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The extinct tree fern Tempskya Corda from the Albian of Spain: palaeophytogeographical and palaeoenvironmental implications

Published online by Cambridge University Press:  25 October 2018

Luis M. Sender*
Affiliation:
Área de Paleontología, Facultad de Ciencias Geológicas, Universidad de Zaragoza, 50002 Zaragoza, Spain. Email: [email protected] Faculty of Science and Engineering, Chuo University, 1-13-27 Kasuga, Bunkyo, Tokyo, Japan.
Harufumi Nishida
Affiliation:
Faculty of Science and Engineering, Chuo University, 1-13-27 Kasuga, Bunkyo, Tokyo, Japan. Graduate School of The University of Tokyo, Hongo, Bunkyo, Tokyo, Japan.
José B. Diez
Affiliation:
Departamento de Xeociencias Mariñas e Ordenación do Territorio, Facultade de Ciencias do Mar, Universidade de Vigo, 36310 Vigo, Spain.
*
*Corresponding author

Abstract

New evidence of the extinct tree fern of the genus Tempskya Corda from Albian deposits in western Eurasia (northeastern Spain) is presented. These plant fossil remains consist of several silicified false trunks measuring up to 1.20m long, some of which still preserve the apex. Rhizomes and petioles are more abundant in the apical zone of the false trunk. Some false trunks preserve charcoalified tissues that can be interpreted as evidence that palaeo-wildfires affected the false trunks several times from mostly the same direction. Sedimentological evidence suggests that the fern habitat was close to coastal, tidally influenced environments. These new fossils from the Albian of Spain fill the chronological and distributional gap of Tempskya that existed in Eurasia during the Early Cretaceous. Temporal and spatial changes in Tempskya distributions are proposed on several palaeogeographical maps.

Type
Articles
Copyright
Copyright © The Royal Society of Edinburgh 2018 

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References

5. References

Aguilar, M. J., Ramírez del Pozo, J. & Oriol Riba, A. 1971. Algunas precisiones sobre la sedimentación y la paleoecología del Cretácico Inferior en la zona de Utrillas – Villaroya de los Pinares (Teruel). Estudios Geológicos 27, 497512.Google Scholar
Arnold, C. A. 1945. Silicified plant remains from the Mesozoic and Tertiary of western North America. I, Ferns. Papers of the Michigan Academy of Sciences, Arts and Letters 30, 334.Google Scholar
Arnold, C. 1958. A new Tempskya. Contributions from the Museum of Paleontology, University of Michigan 14, 133142.Google Scholar
Ash, S. R. & Read, C. B. 1976. North American species of Tempskya and their stratigraphic significance. United States Geological Survey Professional Paper 847, 142.Google Scholar
Austen, P. A. & Batten, D. J. 2011. Plant megafossils. In Batten, D. J. (ed.) English Wealden fossils, 596642. London: the Palaeontological Association.Google Scholar
Baker, W. L. & Dugan, A. J. 2013. Fire-history implications of fire scarring. Canadian Journal of Forest Research 43, 951962.Google Scholar
Barale, G. & Viera, L. I. 1989. Tempskya riojana nov.sp., Fougère arborescente du Crétacé Inférieur du Nord-Ouest de l'Espagne. Palaeontographyca Abteilung B 212, 103122.Google Scholar
Berry, E. W. 1911. Systematic paleontology of the Lower Cretaceous deposits of Maryland: Plantae; Pteridophyta. Maryland Geological Survey, Lower Cretaceous, 214312. Baltimore: The Johns Hopkins Press.Google Scholar
Brown, S. A. E., Scott, A. C., Glasspool, I. J. & Collinson, M. E. 2012. Cretaceous wildfires and their impact on the Earth system. Cretaceous Research 36, 162190.Google Scholar
Carpentier, M. A. 1923. Découverte de fragments de Fougères fossiles du genre Tempskya corda (emend. Kidston et Vaughan) à Glageon (Nord). Bulletin de la Société Botanique de France 70, 6872.Google Scholar
Clifford, H. T. & Dettmann, M. E. 2005. First record from Australia of the Cretaceous fern genus Tempskya and the description of a new species, T. judithae. Review of Palaeobotany and Palynology 134, 7184.Google Scholar
Corda, A. J. 1845. Beiträge zur der flora der Vorwelt. Prague: J. G. Calve'sche Buchhandlung.Google Scholar
Degani-Schmidt, I., Guerra-Sommer, M., Cazzulo-Klepzig, M., Iannuzzi, R., Mendonça, J. D. O., Mendonça, J. G., Jasper, A., Cazzulo-Klepzig, M. & Iannuzz, R. 2015. Charcoalified logs as evidence of hypautochthonous/autochthonous wildfire events in a peat-forming environment from the Permian of southern Paraná Basin (Brazil). International Journal of Coal Geology 146, 5567.Google Scholar
Gutsell, S. L. & Johnson, E. A. 1996. How fire scars are formed: coupling a disturbance process to its ecological effect. Canadian Journal of Forest Research 26, 166174.Google Scholar
Hosius, A. & von der Marck, W. 1880. Die Flora der westfalischen Kreideformation. Palaeontographica 26, 125241.Google Scholar
Jones, T. P., Scott, A. C. & Mattey, D. P. 1993. Investigations of “fusain transition fossils” from the lower carboniferous: comparisons with modern partially charred wood. International Journal of Coal Geology 22, 3759.Google Scholar
Jung, V. W. 1983. Tempskya-Funde aus jungquartären Schottern Süddeutschlands. Mitteilungen der Bayerischen Staatssammlung für Paläontologie und Historische Geologie 23, 119124.Google Scholar
Kidston, R. & Gwynne-Vaughan, D. T. 1911. On a new species of Tempskya from Russia. Verhandlungen der Russisch-Kaiserlichen Mine Ralogischen Gesellschaft zu St. Petersburgh 11, 120.Google Scholar
Martínez, M. C. A. & Olivo, M. S. 2015. Tempskya in the Valanginian of South America (Mulichinco formation, Neuquén Basin, Argentina) – systematics, palaeoclimatology and palaeoecology. Review of Palaeobotany and Palynology 219, 116131.Google Scholar
Nishida, H. 1986. On a new Tempskya stem from Japan. Transactions and Proceedings of the Palaeontological Society of Japan New Series 143, 435446.Google Scholar
Nishida, H. 2001. A leptosporangiate fern Tempskya uemurae, sp. nov. (Tempskyaceae) from the upper cretaceous (Santonian) of Iwate Pref., Japan. Acta Phytogeographica et Taxonomica 52, 4148.Google Scholar
Pardo, G. 1979. Estratigrafía y sedimentología de las formaciones detríticas del Cretácico inferior terminal en el Bajo Aragón turolense. PhD Thesis, Universidad de Zaragoza, Spain.Google Scholar
Pardo, G., Ardevol, L. & Villena, J. 1991. Las formaciones escucha y Utrillas. Estudio sedimentológico y síntesis paleogeográficas del mapa geológico de España 1:200.000, no. 40 (Daroca). Madrid: ITGE.Google Scholar
Pardo, G. & Villena, J. 1979. Características sedimentológicas y paleogeográficas de la Formación Escucha. Cuadernos de Geología Ibérica 5, 407418.Google Scholar
Puente-Arauzo, E., Sender, L. M., Villanueva-Amadoz, U., Bienvenido-Diez, J. & Torcida Fernández-Balor, F. 2014. Nuevos registros del género Tempskya corda, 1845 (Pteridophyta) en depósitos del Hauteriviense Superior-Barremiense Inferior del norte de España. Boletín de la Sociedad Geológica de México 66, 123134.Google Scholar
Querol, X. 1990. Distribución de la materia mineral y azufre en los carbones de la Formación Escucha. Relación con los factores geológicos, sedimentológicos y diagenéticos. PhD Thesis, Universitat de Barcelona, Spain.Google Scholar
Querol, X., Salas, R., Pardo, G. & Ardevol, L. 1992. Albian coal-bearing deposits of the Iberian range in Northeastern Spain. In McCabe, P. & Parrish, J. (eds) The controls on distribution and quality of Cretaceous coals. Geological Society of America Special Paper 267, 193208. Boulder, CO: Geological Society of America.Google Scholar
Read, C. & Brown, R. 1937. American cretaceous ferns of the genus Tempskya. United States Geological Survey Professional Paper , 105131.Google Scholar
Salas, R., Guimerà, J., Mas, R., Martín-Closas, C., Meléndez, A. & Alonso, A. 2001. Evolution of the Mesozoic Central Iberian Rift System and its Cainozoic inversion (Iberian Chain). In Ziegler, P. A., Cavazza, W., Robertson, A. F. H. & Crasquin-Soleau, S. (eds) Peri-Tethyan rift/wrench basins and passive margins. Mémoires du Muséum National d'Histoire Naturelle, Paris, 186, 145185. Paris: Muséum National d'Histoire Naturelle.Google Scholar
Scotese, C. R. 2013. PALEOMAP PaleoAtlas for ArcGIS, Volume 2, Cretaceous paleogeographic, paleoclimatic and plate tectonic reconstructions, PALEOMAP Project. Evanston, IL.Google Scholar
Scott, A. C. 2000. The pre-quaternary history of fire. Palaeogeography, Palaeoclimatology, Palaeoecology 164, 281329.Google Scholar
Scott, A. C. 2010. Charcoal recognition, taphonomy and uses in palaeoenvironmental analysis. Palaeogeography, Palaeoclimatology, Palaeoecology 291, 1139.Google Scholar
Scott, A. C., Cripps, J. A., Collinson, M. E. & Nichols, G. J. 2000. The taphonomy of charcoal following a recent heathland fire and some implications for the interpretation of fossil charcoal deposits. Palaeogeography, Palaeoclimatology, Palaeoecology 164, 131.Google Scholar
Sender, L. M. 2012. Paleobotánica (macrorestos) y paleoambientes del Albiense (Cretácico Inferior terminal) en el norte de la provincia de Teruel (España). PhD Thesis, Universidad de Zaragoza, Spain.Google Scholar
Sender, L. M., Villanueva-Amadoz, U., Diez, J. B., Sánchez-Pellicer, R., Bercovici, A., Pons, D. & Ferrer, J. 2012. A new uppermost Albian flora from Teruel province, Northeastern Spain. Geodiversitas 34, 373397.Google Scholar
Sender, L. M., Villanueva-Amadoz, U., Pons, D., Diez, J. B. & Ferrer, J. 2015. Singular taphonomic record of a wildfire event from middle Albian deposits of Escucha Formation in northeastern of Spain. Historical Biology 27, 442452.Google Scholar
Sender, L. M., Doyle, J. A., Villanueva-Amadoz, U., Pons, D., Diez, J. B. & Ferrer, J. 2016. First records of the angiosperm genus Sapindopsis fontaine (Platanaceae) in western Eurasia from middle to latest Albian deposits of Spain. Review of Palaeobotany and Palynology 230, 1021.Google Scholar
Seward, A. C. 1894. The Wealden flora. I. Thallophyta – Pteridophyta. Catalogue of the Mesozoic plants in the Department of Geology, British Museum (Natural History) 1, xxxvii. London: British Museum (Natural History). 179 pp., 11 pls.Google Scholar
Seward, A. C. 1924. On a new species of Tempskya from Montana. Tempskya knowltoni, sp. nov. Annals of Bottany 38, 485507.Google Scholar
Stambaugh, M. C., Smith, K. T. & Dey, D. C. 2017. Fire scar growth and closure rates in white oak (Quercus alba) and the implications for prescribed burning. Forest Ecology and Management 391, 396403.Google Scholar
Stopes, M. C. 1915. Catalogue of the Mesozoic plants in the British Museum. The Cretaceous Flora, Part 2. Lower Greensand (Aptian) plants of Britain. London: British Museum (Natural History). 360 pp.Google Scholar
Taylor, T. N., Taylor, E. L. & Krings, M. 2009. Paleobotany. The biology and the evolution of fossil plants. 2nd edn. New York: Academic Press, 1252 pp.Google Scholar
Tidwell, W. D. & Ash, S. R. 1994. Review of selected Triassic to early Cretaceous ferns. Journal of Plant Research 107, 417442.Google Scholar
Tidwell, W. D. & Hebbert, N. 1992. Species of the Cretaceous tree fern Tempskya from Utah. International Journal of Plant Sciences 153, 513528.Google Scholar
Tidwell, W. D. & Wright, W. W. 2003. Tempskya dernbachii sp. nov. from Neuquén Province, Argentina, the first Tempskya species reported from the Southern Hemisphere. Review of Palaeobotany and Palynology 127, 133145.Google Scholar
Velenovsky, J. 1888. Die Farne der böhmischen Kreideformation. Abhandlungen der Königlichen Böhmischen Gesellschaft der Wissenschaften 7, 132.Google Scholar
Villanueva-Amadoz, U. 2009. Nuevas aportaciones palinoestratigráficas para el intervalo Albiense-Cenomaniense en el Sector NE de la Península Ibérica. Implicaciones paleogeográficas y paleoclimáticas. PhD Thesis, Universidad de Zaragoza, Spain.Google Scholar
Villanueva-Amadoz, U., Pons, D., Diez, J. B., Ferrer, J. & Sender, L. M. 2010. Angiosperm pollen grains of San Just site (Escucha formation) from the Albian of the Iberian range (North-Eastern Spain). Review of Palaeobotany and Palynology 162, 362381.Google Scholar
Villanueva-Amadoz, U., Sender, L. M., Alcalá, L., Pons, D., Royo-Torres, R. & Diez, J. B. 2015. Paleoenvironmental reconstruction of an Albian plant community from the Ariño bonebed layer (Iberian Chain, NE Spain). Historical Biology 27, 430441.Google Scholar
Vogel, S. I., Piatkowski, B. T., Dooley, A. C. Jr. & Poli, D. B. 2011. The effects of fire on Lycopodium digitatum strobili. Jeffersoniana 27, 19.Google Scholar
Walker, L. R. & Boneta, W. 1995. Plant and soil responses to fire on a fern-covered landslide in Puerto Rico. Journal of Tropical Ecology 11, 473479. Google Scholar