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The graptolite genus Hunnegraptus in the Early Ordovician of Texas, USA

Published online by Cambridge University Press:  20 May 2016

Jörg Maletz
Jörg Maletz*
Affiliation:
Department of Geology, State University of New York at Buffalo 14260-3050, USA,
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Abstract

The biostratigraphically important genus Hunnegraptus is recognized for the first time in the Marathon region, West Texas, based on restudy of the type material of Didymograptus novus Berry, 1960. The late Tremadoc Hunnegraptus Zone is the oldest unequivocally recognized graptolite zone in the Marathon region, underlain by faunas with nondiagnostic adelograptids. Hunnegraptus novus (Berry) shows a sicular bitheca, dichograptid stipes, and delayed first distal dichotomies as the most important rhabdosome characteristics. Hunnegraptus Zone faunas are more widely distributed in North America than previously realized and an immensely useful discovery for biostratigraphic correlation of this late Tremadoc time interval.

Type
Research Article
Information
Journal of Paleontology , Volume 80 , Issue 3 , May 2006 , pp. 423 - 429
Copyright
Copyright © The Paleontological Society 

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References

Albanesi, G. L., Ortega, G., and Zeballo, F. 2001. Late Tremadocian conodont-graptolite biostratigraphy from NW Argentine basins. Guide Book, Abstracts and Ordovician–Silurian correlation chart for the joint field meeting of IGCP 410 and IGCP 421 in Mongolia, Ulan Bator, 121123.Google Scholar
Benedetto, J. L., Brussa, E. D., and Pompei, J. F. 2002. El Ordovicico de la region de Susques-Huancar (Puna oriental de Jujuy): Precisiones sobre sue dad y significado estratigrafico. Actas del XV Congreso Geologico Argentino, El Calafate, 1:572577.Google Scholar
Benson, W. N., and Keble, R. A. 1935. The geology of the regions adjacent to Preservation and Chalky inlets, Fjordland, New Zealand, Pt. 4, Stratigraphy and palaeontology of the fossiliferous Ordovician rocks. Transactions of the Royal Society of New Zealand, 65:244294, pls. 30–33.Google Scholar
Bergström, S. M., Löfgren, A., and Maletz, J. 2004. The GSSP of the Second (Upper) Stage of the Lower Ordovician Series: Diabas-brotter at Hunneberg, Province of Västergötland, southwestern Sweden. Episodes, 24(4):265272.Google Scholar
Berry, W. B. N. 1960. Graptolite faunas of the Marathon region, West Texas. University of Texas Publications, 6005:1179.Google Scholar
Berry, W. B. N. 1992. A base for the Arenig: The Tetragraptus approximatus Zone, p. 123133. In Webby, B. D. and Laurie, J. R. (eds.), Global Perspectives on Ordovician Geology. A. A. Balkema, Rotterdam/Brookfield.Google Scholar
Braithwaite, L. F. 1976. Graptolites from the lower Ordovician Pogonip Group of western Utah. Special paper. Geological Society of America, 166:1106.Google Scholar
Bulman, O. M. B. 1941. Some dichograptids of the Tremadocian and Lower Ordovician. Annals and Magazine of Natural History, second series, 7:100121.Google Scholar
Cooper, R. A., and Fortey, R. A. 1982. The Ordovician graptolites of Spitsbergen. Bulletin of the British Museum (Natural History), Geology Series, 36:157302.Google Scholar
Cooper, R. A., Maletz, J., Wang, H., and Erdtmann, B.-D. 1998. Taxonomy and evolution of earliest Ordovician graptoloids. Norsk Geologisk Tidsskrift, 78:332, 25 figs.Google Scholar
Egenhoff, S. O., Maletz, J., and Erdtmann, B.-D. 2004. Lower Ordovician graptolite biozonation and lithofacies of southern Bolivia: Relevance for palaeogeographic interpretations. Geological Magazine, 141:287299.Google Scholar
Eichwald, E. J. 1855. Beitrag zur geographischen Verbreitung der fossilen Thiere Russlands, Alte Periode. Bulletin de la Societé Imperiale des Naturalistes de Moscou, 28:433466.Google Scholar
Emmons, E. 1855. American Geology 1 (1). Sprague, Albany, New York, 194 p.Google Scholar
Erdtmann, B.-D. 1965. Outline stratigraphy of graptolite-bearing 3b (Lower Ordovician) strata in the Oslo Region, Norway. Norsk Geologisk Tidsskrift, 45:481547.Google Scholar
Erdtmann, B.-D., Maletz, J., and Gutierrez-Marco, J. C. 1987. The new early Ordovician (Hunneberg Stage) graptolite genus Paradelograptus (Kinnegraptidae), its phylogeny and biostratigraphy. Paläontologische Zeitschrift, 61:109131.CrossRefGoogle Scholar
Fortey, R. A., and Cooper, R. A. 1986. A phylogenetic classification of the graptoloids. Palaeontology, 29:631654.Google Scholar
Hall, J. 1858. Note upon the genus Graptolithus, and description of some remarkable new forms from the shales of the Hudson River Group, discovered in the investigations of the Geological Survey of Canada, under the direction of Sir W. E. Logan, F. R. S. Canadian Naturalist/Geologist, 3:139150, 161–177.Google Scholar
Hall, T. S. 1899. Victorian graptolites: Pt. 2. The graptolites of the Lancefield beds. Proceedings of the Royal Society of Victoria, 11:164178.Google Scholar
Harris, W. J., and Thomas, D. E. 1939. Victorian graptolites (new series), Pt. 6, some multiramous forms. Mining and Geological Journal of Victoria, 2:5560.Google Scholar
Hopkinson, J., and Lapworth, C. 1875. Descriptions of the graptolites of the Arenig and Llandeilo rocks of St. David's. Quarterly Journal of the Geological Society of London, 31:631672, pls. 33–37.Google Scholar
Izhold, M. D. 1993. Early Ordovician shelf-slope conodont biostratigraphy and biofacies differentiation of western Iapetus in West Texas and New York. Unpublished , , 221 p.Google Scholar
Jackson, D. E., and Lenz, A. C. 2000. Some graptolites from the late Tremadoc and early Arenig of Yukon, Canada. Canadian Journal of Earth Sciences, 37:11771193.Google Scholar
Jackson, D. E., and Lenz, A. C. 2003. Taxonomic and biuostratigraphical significance of the Tremadoc graptolite fauna from northern Yukon Territory, Canada. Geological Magazine, 140:131156.Google Scholar
King, P. B. 1937. Geology of the Marathon Region, West Texas. U.S. Geological Survey Professional Paper, 187, 148 p.Google Scholar
Lapworth, C. 1873. Notes on British graptolites and their allies, 1. On an improved classification of the Rhabdophora. Geological Magazine, 10:500504,555–560, table 1.Google Scholar
Lindholm, K. 1991a. Hunnebergian graptolites and biostratigraphy in southern Scandinavia. Lunds Publications in Geology, 95, 36 p.Google Scholar
Lindholm, K. 1991b. Ordovician graptolites from the early Hunneberg of southern Scandinavia. Palaeontology, 34:283327.Google Scholar
Maletz, J. 1997a. Ordovician graptolites below the base of the Tetragraptus approximatus Zone. Ordovician News, 14:4351.Google Scholar
Maletz, J. 1997b. Arenig Biostratigraphy of the Pointe-de-Lévy slice, Québec Appalachians, Canada. Canadian Journal of Earth Sciences, 34:733752.CrossRefGoogle Scholar
Maletz, J. 1999. Late Tremadoc graptolites and the base of the Tetragraptus approximatus zone. Acta Universitatis Carolinae–Geologica, 43:2528.Google Scholar
Maletz, J., and Egenhoff, S. O. 2001. The Late Tremadoc to early Arenig graptolite succession of southern Bolivia and their implications for a worldwide biozonation. Lethaia, 34:4762.CrossRefGoogle Scholar
Maletz, J., and Egenhoff, S. O. 2003. Lower to Middle Ordovician graptolite biostratigraphy of southern Bolivia. Revista Tecnica de YPFB, 21:103115.Google Scholar
Maletz, J., Egenhoff, S. O., and Erdtmann, B.-D. 1999. Late Tremadoc to early Arenig graptolite succession of southern Bolivia. Acta Universitatis Carolinae Geologica, 43:2932.Google Scholar
Maletz, J., Löfgren, A., and Bergström, S. M. 1996. The base of the Tetragraptus approximatus Zone at Mt. Hunneberg, S.W Sweden: A proposed global stratotype for the base of the second series of the Ordovician System. Newsletters on Stratigraphy, 52:129159.Google Scholar
Monsen, A. 1925. Über eine neue ordovizische Graptolithenfauna. Norsk Geologisk Tidsskrift, 8:147187.Google Scholar
Mu, A. T. 1957. Some new or little known graptolites from the Ningkuo Shale (Lower Ordovician) of Changshan, western Chekinag. Acta Palaeontologica Sinica, 5:369438.Google Scholar
Mu, A. T. 1963. On the complication of graptolite rhabdosomes. Acta Palaeontologica Sinica, 11(3):346377.Google Scholar
Nicholson, H. A. 1873. On some fossils from the Quebec group of Point Levis, Quebec. Annals and Magazine of Natural History, series 4, 11:133143.CrossRefGoogle Scholar
Ortega, G., and Albanesi, G. L. 2002. Bioestratigrafia de graptolitos y conodontes del Tremadociano tardio de la Cordillera Oriental, Argentina. Actas del XV Congreso Geologico Argentino, El Calafate, 1:542547.Google Scholar
Ortega, G., and Albanesi, G. L. 2003. Pages 7985. In Ortega, G. and Acenolaza, G. F. (eds.), Proceedings of the 7th International Graptolite Conference & Field Meeting of The International Subcommission on Silurian Stratigraphy (INSUEGO). Serie Correlacion Geologica, 18.Google Scholar
Pander, C. H. 1856. Monographie der Fossilen Fische des Silurischen Systems der Russisch-Baltischen Gouvernements. Akademie der Wissenschaften, St. Petersburg, Russia, 91 p.Google Scholar
Ruedemann, R. 1937. A new North American graptolite faunule. American Journal of Science, 33:5762.Google Scholar
Salter, J. W. 1863. Notes on the Skiddaw Slate Fossils. Quarterly Journal of the Geological Society of London, 19:135140.Google Scholar
Tjernvik, T. E. 1956. On the early Ordovician of Sweden. Stratigraphy and Fauna. Bulletin of the Geological Institute of the University of Uppsala, 36:107284.Google Scholar
Tjernvik, T. E., and Johansson, J. V. 1980. Description of the upper portion of the drillcore from Fingrundet in the South Bothnian Bay. Bulletin of the Geological Institution of Uppsala, 8:173204.Google Scholar
Törnquist, S. V. 1901. Researches into the graptolites of the lower zones of the Scanian and Vestrogothian Phyllo-Tetragraptus beds 1. Lunds Universitets Årsskrift 37, Afdeln. 2, Nr. 5:126, 3 pls. (also as Kongl. Fysiografiska Sällskapets Handlingar 12, Nr. 5) Google Scholar
Wang, G. 1981. On the discovery of new graptolites from the Tungtze Formation (Lower Ordovician) in Gulin of Sichuan. Acta Palaeontologia Sinica, 20:349352.Google Scholar
Webby, B. D. 1998. Steps towards a global standard for Ordovician stratigraphy. Newsletters on Stratigraphy, 36:133.CrossRefGoogle Scholar
Williams, S. H., Barnes, C. R., O'Brien, F. H. C., and Boyce, W. D. 1994. A proposed global stratotype for the second series of the Ordovician System: Cow Head Peninsula, western Newfoundland. Bulletin of Canadian Petroleum Geology, 42:219231.Google Scholar
Williams, S. H., Nowlan, G. S., Barnes, C. R., and Batten, R. S. R. 1999a. The Ledge section at Cow Head, western Newfoundland as a GSSP candidate for the lower boundary of the second stage of the Ordovician System: New data and discussion of the graptolite, conodont and chitinozoan assemblages. A report to the IUGS/ICS Subcommission on Ordovician stratigraphy, June 1999, 30 p.Google Scholar
Williams, S. H., Nowlan, G. S., Barnes, C. R., and Batten, R. S. R. 1999b. The Ledge section at Cow Head, western Newfoundland: New data and discussion of the graptolite, conodont and chitinozoan assemblages. Acta Universitatis Carolinae Geologica, 43:6568.Google Scholar
Wilson, J. L. 1954. Ordovician stratigraphy in Marathon folded belt, West Texas. Bulletin of the American Assocciation of Petroleum Geologists, 38:24552475.Google Scholar