Villebrunaster Explained

Villebrunaster is an extinct genus of starfish-like animal belonging to Asterozoa that lived around 480 million years ago during Early Ordovician Period in modern-day southern France and Morocco. As of 2022, it contains two species, namely V. thorali and V. fezouataensis.[1] V. thorali was described in 1951 and V. fezouataensis was described in 2021. Villebrunaster represents one of the oldest members of asterozoans, and perhaps, according to a description in 2021, the earliest divergent stem-group (ancestral members) of Asterozoa.[2]

Discovery and species

The first species was discovered and described by British palaeontologist William Kingdon Spencer in 1951.[3] The fragmentary specimens were collected from Saint-Chinian Formation in southern France. Spencer recognised it as among "the earliest starfish known." Another British palaeontologist Juliette Dean Shackleton identified new specimens as Ampullaster ubaghsi in 2005,[4] which were later reclassified as V. thorali.[5]

The second species, V. fezouataensis, was described by Aaron W. Hunter and Javier Ortega-Hernández at the University of Cambridge as Cantabrigiaster fezouataensis in 2021.[6] The specimens, originally collected from Fezouata Shale Formation in Morocco, were reanalysed by American palaeontologist Daniel B. Blake and Frederick H.C.Hotchkiss who moved to taxonomic position the genus Villebrunaster in 2022.

Description

The body of Villebrunaster is that of a typical starfish having five radiating arms. Mouth is at the centre of the body. The mouth region is composed of three types of endoskeletons called ossicles, such as half-cylinders or the ambulacral, virgal that form skeleton between the ambulacral, and a pair of mouth plates that radiate into the mouth opening. The arms are broad and evenly arranged to form pentagonal structure.

The presence of virgal ossicles is a feature of Somasteodea. However, Villebrunaster lacks axially oriented ossicles along the lateral margins of the arms, which are found in somasteroids. This suggests that it is a primitive member of the group. The radial water channel are large and run close to the ventral side of the body, while the transverse water channels small and difficult to recognise. The ossicle series are larger in V. fezouataensis than in V. thorali.

Evolutionary importance

Phylogenetic analysis indicate that Villebrunaster is oldest known and the earliest diverging group among Asterozoa, a group that includes starfish, brittle stars and basket stars. The absence of some ambulacral ossicles but presence of virgal ossicles show that the development and variation of ossicles are the important features in the evolution of later asterozoans.[7] However, the genus does not necessarily represent the common ancestor of Asterozoa.

Notes and References

  1. Blake . Daniel B. . Hotchkiss . Frederick H.C. . 2022 . Origin of the subphylum Asterozoa and redescription of a Moroccan Ordovician somasteroid . Geobios . 72-73 . en . 22–36 . 10.1016/j.geobios.2022.07.002. free .
  2. Hunter . Aaron W. . Ortega-Hernández . Javier . 2021 . A new somasteroid from the Fezouata Lagerstätte in Morocco and the Early Ordovician origin of Asterozoa . Biology Letters . en . 17 . 1 . 20200809 . 10.1098/rsbl.2020.0809 . 7876607 . 33465330.
  3. Spencer . W. K. . 1951 . Early Palaeozoic starfish . Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences . 235 . 623 . 87–129 . 10.1098/rstb.1951.0001 . 24539794. 30005013 .
  4. Shackleton . Juliette Dean . 2005 . Skeletal homologies, phylogeny and classification of the earliest asterozoan echinoderms . Journal of Systematic Palaeontology . en . 3 . 1 . 29–114 . 10.1017/S1477201905001525 . 86667795 . 1477-2019.
  5. Blake . Daniel B. . Guensburg . Thomas E. . 2015 . The class Somasteroidea (Echinodermata, Asterozoa): morphology and occurrence . Journal of Paleontology . en . 89 . 3 . 465–486 . 10.1017/jpa.2015.22 . 86222950 . 0022-3360.
  6. Hunter . Aaron . Ortega-Hernández . Javier . A primitive starfish ancestor from the Early Ordovician of Morocco reveals the origin of crown group Echinodermata . bioRxiv . 9 November 2017 . 10.1101/216101 . 90197999 . 20 January 2021.
  7. Blake . Daniel B. . Ettensohn . Frank R. . 2009 . The complex morphology of a new Lower Silurian asteroid (Echinodermata) . Journal of Paleontology . en . 83 . 1 . 63–69 . 10.1666/08-038RR.1 . 0022-3360.