Hostname: page-component-586b7cd67f-rcrh6 Total loading time: 0 Render date: 2024-11-27T08:49:17.208Z Has data issue: false hasContentIssue false
  • English
  • Français

An investigation of the Encrinurinae (Trilobita) by numerical taxonomic methods

Published online by Cambridge University Press:  06 July 2012

J. T. Temple  and
R. P. Tripp
J. T. Temple
Affiliation:
Department of Geology, Birkbeck College, London
R. P. Tripp
Affiliation:
British Museum (Natural History), Cromwell Road, London
Get access Rights & Permissions [Opens in a new window]

Synopsis

Numerical taxonomic methods are applied to the Encrinurinae (Trilobita). Thirty-five cranidial and pygidial attributes are defined of which some (e.g. those relating to the glabellar tubercles) are specific to encrinurines and cybelines while others have application to non-encrinurids. Of nearly 200 named species of Encrinurinae only about one-third have been described in the literature in sufficient detail for their cranidial and pygidial attribute states be coded: a much smaller proportion of species is well enough known for librigenal, rostral, hypostomal and thoracic attributes to be coded. A comprehensive numerical taxonomy of the subfamily must therefore await detailed description of most of the known species. A list is given of encrinurine species in need of re-investigation. Meanwhile, 63 species can be coded for 34 attributes, and 75 species for 28 attributes. Principal components analysis is used to produce ordinations of these species. The minimal spanning tree superimposed on the ordination suggests possible evolutionary lineages. Ordination of the attributes is by non-linear mapping based on a distance matrix derived from the inter-attribute correlation matrix by the transformation (tanh−1 |r|)−1. The ordinations compare well with subjective assessments of relations and phylogenies.

Type
Research Article
Information
Earth and Environmental Science Transactions of The Royal Society of Edinburgh , Volume 70 , Issue 10-12 , 1979 , pp. 223 - 250
Copyright
Copyright © Royal Society of Edinburgh 1979

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

Angelin, N. P., 1851. Palaeontologia Svecica. P.I. Crustacea Formationis Transitionis. Fasc. I, 124. Lund.Google Scholar
Barrande, J., 1846. Notice préliminaire sur le Systême Silurien et les trilobites de Bohême, i–vi, 140. Leipzig.CrossRefGoogle Scholar
Barrande, J., 1852. Systême Silurien du centre de la Bohême. Ière Partie: Recherches paléontologiques, Vol. I. Crustacés: Trilobites, i–xxx, 1935. Prague and Paris.Google Scholar
Best, R. V., 1961. Intraspecific variation in Encrinurus ornatus. J. Paleont., 35, 10291040.Google Scholar
Buckland, W., 1836. Geology and Mineralogy considered with Reference to Natural Theology. Bridgewater Treatise 6, 2, 1128. London.CrossRefGoogle Scholar
Campbell, K. S. W., 1967. Trilobites of the Henryhouse Formation (Silurian) in Oklahoma. Bull. Okla. Geol. Surv., 115, 168.Google Scholar
Chang, W. T., 1974. Silurian trilobites. In A Handbook of the Stratigraphy and Paleontology of Southwest China, 173187. Nanking Institute of Geology and Paleontology, Academia Sinica [Chinese].Google Scholar
Chlupáč, I., 1971. The youngest representative of the trilobite genus Cromus from the Silurian of Czechoslovakia. Vest. Ústřed. Úst. Geol., 46, 285287.Google Scholar
Davis, J. C., 1973. Statistics and Data Analysis in Geology, i–xiii, 1550. New York: Wiley.Google Scholar
Dean, W. T., 1973. Lower Ordovician trilobites from the Summerford Group at Virgin Arm, New World Island, north-eastern Newfoundland. Bull. Geol. Surv. Can., 240, 143.Google Scholar
Evitt, W. R. and Tripp, R. P., 1977. Silicified Middle Ordovician trilobites from the families Encrinuridae and Staurocephalidae. Palaeontographica (A), 157, 109174.Google Scholar
Foerste, A., 1888. Notes on Paleozoic fossils. Bull. Scient. Labs Denison Univ., 3, 117137.Google Scholar
Frech, F., 1888. Ueber das Devon der Ostalpen, nebst Bemerkungen über das Silur und einem paläontologischen Anhang. Z. Dt. Geol. Ges., 39, 659738.Google Scholar
Frederickson, E. A., 1964. Two Ordovician trilobites from Southern Oklahoma. Okla. Geol. Notes, 24, 7175.Google Scholar
Gower, J. C. and Ross, G. J. S., 1969. Minimum spanning trees and single linkage cluster analysis. Appl. Statist., 18, 5464.CrossRefGoogle Scholar
Grabau, A. W., 1924. Stratigraphy of China. Part I. Palaeozoic and older, 1528. Geol. Surv. China.Google Scholar
Haas, W., 1968. Trilobiten aus dem Silur und Devon von Bithynien (NW-Türkei). Palaeontographica (A), 130, 60207.Google Scholar
Hall, J. and Whitfield, R. P., 1875. Descriptions of invertebrate fossils, mainly from the Silurian system. Paleontology of Ohio, 2, 65179.Google Scholar
Hamada, T., 1959. Gotlandian shelly fauna from southwest Japan (I). Coronocephalus kobayashii, a new species from the Kuraoka district, Kyûshû. Japan. J. Geol. Geogr., 30, 7188.Google Scholar
Ingham, J. K., 1974. The upper Ordovician trilobites from the Cautley and Dent districts of Westmorland and Yorkshire. Part 2. Palaeontogr. Soc. (Monogr.), 538, 5987.CrossRefGoogle Scholar
Kindle, E. M. and Breger, C. L., 1904. Part II. Paleontology. In The Stratigraphy and Paleontology of the Niagara of Northern Indiana, Kindle, E. M. 28th Ann. Rep. Dep. Geol. Nat. Res. Indiana, 428486.Google Scholar
Krueger, H.-H., 1971. Encrinuriden aus ordovizischen Geschieben (Teil I). Geologie, 20 10, 11321169.Google Scholar
Hong-Tsun, Kuo, 1962. Some Silurian trilobites from the Er-tao-gou Group of Jilin. Acta Palaeont. Sin., 10, 369376.Google Scholar
Maksimova, Z. A., 1970. Silurian trilobites of Vaigach Island. In Stratigraphy and Fauna of the Silurian of Vaigach, Cherkesova, S. V. (ed.), 195209. Leningrad: NIIGA [Russian].Google Scholar
Männil, R., 1968. Encrinurus schmidti sp. n. (Trilobita) from the Llandovery of Estonia. Eesti NSV Tead. Akad. Toim. (Keem. Geol.), 17, 273278.Google Scholar
Männil, R. M., 1958. Trilobites of the families Cheiruridae and Encrinuridae from Estonia. Geoloogia-Inst. Uurim., 3, 165212.Google Scholar
Miller, J., 1976. The Sensory Fields and Life Mode of Phacops rana (Green, 1832) (Trilobita). Trans. Roy. Soc. Edinb., 69, 337367.Google Scholar
Murchison, R. I., 1839. The Silurian System, 1768. London.Google Scholar
Northrop, S. A., 1939. Paleontology and stratigraphy of the Silurian rocks of the Port Daniel-Black Cape Region, Gaspé. Spec. Pap. Geol. Soc. Am., 21, i–ix, 1302.Google Scholar
Portlock, J. E., 1843. Report on the Geology of the County of Londonderry and Parts of Tyrone and Fermanagh. Dublin and London.Google Scholar
Poulsen, C., 1934. The Silurian faunas of North Greenland. I. The fauna of the Cape Schuchert Formation. Meddr Grønland, 72 2, 146.Google Scholar
Reed, F. R. C., 1899. The Lower Palaeozoic bedded rocks of County Waterford. Q. Jl Geol. Soc. Lond., 55, 718771.CrossRefGoogle Scholar
Reed, F. R. C., 1914. The Lower Palaeozoic Trilobites of the Girvan district, Ayrshire. Supplement. Palaeontogr. Soc. (Monogr.), 156.Google Scholar
Reed, F. R. C., 1928. Notes on the family Encrinuridae. Geol. Mag., 65, 5177.CrossRefGoogle Scholar
Reed, F. R. C., 1931. The Lower Palaeozoic trilobites of Girvan. Supplement No. 2. Palaeontogr. Soc. (Monogr.), 130.Google Scholar
Rosenstein, E., 1941. Die Encrinurus-Artea des Estländischen Silurs. Tartu Ülik. Geol.-Inst. Toim., 62, 4977.Google Scholar
Salter, J. W., 1848. In Palaeontological Appendix to Professor John Phillips' Memoir on the Malvern Hills, compared with the Palaeozoic districts of Abberley, &c., Phillips, J. and Salter, J. W., Mem. Geol. Surv. U.K., 2 (10-12), 331386.Google Scholar
Salter, J. W., 1852. Geology. In Journal of a Voyage in Baffin's Bay and Barrow Straits, in the Years 1850–1851., Sutherland, P. C., 2, ccxvii–ccxxxiii. London.Google Scholar
Sammon, J. W., 1969. A nonlinear mapping for data structure analysis. IEEE Trans. Computers, C18, 401409.CrossRefGoogle Scholar
Schmidt, F., 1859. Beitrag zur Geologie der Insel Gotland, nebst einigen Bemerkungen über die untersilurische Formation des Festlandes von Schweden und die Heimath der norddeutschen silurischen Geschiebe. Arch. Naturk. Liv-Est-u. Kurlands, 2, 403464.Google Scholar
Schmidt, F., 1881. Revision der ostbaltischen silurischen Trilobiten, nebst geognostischer Uebersicht des ostbaltischen Silurgebiets. Abt. I. Phacopiden, Cheiruriden und Encrinuriden. Zap. Imp. Akad. Nauk, (7), 30, 1, 1238.Google Scholar
Schrank, E., 1972. Proetacea, Encrinuridae und Phacopina (Trilobita) aus silurischen Geschieben. Geologie, 21 76, 1117.Google Scholar
Shaw, F. C., 1968. Early Middle Ordovician Chazy trilobites of New York. Mem. N. Y. St. Mus. Sci. Serv., 17, 1163.Google Scholar
Sheng, S. F., 1964. Upper Ordovician trilobite faunas of Szechuan-Kweichow with special discussion on the classification and boundaries of the Upper Ordovician. Acta Palaeont. Sin., 12, 537552.Google Scholar
Temple, J. T., 1968. The Lower Llandovery (Silurian) brachiopods from Keisley, Westmorland. Palaeontogr. Soc. (Monogr.), 521, 158.Google Scholar
Temple, J. T., 1975. Standardisation of trilobite orientation and measurement. Fossils & Strata, 4, 461467.CrossRefGoogle Scholar
Temple, J. T., 1978. The use of factor analysis in geology. Math. Geol., 10, 379387.CrossRefGoogle Scholar
Tripp, R. P., 1954. Caradocian Trilobites from Mudstones at Craighead Quarry, near Girvan, Ayrshire. Trans. Roy. Soc. Edinb., 62, 655693.CrossRefGoogle Scholar
Tripp, R. P., 1957. The trilobite Encrinurus multisegmentatus (Portlock) and allied Middle and Upper Ordovician species. Palaeontology, 1, 6072.Google Scholar
Tripp, R. P., 1962 a. Trilobites from the confinis Flags (Ordovician) of the Girvan District, Ayrshire. Trans. Roy. Soc. Edinb., 65, 140.CrossRefGoogle Scholar
Tripp, R. P., 1962 b. The Silurian trilobite Encrinurus punctatus (Wahlenberg) and allied species. Palaeontology, 5, 460477.Google Scholar
Tripp, R. P., 1965. Trilobites from the Albany division (Ordovician) of the Girvan district, Ayrshire. Palaeontology, 8, 577603.Google Scholar
Tripp, R. P., 1967. Trilobites from the Upper Stinchar Limestone (Ordovician) of the Girvan District, Ayrshire. Trans. Roy. Soc. Edinb., 67, 4393.CrossRefGoogle Scholar
Tripp, R. P., 1974. New encrinurid trilobites from the Galena Formation (Ordovician) of Wisconsin and Iowa. J. Paleont., 48, 485488.Google Scholar
Tripp, R. P., Temple, J. T. and Gass, K. C., 1977. The Silurian trilobite Encrinurus variolaris and allied species, with notes on Frammia. Palaeontology, 20, 847867.Google Scholar
Twenhofel, W. H., 1928. Geology of Anticosti Island. Mem. Geol. Surv. Can., 154, 1481.Google Scholar
Wahlenberg, G., 1818. Petrificata telluris Svecanae. Nova Acta R. Soc. Scient. Upsal., 8, 1116.Google Scholar
Webby, B. D., Moors, H. T. and Mclean, R. A., 1970. Malongullia and Encrinuraspis, new Ordovician trilobites from New South Wales, Australia. J. Paleont., 44, 881887.Google Scholar
Weller, S., 1907. The paleontology of the Niagaran Limestone in the Chicago area. The Trilobita. Bull. Nat. Hist. Surv. Chicago Acad. Sci., 4, 161281.Google Scholar
Whittard, W. F., 1938. The Upper Valentian Trilobite Fauna of Shropshire. Ann. Mag. Nat. Hist., (11), 1, 85140.CrossRefGoogle Scholar
Whittington, H. B. and Campbell, K. S. W., 1967. Silicified Silurian Trilobites from Maine. Bull. Mus. Comp. Zool. Harv., 135, 447482.Google Scholar