Hostname: page-component-78c5997874-j824f Total loading time: 0 Render date: 2024-11-04T22:01:20.797Z Has data issue: false hasContentIssue false
  • English
  • Français

Redescription of Drepanopterus pentlandicus Laurie, 1892, the earliest known mycteropoid (Chelicerata: Eurypterida) from the early Silurian (Llandovery) of the Pentland Hills, Scotland

Published online by Cambridge University Press:  14 March 2013

James C. Lamsdell
James C. Lamsdell*
Affiliation:
Department of Geology and Paleontological Institute, University of Kansas, 1475 Jayhawk Boulevard, Lawrence, Kansas 66045, USA. Email: [email protected]
Get access Rights & Permissions [Opens in a new window]

Abstract

Drepanopterus pentlandicus Laurie, 1892 is redescribed from the original type material along with previously unfigured specimens. A cleft metastoma is confirmed as a characteristic of the genus, along with the armature of the second and third prosomal appendages being modified into flattened blades, while the species is shown to possess a somewhat enlarged second tergite and lateral prosomal margins that overlap the first opisthosomal tergite. Different ontogenetic stages of D. pentlandicus are described, and reveal that these latter characters develop only later in ontogeny, suggesting that described specimens of Drepanopterus abonensis Simpson, 1951 may represent juveniles. Cladistic analysis of Stylonurina shows the genus Drepanopterus to be monophyletic consisting of D. pentlandicus, D. abonensis and D. odontospathus sp. nov.: it forms a basal clade of mycteropoids. Hibbertopteroidea Kjellesvig-Waering, 1959 is shown to be a junior subjective synonym of Mycteropoidea Cope, 1886, with the synonymy of many of the hibbertopterid genera hypothesised and Hibbertopterus Kjellesvig-Waering, 1959 suggested to represent juvenile specimens of Cyrtoctenus Størmer & Waterston, 1968. Hibbertopterus permianus Ponomarenko, 1985 is transferred to Campylocephalus Eichwald, 1860. The role of heterochrony in the morphological development of the mycteropoid lineage is discussed, with both hibbertopterids and mycteropids suggested to be hypertrophic and pre-displacement peramorphs respectively.

Keywords

CampylocephalusDrepanopteridaeDrepanopterus odontospathusheterochronyHibbertopteroideaMycteropoideaperamorphosisphylogenyStylonurina
Type
Articles
Information
Earth and Environmental Science Transactions of The Royal Society of Edinburgh , Volume 103 , Issue 1 , March 2012 , pp. 77 - 103
Copyright
Copyright © The Royal Society of Edinburgh 2012 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

9. References

Abzhanov, A. & Kaufman, T. 2004. Hox genes and tagmatization of the higher Crustacea. In Scholtz, G. (ed.) Evolutionary developmental biology of Crustacea, 4374. Lisse: Balkema.Google Scholar
Allan, R. S. 1927. Keilorites (a new generic name for a Silurian annelid from Australia). Geological Magazine 64, 240.Google Scholar
Almond, J. E. 2002. Giant arthropod trackway, Ecca Group. Geobulletin 45, 28.Google Scholar
Anderson, L. I. 2007. Unmineralised arthropods. In Clarkson, E. N. K., Harper, D. A. T., Taylor, C. M. & Anderson, L. I. (eds) Silurian Fossils of the Pentland Hills, Scotland, 133–56. London: The Palaeontological Association.Google Scholar
Anderson, L. I., Clarkson, E. N. K., Stewart, S. E. & Mitchell, D. 2007. An Upper Llandovery Konservat–Lagerstätte in a depositional context: the Pentland Hills Eurypterid Bed, Midlothian. Scottish Journal of Geology 43, 4150.Google Scholar
Anderson, L. I. & Moore, R. A. 2004. Bembicosoma re-examined: a xiphosuran from the Silurian of the North Esk Inlier, Pentland Hills, Scotland. Transactions of the Royal Society of Edinburgh: Earth Sciences 94 (for 2003), 199206.CrossRefGoogle Scholar
Andrews, H. E., Brower, J. C., Gould, S. J. & Reyment, R. A. 1974. Growth and variation in Eurypterus remipes De Kay. Bulletin of the Geological Institutions of the University of Uppsala 4, 81114.Google Scholar
Botting, J. P. 2007. Algae, receptaculitids and sponges. In Clarkson, E. N. K., Harper, D. A. T., Taylor, C. M. & Anderson, L. I. (eds) Silurian Fossils of the Pentland Hills, Scotland, 3649. London: The Palaeontological Association.Google Scholar
Braddy, S. J. & Dunlop, J. A. 2000. Early Devonian eurypterids from the Northwest Territories of Arctic Canada. Canadian Journal of Earth Sciences 37, 1167–75.CrossRefGoogle Scholar
Bremer, K. 1994. Branch support and tree stability. Cladistics 10, 295304.Google Scholar
Burmeister, H. 1843. Die Organisation der Trilobiten, aus ihren lebenden Verwandten entwickelt; nebst systematische Uebersicht aller seitherbeschriebenen Arten, 1148. Berlin: G. Reimer.Google Scholar
Caster, K. E. & Kjellesvig-Waering, E. N. 1964. Upper Ordovician eurypterids from Ohio. Palaeontographica Americana 4, 300–58.Google Scholar
Clarke, J. M. 1907. The Eurypterus shales of the Shawangunk Mountains in eastern New York. New York State Museum Bulletin 107, 295310.Google Scholar
Clarke, J. M. & Ruedemann, R. 1912. The Eurypterida of New York. New York State Museum Memoir 14, 1439.Google Scholar
Clarkson, E. N. K. 2000. Pentland Odyssey. Scottish Journal of Geology 36, 816.Google Scholar
Clarkson, E. N. K. & Taylor, C. M. 2002. The Deerhope Formation in the North Esk Inlier, Pentland Hills, Scotland. Special Papers in Palaeontology 67, 2944.Google Scholar
Coleman, C. O. 2003. “Digital inking”: How to make perfect line drawings on computers. Organisms Diversity & Evolution 3, Electronic supplement 14, 114.Google Scholar
Cope, E. D. 1886. An interesting connecting genus of Chordata. American Naturalist 20, 1027–31.CrossRefGoogle Scholar
Cuggy, M. B. 1994. Ontogenetic variation in Silurian eurypterids from Ontario and New York State. Canadian Journal of Earth Sciences 31, 728–32.CrossRefGoogle Scholar
De Kay, J. E. 1825. Observations on a fossil crustaceous animal of the order Branchiopoda. Annals of the New York Lyceum of Natural History 1, 375–77.Google Scholar
Diener, C. 1924. Fossilium Catalogus, I: Animalia; Pars 25: Eurypterida, 128. Berlin: W. Junk.Google Scholar
Eichwald, C. E. d' 1860. Lethaea rossica 1, 11360. Stuttgart: Schweizerbartische Verlagsbuchhandlung (Nägele u. Obermiller).Google Scholar
Eldredge, N. 1974. Revision of the suborder Synziphosurina (Chelicerata: Merostomata), with remarks on merostome phylogeny. American Museum Novitates 2543, 141.Google Scholar
Etheridge, R. Jr. 1877. On the remains of a large crustacean, probably indicative of a new species of Eurypterus, or allied genus (Eurypterus? stevensoni), from the lower Carboniferous series (Cementstone Group) of Berwickshire. The Quarterly Journal of the Geological Society, London 33, 223–28.Google Scholar
Farris, J. S., Albert, V. A., Källersjö, M., Lipscomb, D. & Kluge, A. G. 1996. Parsimony jackknifing outperforms neighbor-joining. Cladistics 12, 99124.Google Scholar
Felsenstein, J. 1985. Confidence limits on phylogenies: an approach using the bootstrap. Evolution 39, 783–91.Google Scholar
Fischer de Waldheim, G. 1839. Notice sur un crustacé fossile du genre Eurypterus de Podolie. Bulletin de la Société Imperiale des Naturalistes de Moscou 11, 125–28.Google Scholar
Fraipont, J. 1889. Euryptérides nouveaux du Dévonien supérieur de Belgique (Psammites du Condroz). Annales del la Société Géologique de Belgique 17, 5362.Google Scholar
Gellon, G. & McGinnis, W. 1998. Shaping animal body plans in development and evolution by modulation of Hox expression patterns. BioEssays 20, 116–25.Google Scholar
Goloboff, P. A., Farris, J. S. & Nixon, K. C. 2008. TNT, a free program for phylogenetic analysis. Cladistics 24, 774–86.CrossRefGoogle Scholar
Gupta, N. S., Tetlie, O. E., Briggs, D. E. G. & Pancost, R. D. 2007. The fossilization of eurypterids: a result of molecular transformation. Palaios 22, 439–47.CrossRefGoogle Scholar
Hibbert, S. 1836. On the freshwater limestone of Burdiehouse in the neighbourhood of Edinburgh, belonging to the Carboniferous group of rocks. With supplementary notes on freshwater limestones. Transactions of the Royal Society of Edinburgh 13, 169282.Google Scholar
Hünicken, M. A. 1980. A giant fossil spider (Megarachne servinei) from Bajo de Véliz, Upper Carboniferous, Argentina. Boletin de la Academia Nacional de Ciencias, Córdoba, Argentina 53, 317–41.Google Scholar
Jeram, A. J. & Selden, P. A. 1994. Eurypterids from the Viséan of East Kirkton, West Lothian, Scotland. Transactions of the Royal Society of Edinburgh: Earth Sciences 84 (for 1993), 301–08.Google Scholar
Jordan, H. & von Meyer, H. 1854. Ueber die Crustaceen der Steinkohlenformation von Saarbrücken. Palaeontographica 4, 115.Google Scholar
Kier, P. M. 1973. A new Silurian echinoid genus from Scotland. Palaeontology 16, 651–63.Google Scholar
Kjellesvig-Waering, E. N. 1959. A taxonomic review of some late Paleozoic Eurypterida. Journal of Paleontology 33, 251–56.Google Scholar
Kjellesvig-Waering, E. N. 1966. A revision of the families and genera of the Stylonuracea (Eurypterida). Fieldiana, Geology 14, 169–97.Google Scholar
Kjellesvig-Waering, E. N. & Leutze, W. P. 1966. Eurypterids from the Silurian of West Virginia. Journal of Paleontology 40, 1109–22.Google Scholar
Krzemiński, W., Krzemińska, E. & Wojciechowski, D. 2010. Silurian synziphosurine horseshoe crab Pasternakevia revisited. Acta Palaeontologica Polonica 55, 133–39.Google Scholar
Kues, B. S. & Kietzke, K. K. 1981. A large assemblage of a new eurypterid from the Red Tanks Member, Madera Formation (late Pennsylvanian-early Permian) of New Mexico. Journal of Paleontology 55, 709–29.Google Scholar
Kutorga, S. S. 1838. Beitrag zur Kenntniss der organischen Ueberreste des Kupfersandsteins am westlichen Abhange des Urals, 138. St. Petersburg.Google Scholar
Lamsdell, J. C. 2011. The eurypterid Stoermeropterus conicus from the lower Silurian Pentland Hills, Scotland. Palaeontographical Society Monograph 165 (637), 184, pls 1–15.CrossRefGoogle Scholar
Lamsdell, J. C., Braddy, S. J. & Tetlie, O. E. 2009. Redescription of Drepanopterus abonensis (Chelicerata: Eurypterida: Stylonurina) from the late Devonian of Portishead, UK. Palaeontology 52, 1113–39.Google Scholar
Lamsdell, J. C., Braddy, S. J. & Tetlie, O. E. 2010a. The systematics and phylogeny of the Stylonurina (Arthropoda: Chelicerata: Eurypterida). Journal of Systematic Palaeontology 8, 4961.Google Scholar
Lamsdell, J. C., Braddy, S. J., Loeffler, E. J. & Dineley, D. L. 2010b. Early Devonian stylonurine eurypterids from Arctic Canada. Canadian Journal of Earth Sciences 47, 1405–15.Google Scholar
Lamont, A. 1955. Scottish Silurian Chelicerata. Transactions of the Geological Society of Edinburgh 16, 200–16.Google Scholar
Laurie, M. 1892. On some eurypterid remains from the Upper Silurian rocks of the Pentland Hills. Transactions of the Royal Society of Edinburgh 37, 151–62.Google Scholar
Laurie, M. 1899. On a Silurian scorpion and some additional eurypterid remains from the Pentland Hills. Transactions of the Royal Society of Edinburgh 39, 575–89.Google Scholar
Maddison, W. P. & Maddison, D. R. 2010. Mesquite: A modular system for evolutionary analysis. Version 2.73. http://mesquiteproject.orgGoogle Scholar
McGinnis, W. & Krumlauf, R. 1992. Homeobox genes and axial patterning. Cell 68, 283302.Google Scholar
Murchison, R. I. 1859. Siluria (3rd edn), 1592. London: John Murray.Google Scholar
Novojilov, N. J. 1962. [Order Eurypterida]. In Orlov, Y. A. (ed.) [Fundamentals of Paleontology, Volume 9; Arthropoda, Tracheata, Chelicerata], 404–23, pls. 18–22. Moscow: Akademiya Nauk SSSR. [In Russian.]Google Scholar
O'Connell, M. 1916. The habitat of the Eurypterida. Bulletin of the Buffalo Society of Natural Sciences 11, 1277.Google Scholar
O'Leary, M. A. & Kaufman, S. G. 2007. MorphoBank 2.5: Web application for morphological phylogenetics and taxonomy. http://www.morphobank.orgGoogle Scholar
Orr, P. J., Briggs, D. E. G., Siveter, David J. & Siveter, Derek J. 2000. Three-dimensional preservation of a nonbiomineralized arthropod in concretions in Silurian volcaniclastic rocks from Herefordshire, England. Journal of the Geological Society, London 157, 173–86.Google Scholar
Page, D. 1856. Advanced Text-book of Geology (1st edn), 1326. Edinburgh and London: Blackwood.Google Scholar
Pitcher, B. L. 1939. The Upper Valentian gastropod fauna of Shropshire. Annals and Magazine of Natural History 11, 82132.Google Scholar
Plotnick, R. E. 1999. Habitat of Llandoverian–Lochkovian eurypterids. In Boucot, A. J. & Lawson, J. D. (eds) Paleocommunities: a case study from the Silurian and Lower Devonian, 106–31. Cambridge: Cambridge University Press.Google Scholar
Ponomarenko, A. G. 1985. King crabs and eurypterids from the Permian and Mesozoic of the USSR. Paleontological Journal 3, 115–18.Google Scholar
Poschmann, M. & Tetlie, O. E. 2004. On the Emsian (Early Devonian) arthropods of the Rhenish Slate Mountains: 4. The eurypterids Alkenopterus and Vinetopterus n. gen. (Arthropoda : Chelicerata). Senckenbergiana lethaea 84, 175–96.CrossRefGoogle Scholar
Pruvost, P. 1924. Un Euryptéride nouveau du terrain houiller de Charleroi. Annales de la Société géologique du Nord 46, 143–51.Google Scholar
Ruedemann, R. 1934. Eurypterids from the Lower Devonian of Beartooth Butte, Wyoming. Proceedings of the American Philosophical Society 73, 163–67.Google Scholar
Salter, J. W. 1860. On new fossil Crustacea from the Silurian rocks. Annals and Magazine of Natural History 5, 153–62.Google Scholar
Savage, T. E. 1916. Alexandrian rocks of northeastern Illinois and eastern Wisconsin. Bulletin of the Geological Society of America 27, 305–24.Google Scholar
Scholl, G. 1977. Beiträge zur Embryonalenentwicklung von Limulus polyphemus L. (Chelicerata, Xiphosura). Zoomorphologie 86, 99154.Google Scholar
Scholtz, G. & Edgecombe, G. D. 2006. The evolution of arthropod heads: reconciling morphological, developmental and palaeontological evidence. Development Genes and Evolution 216, 395415.Google Scholar
Sekiguchi, K., Yamamichi, Y. & Costlow, J. D. 1982. Horseshoe crab developmental studies I. Normal embryonic development of Limulus polyphemus compared with Tachypleus tridentatus. In Bonaventura, J., Bonaventura, C. & Tesh, S. (eds) Physiology and Biology of Horseshoe Crabs: Studies on Normal and Environmentally Stressed Animals, 5373. New York: Alan R. Liss, Inc.Google Scholar
Selden, P. A. 1981. Functional morphology of the prosoma of Baltoeurypterus tetragonophthalmus (Fischer) (Chelicerata: Eurypterida). Transactions of the Royal Society of Edinburgh: Earth Sciences 72, 948.Google Scholar
Selden, P. A., Corronca, J. A. & Hünicken, M. A. 2005. The true identity of the supposed giant fossil spider Megarachne. Biology Letters 1, 4448.Google Scholar
Simpson, S. 1951. A new eurypterid from the Upper Old Red Sandstone of Portishead. Annals and Magazine of Natural History 12, 849–61.Google Scholar
Størmer, L. 1951. A new eurypterid from the Ordovician of Montgomeryshire, Wales. Geological Magazine 88, 409–22.Google Scholar
Størmer, L. 1973. Arthropods from the Lower Devonian (Lower Emsian) of Alken an der Mosel, Germany. Part 3: Eurypterida, Hughmilleriidae. Senckenbergiana lethaea 54, 119205.Google Scholar
Størmer, L. 1974. Arthropods from the Lower Devonian (Lower Emsian) of Alken an der Mosel, Germany. Part 4: Eurypterida, Drepanopteridae, and other groups. Senckenbergiana lethaea 54, 359451.Google Scholar
Størmer, L. & Kjellesvig-Waering, E. N. 1969. Sexual dimorphism in eurypterids. In Westermann, G. E. G. (ed) Sexual dimorphism in fossil Metazoa and taxonomic implications, 201–14. Stuttgart: Schweizerbartische Verlagsbuchhandlung (Nägele u. Obermiller).Google Scholar
Størmer, L. & Waterston, C. D. 1968. Cyrtoctenus gen. nov., a large late Palaeozoic arthropod with pectinate appendages. Transactions of the Royal Society of Edinburgh 68, 63110.Google Scholar
Tetlie, O. E. 2004. Eurypterid phylogeny with remarks on the origin of arachnids. 1320. Unpublished PhD Thesis, University of Bristol.Google Scholar
Tetlie, O. E. 2006. Two new Silurian species of Eurypterus (Chelicerata: Eurypterida) from Norway and Canada and the phylogeny of the genus. Journal of Systematic Palaeontology 4, 397412.Google Scholar
Tetlie, O. E. 2007a. Like father, like son? Not amongst the eurypterids (Chelicerata) from Beartooth Butte, Wyoming. Journal of Paleontology 81, 1423–31.Google Scholar
Tetlie, O. E., Anderson, L. I. & Poschmann, M. 2007. Kiaeropterus (Eurypterida; Stylonurina) recognized from the Silurian of the Pentland Hills. Scottish Journal of Geology 43, 17.CrossRefGoogle Scholar
Tetlie, O. E., Brandt, D. S. & Briggs, D. E. G. 2008. Ecdysis in sea scorpions (Chelicerata: Eurypterida). Palaeogeography, Palaeoclimatology, Palaeoecology 265, 182–94.Google Scholar
Tetlie, O. E. & Cuggy, M. B. 2007. Phylogeny of the basal swimming eurypterids (Chelicerata; Eurypterida; Eurypterina). Journal of Systematic Palaeontology 6, 237–49.Google Scholar
Tollerton, V. P. Jr. 1989. Morphology, taxonomy, and classification of the Order Eurypterida Burmeister, 1843. Journal of Paleontology 63, 642–57.Google Scholar
Tollerton, V. P. Jr. 2004. Summary of a revision of New York Ordovician eurypterids: implications for eurypterid palaeoecology, diversity and evolution. Transactions of the Royal Society of Edinburgh: Earth Sciences 94 (for 2003), 235–42.Google Scholar
Tollerton, V. P. Jr 2006. Strabismus and pseudofossils: a case study of Rudolf Ruedemann (1864–1956). Earth Sciences History 25, 239–50.Google Scholar
Waterston, C. D. 1957. The Scottish Carboniferous Eurypterida. Transactions of the Royal Society of Edinburgh, Earth Sciences 63, 265–88.Google Scholar
Waterston, C. D. 1968. Further observations on the Scottish Carboniferous eurypterids. Transactions of the Royal Society of Edinburgh 68, 120.Google Scholar
Waterston, C. D. 1979. Problems of functional morphology and classification in stylonuroid eurypterids (Chelicerata, Merostomata), with observations on the Scottish Silurian Stylonuroidea. Transactions of the Royal Society of Edinburgh 70, 251322.Google Scholar
Waterston, C. D., Oelofsen, B. W. & Oosthuizen, R. D. F. 1985. Cyrtoctenus wittebergensis sp. nov. (Chelicerata : Eurypterida), a large sweep-feeder from the Carboniferous of South Africa. Transactions of the Royal Society of Edinburgh: Earth Sciences 76, 339–58.Google Scholar
McD.Whitaker, J. H. 1962. The geology of the area around Leintwardine, Herefordshire. Quarterly Journal of the Geological Society, London 118, 319–51.CrossRefGoogle Scholar
White, D. 1908. Report on the fossil flora of the coal measures of Brazil. In White, J. C. (ed.) Final report on the coal measures and associated rocks of South Brazil, 377607. Rio de Janeiro: National Press.Google Scholar
Whyte, M. A. 2005. A gigantic fossil arthropod trackway. Nature 438, 576.Google Scholar
Woodward, H. 1868. On some new species of Crustacea from the Upper Silurian rocks of Lanarkshire &c.; and further observations on the structure of Pterygotus. Quarterly Journal of the Geological Society, London 24, 289–96.Google Scholar
Woodward, H. 1887. On a new species of Eurypterus from the Lower Carboniferous shales of Glencartholm, Eskdale, Scotland. Geological Magazine 4, 481–84.Google Scholar
Supplementary material: PDF

Lamsdell Supplementary Material

Appendix

Download Lamsdell Supplementary Material(PDF)
PDF 604.5 KB