Craniidae

Craniidae; Temporal range: Ordovician–Recent PreꞒ Ꞓ O S D C P T J K Pg N
	Petrocrania scabiosa encrusting the edge of a strophomenide brachiopod; Upper Ordovician of northern Kentucky.
Scientific classification
Domain:	Eukaryota
Kingdom:	Animalia
Phylum:	Brachiopoda
Class:	Craniata
Order:	Craniida ; Waagen, 1885
Suborder:	Craniidina ; Waagen, 1885
Superfamily:	Cranioidea ; Menke, 1828
Family:	Craniidae ; Menke, 1828
Genera
	See text.
Synonyms
	Valdiviathyrididae;

Last updated December 27, 2023

The Craniidae are a family of brachiopods, the only surviving members of the subphylum Craniiformea. They are the only members of the order Craniida, the monotypic suborder Craniidina, and the superfamily Cranioidea; consequently, the latter two taxa are at present redundant and rarely used.There are three living genera within Craniidae: Neoancistrocrania , Novocrania , and Valdiviathyris .^[1] As adults, craniids either live freely on the ocean floor or, more commonly, cement themselves onto a hard object with all or part of the ventral valve.

Like the burrowing lingulids, Craniids are inarticulate brachiopods. There are no outgrowths forming a hinge between both valves, nor is there any support for the lophophore. Unlike lingulids, which have shells consisting of apatite and organic material, craniids have shells composed mainly of calcium carbonate. No craniids are known to bear a pedicle at any development stage.^[2]^[3]

Evolution

Extinct craniids

Most craniid genera are extinct, known only from fossils like other craniiforms. Craniids first appeared in the later part of the Tremadocian, the first stage of the Lower Ordovician. In the Lower Ordovician, they were mostly restricted to peri-Gondwanan terranes (modern central Europe) in the South Polar region. By the Middle Ordovician, they had spread northwards to Baltica. In the Late Ordovician, their range expanded eastwards to Avalonia before crossing the Iapetus Ocean to Laurentia.^[4]

Craniid diversity and abundance was respectable but still fairly low during the Late Ordovician, and even lower through the rest of the Paleozoic. The craniid fossil record is patchy, with fossils unknown from the Upper Carboniferous, Upper Permian, and the entire Triassic. They reappear in the Oxfordian stage of the Late Jurassic and briefly regain their Ordovician level of diversity in the Late Cretaceous.^[5]

Living craniids

Craniids are remarkable for their slow rate of evolution.^[6]^[7] Approximately 11^[1] species of this 480-million-year-old lineage still survive today, with minimal differences relative to their fossil counterparts. One species, Valdiviathyris quenstedti, has remained essentially unchanged for the last 35 million years or so.^[6] Although some evolution would have taken place in the meantime, this was essentially silent mutations and marginal adaptations to cooler habitat. Present-day Valdiviathyris are indistinguishable from fossils of the Late Eocene, and the genus cannot even be divided into chronospecies. V. quenstedti can be considered a living fossil and one of the oldest and most long-lived species known to science.^[6]

Valdiviathyris and Neoancistrocrania have occasionally been separated into their own family, Valdiviathyrididae, though few authors follow this suggestion.^[6]Craniscus has sometimes been cited as a fourth living craniid genus,^[3]^[8] based on "Craniscus japonica", a putative species from waters off Japan. Genetic evidence has clarified this misconception, revealing that "Craniscus japonica" actually represents a misattributed species of Neoancistrocrania.^[7]

List of genera

From the Treatise on Invertebrate Paleontology Part H, Revised (unless stated otherwise):^[3]

† Acanthocrania Williams, 1943 [Upper Ordovician ("Caradoc") – Lower Carboniferous]
† Ancistrocrania Dall, 1877 = Cranopsis [Upper Cretaceous (Coniacian) – Paleocene (Danian?)]
† Celidocrania ^[8]Liu, Xhy, & Xue, 1985 [Middle Ordovician] (possible synonym of Acanthocrania)
†Crania Retzius, 1781 [Upper Cretaceous (Campanian – Maastrichtian)]
† Craniscus Dall, 1871 [Upper Jurassic (Oxfordian)]^[7]
† Conocrania Smirnova, 1996 [Lower Cretaceous (Berriasian – Valanginian)]
† Danocrania Rozenkrantz, 1964 [Upper Cretaceous (Maastrichtian) – Paleocene (Danian?)]
† Deliella ^[8]Halamski, 2004 [Lower Devonian (Emsian) – Middle Devonian (Givetian)]
† Isocrania Jäkel, 1902 [Upper Cretaceous (Campanian) – Paleocene (Danian?)]
† Lepidocrania Cooper and Grant, 1974 [ Lower Permian]
† Mesocrania ^[8]Smirnova, 1997 [Upper Jurassic (Oxfordian) – Lower Cretaceous (Berriasian)]
† Nematocrania Grant, 1976 [Lower Permian (Artinskian)]
Neoancistrocrania Laurin, 1992
Novocrania ^[8]Lee and Bruton, 2001 = Neocrania
† Orthisocrania Rowell, 1963 [Ordovician]
† Petrocrania Raymond, 1911 [Lower Ordovician (Tremadocian)^[4] – Lower Carboniferous]
† Philhedra Koken, 1889^[9] [Ordovician]
† Pseudocrania McCoy, 1851 [Lower Ordovician ("Arenig")]
Valdiviathyris Helmcke, 1940^[10]

Gallery

Petrocrania (small rounded shells) encrusting an Ordovician strophomenide brachiopod
Pseudocrania sp., from the Ordovician of Estonia
Isocrania costata , from the Upper Cretaceous of The Netherlands
Illustration of Novocrania anomala , a living craniid native to the North Atlantic

Related Research Articles

The Treatise on Invertebrate Paleontology published by the Geological Society of America and the University of Kansas Press, is a definitive multi-authored work of some 50 volumes, written by more than 300 paleontologists, and covering every phylum, class, order, family, and genus of fossil and extant invertebrate animals. The prehistoric invertebrates are described as to their taxonomy, morphology, paleoecology, stratigraphic and paleogeographic range. However, taxa with no fossil record whatsoever have just a very brief listing.

Atrypa is a genus of brachiopod with round to short egg-shaped shells covered with many fine radial ridges. Growth lines form perpendicular to the costae and are spaced approximately 2 to 3 times further apart than the costae.. The pedunculate valve is slightly convex, but oftentimes levels out or becomes slightly concave toward the anterior margin. The brachial valve is highly convex. Neither valve contains an interarea. Atrypa had a large geographic range and occurred from the late Lower Silurian (Telychian) to the early Upper Devonian (Frasnian). Other sources expand the range from the Late Ordovician to Carboniferous, approximately from 449 to 336 Ma. A proposed new species, A. harrisi, was found in the trilobite-rich Floresta Formation in Boyacá, Colombia.

<span class="mw-page-title-main">Strophomenida</span> Extinct order of brachiopods

Strophomenida is an extinct order of articulate brachiopods which lived from the lower Ordovician period to the mid Carboniferous period. Strophomenida is part of the extinct class Strophomenata, and was the largest known order of brachiopods, encompassing over 400 genera. Some of the largest and heaviest known brachiopod species belong to this class. Strophomenids were among the most diverse and abundant brachiopods during the Ordovician, but their diversity was strongly impacted at the Late Ordovician mass extinction. Survivors rediversified into new morphologies in the Silurian, only to be impacted once again at the Late Devonian mass extinction. However, they still survived till the mid Carboniferous.

Brachiopods, phylum Brachiopoda, are a phylum of trochozoan animals that have hard "valves" (shells) on the upper and lower surfaces, unlike the left and right arrangement in bivalve molluscs. Brachiopod valves are hinged at the rear end, while the front can be opened for feeding or closed for protection. Two major categories are traditionally recognized, articulate and inarticulate brachiopods. The word "articulate" is used to describe the tooth-and-groove structures of the valve-hinge which is present in the articulate group, and absent from the inarticulate group. This is the leading diagnostic skeletal feature, by which the two main groups can be readily distinguished as fossils. Articulate brachiopods have toothed hinges and simple, vertically oriented opening and closing muscles. Conversely, inarticulate brachiopods have weak, untoothed hinges and a more complex system of vertical and oblique (diagonal) muscles used to keep the two valves aligned. In many brachiopods, a stalk-like pedicle projects from an opening near the hinge of one of the valves, known as the pedicle or ventral valve. The pedicle, when present, keeps the animal anchored to the seabed but clear of sediment which would obstruct the opening.

Acrotretides (Acrotretida) are an extinct order of linguliform brachiopods in the class Lingulata. Acrotretida contains 8 families within the sole superfamily Acrotretoidea. They lived from the Lower Cambrian to the Middle Devonian, rapidly diversifying during the middle Cambrian. In the upper Cambrian, linguliforms reached the apex of their diversity: acrotretides and their relatives the lingulides together comprised nearly 70% of brachiopod genera at this time. Though acrotretides continued to diversify during the Ordovician, their proportional dominance declined, as rhynchonelliforms took on a larger role in brachiopod faunas.

Rhynchonelliformea is a major subphylum and clade of brachiopods. It is roughly equivalent to the former class Articulata, which was used previously in brachiopod taxonomy up until the 1990s. These so-called articulated brachiopods have many anatomical differences relative to "inarticulate" brachiopods of the subphyla Linguliformea and Craniformea. Articulates have hard calcium carbonate shells with tongue-and-groove hinge articulations and separate sets of simple opening and closing muscles.

The Rhynchonellata is a class of Lower Cambrian to Recent articulate brachiopods that combines orders from within the Rhynchonelliformea with well developed pedicle attachment. Shell forms vary from those with wide hinge lines to beaked forms with virtually no hinge line and from generally smooth to strongly plicate. Most all are biconvex. Lophophores vary and include both looped and spiraled forms. Although morphologically distinct, included orders follow a consistent phylogenetic sequence.

Crania is an extinct genus of brachiopods that lived during the Upper Cretaceous.

Paterinata is an extinct class of linguliform brachiopods which lived from the lower Cambrian ("Tommotian") to the Upper Ordovician (Hirnantian). It contains the single order Paterinida and the subfamily Paterinoidea. Despite being some of the earliest brachiopods to appear in the fossil record, paterinides stayed as a relatively subdued and low-diversity group even as other brachiopods diversified later in the Cambrian and Ordovician. Paterinides are notable for their high degree of convergent evolution with rhynchonelliform (articulate) brachiopods, which have a similar set of muscles and hinge-adjacent structures.

Trimerellida is an extinct order of craniate brachiopods, containing the sole superfamily Trimerelloidea and the families Adensuidae, Trimerellidae, and Ussuniidae. Trimerellidae was a widespread family of warm-water brachiopods ranging from the Middle Ordovician to the late Silurian (Ludlow). Adensuidae and Ussuniidae are monogeneric families restricted to the Ordovician of Kazakhstan. Most individuals were free-living, though some clustered into large congregations similar to modern oyster reefs.

Isocrania is an extinct genus of brachiopods found during the Upper Cretaceous. Early representatives were attached to the underground, but later species are presumed to be free living at an increasingly earlier age. This was probably an adaptation to the increasing very thick and fine sedimentation during the latest Cretaceous.

Craniopsidae is an extinct family of craniiform brachiopods which lived from the mid-Cambrian to the Lower Carboniferous (Tournaisian). It is the only family in the monotypic superfamily Craniopsoidea and the monotypic order Craniopsida. If one includes the ambiguous Cambrian genus Discinopsis, craniopsids were the first craniiforms to appear, and may be ancestral to craniids and trimerellides. An even earlier Cambrian genus, Heliomedusa, has sometimes been identified as a craniopsid. More recently, Heliomedusa has been considered a stem-group brachiopod related to Mickwitzia.

Siphonotretida is an extinct order of linguliform brachiopods in the class Lingulata. The order is equivalent to the sole superfamily Siphonotretoidea, itself containing the sole family Siphonotretidae. Siphonotretoids were originally named as a superfamily of Acrotretida, before being raised to their own order.

Kutorginates (Kutorginata) are an extinct class of early rhynchonelliform ("articulate") brachiopods. The class contains only a single order, Kutorginida (kutorginides). Kutorginides were among the earliest rhynchonelliforms, restricted to the lower-middle part of the Cambrian Period.

Dictyonellida Cooper, 1956 is a brachiopod order within the class Chileata, characterised by a perforation in the ventral valve that is extended through resorption and covered by a colleplax. The dictyonellides are known from the Upper Ordovician to the Lower Permian.

Mesolobus is an extinct genus of brachiopod belonging to the order Productida and family Rugosochonetidae.

Linoproductoidea is an extinct superfamily of brachiopods which lived from the Devonian to Permian periods. Their fossils have been found in marine formations dating to those periods on all continents.

Linoproductidae is an extinct family of brachiopods which lived during the Carboniferous and Permian periods. The family was widespread across marine habitats, with fossils having been found on all continents except Antarctica. Members of this family commonly lack dorsal spines, and are characterized in possessing a distinct trail and deep corpus cavity.

Echinoconchinae is an extinct subfamily of brachiopods which lived during the Carboniferous and Permian periods in marine habitats. The family had a cosmopolitan distribution.

Echinaria is an extinct genus of brachiopods which lived during the Upper Carboniferous and Lower Permian periods. Its fossils have been found in Eurasia, North America and northern South America.

References

1 2 Emig, Christian C.; Bitner, Maria Aleksandra; Álvarez, Fernando. "Craniiformea". Brachiopoda Database. Retrieved 7 June 2023.
↑ Moore, R.C. (1965). Brachiopoda. Treatise on Invertebrate Paleontology. Vol. Part H., Volume 1. Boulder, Colorado/Lawrence, Kansas: Geological Society of America/University of Kansas Press. pp. H6, H93. ISBN 0-8137-3015-5.
1 2 3 Bassett, Michael G. (2000). "Chapter 2 (part): Craniida". In Kaesler, Roger L. (ed.). Part H, Brachiopoda (Revised). Volumes 2 & 3: Linguliformea, Craniiformea, and Rhynchonelliformea (part). Treatise on Invertebrate Paleontology. Boulder, Colorado; Lawrence, Kansas: Geological Society of America; University of Kansas. pp. 169–183. ISBN 0-8137-3108-9.
1 2 Popov, Leonid E.; Holmer, Lars E.; Bassett, Michael G.; Pour, Mansoureh Ghobadi; Percival, Ian G. (2013). Harper, D.A.T.; Servais, T. (eds.). "Chapter 10: Biogeography of Ordovician linguliform and craniiform brachiopods". Geological Society, London, Memoirs. Early Palaeozoic Biogeography and Palaeogeography. 38 (1): 117–126. doi: 10.1144/M38.10 . ISSN 0435-4052.
↑ Curry, Gordon B.; Brunton, Howard C. (2007). "Chapter 9: Stratigraphic Distribution of Brachiopods". In Selden, Paul A. (ed.). Part H, Brachiopoda (Revised). Volume 6: Supplement. Treatise on Invertebrate Paleontology. Boulder, Colorado; Lawrence, Kansas: Geological Society of America; University of Kansas. pp. 2901–2965. ISBN 978-0-8137-3136-0.
1 2 3 4 Robinson, Jeffrey H.; Lee, Daphne E. (2007-03-01). "The recent and Paleogene craniid brachiopod, Valdiviathyris quenstedti Helmcke, 1940". Systematics and Biodiversity. 5 (1): 123–131. doi:10.1017/S1477200006002179. ISSN 1477-2000.
1 2 3 Cohen, Bernard L.; Long, Sarah L; Saito, Michiko (2008). "Living craniids: preliminary molecular evidence of their inter-relationships". In Harper, David A.T.; Long, Sarah L.; Nielsen, Claus (eds.). Brachiopoda: Fossil and Recent. Fossils and Strata. Vol. 54. Wiley-Blackwell. pp. 283–287. doi:10.18261/9781405186643-2008-31. ISBN 978-1-4051-8664-3.
1 2 3 4 5 Bassett, Michael G. (2007). "Chapter 4 (part): Craniida". In Selden, Paul A. (ed.). Part H, Brachiopoda (Revised). Volume 6: Supplement. Treatise on Invertebrate Paleontology. Boulder, Colorado; Lawrence, Kansas: Geological Society of America; University of Kansas. pp. 2591–2592. ISBN 978-0-8137-3136-0.
↑ Brunton, C.H.C. (1968). "Silicified brachiopods from the Visean of County Fermanagh (II)". Bulletin of the British Museum (Natural History), Geology. 16: 8.
↑ Emig, Christian C. (2009). "Nummulus brattenburgensis and Crania craniolaris (Brachiopoda, Craniidae)" (PDF). Carnets de Géologie (08). Archived from the original (PDF) on 2016-03-04. Retrieved 2014-08-05.

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[:1-1] 1 2 Emig, Christian C.; Bitner, Maria Aleksandra; Álvarez, Fernando. "Craniiformea". Brachiopoda Database. Retrieved 7 June 2023.

[Treatise-2] Moore, R.C. (1965). Brachiopoda. Treatise on Invertebrate Paleontology. Vol. Part H., Volume 1. Boulder, Colorado/Lawrence, Kansas: Geological Society of America/University of Kansas Press. pp. H6, H93. ISBN 0-8137-3015-5.

[:2-3] 1 2 3 Bassett, Michael G. (2000). "Chapter 2 (part): Craniida". In Kaesler, Roger L. (ed.). Part H, Brachiopoda (Revised). Volumes 2 & 3: Linguliformea, Craniiformea, and Rhynchonelliformea (part). Treatise on Invertebrate Paleontology. Boulder, Colorado; Lawrence, Kansas: Geological Society of America; University of Kansas. pp. 169–183. ISBN 0-8137-3108-9.

[:02-4] 1 2 Popov, Leonid E.; Holmer, Lars E.; Bassett, Michael G.; Pour, Mansoureh Ghobadi; Percival, Ian G. (2013). Harper, D.A.T.; Servais, T. (eds.). "Chapter 10: Biogeography of Ordovician linguliform and craniiform brachiopods". Geological Society, London, Memoirs. Early Palaeozoic Biogeography and Palaeogeography. 38 (1): 117–126. doi: 10.1144/M38.10 . ISSN 0435-4052.

[5] Curry, Gordon B.; Brunton, Howard C. (2007). "Chapter 9: Stratigraphic Distribution of Brachiopods". In Selden, Paul A. (ed.). Part H, Brachiopoda (Revised). Volume 6: Supplement. Treatise on Invertebrate Paleontology. Boulder, Colorado; Lawrence, Kansas: Geological Society of America; University of Kansas. pp. 2901–2965. ISBN 978-0-8137-3136-0.

[:0-6] 1 2 3 4 Robinson, Jeffrey H.; Lee, Daphne E. (2007-03-01). "The recent and Paleogene craniid brachiopod, Valdiviathyris quenstedti Helmcke, 1940". Systematics and Biodiversity. 5 (1): 123–131. doi:10.1017/S1477200006002179. ISSN 1477-2000.

[:3-7] 1 2 3 Cohen, Bernard L.; Long, Sarah L; Saito, Michiko (2008). "Living craniids: preliminary molecular evidence of their inter-relationships". In Harper, David A.T.; Long, Sarah L.; Nielsen, Claus (eds.). Brachiopoda: Fossil and Recent. Fossils and Strata. Vol. 54. Wiley-Blackwell. pp. 283–287. doi:10.18261/9781405186643-2008-31. ISBN 978-1-4051-8664-3.

[:4-8] 1 2 3 4 5 Bassett, Michael G. (2007). "Chapter 4 (part): Craniida". In Selden, Paul A. (ed.). Part H, Brachiopoda (Revised). Volume 6: Supplement. Treatise on Invertebrate Paleontology. Boulder, Colorado; Lawrence, Kansas: Geological Society of America; University of Kansas. pp. 2591–2592. ISBN 978-0-8137-3136-0.

[9] Brunton, C.H.C. (1968). "Silicified brachiopods from the Visean of County Fermanagh (II)". Bulletin of the British Museum (Natural History), Geology. 16: 8.

[10] Emig, Christian C. (2009). "Nummulus brattenburgensis and Crania craniolaris (Brachiopoda, Craniidae)" (PDF). Carnets de Géologie (08). Archived from the original (PDF) on 2016-03-04. Retrieved 2014-08-05.

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Craniidae Temporal range: Ordovician–Recent PreꞒ Ꞓ O S D C P T J K Pg N

Petrocrania scabiosa encrusting the edge of a strophomenide brachiopod; Upper Ordovician of northern Kentucky.
Scientific classification
Domain:	Eukaryota
Kingdom:	Animalia
Phylum:	Brachiopoda
Class:	Craniata
Order:	Craniida Waagen, 1885
Suborder:	Craniidina Waagen, 1885
Superfamily:	Cranioidea Menke, 1828
Family:	Craniidae Menke, 1828
Genera
See text.
Synonyms
Valdiviathyrididae