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Anatomically Preserved Early Cretaceous Bennettitalean Leaves: Nilssoniopteris corrugata n. sp. from Vancouver Island, Canada

Published online by Cambridge University Press:  15 October 2015

M. Madeleine Ray ,
Gar W. Rothwell  and
Ruth A. Stockey
M. Madeleine Ray
Affiliation:
Department of Environmental and Plant Biology, Ohio University, Athens, OH 45701, USA, ;
Gar W. Rothwell
Affiliation:
Department of Environmental and Plant Biology, Ohio University, Athens, OH 45701, USA, ; Department of Botany and Plant Pathology, Oregon State University, Corvallis, OR 97331, USA, ; and
Ruth A. Stockey
Affiliation:
Department of Botany and Plant Pathology, Oregon State University, Corvallis, OR 97331, USA, ; and
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Abstract

Early Cretaceous fossilized leaves assignable to the extinct seed plant order Bennettitales occur within an exceptionally diverse Early Cretaceous (Valanginian) flora of anatomically preserved plant fossils at Apple Bay on Vancouver Island, British Columbia, Canada. One of the bennettitalean leaf types has an entire margin, with laminae that are attached near the adaxial surface of the midvein. Leaves are 10–15 mm wide with an adaxial surface that shows distinct corrugations, and a midrib that is exposed adaxially. The vascular system of the midrib consists of a crescent-shaped ring of collateral bundles. Lateral veins diverge from midrib at ∼90°, are typically simple but occasionally branch at base of the lamina. Vein density is 12–15 per cm. Leaves are hypostomatic with syndetocheilic stomata that are randomly oriented between veins. Internal anatomy consists of an adaxial hypodermis of closely-spaced isodiametric cells, mesophyll that is differentiated into adaxial palisade and abaxial spongy zones, and collateral bundles that show a distinct bundle sheath with bundle sheath extensions. This novel combination of characters represents the diverse bennettitalean genus Nilssoniopteris. Nilssoniopteris corrugata new species is only the second species of the genus for which internal anatomy is preserved. This species increases the known variation of bennettitalean leaf anatomy, and reinforces our appreciation for the global distribution of bennettitalean seed plants during the Mesozoic.

Type
Research Article
Information
Journal of Paleontology , Volume 88 , Issue 5 , September 2014 , pp. 1085 - 1093
Copyright
Copyright © The Paleontological Society 

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References

Arber, E. A. N. and Parkin, J. 1907. On the origin of angiosperms. Journal of the Linnean Society of London, Botany, 38:2980.Google Scholar
Ash, S. R. 1978. Geology, paleontology, and paleoecology of a Late Triassic Lake, western New Mexico. Brigham Young University Geology Studies 25, No. 2, p. 195.Google Scholar
Barale, G., Thévenard, F., and Zhou, Z. 1998. Discovery of Nilssoniopteris in the Middle Jurassic Yima Formation of Henan, Central China. Geobios, 31:1320.Google Scholar
Barnard, P. D. W. and Miller, J. C. 1976. Flora of the Shemshak Formation (Elburz, Iran), Part 3: Middle Jurassic (Dogger) plants from Katumbargah, Vasek Gah and Ihnam Manak. Palaeontographica, 155B:31117.Google Scholar
Bose, M. N. and Banerji, J. 1984. The fossil floras of Kachchh. I-Mesozoic megafossils. Palaeobotanist, 33:1189.Google Scholar
Boyd, A. 2000. Bennettitales from the Early Cretaceous floras of West Greenland: Pterophyllum and Nilssoniopteris . Palaeontographica, 255B:4777.Google Scholar
Cleal, C. J., Mcallister, P. Rees, A., Zijlstra, G., and Cantrill, D. J. 2006. A clarification of the type of Nilssoniopteris Nathorst (fossil Gymnospermophyta, Bennettitales). Taxon, 55:219222.Google Scholar
Crane, P. R. 1985. Phylogenetic analysis of seed plants and the origin of angiosperms. Annals of the Missouri Botanical Garden, 72:716793.Google Scholar
Crepet, W. L. and Stevenson, D. W. 2010. The bennettitaleans (Cycadeoidales): A preliminary perspective on this arguably enigmatic group, p. 215244. In Gee, C. L. (ed.), Plants in Mesozoic Time: Morphological Innovations, Phylogeny, Ecosystems. Indiana University Press, Bloomington, Indiana.Google Scholar
Carruthers, W. 1870. On fossil cycadean stems from the secondary rocks of Britain. Transactions of the Linnean Society of London, 26:675708.Google Scholar
Doludenko, M. P. and Svanidze, T. I. 1969. The Late Jurassic flora of Georgia. Trudy Geol. Inst. Akad Nauk SSSR, 178:596. (In Russian) Google Scholar
Dower, B. L., Bateman, R. L., and Stevenson, D. W. 2004. Systematics, ontogeny, and phylogenetic implications of exceptional anatomically preserved cycadophyte leaves from the Middle Jurassic of Bearreraig Bay, Skye, northwest Scotland. Botanical Review, 70:105120.Google Scholar
Engler, A. 1892. Syllabus der Vorlesungen über spezielle und medizinisch-pharmaceutische Botanik. Gebr. Borntraeger, Berlin.Google Scholar
Florin, R. 1933. Studien über die die Cycadales des Mesozoikums nebst Erörterungen über die Spaltöffnungsapparate der Bennettitales. Kungliga Svenska Vetenskapskademiens Handlinger, 12:1134.Google Scholar
Friis, E. M., Crane, P. R., Pederson, K. R., Bengston, S., Donoghue, P. C. J., Grimm, G. W., and Stampanoni, M. 2007. Phase-contrast X-ray microtomography links Cretaceous seeds with Gnetales and Bennettitales. Nature, 450:549552.Google Scholar
Friis, E. M., Crane, P. R., and Pedersen, K. R. 2011. The Early Flowers and Angiosperm Evolution. Cambridge University Press, Cambridge.Google Scholar
Gomolitzky, N. P. 1974. Novyje jurskije cikadofity iz Gangrena. Botanicheski Zhurnal, 59:11991203. (In Russian) Google Scholar
Gordenko, N. V. and Broushkin, A. V. 2010. A new bennettitalean genus from the Middle Jurassic of the Mikhailovskii Rudnik locality (Kursk Region, Russia). Paleontological Journal, 44:13081320.Google Scholar
Harris, T. M. 1926. The Rhaetic flora of Scoresby Sound, East Greenland. Meddelelser om Grønland, 68:143.Google Scholar
Harris, T. M. 1932. The fossil flora of Scoresby Sound, East Greenland. 3. Caytoniales and Bennettitales. Meddelelser om Grønland 85:1133.Google Scholar
Harris, T. M. 1946. Liassic and Rhaetic plants collected in 1936–38 from East Greenland. Meddelelser om Grønland, 114:138.Google Scholar
Harris, T. M. 1969. The Yorkshire Jurassic flora III. Bennettitales. British Museum (Natural History), London, U.K. Google Scholar
Hermsen, E. J., Taylor, T. N., Taylor, E. L., and Stevenson, D. W. 2006. Cataphylls of the Middle Triassic cycad Antarcticycas schopfii and new insights into cycad evolution. American Journal of Botany, 93:724734.Google Scholar
Joy, K. W., Willis, A. J., and Lacey, W. S. 1956. A rapid cellulose peel technique in palaeobotany. Annals of Botany, NS, 20:635637.Google Scholar
Krassilov, V. A. 1973. Materials on the stratigraphy and taphofloras of the coal-bearing strata of Bureja Basin, p. 2851. In Krassilov, V. A. (ed.), Fossil Floras and Phytostratigraphy of the Far East. Akademia NAUK SSSR, Vladivostock.Google Scholar
Kvaĉek, J. 1995. Cycadales and Bennettitales leaf compressions of the Bohemian Cenomanian, Central Europe. Review of Palaeobotany and Palynology, 84:389412.Google Scholar
Lundblad, A. B. 1950. Studies in the Rhaeto-liassic Floras of Sweden. Kungliga Svenska Vetenskapsakademiens Handlinger 1, 8:176.Google Scholar
Manum, S. B., Bose, M. N., and Vigran, J. O. 1991. The Jurassic flora of Andøya, northern Norway. Review of Palaeobotany and Palynology, 68:233256.Google Scholar
McLoughlin, S., Carpenter, R. J., and Pott, C. 2011. Ptilophyllum muelleri (Ettingsh.) comb. nov. from the Oligocene of Australia: last of the Bennettitales? International Journal of Plant Sciences, 172:574585.Google Scholar
Na, Y., Sun, C., Dilcher, D. L., Wang, H., Li, T., and Li, Y. 2014. Nilssoniopteris binggouensis sp. nov. (Bennettitales) from the Lower Cretaceous of northeast China. International Journal of Plant Sciences, 175:369381.Google Scholar
Nathorst, A. G. 1886. Om floran i Skånes kolförande bildnin-gar. I. Floran vid Bjuf. Andra häftet. Sveriges Geologiska Undersökning, Serie C, 335:5582.Google Scholar
Nathorst, A. G. 1897. Mesozoischen Flora Spitzbergens gergründet auf die Sammlugen der swedischen Expeditionen. Pal Kungliga Svenska Vetenskapsakademiens Handlingar, 30:177.Google Scholar
Nathorst, A. G. 1902. Beiträge zur Kenntnis einiger mesozoischer Cycadophyten. Kungliga Svenska Vetenskapsakademiens Handlinger, 36:128.Google Scholar
Nathorst, A. G. 1909. Paläobotanische Mitteilungen, 8: Pal Kungliga Svenska Vetenskapsakademiens Handlinger, 45:137.Google Scholar
Norstog, J. K. and Nichols, T. K. 1997. The biology of the cycads. Cornell University Press, Ithaca, New York.Google Scholar
Ohana, T. and Kimura, T. 1991. Permineralized Otozamites leaves (Bennettitales) from the Upper Cretaceous of Hokkaido, Japan. Transaction of Proceedings of the Palaeontological Society Japan, 164:944963.Google Scholar
Orlovskaja, E. R. 1976. Jurskaja flora Karatau. Akademija Nauk SSSR, 284:1260.Google Scholar
Pott, C., Krings, M., and Kerp, H. 2007. First record of Nilssoniopteris (Gymnospermophyta, Bennettitales) from the Carnian (Upper Triassic) of Lunz, Lower Austria. Palaeontology, 50:12991318.Google Scholar
Rothwell, G. W., Crepet, W. L., and Stockey, R. A. 2009. Is the anthophyte hypothesis alive and well? New evidence from the reproductive structures of Bennettitales. American Journal of Botany, 96:296322.Google Scholar
Rothwell, G. W. and Stockey, R. A. 2010. Independent evolution of seed enclosure in the Bennettitales: Evidence from the anatomically preserved cone Foxeoidea connatum gen. et sp. nov., p. 5164. In Gee, C. L. (ed.), Plants in Mesozoic Time: Morphological Innovations, Phylogeny, Ecosystems. Indiana University Press, Bloomington, Indiana.Google Scholar
Rothwell, G. W. and Stockey, R. A. 2013. Evolution and phylogeny of gnetophytes: Evidence from the anatomically preserved seed cone Protoephedrites eamesii gen. et sp. nov. and the seeds of several bennettitalean species. International Journal of Plant Sciences, 174:511529.Google Scholar
Samylina, V. A. 1961. New data on the Lower Cretaceous flora of the southern part of the Maritime Territory of the R.S.F.S.R. Botanicheskiĭ Zhurnal, 46:636645.Google Scholar
Samylina, V. A. 1963. The Mesozoic flora of the lower course of the Aldan River. Paleobotanika, 4:57139.Google Scholar
Samylina, V. A. 1964. Mezozojskaja flora levoberezhija reki Kolymy, I. Chvosczevie, paporotniky, cikadovye, bennettitovye. Trudy/Akademija Nauk SSSR, Botanic̆eskij Institut Imeni V. L. Komarova Serija 8, Paleobotanika, 5:4079.Google Scholar
Stevenson, D. W. 1990. Morphology and systematics of the Cycadales. Memoirs of the New York Botanical Garden, 57:855.Google Scholar
Stewart, W. N., and Rothwell, G. W. 1993. Paleobotany and the evolution of plants. 2nd ed., Cambridge University Press, Cambridge, U.K. Google Scholar
Stockey, R. A. and Rothwell, G. W. 2006. The last of the pre-angiospermous vegetation: A Lower Cretaceous flora from Apple Bay, Vancouver Island. In Abstracts of Advances in Paleobotany. Recognizing the contributions of David L. Dilcher and Jack A. Wolfe on the occasion of their 70th Birthday. Gainesville, Florida Museum of Natural History, University of Florida. http://www.flmnh.ufl.edu/paleobotany/meeting/abstract.htm#Stockey.Google Scholar
Stockey, R. A., Rothwell, G. W., and Little, S. A. 2006. Relationships among fossil and living Dipteridaceae: Anatomically preserved Hausmannia from the Lower Cretaceous of Vancouver Island. International Journal of Plant Sciences, 167:649663.Google Scholar
Stockey, R. A. and Rothwell, G. W. 2009 . Distinguishing angiophytes from the earliest angiosperms: A Lower Cretaceous (Valanginian–Hauterivian) fruit-like reproductive structure. American Journal of Botany, 96:323335.Google Scholar
Sun, B.-N. and Shen, G.-L. 1988. A new species of genus Nilssoniopteris . Acta Palaeontologica Sinica, 5:15.Google Scholar
Sveshnikova, I. N. and Budantsev, Y. L. 1969. Iskopaemye flory Arktiky. Nauka, Leningrad, 128 p.Google Scholar
Taylor, T. N., Taylor, E. L., and Krings, M. 2009. Paleobotany, the biology and evolution of fossil plants. Academic Press, Burlington, Massachusetts.Google Scholar
Thomas, H. H. and Bancroft, N. 1913. On the cuticles of some recent and fossil cycadean fronds. Transactions of the Linnean Society of London, 8:155204.Google Scholar
Watson, J. and Sincock, C. A. 1992. Bennettitales of the English Wealden. Paleontographical Society Monographs, London, U.K. Google Scholar
Wei, W., Sun, Y., and Wang, Y. 2005. Nilssoniopteris from the Lower Cretaceous Changcai Formation in Yanbian area of Jilin, China. Global Geology, 24:16.Google Scholar
Wieland, G. R. 1906. American Fossil Cycads. Carnegie Institution of Washington, Publication 34, Washington, D.C. Google Scholar
Yamada, T., Legrand, J., and Nishida, H. 2009. Structurally preserved Nilssoniopteris from the Arida Formation (Barremian, Lower Cretaceous) of southwest Japan. Review of Palaeobotany and Palynology, 156:410417.Google Scholar
Zhou, Z. 1989. Late Triassic plants from Shaqiao, Hengyang, Hunan Province. Palaeontologia Cathayana, 4:131159.Google Scholar