Macrofossil Evidence for Pleuromeialean Lycophytes from the Triassic of Antarc- Tica

Macrofossil Evidence for Pleuromeialean Lycophytes from the Triassic of Antarc- Tica

View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by KU ScholarWorks KU ScholarWorks | http://kuscholarworks.ku.edu Please share your stories about how Open Access to this article benefits you. Macrofossil Evidence For Pleuromeialean Lycophytes From the Triassic of Antarctica by Benjamin Bomfleur, Michael Krings, Edith L. Taylor, and Thomas N. Taylor 2010 This is the published version of the article, made available with the permission of the publisher. The original published version can be found at the link below. Bomfleur, B., Krings, M., Taylor, E., and Taylor, T. 2010. Macrofossil Evidence for Pleuromeialean Lycophytes From the Triassic of Antarc- tica. Acta Palaeontologica Polonica 56(1): 195-203. Published version: http://dx.doi.org/10.4202/app.2010.0022 Terms of Use: http://www2.ku.edu/~scholar/docs/license.shtml This work has been made available by the University of Kansas Libraries’ Office of Scholarly Communication and Copyright. Macrofossil evidence for pleuromeialean lycophytes from the Triassic of Antarctica BENJAMIN BOMFLEUR, MICHAEL KRINGS, EDITH L. TAYLOR, and THOMAS N. TAYLOR Bomfleur, B., Krings, M., Taylor, E.L., and Taylor, T.N. 2011. Macrofossil evidence for pleuromeialean lycophytes from the Triassic of Antarctica. Acta Palaeontologica Polonica 56 (1): 195–203. Triassic microfloras from Antarctica contain abundant lycophyte spores. However, macrofossils of this group of plants are missing, and thus the precise affinities of the spore producers remain unknown. Macrofossil remains of a pleuro− meialean lycophyte, including an incomplete strobilus, isolated sporophylls and sporangia, as well as abundant mega− spores, occur on a single rock sample from the central Transantarctic Mountains. Also occurring on the same surface is Mesenteriophyllum serratum, a strap−shaped leaf morphotype of uncertain affinity previously known only from the Kyrgyz Republic and the Taimyr Peninsula. The leaves display alternating transverse ridges and depressions that are sim− ilar to structures seen in compressed leaves of various isoetalean lycophytes. Leaf morphology and anatomy, together with the close association of the other lycophyte remains, suggest that M. serratum represents a pleuromeialean lycophyte leaf, which was part of the same plant that produced the sporophylls and sporangia. Sedimentological data indicate that this lycophyte inhabited a swampy, probably coal−forming overbank environment, which contrasts with the assumed xero− to halophytic habit of many other pleuromeialean lycophytes. Key words: Isoetales, Pleuromeia, Mesenteriophyllum, phytogeography, palaeoecology, air chambers, Transantarctic Mountains, Antarctica. Benjamin Bomfleur [[email protected]], Forschungsstelle für Paläobotanik am Institut für Geologie und Palä− ontologie, Westfälische Wilhelms−Universität Münster, Hindenburgplatz 57, D−48143 Münster, Germany; Michael Krings [[email protected]−muenchen.de], Department für Geo− und Umweltwissenschaften, Paläontologie und Geobiologie, Ludwig−Maximilians−Universität, and Bayerische Staatssammlung für Paläontologie und Geologie, Rich− ard−Wagner−Straße 10, D−80333 Munich, Germany; Edith L. Taylor[[email protected]]and Thomas N. Taylor [[email protected]], Department of Ecology and Evolutionary Biology and Natural History Museum and Biodiversity Institute, 1200 Sunnyside Ave., Haworth Hall, University of Kan− sas, Lawrence, KS, 66045−7534, USA. Received 22 February 2010, accepted 27 July 2010, available online 16 August 2010. Introduction have been reported from various regions of East Antarctica, including spores of supposed pleuromeialean, isoetalean, The continental Triassic of the Transantarctic Mountains has and selaginellalean affinity (Kyle 1977; Kyle and Schopf yielded rich, diverse, and in some cases exceptionally well− 1982; Farabee et al. 1990; Taylor et al. 1993; McLoughlin et preserved plant fossils that certainly rank among the most al. 1997; Askin and Cully 1998). With the exception of a few intensely studied and well−known early Mesozoic floras isolated sporangia (McLoughlin et al. 1997), however, docu− worldwide. Large collections of Triassic impression/com− mented evidence of lycophyte macrofossils is lacking. This pression floras and permineralized peat deposits have been may be explained by the generally low preservation potential accumulated since the first discoveries of plant fossils from of the small, presumably herbaceous plants, either because Antarctica in the early 20th century. The Triassic vegetation the plants themselves had a much lower fossilization poten− of Antarctica consisted of a diverse array of plant groups, in− tial or because they existed in habitats that were not condu− cluding horsetails, various fern and seed fern families, cy− cive to fossilization. Alternatively, lycophyte macrofossils cads, ginkgophytes, and conifers (see, e.g., Taylor and Tay− may simply have been overlooked or misidentified. lor 1990; Taylor et al. 1993; Axsmith et al. 2000; Phipps et al. This paper describes the first macrofossil evidence for 2000; Ryberg et al. 2008; Hermsen et al. 2009; Decombeix et lycophytes in the Triassic of the Transantarctic Mountains. al. 2010; Escapa et al. 2010). In spite of this diversity based The material consists of an incomplete strobilus and several on macrofossils, palynofloras document that the high−lati− isolated sporophylls and sporangia that co−occur with abun− tude ecosystems of Antarctica were inhabited by an even dant megaspores. Also present on the slab are several speci− wider spectrum of plants, many of which still lack macro− mens of the enigmatic leaf Mesenteriophyllum serratum Six− fossil evidence. For instance, abundant lycophyte spores tel, 1961. Mesenteriophyllum Sixtel, 1961 has so far been re− Acta Palaeontol. Pol. 56 (1): 195–203, 2011 doi:10.4202/app.2010.0022 196 ACTA PALAEONTOLOGICA POLONICA 56 (1), 2011 Fig. 1. Geographic location (A–C) and lithological column (D) of the plant−bearing succession at “Alfie’s Elbow”; arrow indicates the position of the bed from which the present material was collected. Lithological column after Axsmith et al. (2000). ported from the Triassic of the Kyrgyz Republic and the reproductive organs, including Umkomasia Thomas, 1931, Taimyr Peninsula, and is currently regarded as a gymno− Pteruchus Thomas, 1933, and Telemachus Anderson, 1978. sperm leaf of unknown affinity. By contrast, the material The plant fossils described in this paper occur on a single from the Transantarctic Mountains provides compelling evi− block of silty, medium− to dark−grey, carbonaceous mudstone dence that M. serratum in fact represents sterile foliage of a with abundant plant fragments (PCUK T5568). Plant fossils pleuromeialean lycophyte. are preserved as impressions and coalified compressions. Cu− ticles and palynomorphs could not be recovered because the Institutional abbreviation.—PCUK, Paleobotanical Collec− material is too highly altered. The plant fossils show little con− tion at the Natural History Museum and Biodiversity Insti− trast to the surrounding matrix, which rendered photographic tute, University of Kansas, Lawrence, USA. documentation challenging. Macroscopic images were taken under cross−polarization or oblique lighting to enhance con− trast and surface details. Specimens were further analysed us− Material and methods ing a Leica MZ16 stereomicroscope. Microscopic images were taken with a Nikon DS−5M digital camera. The material was collected from an outcrop in the Shackleton Glacier region (central Transantarctic Mountains) that is in− formally known as “Alfie’s Elbow” (Fig. 1A–C) (Axsmith et Systematic palaeontology al. 2000). The section is dated as Late Triassic based on palynomorphs (Askin and Cully 1998). The entire collection Division Lycophyta Boivin, 1956 of plant fossils from this locality comprises >500 slabs, most of which contain Dicroidium Gothan, 1912 and Heidiphyl− Class Isoetopsida Rothmaler, 1951, incertae sedis lum Retallack, 1981 foliage, as well as associated axes and ?Order Pleuromeiales Zimmermann, 1959 BOMFLEUR ET AL.—TRIASSIC LYCOPHYTES FROM ANTARCTICA 197 A B C s 5mm 2mm 2mm D E F 2mm 1mm 11mmmm G H I J Fig. 2. Pleuromeialean lycophyte reproductive structures from the Upper Triassic of the “Alfie’s Elbow” site, central Transantarctic Mountains. A. Articu− lated fragment of a strobilus. Individual sporophylls can be recognized by the longitudinal striations on the abaxial surface (compare Fig. 2B, C; see Fig. 3). B. Isolated sporophyll, abaxial surface. C. Same sporophyll as Fig. 2B, but after manual preparation, showing globose adaxial sporangium (s) beneath the sporophyll. D, E. Sporangia. F. Cluster of megaspores. G. Megaspores showing trilete marks and curvaturae (arrows). H–J. Distal faces of megaspores showing variation in surface ornamentation or preservation, including verrucate, conate, and echinate patterns. Family unknown cally ovate to subtriangular in outline, about 8 mm long by 7 Isolated reproductive organs mm wide, with a broad, in some cases slightly cordate, base; lateral margins of sporophylls up to 2 mm wide; distal margin Fig. 2. with a slightly projecting acuminate tip; abaxial surface of Material.—PCUK T5568, one block containing isolated fer− sporophyll convex, with distinctive surface pattern composed tile remains, including an incomplete strobilus, four sporo− of narrow longitudinal striae radiating from the base (Fig. 2A, phylls, five sporangia, and numerous megaspores. B); sporangia attached in the centre of the sporophyll

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