossicle known as virgals: Somasteroids possess a varying number of virgals per series extending laterally from the ambulacral ossicles, with at least some series exceeding three virgals. Stenuroids possess series of exactly two (or rarely three or four) virgals for each ambulacral ossicle, with other ossicular specializations. Asteroid and ophiuroid virgal series are each reduced to a single ossicle in addition to their more obvious morphological differences.

Somasteroidea

Main article: Somasteroidea

Most authors consider Somasteroidea to be the basal stock from which the other three classes evolved, but an argument in favor of monophyly and a position closer to stenuroids and ophiuroids than to asteroids has also been made.

Somasteroids are "more or less petaloid," with arm shape reflecting virgal series lengths. Somasteroids have been described as being more rigid in shape than derived asterozoans, although this apparent structure could be exaggerated by tissue changes at the time of death.

Stenuroidea

Stenuroids were initially seen as early ophiuroids before being promoted to class level, but their evaluation is challenging due to wide variations in morphologies. Some stenuroids appear closer to asteroids, others to ophiuroids, and others do not closely resemble either extant class. A recent examination of Stenuroidea found it to be monophyletic, but allowed that (as with other asterozoan classes), paraphyly or polyphyly could not be entirely ruled out. Other authors have considered that Stenuroidea is likely paraphyletic.

Asteroidea

Main article: Asteroidea

Asteroids have a permanently vaulted ambulacral furrow down the center of the underside of each arm. They use their tube feet for locomotion and (in many species) to pry open shells and access food. Their arms touch at the base, and there is no clear border between the arms and the central disc.

Ophiuroidea

Main article: Ophiuroidea

Ophiuroid arms have evolved joints within their arms allowing lateral, snake-like movements for locomotion, while the tube feet are significantly reduced. The central disc is clearly marked off from the arms.

References

Works cited

References

1. K. A. von Zittel. 1895. ''Grundzuge der Palaeontologie'' 1-971
2. {{harvnb. Nanglu. Cole. Wright. Souto. 2023
3. {{harvnb. Spencer. Wright. 1966
4. A fifth class, [[Concentricycloidea]], was proposed for the unusual genus ''[[Xyloplax]]'' (sea daisies),{{harvnb. Rowe. Baker. Clark. 1988
5. {{harvnb. Mah. 2006
6. {{harvnb. Spencer. Wright. 1966
7. {{harvnb. Escriva. Reich. Dunn. Akasaka. 2015
8. {{harvnb. Blake. 2013
9. {{harvnb. Blake. 2024
10. {{harvnb. Mooi. David. 2000
11. {{harvnb. Blake. Guensburg. 2015
12. {{harvnb. Dean Shackleton. 2005
13. {{harvnb. Blake. Hotchkiss. 2022
14. {{harvnb. Blake. 2024
15. {{harvnb. Blake. 2024
16. {{harvnb. Blake. 2013
17. {{harvnb. Blake. 2024
18. {{harvnb. Blake. 2013
19. {{harvnb. Giribet. Edgecombe. 2020

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