Книга Палеонтология антрополога. Книга 1. Докембрий и палеозой, страница 89. Автор книги Станислав Дробышевский

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Haug C. et Haug J.T. The presumed oldest flying insect: more likely a myriapod? // PeerJ 2017, V.5, p.e3402.

Hilton J. Cupulate seed plants from the upper Devonian Upper Old Red Sandstone at Taffs Well, South Wales // Review of Palaeobotany and Palynology, V.142, № 3, pp.137-151.

Hirasawa T., Oisi Y. et Kuratani S. Palaeospondylus as a primitive hagfish // Zoological Letters, 2016, V.2, p.20.

Janvier P. Early jawless vertebrates and cyclostome origins // Zoological Science, 2008, V.25, pp.1045-1056.

Johanson Z., Long J.A., Talent J.A., Janvier P. et Warren J.W. Oldest coelacanth, from the early Devonian of Australia // Biology Letters, 2006, V.2, pp.443-446.

Kalamees K. Some middle Devonian plants from Estonia // Proceedings of the Academy of Sciences of the Estonian SSR. Geology, 1988, V.37, № 2, pp.83-88.

Kethley J.B., Norton R.A., Bonamo P.M. et Shear W.A. A terrestrial alicorhagiid mite (Acari: Acariformes) from the Devonian of New York // Micropaleontology, 1989, V.35, № 4, pp.367-373.

Korzhnev V.N. The appearance of the elements of the Protopteris floras: paleogeographic constraints // Stratigraphy and Geological Correlation, 2014, V.22, № 5, pp.465-478.

Kuhl G. et Rust J. Devonohexapodus bocksbergensis is a synonym of Wingertshellicus backesi (Euarthropoda) – no evidence for marine hexapods living in the Devonian Hunsruck Sea // Organisms, Diversity&Evolution, 2009, V.9, pp.215-231.

K-hl G., Briggs D.E.G. et Rust J. A great-appendage arthropod with a radial mouth from the lower Devonian Hunsr-ck Slate, Germany // Science, 2009, V.323, № 5915, pp.771-773.

K-hl G., Bergmann A., Dunlop J.A., Garwood R.J. et Rust J. Redescription and palaeobiology of Palaeoscorpius devonicus Lehmann, 1944 from the lower Devonian Hunsruck Slate of Germany // Palaeontology, 2012, V.55, № 4, pp.775-787.

Labandeira C.C., Beall B.S. et Hueber F.M. Early insect diversification: evidence from a lower Devonian bristletail from Qu-bec // Science, 1988, V.242, № 4880, pp.913-916.

Lebedev O.L. A new tetrapod Jakubsonia livnensis from the early Famennian (Devonian) of Russia and palaeoecological remarks on the late Devonian tetrapod habitats // Acta Universitatis Latviensis, Series Earth and Environment Sciences, 2004, V.679, pp.79-98.

Lebedev O.A. et Coates M.I. The postcranial skeleton of the Devonian tetrapod Tulerpeton curtum Lebedev // Zoological Journal of the Linnean Society, 1995, V.114, № 3, pp.307-348.

Long J.A. A new genus of fossil coelacanth (Osteichthyes: Coelacanthiformes) from the middle Devonian of southeastern Australia // Records of the Western Australian Museum Supplement, 1999, № 57, pp.37-53.

Long J.A. On the relationships of Psarolepis and the onychodontiform fishes // Journal of Vertebrate Paleontology, 2001, V.21, № 4, pp.815-820.

Long J.A., Trinajstic K., Young G.C. et Senden T. Live birth in the Devonian period // Nature, 2008, V.453, № 7195, pp.650-652.

Lu J., Giles S., Friedman M., Blaauwen den J.L. et Zhu M. The oldest actinopterygian highlights the cryptic early history of the hyperdiverse ray-finned fishes // Current Biology, 2016, V.26, pp.1602-1608.

Lucas S.G. Thinopus and a critical review of Devonian tetrapod footprints // Ichnos, 2015, V.22, № 3-4, pp.136-154.

Ma X., Gong Y., Chen D., Racki G., Chene X. et Liao W. The late Devonian Frasnian – Famennian event in South China – patterns and causes of extinctions, sea level changes, and isotope variations // Palaeogeography, Palaeoclimatology, Palaeoecology, 2016, V.448, pp.224-244.

MacIver M.A., Schmitz L., Mugan U., Murphey T.D. et Mobley C.D. Massive increase in visual range preceded the origin of terrestrial vertebrates // Proceedings of the National Academy of Sciences, USA, 2017, V.114, № 12, pp.E2375-E2384.

Markey M.J. et Marshall C.R. Terrestrial-style feeding in a very early aquatic tetrapod is supported by evidence from experimental analysis of suture morphology // Proceedings of the National Academy of Sciences, USA, 2007, V.104, № 17, pp.7134-7138.

Meyer-Berthaud B. et Decombeix A.-L. In the shade of the oldest forest // Nature, 2012, V.483, № 7387, pp.41-42.

Morton D.J. Notes on the footprint of Thinopus antiquus // American Journal of Science, 1926, Ser.5, V.12, pp.409-414.

Moy-Thomas J.A. Palaeozoic fishes. London, Chapman and Hall LTD II New Fetter Lane, 1939, 259 p.

Niedzwiedzki G., Szrek P., Narkiewicz K., Narkiewicz M. et Ahlberg P.E. Tetrapod trackways from the early Middle Devonian period of Poland // Nature, 2010, V.463, № 7277, pp.43-48.

Ord T.J., Summers Th.C., Noble M.M. et Fulton Ch.J. Ecological release from aquatic predation is associated with the emergence of marine blenny fishes onto land // The American Naturalist, 2017, V.189, № 5, pp.570-579.

Percival L.M.E., Davies J.H.F.L., Schaltegger U., De Vleeschouwer D., Da Silva A.-C. et F-llmi K.B. Precisely dating the Frasnian – Famennian boundary: implications for the cause of the late Devonian mass extinction // Scientific Reports, 2018, V.8, № 1, p.9578.

Pettitt J.M. et Beck Ch.B. Archaeosperma arnoldii, a cupulate seed from the upper Devonian of North America // Ann Arbor, Museum of Paleontology, University of Michigan, 1968. Series: Contributions from the Museum of Paleontology, V.22, № 10.

Pierce S.E., Clack J.A. et Hutchinson J.R. Three-dimensional limb joint mobility in the early tetrapod Ichthyostega // Nature, 2012, V.486, № 7404, pp.524-527.

Pradel A., Maisey J.G., Tafforeau P. et Janvier P. An enigmatic gnathostome vertebrate skull from the middle Devonian of Bolivia // Acta Zoologica, 2009, V.90, pp.123-133.

Remy W., Taylor T.N., Hass H. et Kerp H. 4 hundred million year old vesicular-arbuscular mycorrhizae // Proceedings of the National Academy of Sciences, USA, 1994, V.91, № 25, pp.11841-11843.

Ricci J., Quidelleur X., Pavlov V., Orlov S., Shatsillo A. et Courtillot V. New 40Ar/39Ar and K – Ar ages of the Viluy traps (Eastern Siberia): further evidence for a relationship with the Frasnian – Famennian mass extinction // Palaeogeography, Palaeoclimatology, Palaeoecology, 2013, V.386, pp.531-540.

Rothwell G.W., Scheckler S.E. et Gillespie W.H. Elkinsia gen. nov., a late Devonian gymnosperm with cupulate ovules // Botanical Gazette, 1989, V.150, pp.170-189.

Ruta M., Coates M.I. et Quicke D.L.J. Early tetrapod relationships revisited // Biological Reviews, 2003, V.78, № 2, pp.251-345.

Schultze H.-P. Pal-oniscoidea-Schuppen aus dem Unterdevon Australiens und Kanadas undaus dem Mitteldevon Spitzbergens // Bulletin of the British Museum (Natural History), Historical series, 1968, V.16, pp.343-368.

Selden P.A., Shear W.A. et Sutton M.D. Fossil evidence for the origin of spider spinnerets, and a proposed arachnid order // Proceedings of the National Academy of Sciences, USA, 2008, V.105, № 52, pp.20781-20785.

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