Basic reproductive strategies of Glossopterids: supraidioadaptive divergence from the viewpoint of a non-Gondwana Palaeobotanist

Serge V. Naugolnykh

doi:10.54991/jop.2016.295

Authors

Geological Institute of Russian Academy of Sciences, Pyzhevsky per.7, 119017, Moscow, Russia

DOI:

https://doi.org/10.54991/jop.2016.295

Keywords:

Glossopterids, Glossopteris, Evolution, Reproductive biology, Upper Palaeozoic, Gondwana

Abstract

The paper deals with two main tendencies in the reproductive adaptations of the glossopterids (order Glossopteridales Pant, 1982, class Glossopteridopsida Banerjee, 1984). The life conditions in densely inhabited communities compelled the glossopterids to use two considerably different reproductive strategies. The glossopterids with the ovuliferous reproductive organs similar to Scutum Plumstead, i.e the large number of closely related genera, such as Bifariala Prevec et al., Dictyopteridium Feistmantel ex Zeiller, Hirsutum Plumstead, Homevaleia Nishida et al., Lanceolatus Plumstead, Ottokaria Zeiller emend. Pant & Nautiyal, Pluma Plumstead, Plumsteadia (= Cystella) Rigby, Plumsteadiostrobus Chandra & Surange, Venustostrobus Chandra & Surange, etc, were barochorous and produced very many small unwinged seeds. The seeds of that type of glossopterid fructifications fell down due to gravitation nearby the parent plant, after they detached from the reproductive organ. The chance for successful germination was minimal for these plants because of high density of plant population, and it was compensated by large amount of the produced seeds. The plants with the female reproductive organs of the genus Partha Surange & Chandra and similar genera Denkania Surange & Chandra, Lidgettonia Thomas, Rusangea Lacey et al. produced small numbers of relatively large seeds with well–developed wings. These plants were anemochorous. Their seeds were dispersed by wind over long distances, far away from the parent plant, and because of this the chance for successful germination of those plants was much higher. The direct result of this was the reduction of seed numbers on the fructifications of the second type.

Such diversification of reproductive strategies expressed in different styles of propagate dissemination (i.e. type of seed dispersal) was characteristic of glossopterids in all the Gondwana regions. This process agrees well with the concept of supraidioadaptive effects proposed by the present author.

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References

Anderson JM & Anderson HM 1985. Palaeoflora of South Africa. Prodromus of South African megafloras: Devonian to Lower Cretaceous. A.A. Balkema, Rotterdam.

Bajpai U & Maheshwari HK 1991. On two enigmatic infructescences from Permian Gondwana of the Rajmahal Basin. Palaeobotanist 39 : 9–19.

Banerjee M 1969. Senotheca murulidihensis a new glossopteridean fructification from India associated with Glossopteris taeniopteroides Feistm. Sen Memorial Volume, Botanical Society of Bengal, Calcutta: 359–368.

Banerjee M 1984. Fertile organs of the Glossopteris flora and their possible relationship in the line of evolution. Proceedings of a Symposium on Evolutionary Botany and Biostratigraphy, AK Ghosh Commemoration Volume: 29–59, Today and tomorrows Printers and Publishers, New Delhi.

Broutin J 1974. Sur quelques plantes fossiles du bassin Autun–Stephanien de Guadalcanal (province de Seville, Espagne). Lagascalia 4: 221–237.

Broutin J 1977. Nouvelles données sur la flore des bassins Autun–Stephaniens des environs de Guadalcanal (province de Seville–Espagne). Guaderns Gelogia Iberica 4: 91–98.

Broutin J 1985. Ginkgophyllum boureaui, nouvelle espèce de ginkgophyta du Permien inférieur du Sud–Ouest de l’Espagne. Bulletin de la section des sciences, Tome. VIII, Paléobotanique recherches nouvelles sur l’évolution végétale: 125–132.

Broutin J 1986. Etude paléobotanique et palynologique du passage Carbonifere–Permien dans le Sud–Oest de la Peninsula Ibérique. Paris: Ed. CNRS. 165 p.

Broutin J, Doubinger J, El Hamet MO & Lang J 1990. Palynologie comparée du Permien Nigérien (Afrique occidentale) et Peritethysen. Implications stratigraphiques et phytogéographiques. Review of Palaeobotany and Palynology 66: 243–261.

Broutin J, El Wartiti M, Freytet P, Heyler D, Lazhrib M & Morel J–L 1987. Nouvelles découvertes paléontologiques dans le bassin détritique carbonate Permien de Tiddas (Maroc Central). C.R. Acad. Sci. Paris 305(Ser. 2): 143–148.

Broutin J, Roger J, Platel JP, Angiolini L, Baud A, Bucher H, Marcoux J & Al Hasmi H 1995. The Permian Pangea. Phytogeographic implications of new paleontological discoveries in Oman (Arabian Peninsula). Comptes Rendus de l’Académie des Sciences 321: 1069–1086.

Cariglino B, Gutiérrez PR & Manassero M 2009. Plumsteadia pedicellata sp. nov.: a new glossopterid fructification from La Colondrina Formation (Guadalupian–Lopingian), Santa Cruz Province, Argentina. Review of Palaeobotany and Palynology 156: 329–336.

Chandra S 1984. Utkalia dichotoma gen. et sp. nov.–a fossil fructification from the Kamthi Formation of Orissa, India. Palaeobotanist 31: 208–212.

Chandra S & Singh KJ 1992. The genus Glossopteris from the Late Permian beds of Handapa, Orissa, India. Review of Palaeobotany and Palynology 75: 183–218.

Chandra S & Surange KR 1977. Cuticular studies of the reproductive organs of Glossopteris. 2. Cistella type fructification Plumsteadiostrobus ellipticus gen. et sp. nov. attached on Glossopteris taenioides Feistmantel. Palaeobotanist 23: 161–175.

Gand G, Kerp H, Passons C & Martinez–Garcia E 1997. Palaeoenvironmental and stratigraphic aspects of animal traces and plant remains in Spanish Permian red beds (Pena Sagra, Cantabrian Mountains, Spain). Geobios 30: 295–318.

Holdgate GR, McLoughlin S, Drinnan AN, Finkelman RB, Willett JC & Chiehowsky LA 2005. Inorganic chemistry, petrography and palaeobotany of Permian coals in the Prince Charles Mountains, East Antarctica. International Journal of Coal Geology 63: 156–177.

Holmes WBK 1995. The Late Permian megafossil flora from Cooyal, New South Wales, Australia. Birbal Sahni Centenary Volume: 123–152.

Karasev EV 2009. A new genus Navipelta (Peltaspermales, Pteridospermae) from the Permian/Triassic Boundary deposits of the Moscow Syneclise. Paleontological Journal 43: 1262–1271.

LePage BA, Beachamp B, Pfefferkorn HW & Utting J 2003. Late Early Permian plant fossils from the Canadian High Arctic: a rare paleoenvironmental/climatic window in northwest Pangea. Palaeogeography, Palaeoclimatology, Palaeoecology 191: 345–372.

Mädler KA 1992. Die Rotliegend–Zechsteinflora von Lieth bei Elmshorn, Schleswig–Holstein. Geologisches Jahrbuch, Reihe A 133: 3–31.

McLoughlin S 1990a. Late Permian glossopterid fructifications from the Bowen and Sydney basins, Eastern Australia. Geobios 23: 283–297.

McLoughlin S 1990b. Some Permian glossopterid fructifications and leaves from the Bowen Basin, Queensland, Australia. Review of Palaeobotany and Palynology 62: 11–40.

McLoughlin S 1993. Glossopterid megafossils in Permian Gondwanic non–marine biostratigraphy. Gondwana 8, Assembly, Evolution, and Dispersal. Rotterdam: A.A. Balkema. pp. 253–264.

McLoughlin S 1995. New records of Bergiopteris and glossopterid fructifications from the Permian of western Australia and Queensland. Alcheringa 19: 175–192.

McLoughlin S 2011. New records of leaf galls and arthropod oviposition scars in Permian–Triassic Gondwanan gymnosperms. Australian Journal of Botany 59: 156–169.

McLoughlin S 2012. Two new Senotheca (Glossopteridales) species from the Sydney Basin, Australia, and a review of the genus. Review of Palaeobotany and Palynology 171: 140–151.

Naugolnykh SV 1998. Kungurian flora of the Middle Cis–Urals. Moscow: Geos. 201 p. (Transactions of Geological Institute of Russian Academy of Sciences, Vol. 509) [in Russian, with English and French summaries].

Naugolnykh SV 2007. Permian floras of the Urals. Moscow: Geos. 322 p. (Transactions of the Geological Institute of RAS, Iss. 524) [in Russian, with English and French summaries].

Naugolnykh SV 2012a. How two genera were supplied by one ecological niche. Priroda 4: 31–38 [in Russian].

Naugolnykh SV 2012b. Symbol of Gondwana. Priroda 12: 49–59 [in Russian].

Naugolnykh SV 2012c.Vetlugospermum and Vetlugospermaceae: a new genus and family of peltasperms from the Lower Triassic of Moscow syneclise (Russia). Geobios 45: 451–462.

Naugolnykh SV & Lunev PI 2009. Palaeoecology of hygro–and hydrophilic palaeophytocoenoses as exemplified by the Permian plants in the Northern Prince Charles Mountains, East Antarctica. Russian Earth Science Research in Antarctica. Collection of papers. Vol. 2 (Ed. e.V. Mikhalsky, A.A. Laiba). Saint–Petersbourh: Okeanologia. P. 26–41.

Nishida H, Pigg KB, Kudo K & Rigby JF 2004. Zooidogamy in the Late Permian genus Glossopteris. Journal of Plant Research 117: 323–328.

Nishida H, Pigg KB, Kudo K & Rigby JF 2007. New evidence of reproductive organs of Glossopteris based on permineralized fossil from Queensland, Australia. I. Ovulate organ Homevaleia gen. nov. Journal of Plant Research 1209: 539–549.

Pant DD 1982. The Lower Gondwana gymnosperms and their relationships. Review of Palaeobotany and Palynology 37: 55–70.

Pant DD 1987. Reproductive biology of the Glossopterids and their affinities. Bulletin de la Société botanique de France 134: 77–93.

Pant DD & Nautiyal DD 1984. On the morphology and structure of Ottokaria zeilleri sp. nov.–a female fructification of Glossopteris. Palaeontographica Abt. B 193: 127–152.

Pigg KB & Nishida H 2006. The significance of silicified plant remains to the understanding of Glossopteris–bearing plants: an historical review. Journal of the Torrey Botanical Society 133: 46–61.

Plumstead EP 1952. Description of two new genera and six new species of fructifications borne on Glossopteris leaves. Transactions of the Geological Society of South Africa 55: 281–328.

Plumstead EP 1958. Further fructifications of the Glossopteridae and a provisional classification based on them. Transactions of the Geological Society of South Africa 61: 51–96.

Prevec R 2011. A structural reinterpretation and revision of the type material of the glossopterid ovuliferous fructification Scutum from South Africa. Palaeontologia Africana 46: 1–19.

Prevec R, McLoughlin S & Bamford MK 2008. Novel double wing morphology revealed in a South African ovuliferous glossopterid fructification: Bifariala intermittens (Plumstead 1958) comb. nov. Review of Palaeobotany and Palynology 150: 22–36.

Prevec R, Labandeira CC, Neveling J, Gastaldo RA, Looy CV & Bamford M 2009. Portrait of a Gondwanan ecosystem: A new late Permian fossil locality from KwaZulu–Natal, South Africa. Review of Palaeobotany and Palynology 156: 454–493.

Read CB & Mamay SH 1964. Upper Paleozoic floral zones and floral provinces of the United States. Geological Survey Professional Paper 454–K. USA Government Printing Office. pp. 1–35.

Retallack GJ & Dilcher DL 1988. Reconstructions of selected seed ferns. Annales of Missouri Botanical Garden 75: 1010–1057.

Retallack GJ, Metzger CA, Greaver T, Jahren AH, Smith RMH & Sheldon ND 2006. Middle–Late Permian mass extinction on land. Geological Society of America Bulletin 118: 1398–1411.

Rigby 1978. Permian glossopterid and other cycadopsid fructifications from Queensland. Geological Survey of Queensland Publication 367. Palaeontological Paper 41: 1–21.

Rigby JF & Chandra S 1990. The Late Permian sporangiate fructification Nesowalesia edwardsii Pant, 1977, from Katoomba, New South Wales, Australia. Review of Palaeobotany and Palynology 65: 175–178.

Rigby JF, Maheshwari HK & Schopf JM 1980. Revision of Permian plants collected by J.D. Dana during 1839–1840 in Australia. Queensland Department of Mines, Geological Survey of Queensland, publication 376, palaeontological paper 47. Brisbane. 25 p.

Ryberg PE 2009. Reproductive diversity of Antarctic glossopterid seed–ferns. Review of Palaeobotany and Palynology 158: 167–179.

Salmenova KZ 1978. Permian flora of the Northern Cis–Balkhash area. Paleontological journal 4: 122–127.

Salmenova KZ 1979. Peculiarities of the Permian flora of Southern Kazakhstan and its links with the adjacent floras. Paleontological journal 4: 119–127.

Surange KR & Chandra S 1973. Partha, a new type of female fructification from Lower Gondwana of India. Palaeobotanist 20: 356–360.

Surange KR & Chandra S 1974a. Fructifications of Glossopteridae from India. Palaeobotanist 21: 1–17.

Surange KR & Chandra S 1974b. Morphology of the gymnospermous fructifications of the Glossopteris flora and their relationships. Palaeontographica. Abt. B 149: 153–180.

Taylor EL & Ryberg PE 2007. Tree growth at polar latitudes based on fossil growth ring analysis. Palaeogeography, Palaeoclimatology, Palaeoecology 255: 246–264.

Taylor EL & Taylor TN 2009. Seed ferns from the late Paleozoic and Mesozoic: Any angiosperm ancestors lurking there? American Journal of Botany 96: 237–251.

Vakhrameev VA & Doludenko MP 1961. Upper Jurassic and Lower Cretaceous flora of the Bureja Basin and its significance for stratigraphy. Moscow; Academy of Sciences of the USSR Press. 136 p. (Transactions of the Geological Institute of RAS, iss. 54) [in Russian]

Wang Z–Q 1996. Past global floristic changes: the Permian great Eurasian floral interchange. Palaeontology 39: 189–217.

Ziegler AM, Gibbs MT & Hulver ML 1998. A mini–atlas of oceanic water masses in the Permian Period. Proceedings of the Royal Society of Victoria. Thematic issue: Strzelecki International Symposium on Permian of eastern Tethys: Biostratigraphy, Palaeogeography and Resources 110: 323–343.