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Chasmataspidida

April 11, 2024

Chasmataspidids, sometime referred to as chasmataspids,[1][2][3] are a group of extinct chelicerate arthropods that form the order Chasmataspidida. Chasmataspidids are probably related to horseshoe crabs (Xiphosura) and/or sea scorpions (Eurypterida),[4][1] with more recent studies suggest that they form a clade (Dekatriata) with Eurypterida and Arachnida.[5][6][7][8] Chasmataspidids are known sporadically in the fossil record through to the mid-Devonian,[9] with possible evidence suggesting that they were also present during the late Cambrian.[1] Chasmataspidids are most easily recognised by having an opisthosoma divided into a wide forepart (preabdomen) and a narrow hind part (postabdomen) each comprising 4 and 9 segments respectively.[1][10] There is some debate about whether they form a natural (i.e. monophyletic) group.[3][1][4]

Chasmataspidida
Temporal range: Ordovician–Mid Devonian Possible Cambrian record[1]
Fossils of Hoplitaspis hiawathai.
Reconstruction of Dvulikiaspis menneri (middle top), Octoberaspis ushakovi (top left), Hoplitaspis hiawathai (top right), Chasmataspis laurencii (bottom left) and Diploaspis casteri (bottom right).
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Subphylum: Chelicerata
Clade: Dekatriata
Order: Chasmataspidida
Caster & Brooks, 1956
Clades
Synonyms
  • Diploaspidida Simonetta & Delle Cave, 1978

Distribution edit

 
Geographic distribution of chasmataspidids.

Chasmataspidids survived at least since Ordovician to mid-Devonian in age. As of 2019, most chasmataspidids (with a total of 9 species) are known from the Devonian strata, while the preceding Silurian and Ordovician period each have 3 and 2 species being described.[11][12] Diploaspis is the only genus of chasmataspidids that unambiguously comprises species from different periods (D. casteri and D. muelleri from Devonian and D. praecursor from silurian).[13] There was also trace fossil compose of resting imprints with Chasmataspis-like outline discovered from late-Cambrian stratum, which might suggest an earlier occurrence of chasmataspidids.[1]

Morphology edit

Most chasmataspidids are small arthropods with a body length that did not exceed 3 centimeters, with the ordovician species being exceptionally large, ranging between 10 (Chasmataspis) and 29 centimeters (Hoplitaspis).[11]

  •  
    Size comparison of various chasmataspidids.
  •  
    Dorsal morphology of a generalized chasmataspidid.

The streamlined body of a chasmataspidid is composed of a rigid prosoma and an externally 13-segmented opisthosoma. As in eurypterids, the dorsal side of the prosoma was covered by a rigid carapace (prosomal dorsal shield) that bore a pair of larger lateral (presumably compound[10]) eyes and a pair of tiny median ocelli.[10] Chasmataspidids are readily distinguished from other chelicerates by the subdivision of the 13 opisthosomal segments into a widened, 4-segmented preabdomen and a slender, 9-segmented postabdomen.[14][10] the tergite (dorsal exoskeleton) of the first opisthosomal or preabdominal segment is retained as a narrow element known as 'microtergite',[14] which is not observed in eurypterids.[10] The posterior three preabdominal segments are well developed, forming a rigid box-like section called a 'buckler'.[10] The postabdominal segments are cylindrical, and the last segment terminates with a spine/plate-like telson, which is usually relatively short.[10]

Appendages edit

  •  
    Reconstruction of Hoplitaspis hiawathai with ventral view (B) showing appendicular structures.
  •  
    Comparison of appendage VI between chasmataspidids (left) and eurypterids (right).

Since the appendages of chasmataspidid are rarely preserved in the fossil, most species have only fragile or even no appendicular structures had been described. Based on available materials, the prosoma compose of 6 appendage pairs (appendage I - VI) just like most euchelicerates, which were 1 pair of small chelicerae and 5 pairs of limb-like appendages, although the detail morphology of the former is still unclear.[10][11] The coxae (basalmost limb segments) of appendage II-VI bore gnathobases.[15][11] At least the posteriormost appendage pair (appendage VI) of prosoma seems to be differ between families.[11] Appendage of Chasmataspididae known only from 2 disarticulated specimens of appendages which interpreted as appendage VI of Chasmataspis.[11] the appendage bore exopod-like structure on the base and terminated with a chelate (pincer), similar to those of a xiphosuran.[1] On the other hand, Appendage VI modified into a paddle that strikingly resemble to those of a eurypterine (swimming eurypterid) was discovered in some species of Diploaspididae,[14][11] but the basal diploaspidid Loganamaraspis possibly did not possess this character on Appendage VI.[3] the limb-like appendage II-V of diploaspidids are either featureless[14] or bore rows of spines.[13][11]

Opisthosomal appendages are even rarely being observed and only known from a few diploaspidid materials.[15][3][11] they are at least present on the ventral side of preabdomen, each pair originated from one preabdominal segment.[10] the anteriormost appendicular structure of opisthosoma was metastoma, a plate-like structure interpreted as a fused appendage pair of first opisthosomal segment,[10] situated between the gnathobase of prosomal appendage VI.[11] Beyond the metastoma were 3 pairs of plate-like opercula originated from the 3 buckler segments, with the first operculum pair (genital operculum) bore a medially positioned genital appendage that extend until the posterior region of second operculum pair.[15][11] Some of the opercula may have book gills just like those of xiphosurans and eurypterids, but the evidence are equivocal.[16] Previous reports of a large operculum cover the whole ventral surface of buckler are most likely a misinterpretation of the ventral buckler wall (sternites or dorsal surface of gill chamber), which were originally enclosed by the opercula in life.[17][16] The metastoma, opercula and genital appendage are shared characters between chasmataspidid and eurypterid, but unlike the fused first and second operculum pair of eurypterid, the two operculum pairs seems to be unfused in chasmataspidid.[10] Possible chasmataspidid trace fossil from cambrian have imprints resembling 6 pairs of opercula.[1] If the interpretation is true, chasmataspidid may had extra 3 pairs of opercula on the first 3 postabdominal segment as well.[10]

Representative genera edit

Chasmataspis edit

 
Reconstruction of Chasmataspis laurencii.

The first chasmataspidid to be discovered was Chasmataspis laurencii, described by the American palaeontologists Kenneth E. Caster and H. K. Brooks in 1956.[18] These Ordovician fossils come from the site of the Douglas Dam in Tennessee, USA. They are the most xiphosuran-like of the known chasmataspidid species, with a horseshoe-shaped carapace. Caster & Brooks raised a new family, Chasmataspididae, to accommodate these specimens. The species was redescribed by Jason Dunlop and colleagues in 2004.[1]

Diploaspis edit

 
Reconstruction of Diploaspis casteri.

The next species to be discovered were Diploaspis casteri and Heteroaspis novojilovi; both described by the Norwegian palaeontologist Leif Størmer from the early Devonian of Alken an der Mosel in Germany in 1972.[19]

A revision by Markus Poschmann and co-workers in 2005 recognised H. novojilovi as a synonym of D. casteri. The two species appear to actually be preservational variants of the same species. Poschmann et al. also described a second species as Diploaspis muelleri.[16]

A third species, Diploaspis praecursor (Late Silurian, Bertie Group, New York State), was described by Lamsdell and Briggs in 2017.[13]


Forfarella edit

 
Reconstruction of Forfarella mitchelli.

Forfarella mitchelli from the early Devonian of the Forfar region in the Midland Valley of Scotland was described by Jason Dunlop and colleagues in 1999; although the fossil had actually been recognised as a chasmataspidid and provisionally labelled as such some years previously by Charles Waterston. Forfarella mitchelli is not very well preserved, but does show the characteristic chasmataspidid body plan.[2]

Achanarraspis edit

The stratigraphically youngest chasmataspidid is Achanarraspis reedi, described by Lyall Anderson and colleagues in 2000, from the mid-Devonian Achanarras quarry in Caithness, Scotland, a site rich in fish fossils.[17]

Octoberaspis edit

 
Reconstruction of Octoberaspis ushakovi

Well preserved chasmataspidids were recovered from the early Devonian of October Revolution Island, part of the Severnaya Zemlya group in the Russian Arctic. Originally briefly described as eurypterids, they were formally described as Octoberaspis ushakovi by Jason Dunlop in 2002. Octoberaspis is one of the few chasmataspidids with well-documented opisthosomal appendages, reveal some characters previously though to be eurypterid-exclusive were also shared by chasmataspidid as well.[15]

Loganamaraspis edit

Loganamaraspis dunlopi discovered from a famous Silurian fossil locality near Lesmahagow in Scotland. Described by Erik Tetlie and Simon Braddy in 2003, it was placed in Diploaspididae, but interpreted as being somewhat more intermediate in form between the Chasmataspis and Diploaspidid body plans.[3]

Dvulikiaspis edit

 
Reconstruction of Dvulikiaspis menneri

Fossils of Dvulikiaspis menneri discovered from the Imangda River of Taymyr Peninsula were originally interpreted as a species of eurypterid genus Stylonurus, and formally described as a new genus of chasmataspidid by David J. Marshall and co-authors in 2014. Dvulikiaspis menneri is one of the few well-preserved chasmataspidid, with distal morphology of appendage II-VI had been revealed.[14]

Hoplitaspis edit

 
Reconstruction of Hoplitaspis hiawathai

Hoplitaspis hiawathai is the second known species of Ordovician chasmataspidid, discovered from the Big Hill Lagerstätte of Michigan in United States, described by James C. Lamsdell and co-authors in 2019. With nearly complete set of appendages being observable, Hoplitaspis hiawathai is the most complete chasmataspidid known at that time. Each of the paddle of Hoplitaspis hiawathai has a claw instead of an intersegmental element like those of other diploaspidids, providing clues on the relationship between the appendage VI of Chasmataspis and diploaspidids.[11]

Classification edit

Phylogenetic position edit

Summarized phylogenetic position of Chasmataspidida as of the 2010s.[5][6][7][8]

Chasmataspidids have a controversial phylogenetic position within Chelicerata. The first species to be discovered were thought to be unusual fossil xiphosuran,[5] while later species were often based on specimens initially misidentified as eurypterids.[14] Chasmataspidids had been interpreted as relatives/members of either xiphosurans or eurypterids,[20][4] or forming a clade (Dekatriata) with eurypterids and arachnids.[5][6][7][8] Some studies even suggest that chasmataspidids may not represent a monophyletic taxon - for example as a paraphyletic grade where the eurypterids arose;[3][4] or a polyphyletic group with Chasmataspis and diploaspidids more closely related to xiphosurans and eurypterids, respectively.[1] The polyphyletic hypothesis was based on the xiphosuran-like characters of Chasmataspis (e.g. genal spines, chelate limbs, fused opisthosomal segments) and eurypterid-like characters found on diploaspidid genera (e.g. paddles on appendage VI).[1] However this interpretation could be unreliable, as the characters are either partially shared by both xiphosurans and eurypterids[1] (e.g. genal spines were found in eurypterid juveniles;[21] some xiphosurans have non-chelate limbs and unfused opisthosoma[22]) or more likely represent a result of parallel evolution (e.g. the paddles of diploaspidids and swimming eurypterids have different component[11]). Additionally, the monophyly of chasmataspidids could be supported by the unique component of 4-segmented preabdomen and 9-segmented postabdomen as well.[1][10] As of the 2010s, many studies supports the monophyly of Chasmataspidida and Dekatriata (Chasmataspidida+Eurypterida+Arachnida).[5][23][6][7][8][24][25][11]

Interrelationships edit

Chasmataspidida
Chasmataspididae

Chasmataspis laurencii  

Diploaspididae

Loganamaraspis dunlopi

Dvulikiaspis menneri  

Achanarraspis reedi

Heteroaspis stoermeri

Octoberaspis ushakovi  

Diploaspis praecursor  

Diploaspis casteri  

Diploaspis muelleri

Internal phylogeny of Chasmataspidida based on Selden, Lamsdell & Liu (2015),[6] with addition of Diploaspis praecursor based on Lamsdell & Briggs (2017).[13]

As of 2019, up to 12 genera had been associated within Chasmataspidida. With the exception of Diploaspis which compose of 3 species since 2017,[13] all chasmataspidid genera are monotypic.[9] The order Chasmataspidida subdivided into two families: Chasmataspididae and Diploaspididae. the former consists of Chasmataspis (and possibly also Kiaeria[12]) while the latter include the remaining genera.[9] Chasmataspididae is defined by a horseshoe-shaped carapace with distinct genal spines and a completely fused preabdomen;[1] while Diploaspididae is defined by a semicircular to subquadrate carapace and a preabdomen with curved, non-trilobate segments.[14]
Chasmataspidida Caster & Brooks, 1956

  • Kiaeria Størmer, 1934 (might belong to Chasmataspididae[12])
    • Kiaeria limuloides Størmer, 1934Silurian
  • Chasmataspididae Caster & Brooks, 1956
  • †Diploaspididae Størmer, 1972[19]
    • Achanarraspis Anderson, Dunlop & Trewin, 2000
      • Achanarraspis reedi Anderson, Dunlop & Trewin, 2000Devonian[17]
    • Diploaspis Størmer, 1972
      • Diploaspis casteri Størmer, 1972—Devonian[19][26]
      • Diploaspis muelleri Poschmann, Anderson & Dunlop, 2005—Devonian[16]
      • Diploaspis praecursor Selden, Lamsdell & Liu 2015—Silurian[13]
    • Dvulikiaspis Marshall, Lamsdell, Shpinev & Braddy, 2014
      • Dvulikiaspis menneri (Novojilov, 1959) (formerly known as ‘Tylopterella’ menneri)—Devonian[14]
    • Forfarella Dunlop, Anderson & Braddy, 1999
      • Forfarella mitchelli Dunlop, Anderson & Braddy, 1999—Devonian[2]
    • Heteroaspis Størmer, 1972
      • Heteroaspis stoermeri Størmer, 1972 (formerly known as ‘Eurypterus’ stoermeri)—Devonian[19]
    • Hoplitaspis Lamsdell, Gunderson & Meyer, 2019
      • Hoplitaspis hiawathai Lamsdell, Gunderson & Meyer, 2019—Ordovician[11]
    • Loganamaraspis Tetlie & Braddy, 2004
      • Loganamaraspis dunlopi Tetlie & Braddy, 2004—Silurian[3]
    • Nahlyostaspis Marshall, Lamsdell, Shpinev & Braddy, 2014
      • Nahlyostaspis bergstroemi Marshall, Lamsdell, Shpinev & Braddy, 2014—Devonian[14]
    • Octoberaspis Dunlop, 2002[15]
      • Octoberaspis ushakovi Dunlop, 2002—Devonian[15]
    • Skrytyaspis Marshall, Lamsdell, Shpinev & Braddy, 2014
      • Skrytyaspis andersoni Marshall, Lamsdell, Shpinev & Braddy, 2014—Devonian[14]

References edit

  1. ^ a b c d e f g h i j k l m n o p Jason A. Dunlop, Lyall I. Anderson & Simon J. Braddy (2004). "A redescription of Chasmataspis laurencii Caster & Brooks (Chelicerata: Chasmataspidida) from the Middle Ordovician of Tennessee, USA, with remarks on chasmataspid phylogeny" (PDF). Transactions of the Royal Society of Edinburgh: Earth Sciences. 94 (4): 207–225. doi:10.1017/S0263593300000626. S2CID 130713268.
  2. ^ a b c Jason A. Dunlop, L. I. Anderson & S. J. Braddy (1999). "A new chasmataspid (Chelicerata: Chasmataspida) from the Lower Devonian of the Midland Valley of Scotland" (PDF). Transactions of the Royal Society of Edinburgh: Earth Sciences. 89 (3): 161–165. doi:10.1017/s0263593300007100. S2CID 130344322.
  3. ^ a b c d e f g O. Erik Tetlie & Simon J. Braddy (2003). "The first Silurian chasmataspid, Loganamaraspis dunlopi gen. et sp. nov. (Chelicerata: Chasmataspidida) from Lesmahagow, Scotland, and its implications for eurypterid phylogeny". Transactions of the Royal Society of Edinburgh: Earth Sciences. 94 (3): 227–234. doi:10.1017/S0263593300000638. S2CID 73596575.
  4. ^ a b c d Garwood, Russell J.; Dunlop, Jason A. (2014). "Three-dimensional reconstruction and the phylogeny of extinct chelicerate orders". PeerJ. 2: e641. doi:10.7717/peerj.641. PMC 4232842. PMID 25405073.
  5. ^ a b c d e Lamsdell, James C. (2013-01-01). "Revised systematics of Palaeozoic 'horseshoe crabs' and the myth of monophyletic Xiphosura". Zoological Journal of the Linnean Society. 167 (1): 1–27. doi:10.1111/j.1096-3642.2012.00874.x. ISSN 0024-4082.
  6. ^ a b c d e Selden, Paul A.; Lamsdell, James C.; Qi, Liu (2015). "An unusual euchelicerate linking horseshoe crabs and eurypterids, from the Lower Devonian (Lochkovian) of Yunnan, China". Zoologica Scripta. 44 (6): 645–652. doi:10.1111/zsc.12124. ISSN 1463-6409. S2CID 55264483.
  7. ^ a b c d Lamsdell, James C.; Briggs, Derek E. G.; Liu, Huaibao P.; Witzke, Brian J.; McKay, Robert M. (2015). "A new Ordovician arthropod from the Winneshiek Lagerstätte of Iowa (USA) reveals the ground plan of eurypterids and chasmataspidids". The Science of Nature. 102 (9–10): 63. doi:10.1007/s00114-015-1312-5. ISSN 0028-1042. PMID 26391849. S2CID 8153035.
  8. ^ a b c d Lamsdell, James C. (2016). Zhang, Xi-Guang (ed.). "Horseshoe crab phylogeny and independent colonizations of fresh water: ecological invasion as a driver for morphological innovation". Palaeontology. 59 (2): 181–194. doi:10.1111/pala.12220. S2CID 85553811.
  9. ^ a b c Dunlop, J. A., Penney, D. & Jekel, D. 2018. A summary list of fossil spiders and their relatives. In World Spider Catalog. Natural History Museum Bern, online at http://wsc.nmbe.ch , version 18.5 http://www.wsc.nmbe.ch/resources/fossils/Fossils18.5.pdf (PDF).
  10. ^ a b c d e f g h i j k l m Dunlop, Jason A.; Lamsdell, James C. (2017). "Segmentation and tagmosis in Chelicerata". Arthropod Structure & Development. 46 (3): 395–418. doi:10.1016/j.asd.2016.05.002. ISSN 1467-8039. PMID 27240897.
  11. ^ a b c d e f g h i j k l m n o Lamsdell, James C.; Gunderson, Gerald O.; Meyer, Ronald C. (2019-01-08). "A common arthropod from the Late Ordovician Big Hill Lagerstätte (Michigan) reveals an unexpected ecological diversity within Chasmataspidida". BMC Evolutionary Biology. 19 (1): 8. doi:10.1186/s12862-018-1329-4. ISSN 1471-2148. PMC 6325806. PMID 30621579.
  12. ^ a b c Lamsdell, James C. (2019). "A chasmataspidid affinity for the putative xiphosuran Kiaeria Størmer, 1934". Paläontologische Zeitschrift. 94 (3): 449–453. doi:10.1007/s12542-019-00493-8. S2CID 207914022.
  13. ^ a b c d e f James C. Lamsdell; Derek E. G. Briggs (2017). (PDF). Geological Magazine. 154 (1): 175–180. Bibcode:2017GeoM..154..175L. doi:10.1017/S0016756816000662. S2CID 85560431. Archived from the original (PDF) on 2020-02-27.
  14. ^ a b c d e f g h i j Marshall, David J.; Lamsdell, James C.; Shpinev, Evgeniy; Braddy, Simon J. (2014). "A diverse chasmataspidid (Arthropoda: Chelicerata) fauna from the Early Devonian (Lochkovian) of Siberia". Palaeontology. 57 (3): 631–655. doi:10.1111/pala.12080. ISSN 1475-4983. S2CID 84434367.
  15. ^ a b c d e f Jason A. Dunlop (2002). "Arthropods from the Lower Devonian Severnaya Zemlya Formation of October Revolution Island, Russia" (PDF). Geodiversitas. 24 (2): 349–379.
  16. ^ a b c d Markus Poschmann, Lyall I. Anderson & Jason A. Dunlop (2005). "Chelicerate arthropods, including the oldest phalangiotarbid arachnid, from the Early Devonian (Siegenian) of the Rhenish Massif, Germany" (PDF). Journal of Paleontology. 79 (1): 110–124. doi:10.1666/0022-3360(2005)079<0110:CAITOP>2.0.CO;2. S2CID 129082668.
  17. ^ a b c Lyall I. Anderson, Jason A. Dunlop & Nigel H. Trewin (2000). "A Middle Devonian chasmataspid arthropod from Achanarras Quarry, Caithness, Scotland" (PDF). Scottish Journal of Geology. 36 (2): 151–158. doi:10.1144/sjg36020151. S2CID 140167776.
  18. ^ Kenneth E. Caster and H. K. Brooks (1956). "New fossils from the Canadian–Chazan (Ordovician) hiatus in Tennessee". Bulletins of American Paleontology. 36: 157–199.
  19. ^ a b c d Leif Størmer (1972). "Arthropods from the Lower Devonian (Lower Emsian) of Alken an der Mosel, Germany. Part 2: Xiphosura". Senckenbergiana Lethaea. 53: 1–29.
  20. ^ Shultz, Jeffrey W. (2007-06-01). "A phylogenetic analysis of the arachnid orders based on morphological characters". Zoological Journal of the Linnean Society. 150 (2): 221–265. doi:10.1111/j.1096-3642.2007.00284.x. ISSN 0024-4082.
  21. ^ Lamsdell, James C.; Selden, Paul (2013). "Babes in the wood – a unique window into sea scorpion ontogeny". BMC Evolutionary Biology. 13 (98): 1–46. doi:10.1186/1471-2148-13-98. PMC 3679797. PMID 23663507.
  22. ^ Moore, Rachel A.; Briggs, Derek E. G.; Bartels, Christoph (2005). "A new specimen ofWeinbergina opitzi (Chelicerata: Xiphosura) from the Lower Devonian Hunsriick Slate, Germany". Paläontologische Zeitschrift. 79 (3): 399–408. doi:10.1007/BF02991931. ISSN 0031-0220. S2CID 84994966.
  23. ^ Legg, David A. (2014). "Sanctacaris uncata: the oldest chelicerate (Arthropoda)". Naturwissenschaften. 101 (12): 1065–1073. doi:10.1007/s00114-014-1245-4. ISSN 0028-1042. PMID 25296691. S2CID 15290784.
  24. ^ Aria, Cédric; Caron, Jean-Bernard (2017-12-21). "Mandibulate convergence in an armoured Cambrian stem chelicerate". BMC Evolutionary Biology. 17 (1): 261. doi:10.1186/s12862-017-1088-7. ISSN 1471-2148. PMC 5738823. PMID 29262772.
  25. ^ Aria, Cédric; Caron, Jean-Bernard (2019). "A middle Cambrian arthropod with chelicerae and proto-book gills". Nature. 573 (7775): 586–589. doi:10.1038/s41586-019-1525-4. ISSN 1476-4687. PMID 31511691. S2CID 202550431.
  26. ^ Dunlop, Jason A.; Poschmann, Markus; Anderson, Lyall I. (December 2001). "On the Emsian (Early Devonian) arthropods of the Rhenish Slate Mountains: 3. The chasmataspididDiploaspis". PalZ. 75 (2): 253–269. doi:10.1007/BF02988018. ISSN 0031-0220. S2CID 128479601.

April 11, 2024
chasmataspidida, chasmataspidids, sometime, referred, chasmataspids, group, extinct, chelicerate, arthropods, that, form, order, chasmataspidids, probably, related, horseshoe, crabs, xiphosura, scorpions, eurypterida, with, more, recent, studies, suggest, that. Chasmataspidids sometime referred to as chasmataspids 1 2 3 are a group of extinct chelicerate arthropods that form the order Chasmataspidida Chasmataspidids are probably related to horseshoe crabs Xiphosura and or sea scorpions Eurypterida 4 1 with more recent studies suggest that they form a clade Dekatriata with Eurypterida and Arachnida 5 6 7 8 Chasmataspidids are known sporadically in the fossil record through to the mid Devonian 9 with possible evidence suggesting that they were also present during the late Cambrian 1 Chasmataspidids are most easily recognised by having an opisthosoma divided into a wide forepart preabdomen and a narrow hind part postabdomen each comprising 4 and 9 segments respectively 1 10 There is some debate about whether they form a natural i e monophyletic group 3 1 4 ChasmataspididaTemporal range Ordovician Mid Devonian PreꞒ Ꞓ O S D C P T J K Pg N Possible Cambrian record 1 Fossils of Hoplitaspis hiawathai Reconstruction of Dvulikiaspis menneri middle top Octoberaspis ushakovi top left Hoplitaspis hiawathai top right Chasmataspis laurencii bottom left and Diploaspis casteri bottom right Scientific classificationDomain EukaryotaKingdom AnimaliaPhylum ArthropodaSubphylum ChelicerataClade DekatriataOrder ChasmataspididaCaster amp Brooks 1956Clades Chasmataspididae Caster amp Brooks 1956 Diploaspididae Stormer 1972 Kiaeria Stormer 1934SynonymsDiploaspidida Simonetta amp Delle Cave 1978 Contents 1 Distribution 2 Morphology 2 1 Appendages 3 Representative genera 3 1 Chasmataspis 3 2 Diploaspis 3 3 Forfarella 3 4 Achanarraspis 3 5 Octoberaspis 3 6 Loganamaraspis 3 7 Dvulikiaspis 3 8 Hoplitaspis 4 Classification 4 1 Phylogenetic position 4 2 Interrelationships 5 ReferencesDistribution edit nbsp Geographic distribution of chasmataspidids Chasmataspidids survived at least since Ordovician to mid Devonian in age As of 2019 most chasmataspidids with a total of 9 species are known from the Devonian strata while the preceding Silurian and Ordovician period each have 3 and 2 species being described 11 12 Diploaspis is the only genus of chasmataspidids that unambiguously comprises species from different periods D casteri and D muelleri from Devonian and D praecursor from silurian 13 There was also trace fossil compose of resting imprints with Chasmataspis like outline discovered from late Cambrian stratum which might suggest an earlier occurrence of chasmataspidids 1 Morphology editMost chasmataspidids are small arthropods with a body length that did not exceed 3 centimeters with the ordovician species being exceptionally large ranging between 10 Chasmataspis and 29 centimeters Hoplitaspis 11 nbsp Size comparison of various chasmataspidids nbsp Dorsal morphology of a generalized chasmataspidid The streamlined body of a chasmataspidid is composed of a rigid prosoma and an externally 13 segmented opisthosoma As in eurypterids the dorsal side of the prosoma was covered by a rigid carapace prosomal dorsal shield that bore a pair of larger lateral presumably compound 10 eyes and a pair of tiny median ocelli 10 Chasmataspidids are readily distinguished from other chelicerates by the subdivision of the 13 opisthosomal segments into a widened 4 segmented preabdomen and a slender 9 segmented postabdomen 14 10 the tergite dorsal exoskeleton of the first opisthosomal or preabdominal segment is retained as a narrow element known as microtergite 14 which is not observed in eurypterids 10 The posterior three preabdominal segments are well developed forming a rigid box like section called a buckler 10 The postabdominal segments are cylindrical and the last segment terminates with a spine plate like telson which is usually relatively short 10 Appendages edit nbsp Reconstruction of Hoplitaspis hiawathai with ventral view B showing appendicular structures nbsp Comparison of appendage VI between chasmataspidids left and eurypterids right Since the appendages of chasmataspidid are rarely preserved in the fossil most species have only fragile or even no appendicular structures had been described Based on available materials the prosoma compose of 6 appendage pairs appendage I VI just like most euchelicerates which were 1 pair of small chelicerae and 5 pairs of limb like appendages although the detail morphology of the former is still unclear 10 11 The coxae basalmost limb segments of appendage II VI bore gnathobases 15 11 At least the posteriormost appendage pair appendage VI of prosoma seems to be differ between families 11 Appendage of Chasmataspididae known only from 2 disarticulated specimens of appendages which interpreted as appendage VI of Chasmataspis 11 the appendage bore exopod like structure on the base and terminated with a chelate pincer similar to those of a xiphosuran 1 On the other hand Appendage VI modified into a paddle that strikingly resemble to those of a eurypterine swimming eurypterid was discovered in some species of Diploaspididae 14 11 but the basal diploaspidid Loganamaraspis possibly did not possess this character on Appendage VI 3 the limb like appendage II V of diploaspidids are either featureless 14 or bore rows of spines 13 11 Opisthosomal appendages are even rarely being observed and only known from a few diploaspidid materials 15 3 11 they are at least present on the ventral side of preabdomen each pair originated from one preabdominal segment 10 the anteriormost appendicular structure of opisthosoma was metastoma a plate like structure interpreted as a fused appendage pair of first opisthosomal segment 10 situated between the gnathobase of prosomal appendage VI 11 Beyond the metastoma were 3 pairs of plate like opercula originated from the 3 buckler segments with the first operculum pair genital operculum bore a medially positioned genital appendage that extend until the posterior region of second operculum pair 15 11 Some of the opercula may have book gills just like those of xiphosurans and eurypterids but the evidence are equivocal 16 Previous reports of a large operculum cover the whole ventral surface of buckler are most likely a misinterpretation of the ventral buckler wall sternites or dorsal surface of gill chamber which were originally enclosed by the opercula in life 17 16 The metastoma opercula and genital appendage are shared characters between chasmataspidid and eurypterid but unlike the fused first and second operculum pair of eurypterid the two operculum pairs seems to be unfused in chasmataspidid 10 Possible chasmataspidid trace fossil from cambrian have imprints resembling 6 pairs of opercula 1 If the interpretation is true chasmataspidid may had extra 3 pairs of opercula on the first 3 postabdominal segment as well 10 Representative genera editChasmataspis edit nbsp Reconstruction of Chasmataspis laurencii The first chasmataspidid to be discovered was Chasmataspis laurencii described by the American palaeontologists Kenneth E Caster and H K Brooks in 1956 18 These Ordovician fossils come from the site of the Douglas Dam in Tennessee USA They are the most xiphosuran like of the known chasmataspidid species with a horseshoe shaped carapace Caster amp Brooks raised a new family Chasmataspididae to accommodate these specimens The species was redescribed by Jason Dunlop and colleagues in 2004 1 Diploaspis edit nbsp Reconstruction of Diploaspis casteri The next species to be discovered were Diploaspis casteri and Heteroaspis novojilovi both described by the Norwegian palaeontologist Leif Stormer from the early Devonian of Alken an der Mosel in Germany in 1972 19 A revision by Markus Poschmann and co workers in 2005 recognised H novojilovi as a synonym of D casteri The two species appear to actually be preservational variants of the same species Poschmann et al also described a second species as Diploaspis muelleri 16 A third species Diploaspis praecursor Late Silurian Bertie Group New York State was described by Lamsdell and Briggs in 2017 13 Forfarella edit nbsp Reconstruction of Forfarella mitchelli Forfarella mitchelli from the early Devonian of the Forfar region in the Midland Valley of Scotland was described by Jason Dunlop and colleagues in 1999 although the fossil had actually been recognised as a chasmataspidid and provisionally labelled as such some years previously by Charles Waterston Forfarella mitchelli is not very well preserved but does show the characteristic chasmataspidid body plan 2 Achanarraspis edit The stratigraphically youngest chasmataspidid is Achanarraspis reedi described by Lyall Anderson and colleagues in 2000 from the mid Devonian Achanarras quarry in Caithness Scotland a site rich in fish fossils 17 Octoberaspis edit nbsp Reconstruction of Octoberaspis ushakoviWell preserved chasmataspidids were recovered from the early Devonian of October Revolution Island part of the Severnaya Zemlya group in the Russian Arctic Originally briefly described as eurypterids they were formally described as Octoberaspis ushakovi by Jason Dunlop in 2002 Octoberaspis is one of the few chasmataspidids with well documented opisthosomal appendages reveal some characters previously though to be eurypterid exclusive were also shared by chasmataspidid as well 15 Loganamaraspis edit Loganamaraspis dunlopi discovered from a famous Silurian fossil locality near Lesmahagow in Scotland Described by Erik Tetlie and Simon Braddy in 2003 it was placed in Diploaspididae but interpreted as being somewhat more intermediate in form between the Chasmataspis and Diploaspidid body plans 3 Dvulikiaspis edit nbsp Reconstruction of Dvulikiaspis menneriFossils of Dvulikiaspis menneri discovered from the Imangda River of Taymyr Peninsula were originally interpreted as a species of eurypterid genus Stylonurus and formally described as a new genus of chasmataspidid by David J Marshall and co authors in 2014 Dvulikiaspis menneri is one of the few well preserved chasmataspidid with distal morphology of appendage II VI had been revealed 14 Hoplitaspis edit nbsp Reconstruction of Hoplitaspis hiawathaiHoplitaspis hiawathai is the second known species of Ordovician chasmataspidid discovered from the Big Hill Lagerstatte of Michigan in United States described by James C Lamsdell and co authors in 2019 With nearly complete set of appendages being observable Hoplitaspis hiawathai is the most complete chasmataspidid known at that time Each of the paddle of Hoplitaspis hiawathai has a claw instead of an intersegmental element like those of other diploaspidids providing clues on the relationship between the appendage VI of Chasmataspis and diploaspidids 11 Classification editPhylogenetic position edit Chelicerata Pycnogonida nbsp Euchelicerata Xiphosura nbsp Dekatriata Chasmataspidida nbsp Sclerophorata Eurypterida nbsp Arachnida nbsp Summarized phylogenetic position of Chasmataspidida as of the 2010s 5 6 7 8 Chasmataspidids have a controversial phylogenetic position within Chelicerata The first species to be discovered were thought to be unusual fossil xiphosuran 5 while later species were often based on specimens initially misidentified as eurypterids 14 Chasmataspidids had been interpreted as relatives members of either xiphosurans or eurypterids 20 4 or forming a clade Dekatriata with eurypterids and arachnids 5 6 7 8 Some studies even suggest that chasmataspidids may not represent a monophyletic taxon for example as a paraphyletic grade where the eurypterids arose 3 4 or a polyphyletic group with Chasmataspis and diploaspidids more closely related to xiphosurans and eurypterids respectively 1 The polyphyletic hypothesis was based on the xiphosuran like characters of Chasmataspis e g genal spines chelate limbs fused opisthosomal segments and eurypterid like characters found on diploaspidid genera e g paddles on appendage VI 1 However this interpretation could be unreliable as the characters are either partially shared by both xiphosurans and eurypterids 1 e g genal spines were found in eurypterid juveniles 21 some xiphosurans have non chelate limbs and unfused opisthosoma 22 or more likely represent a result of parallel evolution e g the paddles of diploaspidids and swimming eurypterids have different component 11 Additionally the monophyly of chasmataspidids could be supported by the unique component of 4 segmented preabdomen and 9 segmented postabdomen as well 1 10 As of the 2010s many studies supports the monophyly of Chasmataspidida and Dekatriata Chasmataspidida Eurypterida Arachnida 5 23 6 7 8 24 25 11 Interrelationships edit Chasmataspidida Chasmataspididae Chasmataspis laurencii nbsp Diploaspididae Loganamaraspis dunlopiDvulikiaspis menneri nbsp Achanarraspis reediHeteroaspis stoermeriOctoberaspis ushakovi nbsp Diploaspis praecursor nbsp Diploaspis casteri nbsp Diploaspis muelleriInternal phylogeny of Chasmataspidida based on Selden Lamsdell amp Liu 2015 6 with addition of Diploaspis praecursor based on Lamsdell amp Briggs 2017 13 As of 2019 up to 12 genera had been associated within Chasmataspidida With the exception of Diploaspis which compose of 3 species since 2017 13 all chasmataspidid genera are monotypic 9 The order Chasmataspidida subdivided into two families Chasmataspididae and Diploaspididae the former consists of Chasmataspis and possibly also Kiaeria 12 while the latter include the remaining genera 9 Chasmataspididae is defined by a horseshoe shaped carapace with distinct genal spines and a completely fused preabdomen 1 while Diploaspididae is defined by a semicircular to subquadrate carapace and a preabdomen with curved non trilobate segments 14 Chasmataspidida Caster amp Brooks 1956 Kiaeria Stormer 1934 might belong to Chasmataspididae 12 Kiaeria limuloides Stormer 1934 Silurian Chasmataspididae Caster amp Brooks 1956 Chasmataspis Caster amp Brooks 1956 Chasmataspis laurencii Caster amp Brooks 1956 Ordovician 1 Diploaspididae Stormer 1972 19 Achanarraspis Anderson Dunlop amp Trewin 2000 Achanarraspis reedi Anderson Dunlop amp Trewin 2000 Devonian 17 Diploaspis Stormer 1972 Diploaspis casteri Stormer 1972 Devonian 19 26 Diploaspis muelleri Poschmann Anderson amp Dunlop 2005 Devonian 16 Diploaspis praecursor Selden Lamsdell amp Liu 2015 Silurian 13 Dvulikiaspis Marshall Lamsdell Shpinev amp Braddy 2014 Dvulikiaspis menneri Novojilov 1959 formerly known as Tylopterella menneri Devonian 14 Forfarella Dunlop Anderson amp Braddy 1999 Forfarella mitchelli Dunlop Anderson amp Braddy 1999 Devonian 2 Heteroaspis Stormer 1972 Heteroaspis stoermeri Stormer 1972 formerly known as Eurypterus stoermeri Devonian 19 Hoplitaspis Lamsdell Gunderson amp Meyer 2019 Hoplitaspis hiawathai Lamsdell Gunderson amp Meyer 2019 Ordovician 11 Loganamaraspis Tetlie amp Braddy 2004 Loganamaraspis dunlopi Tetlie amp Braddy 2004 Silurian 3 Nahlyostaspis Marshall Lamsdell Shpinev amp Braddy 2014 Nahlyostaspis bergstroemi Marshall Lamsdell Shpinev amp Braddy 2014 Devonian 14 Octoberaspis Dunlop 2002 15 Octoberaspis ushakovi Dunlop 2002 Devonian 15 Skrytyaspis Marshall Lamsdell Shpinev amp Braddy 2014 Skrytyaspis andersoni Marshall Lamsdell Shpinev amp Braddy 2014 Devonian 14 References edit a b c d e f g h i j k l m n o p Jason A Dunlop Lyall I Anderson amp Simon J Braddy 2004 A redescription of Chasmataspis laurencii Caster amp Brooks Chelicerata Chasmataspidida from the Middle Ordovician of Tennessee USA with remarks on chasmataspid phylogeny PDF Transactions of the Royal Society of Edinburgh Earth Sciences 94 4 207 225 doi 10 1017 S0263593300000626 S2CID 130713268 a b c Jason A Dunlop L I Anderson amp S J Braddy 1999 A new chasmataspid Chelicerata Chasmataspida from the Lower Devonian of the Midland Valley of Scotland PDF Transactions of the Royal Society of Edinburgh Earth Sciences 89 3 161 165 doi 10 1017 s0263593300007100 S2CID 130344322 a b c d e f g O Erik Tetlie amp Simon J Braddy 2003 The first Silurian chasmataspid Loganamaraspis dunlopi gen et sp nov Chelicerata Chasmataspidida from Lesmahagow Scotland and its implications for eurypterid phylogeny Transactions of the Royal Society of Edinburgh Earth Sciences 94 3 227 234 doi 10 1017 S0263593300000638 S2CID 73596575 a b c d Garwood Russell J Dunlop Jason A 2014 Three dimensional reconstruction and the phylogeny of extinct chelicerate orders PeerJ 2 e641 doi 10 7717 peerj 641 PMC 4232842 PMID 25405073 a b c d e Lamsdell James C 2013 01 01 Revised systematics of Palaeozoic horseshoe crabs and the myth of monophyletic Xiphosura Zoological Journal of the Linnean Society 167 1 1 27 doi 10 1111 j 1096 3642 2012 00874 x ISSN 0024 4082 a b c d e Selden Paul A Lamsdell James C Qi Liu 2015 An unusual euchelicerate linking horseshoe crabs and eurypterids from the Lower Devonian Lochkovian of Yunnan China Zoologica Scripta 44 6 645 652 doi 10 1111 zsc 12124 ISSN 1463 6409 S2CID 55264483 a b c d Lamsdell James C Briggs Derek E G Liu Huaibao P Witzke Brian J McKay Robert M 2015 A new Ordovician arthropod from the Winneshiek Lagerstatte of Iowa USA reveals the ground plan of eurypterids and chasmataspidids The Science of Nature 102 9 10 63 doi 10 1007 s00114 015 1312 5 ISSN 0028 1042 PMID 26391849 S2CID 8153035 a b c d Lamsdell James C 2016 Zhang Xi Guang ed Horseshoe crab phylogeny and independent colonizations of fresh water ecological invasion as a driver for morphological innovation Palaeontology 59 2 181 194 doi 10 1111 pala 12220 S2CID 85553811 a b c Dunlop J A Penney D amp Jekel D 2018 A summary list of fossil spiders and their relatives In World Spider Catalog Natural History Museum Bern online at http wsc nmbe ch version 18 5 http www wsc nmbe ch resources fossils Fossils18 5 pdf PDF a b c d e f g h i j k l m Dunlop Jason A Lamsdell James C 2017 Segmentation and tagmosis in Chelicerata Arthropod Structure amp Development 46 3 395 418 doi 10 1016 j asd 2016 05 002 ISSN 1467 8039 PMID 27240897 a b c d e f g h i j k l m n o Lamsdell James C Gunderson Gerald O Meyer Ronald C 2019 01 08 A common arthropod from the Late Ordovician Big Hill Lagerstatte Michigan reveals an unexpected ecological diversity within Chasmataspidida BMC Evolutionary Biology 19 1 8 doi 10 1186 s12862 018 1329 4 ISSN 1471 2148 PMC 6325806 PMID 30621579 a b c Lamsdell James C 2019 A chasmataspidid affinity for the putative xiphosuran Kiaeria Stormer 1934 Palaontologische Zeitschrift 94 3 449 453 doi 10 1007 s12542 019 00493 8 S2CID 207914022 a b c d e f James C Lamsdell Derek E G Briggs 2017 The first diploaspidid Chelicerata Chasmataspidida from North America Silurian Bertie Group New York State is the oldest species of Diploaspis PDF Geological Magazine 154 1 175 180 Bibcode 2017GeoM 154 175L doi 10 1017 S0016756816000662 S2CID 85560431 Archived from the original PDF on 2020 02 27 a b c d e f g h i j Marshall David J Lamsdell James C Shpinev Evgeniy Braddy Simon J 2014 A diverse chasmataspidid Arthropoda Chelicerata fauna from the Early Devonian Lochkovian of Siberia Palaeontology 57 3 631 655 doi 10 1111 pala 12080 ISSN 1475 4983 S2CID 84434367 a b c d e f Jason A Dunlop 2002 Arthropods from the Lower Devonian Severnaya Zemlya Formation of October Revolution Island Russia PDF Geodiversitas 24 2 349 379 a b c d Markus Poschmann Lyall I Anderson amp Jason A Dunlop 2005 Chelicerate arthropods including the oldest phalangiotarbid arachnid from the Early Devonian Siegenian of the Rhenish Massif Germany PDF Journal of Paleontology 79 1 110 124 doi 10 1666 0022 3360 2005 079 lt 0110 CAITOP gt 2 0 CO 2 S2CID 129082668 a b c Lyall I Anderson Jason A Dunlop amp Nigel H Trewin 2000 A Middle Devonian chasmataspid arthropod from Achanarras Quarry Caithness Scotland PDF Scottish Journal of Geology 36 2 151 158 doi 10 1144 sjg36020151 S2CID 140167776 Kenneth E Caster and H K Brooks 1956 New fossils from the Canadian Chazan Ordovician hiatus in Tennessee Bulletins of American Paleontology 36 157 199 a b c d Leif Stormer 1972 Arthropods from the Lower Devonian Lower Emsian of Alken an der Mosel Germany Part 2 Xiphosura Senckenbergiana Lethaea 53 1 29 Shultz Jeffrey W 2007 06 01 A phylogenetic analysis of the arachnid orders based on morphological characters Zoological Journal of the Linnean Society 150 2 221 265 doi 10 1111 j 1096 3642 2007 00284 x ISSN 0024 4082 Lamsdell James C Selden Paul 2013 Babes in the wood a unique window into sea scorpion ontogeny BMC Evolutionary Biology 13 98 1 46 doi 10 1186 1471 2148 13 98 PMC 3679797 PMID 23663507 Moore Rachel A Briggs Derek E G Bartels Christoph 2005 A new specimen ofWeinbergina opitzi Chelicerata Xiphosura from the Lower Devonian Hunsriick Slate Germany Palaontologische Zeitschrift 79 3 399 408 doi 10 1007 BF02991931 ISSN 0031 0220 S2CID 84994966 Legg David A 2014 Sanctacaris uncata the oldest chelicerate Arthropoda Naturwissenschaften 101 12 1065 1073 doi 10 1007 s00114 014 1245 4 ISSN 0028 1042 PMID 25296691 S2CID 15290784 Aria Cedric Caron Jean Bernard 2017 12 21 Mandibulate convergence in an armoured Cambrian stem chelicerate BMC Evolutionary Biology 17 1 261 doi 10 1186 s12862 017 1088 7 ISSN 1471 2148 PMC 5738823 PMID 29262772 Aria Cedric Caron Jean Bernard 2019 A middle Cambrian arthropod with chelicerae and proto book gills Nature 573 7775 586 589 doi 10 1038 s41586 019 1525 4 ISSN 1476 4687 PMID 31511691 S2CID 202550431 Dunlop Jason A Poschmann Markus Anderson Lyall I December 2001 On the Emsian Early Devonian arthropods of the Rhenish Slate Mountains 3 The chasmataspididDiploaspis PalZ 75 2 253 269 doi 10 1007 BF02988018 ISSN 0031 0220 S2CID 128479601 Retrieved from https en wikipedia org w index php title Chasmataspidida amp oldid 1183990458, wikipedia, wiki, book, books, library,

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