Vicetia (gastropod)

Last updated

Vicetia
Temporal range: Eocene 56–38  Ma
Vicetia bizzottoi.jpg
Vicetia bizzottoi, the last and most derived species of the genus
Scientific classification
Kingdom:
Animalia
Phylum:
Mollusca
Class:
Gastropoda
Order:
Littorinimorpha
Family:
Cypraeidae
Genus:
Vicetia

Fabiani, 1905
Type species
Ovula hantkeni
Lefèvre, 1878
Species
  • V. bellardii(Deshayes in Bellardi, 1852)
  • V. bizzottoi Dominici, Fornasiero & Giusberti, 2020 [1]
  • V. gennevauxi(Doncieux, 1908)
  • V. hantkeni(Lefèvre, 1878)
  • V. jamesi(Vredenburg, 1927)

Vicetia is an extinct genus of cowrie from the Eocene of Europe and Pakistan. Five species are currently recognized with all European forms forming a single anagenetic lineage progressively growing bigger and developing stronger ornamentation. The last known species, V. bizzottoi, is the biggest known cowrie known to science with a shell length of 33.5 cm. They were likely feeding on sponges or algae and went extinct following widespread climate change at the end of the Eocene, giving way for more derived lineages of cowries.

Contents

History and naming

The type species was named in 1878 by Théodore Lefèvre as a species of the genus Ovula [2] (a type of false cowrie). The species "O." hantkeni was later transferred into the genus Gisortia , [3] before eventually being recognized as a distinct animal, the name Vicetia being coined by Ramiro Fabiani in 1905. [4] However its independence was not accepted by all scientists, with many continuing to consider it as synonymous with Gisortia or as a subgenus of the older name. [5] [6] Stefano Dominici and colleagues argue that the fossils preserve enough distinct traits to warrant the validity of the genus in their description of V. bizzottoi in 2020. [1]

The name Vicetia is derived from the Italian town Vicenza. [5]

Description

Vicetia is diagnosed by the presence of two acute ridges which in later species converge towards the middle of the shell when viewing the shell from above. The shell forms two spikes that extend from the bottom of the shell and grow towards the left while curving upwards, tho the length and shape of these spikes differs between taxa, as does whether or not the tips are pointed or blunt. The type species for instance has relatively short and blunt protrusions while V. bizzottoi is known for its rather large spikes. The exhaling canal is typically twisted in form and protrudes towards the apex of the cowrie's shell. Generally these characteristics are weakest in the older species and can be seen to progressively develop throughout the Eocene, reaching their peak with the giant V. bizzottoi towards the end of the epoch. [1]

Size likewise changed over time with early forms being relatively small compared to their later relatives. The smaller species include V. gennevauxi and V. hantkeni, with a shell length around 100 mm (3.9 in), while the largest species reach lengths of 280 mm (11 in) and 335 mm (13.2 in) for V. bellardii and V. bizzottoi respectively, making them the largest known cowries in history. [1]

Species

The type species of Vicetia, V. hantkeni Vicetia hantkeni MNHN F J05250 Lectotype.jpg
The type species of Vicetia, V. hantkeni
V. bellardii was described in 1852 by Deshayes in Bellardi from fossils found in southern France. Fossils are also known from other parts of western Europe including the Paris Basin, northern France, the Pyrenees of Spain. Synonyms of V. bellardii include Ovula gigantea hoernesi (Lefèvre, 1878) and Gisortia vicetiana (Farrés and Stadt 2009). This species spans the Lutetian and Bartonian stages of the Eocene. It's a close relative of V. bizzottoi and one of the largest species, reaching a size of 280 mm (11 in). Its ridges are blunt and equally spaced from one another, the spikes sharp but rather short and blunt. The opening of the shell is slightly curved and wide and not sinuous as seen in V. bizzottoi and V. hantkeni. The exhaling canal of southern specimens is long but straight. [1]
The most recently described species, V. bizzottoi was found in the Possagno Marl Formation of north-east Italy. Its fossils date to the Priabonian, the latest stage of the Eocene. V. bizzottoi stands apart for being the largest species of the genus and an overall massive cowrie, twice the average size of members of its family. The posterior end of the shell is wider than its front, the shell opening narrow and twisted. The exhaling canal is a fifth of the entire shell's length, twisted and protruding. The characteristic ridges converge towards the middle of the shell before distancing themselves from one another again. The horns are long and pointed, the front horn merging with the outer lip while the hind one gradually disappears into the shell, but connects to the exhaling channel towards the rear. Each protuberance is curved upwards and about as long as the shell is wide at their point of origin. It represents the biggest Vicetia species with a length of up to 335 mm (13.2 in). [1]
A species known from the lower Eocene (Ypresian) of France, specifically around Coustouge in the French Pyrenees. It was originally described by Doncieux in 1908 and is the smallest species in the genus. It lacks most of the ornamentation the other species are known for, only showing two faint ridges which are used to assign it to the genus. [1]
The type species, it was originally described as a species of Ovula by Lefèvre in 1878 based on upper Ypresian remains from Monte Postale, Italy. Remains of V. hantkeni have also been found elsewhere in Europe including the Lutetian of France. Both V. o’gormani and V. douvillei are synonyms of the species. V. hantkeni is a small species with blunt ridges that aren't as closely spaced as in other species. Unlike the other species it lacks the protruding exhaling canal and only one ventral spike is formed by the shell, which is notably shorter and blunter. [1]
V. jamesi was described by Vredenburg in 1927 from middle Eocene sediments of Pakistan. [1]

Evolution

Evolution of the size and ornamentation of Vicetia Vicetia Lineage.jpg
Evolution of the size and ornamentation of Vicetia

Among the four European species a clear trend across time can be observed. The earliest species, V. gennevauxi from the Ypresian, was relatively small with no pronounced ornamentation. It was immediately followed by V. hantkeni from the Ypresian to Lutetian, which marks an increase in size and better developed ridges and a single horn, although still relatively short and blunt. V. bellardii developed a second horn and has already obtained a large size of 280 mm, which is only exceeded by the Priabonian V. bizzottoi. This last species represents the final stage in the evolution of the genus with a massive size of 335 mm (13.2 in), well pronounced dorsal ridges and large, pointed and curved horns. This trend mirrors what is observed in the genus Gisortia , with the two species G. tuberculata and G. coombii showing a clear change of abundance from the Ypresian to Lutetian, with the later species gradually becoming more common than the former. Size increase can also be seen in the southern hemisphere with Zoila and Umbilia , which gradually increase in size throughout the Paleogene. [1]

The extinction of the lineage was likely a result of the rapid climatic changes that occurred as the Eocene transitioned into the Oligocene, heavily affecting sealife and leading to a faunal turnover between basal cowries such as Vicetia to more derived Neogene lineages. [1]

Paleoecology

The Monte Postale Alveolina limestone, where the type species is found, preserves an environment that housed corall reefs during the Ypresian. Archicypraea lioyi was abundant and herbivores like Cerithium chaperi and Pseudobellardia gomphoceras . In the Spanish Ésera valley it co-occurred with Nummulites alongside other large molluscs and in Catalonia V. bellardii was found in association with Campanile and Velates as well as large deeper water forms like Discocyclina , bryozoans and echinoderms. Assuming a diet similar to their modern relatives, these giant cowries likely fed on sponges at depths of 30–50 m (98–164 ft) where they would be in competition with columbellids. It is also possible that they fed on algea, in which case they would have competed for resources with true conchs and other gastropods. Thus they may have been predators with a slow metabolism but great freedom of movement preying on immobile prey with poor nutritional value and later may have become herbivorous. The characteristic ridges and horns may have been used as a form of defense from larger animals. [1]

Related Research Articles

<span class="mw-page-title-main">Mooneye</span> Family of fishes

Hiodontidae, commonly called mooneyes, is a family of ray-finned fish with a single included genus Hiodon. The genus comprise two living species native to North America and three to five extinct species recorded from Paleocene to Eocene age fossils. They are large-eyed, fork-tailed fish that superficially resemble shads. The vernacular name comes from the metallic shine of their eyes.

<span class="mw-page-title-main">Meiolaniidae</span> Extinct family of turtles

Meiolaniidae is an extinct family of large, probably herbivorous stem-group turtles with heavily armored heads and clubbed tails known from South America and Australasia. Though once believed to be cryptodires, they are not closely related to any living species of turtle, and lie outside crown group Testudines, having diverged from them around the Middle Jurassic. They are best known from the last surviving genus, Meiolania, which lived in Australia from the Miocene until the Pleistocene, and insular species that lived on Lord Howe Island and New Caledonia during the Pleistocene and possibly the Holocene for the latter. Meiolaniids are part of the broader grouping of Meiolaniformes, which contains more primitive turtles species lacking the distinctive morphology of meiolaniids, known from the Early Cretaceous-Paleocene of South America and Australia.

<i>Ninjemys</i> Extinct genus of turtle

Ninjemys oweni is an extinct large meiolaniid stem-turtle from Pleistocene Queensland and possibly New South Wales (Australia). It overall resembled its relative, Meiolania, save that the largest pair of horns on its head stuck out to the sides, rather than point backwards, the larger scales at the back of its skull and the tail club which is made up of only two tail rings rather than four. With a shell length of approximately 1 m it is a large turtle and among the largest meiolaniids. Ninjemys is primarily known from a well preserved skull and associated tail armor, which were initially thought to have belonged to the giant monitor lizard Megalania.

<i>Iberosuchus</i> Extinct genus of reptiles

Iberosuchus is a genus of extinct sebecosuchian mesoeucrocodylian found in Western Europe from the Eocene. Remains from Portugal was described in 1975 by Antunes as a sebecosuchian crocodilian. This genus has one species: I. macrodon. Iberosuchus was a carnivore, unlike the crocodilians today, they are not aquatic and are instead terrestrial.

<i>Cupes</i> Genus of beetles

Cupes is a genus of beetles in the family Cupedidae. The Cupedidae are typical “reticulate” or “net-winged” beetles with incompletely sclerotized elytra that produce the characteristic reticulate appearance.

<i>Archiinocellia</i> Extinct genus of snakeflies

Archiinocellia is an extinct genus of snakefly in the family Raphidiidae known from Eocene fossils found in western North America. The genus contains two species, the older Archiinocellia oligoneura and the younger Archiinocellia protomaculata. The type species is of Ypresian age and from the Horsefly Shales of British Columbia, while the younger species from the Lutetian Green River Formation in Colorado. Archiinocellia protomaculata was first described as Agulla protomaculata, and later moved to Archiinocellia.

<i>Ovula ovum</i> Species of gastropod

Ovula ovum, common name the common egg cowrie, is a species of sea snail, a marine gastropod mollusk in the family Ovulidae, the ovulids, cowry allies or false cowries.

<span class="mw-page-title-main">Archaeonycteridae</span> Extinct family of bats

Archaeonycteridae is a family of extinct bats. It was originally erected by the Swiss naturalist Pierre Revilliod as Archaeonycterididae to hold the genus Archaeonycteris. It was formerly classified under the superfamily Icaronycteroidea (disused) by Kurten and Anderson in 1980. In 2007, the spelling was corrected to Archaeonycteridae and it was reclassified to the unranked clade Microchiropteramorpha by Smith et al.. The family Palaeochiropterygidae was also merged into Archaeonycteridae by Kurten and Anderson, but modern authorities specializing in bat fossils maintain the distinction between the two.

<i>Paleolepidopterites</i> Extinct fossil genus of tortrix moths

Paleolepidopterites is a collective genus of fossil moths which can not be placed in any defined family. The included species were formerly placed in the leaf-roller family Tortricidae and are known from fossils found in Russia and the United States. The collective genus contains three species: Paleolepidopterites destructus, Paleolepidopterites florissantanus, and Paleolepidopterites sadilenkoi, formerly placed within the genera Tortrix and Tortricites respectively. The three species were formally redescribed and moved to the new collective genus by Heikkilä et al. (2018).

<i>Pseudogarypus synchrotron</i> Extinct species of pseudoscorpion

Pseudogarypus synchrotron is an extinct species of pseudoscorpion in the family Pseudogarypidae known from only two Eocene fossils found in Europe. P. synchrotron is one of four species in the genus Pseudogarypus to have been described from fossils.

<i>Holcorpa</i> Extinct genus of insects

Holcorpa is a genus of extinct insects in the scorpionfly order Mecoptera. Two Eocene age species found in Western North America were placed into the genus, H. dillhoffi and H. maculosa.

<i>Pachycondyla? messeliana</i> Extinct species of ant

Pachycondyla? messeliana is an extinct species of ants in the formicid subfamily Ponerinae described by from a fossil found in Europe. P.? messeliana is one of six Lutetian Pachycondyla species.

<i>Pachycondyla parvula</i> Extinct species of ant

Pachycondyla parvula is an extinct species of ant in the formicid subfamily Ponerinae described by from a fossil found in Europe. P. parvula is one of six Lutetian Pachycondyla species.

<i>Nuphar carlquistii</i> Extinct species of flowering plant

Nuphar carlquistii is an extinct species of flowering plant in the family Nymphaeaceae related to the modern spatterdock, Nuphar advena. The species is known from fossil seeds and fruits found in the early Eocene Okanagan Highlands deposits of northern Washington state and British Columbia, Canada.

<i>Ulmus okanaganensis</i> Extinct species of elm

Ulmus okanaganensis is an extinct species of flowering plant in the family Ulmaceae related to the modern elms. The species is known from fossil leaves, flowers, and fruits found in the early Eocene deposits of northern Washington state, United States and similar aged formations in British Columbia, Canada.

<i>Alicodoxa</i> Extinct genus of true bugs

Alicodoxa is an genus of extinct planthoppers in the family Dictyopharidae. It contains a single described species, Alicodoxa rasnitsyni, known from several Late Eocene fossils found in Europe.

<i>Betula leopoldae</i> Extinct species of flowering plant

Betula leopoldae is an extinct species of birch in the family Betulaceae. The species is known from fossil leaves, catkins, and inflorescences found in the early Eocene deposits of northern Washington state, United States, and similar aged formations in British Columbia, Canada. The species is placed as basal in Betula, either as a stem group species, or an early divergent species.

<i>Abdounia</i> Extinct requiem shark

Abdounia is an extinct genus of requiem shark which lived during the Paleogene period. It is mainly known from isolated teeth. It is one of the earliest requiem sharks, and attained widespread success in North America, Europe, and Africa.

<i>Xiphodolamia</i> Extinct genus of Mackerel shark

Xiphodolamia is a rare extinct genus of mackerel shark which lived during the Eocene epoch. It is only known from isolated teeth, but has been found in Europe, Africa, and Asia. It is assumed to be pelagic, occurring more frequently in deeper water deposits, most notably the London Clay and Eocene deposits in Denmark. It is distinguished by its rectangular root and twisted blade, unique among mackerel sharks. It is unclear what niche this specialized dentition helped exploit.

<i>Pseudolarix wehrii</i> Extinct species of conifer

Pseudolarix wehrii is an extinct species of golden larch in the pine family (Pinaceae). The species is known from early Eocene fossils of northern Washington state, United States, and southern British Columbia, Canada, along with late Eocene mummified fossils found in the Qikiqtaaluk Region, Nunavut, Canada.

References

  1. 1 2 3 4 5 6 7 8 9 10 11 12 Dominici, S.; Fornasiero, M.; Giusberti, L. (2020). "The largest known cowrie and the iterative evolution of giant cypraeid gastropods". Scientific Reports. 10 (1): 21893. Bibcode:2020NatSR..1021893D. doi:10.1038/s41598-020-78940-9. PMC   7736312 . PMID   33318588. S2CID   229178611.
  2. Lefèvre, T. (1878). "Les grandes ovules des terrains éocènes - Description de l'ovule des environs de Bruxelles - Ovula (Strombus) gigantea, Münst. sp". Annales de la Société Malacologique de Belgique. 13: 22–51.
  3. Oppenheim, P. (1894). "Die eocäne Fauna des Mt. Pulli bei Valdagno im Vicentino" (PDF). Zeitschrift der Deutschen Geologischen Gesellschaft. 46: 309–445.
  4. Pacaud, J.-M. (2019). "Remarques taxonomiques et nomenclaturales sur les mollusques gastéropodes du Paléogène de France et description d'espèces nouvelles. Partie 2. Caenogastropoda (partim)". Cossmanniana. 21: 101–153.
  5. 1 2 Cossmann, M. (1906). "Cypraeidae in Essais de paléoconchologie comparée". 7: 238–240.{{cite journal}}: Cite journal requires |journal= (help)
  6. Dolin, L.; Aguerre, O. (2016). "Les Cypraeidae et les Ovulidae (Mollusca : Caenogastropoda) du Cuisien (Yprésien moyen) du bassin de Paris (France)". Cossmanniana. 18: 3–37.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.