Hostname: page-component-77c89778f8-swr86 Total loading time: 0 Render date: 2024-07-20T23:09:01.712Z Has data issue: false hasContentIssue false
  • English
  • Français

Status of Ordovician and Silurian Radiolarian Studies in North America

Published online by Cambridge University Press:  17 July 2017

P. J. Noble  and
J. C. Aitchison
P. J. Noble
Affiliation:
Geology Department, California State University, Sacramento, 95819-6043
J. C. Aitchison
Affiliation:
Department of Earth Sciences, University of Hong Kong, Pokfulam Road, Hong Kong
Get access Rights & Permissions [Opens in a new window]

Extract

Polycystine radiolaria that produce siliceous tests are known to range from Cambrian to Holocene. They have proven to be enormously useful in providing age control for siliceous marine sequences of Middle Devonian and younger ages, particularly for cherts and shales that are commonly devoid of other biostratigraphically useful fossils. The utility of radiolarian biostratigraphy became widely recognized in the 1970s and 1980s when it was applied in dating deformed marine siliceous sequences in orogenic belts around the world, most notably in Cordilleran North America and other areas along the Pacific rim (e.g., Jones and Murchey, 1986; Aitchison and Murchey, 1992; Ichikawa et al., 1990).

Type
Research Article
Information
Short Courses in Paleontology , Volume 8: Siliceous Microfossils , 1995 , pp. 19 - 30
Copyright
Copyright © 1995 Paleontological Society 

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

Aberdeen, E. 1940. Radiolarian fauna of the Caballos Formation, Marathon basin, Texas. Journal of Paleontology, 14:129139.Google Scholar
Afanas'Eva, M. S. 1986. Radiolyarii semeistva Pylentonemidae [Radiolarians of the family Pylentonemidae], Paleontologicheskii Zhurnal [Palaeontological Journal], 3:2234.Google Scholar
Aitchison, J. 1990. Significance of Devonian–Carboniferous radiolarians from accretionary terranes of the New England orogen, eastern Australia. Marine Micropaleontology, 15:365378.Google Scholar
Aitchison, J. 1993. Late Devonian (Frasnian) Radiol aria of the Canning basin, Western Australia. Palaeontographica Abteilung A, 228:105128.Google Scholar
Aitchison, J. and Flood, P. G. 1990. Geochemical constraints on the depositional setting of Paleozoic cherts from the New England orogen, NSW, eastern Australia. Marine Geology 94:7995.Google Scholar
Aitchison, J. and Flood, P. G. 1994. Early Ordovician radiolarians from the Lower Port complex, western Newfoundland, Canada, p. 6. In Abstracts of the Seventh Meeting of the International Association of Radiolarian Paleontologists (INTERRAD VII, Osaka).Google Scholar
Aitchison, J., Hada, S., and Yoshikura, S. 1991. Kurosegawa terrane: disrupted remnants of a low latitude Paleozoic terrane accreted to SW Japan. Journal of Southeast Asian Earth Sciences, 6:8392.Google Scholar
Aitchison, J., Hada, S., and Murchey, B. L. 1992. The significance and application of Radiolaria to terrane analysis. Palaeogeography, Palaeoclimatology, Palaeoecology, 96: 1172.Google Scholar
Amon, E., and Braun, A. 1994. Silurian radiolarians from the southern Urals and Germany, p. 14. In Abstracts of the Seventh Meeting of the International Association of Radiolarian Paleontologists (INTERRAD VII, Osaka).Google Scholar
Baker, C. L., and Bowman, W. F. 1917, Geologic exploration of the southeastern Front Range of Trans-Pecos, Texas. Texas University Bulletin, 1753, p. 6177.Google Scholar
Bergström, S. M. 1974. The oldest known well-preserved radiolarians from North America. Geological Society of America Abstracts with Programs, 6(6):491.Google Scholar
Blome, C. D., Meyerhoff Hull, D., Pessagno, E. A. Jr, and Reed, K. M. (this volume).Google Scholar
Cawood, P. A. and Suhr, G. 1992. Generation and obduction of ophiolites: constraints from the Bay of Islands complex, western Newfoundland. Tectonics 11: 884897.Google Scholar
Deflandre, G. 1953. Radiolaires fossiles. In Grasse, P. P. (ed.), Traité de Zoologie], 1:389436.Google Scholar
Deflandre, G. 1963. Pylentonema, nouveau genre de Radiolaire du Viséen: Sphaerellaire ou Nassellaire?. Comptes Rendus de l'Académie des Sciences, Paris, 257D:39813984.Google Scholar
Dumitrica, P. 1978. Triassic Palaeoscenidiidae and Entactiniidae from the Vicentinian Alps (Italy) and eastern Carpathians (Romania). Dari de seama ale sedintelor, 64:3954.Google Scholar
Dunham, J. B., and Murphy, M. A. 1976. An occurrence of well-preserved radiolarians from the Upper Ordovician (Caradocian), Eureka County, Nevada. Journal of Paleontology, 50:882887.Google Scholar
Elles, G. L., and Wood, E. M. R. 1914. A monograph of British graptolites, part 10. Paleontologocal Society Publication, 67:487526.Google Scholar
Foreman, H. P. 1963. Upper Devonian Radiolaria from the Huron Member of the Ohio Shale. Micropaleontology, 9:267304.Google Scholar
Fortey, R. A., and Holdsworth, B. K. 1972. The oldest known well-preserved Radiolaria. Bolletina della Societá Paleontologia Italiana, 10:3541.Google Scholar
Furutani, H. 1983. Middle Palaeozoic Palaeoscenidiidae (Radiolaria) from Mt. Yokokura, Shikoku, Japan, Part I. Transactions and Proceedings of the Palaeontological Society of Japan. 130:96116.Google Scholar
Furutani, H. 1990. Middle Paleozoic radiolarians from Fukuji area, Gifu Prefecture, central Japan. Journal of Earth Sciences, Nagoya University, 37:156.Google Scholar
Goodbody, Q. H. 1982. Silurian Radiolaria from the Cape Phillips Formation, Canadian Arctic Archipelago. Proceedings of the Third North American Paleontological Convention, 1:211216.Google Scholar
Goodbody, Q. H. 1986. Wenlock Palaeoscenidiidae and Entactiniidae (Radiolaria) from the Cape Phillips Formation of the Canadian Arctic Archipelago. Micropaleontology, 32:129157.Google Scholar
Goto, H.E. and Ishiga, H. 1991. Study of Late Ordovician radiolarians from the Lachlan fold belt, southeastern Australia. Geologic Report, Shimane University, 10:5762.Google Scholar
Haekel, E. 1862. Die Radiolarien (Rhizopoda Radiolaria); ein Monograhie. Riemer, Berlin, Germany, 572 p.Google Scholar
Haekel, E. 1887. Report on the Radiolaria collected by H.M.S. Challenger during the years 1873-1876. Reports of the Voyage of the Challenger; Zoology, Vol. 18, 1083 p.Google Scholar
Holdsworth, B. K. 1969. Namurian Radiolaria of the genus Ceratoikiscum from Staffordshire and Derbyshire, England. Micropaleontology, 15:221229.CrossRefGoogle Scholar
Holdsworth, B. K. 1977. Paleozoic Radiolaria: stratigraphic distribution in Atlantic borderlands, p. 167184. In Swain, F. M. (ed.), Stratigraphic Micropaleontology of Atlantic Basin and Borderlands. Elsevier, Amsterdam.CrossRefGoogle Scholar
Iams, W. I., and Stevens, R. K. 1988. Radiolaria and other siliceous microfossils of the Cow Head Group (Upper Cambrian-Middle Ordovician) of western Newfoundland. Geologica et Palaeontologica, INTERRAD Abstracts, Marburg, Germany, p. 1920.Google Scholar
Ichikawa, K., Mizutani, S., Hara, I., Hada, S., and Yao, A. 1990. Pre-Cretaceous terranes of Japan. In Ichikawa, K. et al. (eds.), IGCP Project 224: Pre-Jurassic evolution of eastern Asia. Nippon Insatsu Shuppan Co. Ltd., Osaka, 413 p.Google Scholar
Jones, D. L., and Murchey, B. L. 1986. Geologic significance of Paleozoic and Mesozoic radiolarian chert. Annual Review of Earth and Planetary Science, 14:455492.Google Scholar
Ketner, K. B. 1991. Stratigraphy, sedimentology, and depositional conditions of lower Paleozoic western-facies rocks in northeastern Nevada. In Cooper, J. D. and Stevens, C. H. (eds.), Paleozoic Paleogeography of the Western United States, II, p. 735746. PAcific Section of the Society of Economic Paleontologists and Mineralogists, 67.Google Scholar
Ketner, K. B., and Ross, R. J. Jr. 1990. Geologic map of the northern Adobe Range, Elko County, Nevada. U.S. Geological Survey Miscellaneous Investigations Map I-2081, 1 sheet, scale 1:24,000.Google Scholar
King, P. B. 1937. Geology of the Marathon region, Texas. U.S. Geological Survey Professional Paper, 187, 148 p.Google Scholar
Nazarov, B. B. 1975. Radiolaria of the lower-middle Paleozoic of Kazakhstan. Academia Nauk, SSSR, Trudy GIN, 275:1203. (In Russian.) Google Scholar
Nazarov, B. B. 1980. Klass Sarcodina; Sarkodovyye; Podklass Radiolaria; Radiolaryarii [Class Sarcodina; subclass Radiolaria)], p. 2224. In Apollonov, M. K. et al., (eds.) Granitsa ordovika i silura v Kazakhstane [The Ordovician-Silurian boundary in Kazakhstan]. Izd. Nauka, Alma-Ata, Kazakhstan, USSR. (In Russian.) Google Scholar
Nazarov, B. B. 1988. Paleozoic Radiolaria, Practical Manual of Microfauna of the USSR. Volume 2. Nedra, Leningrad, 232 p.Google Scholar
Nazarov, B. B. and Ormiston, A. R. 1984. Tentative system of Paleozoic Radiolaria, p. 6487. In Petrushevskaya, M. G. (ed.), Morfologiya Ekologiya i Evolyutsiya Radiolarii, Eurorad IV meeting, October 15–19, 1984: Akademia Nauk SSSR Ecologieskiya Instiytut. [In Russian with English summary.] Google Scholar
Nazarov, B. B. and Ormiston, A. R. 1987. Biostratigraficheskii potentsial Radiolyarii Paleozoya [The biostratigraphic potential of Paleozoic Radiolaria], p. 5358. In Chuvashov, G. I. (ed.), Radiolyarii i Biostratigrafiya [Radiolaria and Biostratigraphy]. Uralian Branch of the Academy of Sciences of the USSR, Sverdlovsk, USSR. (In Russian.) Google Scholar
Nazarov, B. B. and Ormiston, A. R. 1994. New biostratigraphically important Paleozoic Radiolaria of Eurasia and North America, p. 2260. In Blueford, J. R. and Murchey, B. L. (eds.), Radiolaria of Giant and Subgiant Fields in Asia. Micropaleontology Special Publication, 6.Google Scholar
Noble, P. J. 1993. A cosmopolitan Silurian radiolarian assemblage from Texas, Japan, and Australia: its utility and potential as a biostratigraphic tool, p. 275281. In Flood, P. G. (ed.), Tectonics and Metallogenesis of the New England Orogen, Symposium Volume, January 30-February 7, 1993, Armidale, Australia.Google Scholar
Noble, P. J. 1994. Silurian radiolarian zonation for the Caballos Novaculite, Marathon uplift, west Texas. Bulletins of American Paleontology, 106(345), 55 p.Google Scholar
Noble, P. J., and Barrick, J. E. 1991. A Silurian radiolarian bio zonation for the lower chert and shale member of the Caballos Novaculite, Marathon basin, west Texas, U.S.A., p. 67. In Abstracts of the Sixth Meeting of the International Association of Radiolarian Paleontologists (INTERRAD VI, Firenze).Google Scholar
Noble, P. J., and Ketner, K. B. 1994. Early Silurian (early Llandoverian) Radiolaria from the northern Adobe Range, northeastern Nevada, U.S.A., p. 95. In Abstracts of the Seventh Meeting of the International Association of Radiolarian Paleontologists (INTERRAD VII Osaka).Google Scholar
Pessagno, E. A. Jr. 1973. Upper Cretaceous Spumellariina from the Great Valley sequence, California Coast Ranges. Bulletins of American Paleontology, 63(276), 102 p.Google Scholar
Renz, G. W. 1988. Silurian Radiolaria of the genus Ceratoikiscum from the Canadian Arctic. Micropaleontology, 34:260267.Google Scholar
Renz, G. W. 1990a. Ordovician Radiolaria from Nevada and Newfoundland: a comparison at the family level, Marine Micropaleontology, 15:393402.Google Scholar
Renz, G. W. 1990b. Late Ordovician (Caradocian) radiolarians from Nevada. Micropaleontology, 36:367377.Google Scholar
Riedel, W. R. 1967. Subclass Radiolaria, p. 291298. In Harland, W. B. (ed.), The Fossil Record. Geological Society of London.Google Scholar
Ruedemann, R., and Wilson, T. Y. 1936. Eastern New York Ordovician cherts. Geological Society of America Bulletin, 74:15351586.Google Scholar
Sashida, K. 1983. Lower Triassic Radiolaria from the Kanto Mountains, central Japan-Part 1: Palaeoscenidiidae. Transactions and Proceedings of the Palaeontological Society of Japan, New Series, 131:168176.Google Scholar
Thorsteinsson, R. 1958. Cornwallis and Little Cornwallis Islands, District of Franklin, N.W.T. Geological Survey of Canada Memoir, 294, 134 p.Google Scholar
Wakamatsu, H., Sugiyama, K., and Furutani, H. 1990. Silurian and Devonian radiolarians from the Kurosegawa Tectonic Zone, southwest Japan. Journal of Earth Sciences, Nagoya University, 37:157192.Google Scholar
Webby, B. D., and Blom, W. M. 1986. The first well-preserved radiolarians from the Ordovician of Australia. Journal of Paleontology, 60:145157.Google Scholar