Tyrannophontes
Temporal range:
3D reconstruction of T. theridion
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Malacostraca
Order: Stomatopoda
Family: Tyrannophontidae
Schram, 1969
Genus: Tyrannophontes
Schram, 1969
Type species
Tyrannophontes theridion
Schram, 1969
Other species
  • T. gigantion
    Schram, 2007

Tyrannophontes is an extinct genus of mantis shrimp that lived during the late Carboniferous period in what is now the Mazon Creek fossil beds of Illinois. It is the only genus in the family Tyrannophontidae. The type species, T. theridion, was described in 1969 by Frederick Schram. A second, much larger species, T. gigantion, was also named by Schram in 2007. Another species, T. acanthocercus from the Bear Gulch Limestone of Montana, was formerly assigned to Tyrannophontes, but has now been moved to the genus Daidal.

This animal is theorized to be a nekto-benthic predator, swimming above the seabed while it hunted, perhaps grabbing prey from above using its raptorial appendages. It lived in a marine environment which would have been just south of the equator.

Discovery and naming

The holotype of Tyrannophontes theridion (PE12098) was collected from the Mazon Creek fossil beds in Illinois, USA by Calvin George and donated to the Field Museum of Natural History. The genus was erected in 1969 by Frederick Schram, who at the time considered it to be monotypic and include the single species T. theridion. Aside from the holotype, a few other specimens of T. theridion have also been collected from the Mazon Creek fossil beds, though Schram noted that the species was quite rare.[1]

Assigned species

In addition to the type species, two more species have been assigned to the genus Tyrannophontes, though one has since been reassigned:

T. acanthocercus was named in 1998 and is known from several specimens found in the Bear Gulch Limestone of Montana, with the holotype being CM 34453. The specific name is combined from the Greek akanthos (meaning "thorn") and kerkos (meaning "tail"), in reference to the spines on the telson.[2] In 2007, this species was moved to a separate genus, Daidal, of which it is the type species.[3]

T. gigantion was described in 2007 by Frederick Schram. It is known from only the holotype (PE 36987), which preserves the head and thorax, and was collected from the Francis Creek Shale of the Mazon Creek fossil beds in Illinois. This species is significantly larger than even the largest specimens of T. theridion, and thus was given the specific name meaning "gigantic" in Greek. As the tail fan is not preserved, this species may actually belong in a separate genus, but is prudently placed in Tyrannophontes until more specimens are found.[3]

Description

The two species of Tyrannophontes differ greatly in size. T. theridion reached a carapace length of 4.4–13.6 mm (0.17–0.54 in). Meanwhile, the only known specimen of T. gigantion has a carapace length of 27 mm (1.1 in) and the entire living animal likely measured 135 mm (5.3 in) long, comparable in size to extant Harpiosquilla species.[3]

The antennules each possess three annulated flagella of approximately equal length. The compound eyes are large and oval in shape, attached to the head by stalks. The smooth carapace envelops the front part of the thorax on the upper and lateral sides, extending back to partly cover the seventh segment, with a subrectangular shape when viewed from above and subtriangular shape when seen from the side. Gastric ridges are present on either side of the carapace, extending from the base of the rostrum to the corners of the carapace. The rostrum is dorsoventrally flattened, appearing almost triangular when seen from the top.[1]

The thorax can be divided into a front part made up of small, unfused segments which bear short thoracopods (walking appendages), and a back part of three larger segments. The back part of the thorax is not covered by the carapace.[1] The entire thorax is slightly shorter than the abdomen. Each segment of the pleon is slightly longer than the one immediately in front of it, with the first segment being the shortest and the sixth being the longest. The telson is ovate and has a pair of moveable spines a bit over halfway along its length, as well as a differentset of spines nearer the base of the telson.[3]

Classification

In his initial description of Tyrannophontes, Frederick Schram also erected the family Tyrannophontidae, to which the genus is assigned. The family is monotypic, with Tyrannophontes being its type and only genus, and is placed in the suborder Archaeostomatopodea.[1] Schram used the same classification again in 2007 in a study revising the morphology and relationships of Paleozoic holpocarids.[3] Smith et al. (2023) conducted a phylogenetic analysis to determine the relations between fossil mantis shrimps, the results of which are displayed in the cladogram below:[4]

Stomatopoda
Archaeocaris

Archaeocaris vermiformis

Archaeocaris graffhami

Bairdops elegans

Perimecturus

Perimecturus parki

Perimecturus rapax

Bairdops beargulchensis

Daidal pattoni

Daidal schoellmanni

Daidal acanthocercus

Gorgonophontes

Gorgonophontes fraiponti

Gorgonophontes peleron

Chabardella spinosa

Tyrannophontes theridion

Tyrannophontes gigantion

Unipeltata

Triassosculda ahyongi

Tyrannosculda laurae

Pseudosculda laevis

Archaeosculda phoenicia

Sculda pennata

Sculda syriaca

Ursquilla yehoachi

Lysiosquilla nkporoensis

Nodosculda fisherorum

Squilla mantis

Archaeostomatopods
Palaeostomatopods
Pseudosculdids

Palaeobiology

Judging from its raptorial appendages and the lifestyles of other mantis shrimps, Tyrannophontes would have been a predatory animal. However, while modern mantis shrimps are primarily benthic, Tyrannophontes has been theorized to be a nekto-benthic animal, swimming above the seabed while it hunted, and perhaps grabbing prey from above using its raptorial appendages. The presence of large tergites on these appendages would have prevented the animal from lifting the front of its body while standing, and its short walking appendages make a wide stance impossible. This further suggests Tyrannophontes was not a bottom-dwelling animal.[5] In modern mantis shrimps, only the larvae hunt primarily while swimming, and it has been suggested that research into mantis shrimp larvae is needed to better understand to lifestyle of early stomatopods like Tyrannophontes.[6][7]

Palaeoenvironment

Both species of Tyrannophontes originate from the Mazon Creek fossil beds of Illinois, which date back to the Moscovian age of the late Carboniferous period, around 309 million years ago. At the time of deposition, this locality would have been located at a latitude between 4 and 10° south of the equator. This crustacean is part of a diverse fossil assemblage known as the Essex biota, which would have lived in a marine bay.[8] The Mazon Creek fossil beds are an important lagerstätte preserving fossils of an extremely wide array of organisms, which would have lived alongside Tyrannophontes. These include over 25 species of fish and numerous types of invertebrates, with the jellyfish Essexella being the most abundant animal from this location.[9][10] The enigmatic Tullimonstrum, nicknamed the Tully monster, is also present and one of the most famous species from the assemblage.[11]

References

  1. 1 2 3 4 Schram, Frederick R. (1969). Some Middle Pennsylvanian Hoplocarida (Crustacea) and their phylogenetic significance. Chicago: Field Museum of Natural History.
  2. Jenner, Ronald A.; Hof, Cees H. J.; Schram, Frederick R. (1998). "Palaeo- and archaeostomatopods (Hoplocarida, Crustacea) from the Bear Gulch Limestone, Mississippian (Namurian), of central Montana". Contributions to Zoology. 67 (3): 155. doi:10.1163/18759866-06703001. ISSN 1383-4517.
  3. 1 2 3 4 5 Schram, Frederick R. (2007). "Paleozoic Proto-Mantis Shrimp Revisited". Journal of Paleontology. 81 (5): 895–916. Bibcode:2007JPal...81..895S. doi:10.1666/pleo05-075.1. ISSN 0022-3360. JSTOR 4498847. S2CID 85606671.
  4. Smith, C.P.A.; Aubier, P.; Charbonnier, S.; Laville, T.; Olivier, N.; Escarguel, G.; Jenks, J.F.; Bylund, K.G.; Fara, E.; Brayard, A. (2023-03-31). "Closing a major gap in mantis shrimp evolution - first fossils of Stomatopoda from the Triassic". Bulletin of Geosciences: 95–110. doi:10.3140/bull.geosci.1864. ISSN 1802-8225. S2CID 258089800.
  5. Haug, Carolin; Haug, Joachim T. (2021-04-16). "A new fossil mantis shrimp and the convergent evolution of a lobster-like morphotype". PeerJ. 9: e11124. doi:10.7717/peerj.11124. ISSN 2167-8359. PMC 8054755. PMID 33959413.
  6. Pyne, Rex R. (1972). "Larval development and behaviour of the mantis shrimp, Squilla armata Milne Edwards (Crustacea : Stomatopoda)". Journal of the Royal Society of New Zealand. 2 (2): 121–146. Bibcode:1972JRSNZ...2..121P. doi:10.1080/03036758.1972.10429369. ISSN 0303-6758.
  7. Haug, Joachim T.; Haug, Carolin; Maas, Andreas; Kutschera, Verena; Waloszek, Dieter (2010-09-21). "Evolution of mantis shrimps (Stomatopoda, Malacostraca) in the light of new Mesozoic fossils". BMC Evolutionary Biology. 10 (1): 290. doi:10.1186/1471-2148-10-290. ISSN 1471-2148. PMC 2955030. PMID 20858249.
  8. Clements, Thomas; Purnell, Mark; Gabbott, Sarah (2019). "The Mazon Creek Lagerstätte: a diverse late Paleozoic ecosystem entombed within siderite concretions". Journal of the Geological Society. 176 (1): 1–11. Bibcode:2019JGSoc.176....1C. doi:10.1144/jgs2018-088. hdl:2381/44761. ISSN 0016-7649. S2CID 84178980.
  9. Bardack, David (1979-01-01), Nitecki, Matthew H. (ed.), "Fishes of the Mazon Creek Fauna", Mazon Creek Fossils, Academic Press, pp. 501–528, doi:10.1016/b978-0-12-519650-5.50024-2, ISBN 978-0-12-519650-5, retrieved 2023-11-08
  10. Selden, Paul; Nudds, John (2012). "Mazon Creek". Evolution of Fossil Ecosystems (second ed.). Manson Publishing Ltd. pp. 94–96. ISBN 978-1-84076-623-3.
  11. Johnson, Ralph Gordon; Richardson, Eugene Stanley (1969). Pennsylvanian invertebrates of the Mazon Creek Area, Illinois: the morphology and affinities of Tullimonstrum. University of Illinois Urbana-Champaign. [Chicago] : Field Museum of Natural History.
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