Новый вид рода Birisia (Dicksoniaceae) из нижне–среднеальбских отложений Южного Приморья, Дальний Восток России
Л. Б. Головнева, А. А. Грабовский, А. А. Золина
DOI: https://doi.org/10.31111/palaeobotany/2020.11.74
Аннотация статьи
Описан новый вид папоротника Birisia mandshurica, sp. nov. (Dicksoniaceae) из нижнего–среднего альба френцевской свиты, Приморье, Россия. Для этого вида характерны короткие ползучие корневища с близко расположенными черешками и дваждыперистые листья с узкими линейными перышками. Предложена реконструкция внешнего вида B. mandshurica. Этот папоротник происходит из автохтонного местонахождения папоротников и травянистых покрытосеменных растений и был частью пионерного нелесного сообщества, занимавшего низкие плоские участки между руслами.
Ревизия папоротников, описанных как Acanthopteris gothanii Sze из Китая, показывает, что они принадлежат к виду Birisia alata (Prynada) Samylina. От использования названия Acanthopteris Sze предлагается отказаться из-за отсутствия спороносных перышек и плохой сохранности типовых образцов. На основе разнообразного российского и китайского материала приведены расширенные диагнозы рода Birisia Samylina и его типового вида B. alata.
Ревизия находок различных видов рода Birisia показало, что этот род был широко распространен в меловых флорах Восточной Сибири, Новосибирских островов, Северо-Востока и Дальнего Востока России, Китая, Японии, Аляски и Западной Канады, начиная с баррема и до коньяка. B. alata является наиболее широко распространенным видом.
Ключевые слова: ископаемые папоротники, Dicksoniaceae, ранний мел, френцевская свита, Дальний Восток России
Рубрика: Статьи
Цитирование статьи
Головнева Л. Б., Грабовский А. А., Золина А. А. 2020. Новый вид рода Birisia (Dicksoniaceae) из нижне–среднеальбских отложений Южного Приморья, Дальний Восток России. Палеоботаника, 11: 74–95. https://doi.org/10.31111/palaeobotany/2020.11.74
Получено 08.09.2020; принято к публикации 25.11.2020
Литература
Cao, Z. Y. 1994. Early Cretaceous floras in Circum-Pacific Region of China. – Cretaceous Research, 15: 317–332. https://doi.org/10.1006/cres.1994.1020
Chen, F., Yang, G., Chow, H. 1981. Lower Cretaceous flora in Fuxin basin. Liaoning Province, China. – Earth Science. Journal of Wuhan College of Geology, 15 (2): 39–51. (in Chinese with English abstract).
Chen, F., Meng, X., Ren, S., Wu, C. 1988. The Early Cretaceous flora of Fuxin basin and Tiefa basin, Liaoning Province. Beijing: Geological Publishing House, 1–180.(in Chinese with English abstract).
Christenhusz, M. J., Byng, J. W. 2016. The number of known plants species in the world and its annual increase. – Phytotaxa, 261(3): 201–217. http://doi.org/10.11646/phytotaxa.261.3.1
Deng, S. H. 1995. Early Cretaceous flora from Huolinhe Basin, Inner Mongolia (in Chinese with English summary). Beijing: Geological Publishing House, 1–125 p. (in Chinese with English abstract).
Deng, S. H. 2002. Ecology of the Early Cretaceous ferns of Northeast China. – Review of Palaeobotany and Palynology, 119: 93–112. https://doi.org/10.1016/S0034-6667(01)00131-2
Deng, S. H., Chen, F. 2001. The Early Cretaceous Filicopsida From Northeast China (in Chinese with English summary). Beijing: Geological Publishing House, 249 p.(in Chinese with English abstract).
Deng, S. H., Lu Y. 2006. The Mesozoic Dicksoniaceous Ferns: characteristics, distribution, origin and evolutionary trends. – Global Plant Letters, 1 (1): 9–29.
Domogatskaya, K. V., Herman, A. B. 2019. New species of the genus Schizolepidopsis (conifers) from the Albian of the Russian high Arctic and geological history of the genus. – Cretaceous Research, 97: 73–93. https://doi.org/10.1016/j.cretres.2019.01.012
Golovneva, L. B. 2018. The Chaun flora of the Okhotsk-Chukotka volcanogenic belt. St. Petersburg: Marafon, 308 p. (in Russian).
Golovneva, L., Alekseev, P., Bugdaeva, E., Volynets, E. 2018. An angiosperm dominated herbaceous community from the early – middle Albian of Primorye, Far East of Russia. – Fossil Imprint, 74(1-2): 165–178. https://doi.org/10.2478/if-2018-0012
Grabovskiy, A. A., Golovneva, L. B. 2018. The genus Birisia (Dicksoniaceae) in Cretaceous flora of Siberia and North-East of Russia. – Palaeobotany, 9: 32–53. (in Russian). https://doi.org/10.31111/palaeobotany/2018.9.32
Herman, A. B., Lebedev, E. L. 1991. Stratigraphy and flora of Cretaceous deposits of the North-West Kamchatka. Moscow: Nauka, 189 p. (in Russian).
Herman, A. B., Golovneva, L. B., Shczepetov, S. V., Grabovskiy, A. A. 2016. The Late Cretaceous Arman flora of Magadan Oblast, Northeastern Russia. – Stratigraphy and Geological Correlation, 24(7): 1–110. https://doi.org/10.1134/S0869593816070029
Kilpper, K. 1964. Über eine Rat/Lias-Flora aus dem nordlichen Abfall des Alburs-Gebirges in NordIran. Teil 1: Bryophyta und Pteridophyta. – Palaeontographica, 114B: 1–78.
Kimura, T. 1975. Middle –Late Early Cretaceous plants newly found from the upper course of the Kuzuryu River Area, Fukui Prefecture, Japan. – Transactions and Proceedings of the Palaeontological Society of Japan, New Series, 98: 55–93.
Kimura, T. 1979. Some late early Cretaceous plants from Fukui prefecture, in the inner zone of Japan. – Transactions and Proceedings of the Palaeontological Society of Japan, New Series, 113: 1–14.
Krassilov, V., Volynets, Y. 2008. Weedy Albian angiosperms. – Acta Palaeobotanica, 48(2): 151–169.
Kryshtofovich, A. N. 1958. Melovaya flora basseyna r. Anadyr [Cretaceous flora of the Anadyr River Basin]. – Proc. Bot. Inst. USSR Acad. Sci. ser. 8, 3: 7–68. (in Russian).
Korall, P., Pryer, K. M., Metzgar, J. S., Schneider, H. 2006. Tree ferns: Monophyletic groups and their relationships as revealed by four protein-coding plastid loci. – Molecular Phylogenetics and Evolution, 39: 830–845. https://doi.org/10.1016/j.ympev.2006.01.00
Kuzmichev, A. B., Danukalova, M. K., Aleksandrova, G. N., Zakharov, V. A., Herman, A. B., Nikitenko, B. L., Khubanov, V. B., Korostylev, E. V. 2018. Mid-Cretaceous Tuor-Yuryakh Section of Kotelnyi Island, New Siberian Islands: how does the probable basement of sedimentary cover of the Laptev Sea look on land? – Stratigraphy and Geological Correlation, 26 (4): 403–432. https://doi.org/10.1134/S0869593818040044
Lebedev, E. L. 1974. Albian flora and Lower Cretaceous stratigraphy of western Priokhotie. Moscow: Nauka, 1–147. (in Russian).
Lehtonen, S. 2011. Towards resolving the complete fern tree of life. – Plos One, 6(10): 24–51. https://doi.org/10.1371/journal.pone.0024851
Markevich, P. V., Konovalov, V. P., Malinovskii, A. I., Filippov, A. N. 2000. Lower Cretaceous deposits of the Sikhote-Alin. Dal’nauka, Vladivostok, 282 p. (in Russian).
Mehlqvist, K., Vajda, V., Larsson, L. M. 2009. A Jurassic (Pliensbachian) flora from Bornholm, Denmark – a study of a historic plant-fossil collection at Lund University, Sweden. – Journal of the Geological Society of Sweden, 131(1-2): 137–146. https://doi.org/10.1080/11035890902975275
Philippova, G. G. 1979. The Cenomanian flora from the Grebenka River and its stratigraphic significance. – Proceedings of the Institute of Biology and Pedology, Far-Eastern Scientific Centre of the Academy of Sciences of the USSR, nov. ser., 53(156): 91–115. (in Russian).
Philippova, G. G., Abramova, L. N. 1993. Pozdnemelovaya flora Severo-Vostoka Rossii [The Late Cretaceous flora of the North-East of Russia]. Moscow: Nedra, 348 p. (in Russian).
Popa, M. E., van Konijnenburg-van Cittert, J. H. A. 1999. Aspects of Romanian Early Jurassic Palaeobotany and Palynology. Part I. In situ spores from the Getic Nappe, Banat, Romania. – Acta Palaeobotanica, 2: 181–193.
Prynada, V. D. 1938. Contribution to the knowledge of the Mesozoic flora from the Kolyma Basin. – Contributions to the knowledge of the Kolyma-Indigirka land, 2(13): 1–74. (in Russian).
Riba, R. 1993. Familia Lophosoriaceae. – Fl. Méxic., 6(1): 13–16.
Samylina, V. A. 1964. Mesozoic flora of the left-bank area of the Kolyma River (Zyryanka coal basin). Part 1. Equisetales, Filicales, Cycadales, Bennettitales. – Acta Komarov Botan. Instit., ser. 8, 5: 39–79. (in Russian).
Samylina, V. A. 1972. Birisia – noviy rod melovykh paporotnikov Sibiri [Birisia, a new genus of the Cretaceous ferns of Siberia]. – Botanicheskii Zhurnal, 57(1): 94–101. (in Russian).
Samylina, V. A. 1976. Melovaya flora Omsukchana (Magadanskaya oblast’) [Cretaceous flora of Omsukchan (Magadan Region)]. Leningrad: Nauka, 207 p. (in Russian).
Samylina, V. A., Philippova G. G. 1970. Novye melovye paporotniki Severo-Vostoka SSSR [New Cretaceous ferns of the North-East of the USSR]. – Paleontologicheskii Zhurnal, 2: 90–97. (in Russian).
Scott, R. A., Smiley, C. J. 1979. Some Cretaceous plant megafossils and microfossils from the Nanushuk Group, northern Alaska: a preliminary report. – U. S. Geological Survey Circular, 794: 89–111.
Sharudo, I. I. (1960): Sostav i usloviya osadkonakopliniya uglenosnykh otlozheniy Starogo Suchana [Composition and condition of sedimentation coal bearing deposits of Old Suchan]. – Trudy Laboratorii geologii uglya AN SSSR, 10: 5–93. (in Russian).
Smith, A. R., Pryer, K. M., Schuettpelz, E., Korall, P., Schneider, H., Wolff, P. 2006. A classification for extant ferns. – Taxon, 55(3): 705–731. https://doi.org/10.2307/25065646
Spicer, R. A., Herman, A. B. 2001. The Albian–Cenomanian flora of the Kukpowruk River, western North Slope, Alaska: stratigraphy, palaeofloristics, and plant communities. – Cretaceous Research, 22: 1–40.https://doi.org/10.1006/cres.2000.0238
Sze, H. C. 1931. BeitragezurLiassischenFloravonChine. – NationalResearchInst. ofGeology, Mem., 12: 1–85.
Taylor, E. L., Taylor, T. N., Krings, M. 2009. Paleobotany: The Biology and Evolution of Fossil Plants. New York: Academic Press, 1–1252.https://doi.org/10.1016/B978-0-12-373972-8.00001-2
van Konijnenburg-van Cittert, J. H. A., van der Burgh, J. 1989. The flora from the Kimmeridgian (Upper Jurassic) of Culgower, Sutherland, Scotland. – Review of Palaeobotany and Palynology, 61: 1–51. https://doi.org/10.1016/0034-6667(89)90060-2
Vassilevskaja, N. D. 1958. Khvoshchi i paporotniki iz uglenosnykh otlozheniy Sangarskogo rayona (Lenskiy uglenosniy basseyn) [Horsetails and ferns from coal-bearing sediments of the Sangar region (Lena coalbearing basin)]. – Sbornik statey po paleontologii i biostratigrafii, 12: 50–72. (in Russian).
Vassilevskaja, N. D. 1977. Novye melovye paporotniki Chukotki i Koryakskogo nagor’ya [New Cretaceous ferns of Chukotka and Koryak Highlands]. – Paleontologicheskii Zhurnal, 2: 122–129. (in Russian).
Vassilevskaja, N. D., Kara-Mursa E. N. 1956. Paporotnik Coniopteris onychioides sp. nov. iz nizhnemelovykh otlozheniy Yakutskoy ASSR [Fern Coniopteris onychioides sp. nov. from the Lower Cretaceous deposits of the Yakutsk ASSR]. – Yezhegodnik Vsesoyusnogo paleontologicheskogo obshchestva, 15: 37–54. (in Russian).
Vassilevskaja, N. D., Pavlov, V. V. 1963. Stratigrafiya i flora melovykh otlozheniy Leno-Olenekskogo rayona Lenskogo uglenosnogo basseyna [Stratigraphy and flora of the Cretaceous sediments of the Leno-Olenek region of the Lena coal-bearing basin]. – Trudy NIIGA, 128: 1–96. (in Russian).
Wan, Z. H. 1996. The Lower Cretaceous Flora of the Gates Formation from Western Canada (thesis manuscript). Saskatoon: Department of Geological Sciences, University of Saskatchewan, Canada, 1–224.
Xi, D., Wan, X., Li, G., Li, G. 2019. Cretaceous integrative stratigraphy and timescale of China. – Science China Earth Sciences, 62: 256–286. https://doi.org/10.1007/s11430-017-9262-y
Xu, X.-T., Shao, L.-Y., Lan, B., Wang, S., Hilton, J., Qin, J.-Y., Hou, H.-H., Zhao, J. 2020. Continental chemical weathering during the Early Cretaceous Oceanic Anoxic Event (OAE1b): a case study from the Fuxin fluvio-lacustrine basin, Liaoning Province, NE China. – Journal of Palaeogeography, 9(12): 1–21.https://doi.org/10.1186/s42501-020-00056-y
Yang, X.-J., Wang, Y.-D., Zhang, W. 2013. Occurrences of Early Cretaceous fossil woods in China: 213–220.http://dx.doi.org/10.1016/j.palaeo.2013.05.019
Zhang, W., Chang, C., Zheng, S. 1980. Phylum Pteridophyta. – Paleontological atlas of northeast China, Mesozoic and Cenozoic. Beijing: Geological press, 222–372. (in Chinese with English abstract).