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Earliest evidence for helical crown configuration in a Carboniferous tree of uncertain affinity

Published online by Cambridge University Press:  20 May 2016

Robert A. Gastaldo
Robert A. Gastaldo*
Affiliation:
Department of Geology, Auburn University, Auburn, Alabama 36849-5305
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Abstract

The crown of an erect plant (probable juvenile tree/shrub) has been recovered from Lower Pennsylvanian strata of the southern Appalachian basin. It is preserved in three dimensions and provides the first confirmatory evidence for the compact helical arrangement of leaves in early Late Carboniferous plants. The crown is partially cast and partially compressed and is comprised of 11 leaves disposed in a 3/5 phyllotaxis. Substantiation of tight helical leaf development restricted to the crown of an Early Pennsylvanian plant provides evidence for greater architectural diversification in growth habit than presently documented at this time in tree ferns or pteridosperms.

Type
Research Article
Information
Journal of Paleontology , Volume 64 , Issue 1 , January 1990 , pp. 146 - 151
Copyright
Copyright © The Paleontological Society 

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References

Basinger, J. E., Rothwell, G. W., and Stewart, W. N. 1974. Cauline vasculature and leaf trace production in medullosan pteridosperms. American Journal of Botany, 61:10021015.Google Scholar
Boersma, M. 1969. A fertile leaf of “Mariopteris latifolia.” Mededelingen Rijks Geologische Dienst, Nieuwe Serie, 30:6577.Google Scholar
Boersma, M., and Gastaldo, R. A. 1983. Proposal to conserve Eusphenopteris (Foss.). Taxon, 32:307310.Google Scholar
Corsin, P. 1948. Reconstitutions de Pecopteridees: genres Caulopteris Lindley and Hutton, Megaphyton Artis et Hagiophyton nov. gen. Annales du Societe Geologie du Nord, 67:625.Google Scholar
Corsin, P. 1951. Flore fossile bassin houiller de la Sarre et de la Lorraine. Fasc. 4e. Pécoptéridees. Études des Gites Mineraux de la France, p. 177370.Google Scholar
DiMichele, W. A., and Phillips, T. L. 1977. Monocyclic Psaronius from the lower Pennsylvanian of the Illinois Basin. Canadian Journal of Botany, 55:25142524.Google Scholar
Gastaldo, R. A. 1984. Studies on North American Pecopterids. III. Pecopteris buttsii D. White from the Early Pennsylvanian of Alabama. Journal of Paleontology, 58:6377.Google Scholar
Gastaldo, R. A. 1985. Upper Carboniferous paleoecological reconstructions: observations and reconsiderations. Dixieme Congrés International Stratigraphie et Géology du Carbonifere, Madrid, 1983, 2:281296.Google Scholar
Gastaldo, R. A. 1986. Implications on the paleoecology of autochthonous Carboniferous lycopods in clastic sedimentary environments. Palaeogeography, Palaeoclimatology, Palaeoecology, 53:191212.Google Scholar
Gastaldo, R. A. 1987. Confirmation of Carboniferous clastic swamp communities. Nature, 326:869871.Google Scholar
Gastaldo, R. A. 1988a. A conspectus of phytotaphonomy, p. 1428. In DiMichele, W. A. and Wing, S. A. (eds.), Methods and Applications of Plant Paleoecology: Notes for a Short Course. Paleontological Society Special Publication 3.Google Scholar
Gastaldo, R. A. 1988b. Evidence for the frond architecture of Sphenopteris pottsvillea (White) Gastaldo and Boersma. Journal of Paleontology. 62:982991.Google Scholar
Gastaldo, R. A. 1989. Preliminary observations on phytotaphonomic assemblages in a subtropical/temperate Holocene bayhead delta: Mobile Delta, Gulf Coastal Plain, Alabama. Review of Palaeobotany and Palynology, 58:6184.Google Scholar
Gastaldo, R. A., Gibson, M. A., and Gray, T. D. 1989a. An Appalachian-sourced deltaic sequence, northeastern Alabama: biofacies-lithofacies relationships and interpreted community patterns. International Journal of Coal Geology, 12:225257.Google Scholar
Gastaldo, R. A., Demko, T. M., Liu, Y., Keefer, W. D., and Abston, S. L. 1989b. Biostratinomic processes for the development of mud-cast logs in Carboniferous and Holocene swamps. Palaios, 4:356365.Google Scholar
Hallé, F., Oldeman, R. A. A., and Tomlinson, P. B. 1978. Tropical Trees and Forests. An Architectural Analysis. Springer-Verlag, Berlin, 441 p.Google Scholar
Laveine, J. P. 1967. Les Neuroptéridées du Nord de la France, I—Flore Fossile, 5e Fascicule, Contribution a l'étude de la Flore du Terrain Houiller. Imprimerie Centrale du Nord, Lille, 344 p.Google Scholar
Morgan, J. 1959. The morphology and anatomy of American species of the genus Psaronius . Illinois Biological Monographs, 27:1107.Google Scholar
Pfefferkorn, H. W. 1976. Pennsylvanian tree fern compressions Caulopteris, Megaphyton, and Artisophyton gen. nov. in Illinois. Illinois State Geological Survey Circular, 492:131.Google Scholar
Pfefferkorn, H. W., Gillespie, W. H., Resnick, D. A., and Scheihing, M. H. 1984. Reconstruction and architecture of Medullosan pteridosperms (Pennsylvanian). The Mosasaur, 2:18.Google Scholar
Pfefferkorn, H. W., Fuchs, K., Hecht, C., Hofmann, C., Rabold, J. M., and Wagner, T. 1988. Recent geology and taphonomy of the Orinoco delta—overview and field observations. Heidelberger Geowissenschaftliche Abhandlungen, 20:2156.Google Scholar
Rex, G. M., and Chaloner, W. G. 1983. The experimental formation of plant compression fossils. Palaeontology, 26:237252.Google Scholar
Stidd, B. M. 1971. Morphology and anatomy of the frond of Psaronius . American Journal of Botany, 55:834840.Google Scholar
Van Ameron, H. W. J. 1975. Die Eusphenopteridischen pteridophyllen. Mededelingen Rijks Geologische Dienst, C-III-1-7:1208.Google Scholar
Williamson, W. C. 1876. On the organization of the fossil plants of the Coal Measures. Part VII. Myelopteris, Psaronius, and Kaloxylon. Philosophical Transactions Royal Society of London, 166:125.Google Scholar
Wnuk, C., and Pfefferkorn, H. W. 1984. The life habits and paleoecology of Middle Pennsylvanian medullosan pteridosperms based on an in situ assemblage from the Bernice Basin (Sullivan County, Pennsylvania, U.S.A.). Review of Palaeobotany and Palynology, 41:329351.Google Scholar
Zodrow, E. L., and Cleal, C. J. 1988. The structure of the Carboniferous pteridosperm frond Neuropteris ovata Hoffmann. Palaeontographica Abt. B, 208:105124.Google Scholar
Zodrow, E. L., and McCandlish, K. 1980. On a Trigonocarpus species attached to Neuropteris (Mixoneura) flexuosa from Sydney Coalfield, Cape Breton Island, Nova Scotia, Canada. Review of Palaeobotany and Palynology, 30:5766.Google Scholar