Ознакомительная версия. Доступно 25 страниц из 122
Nonmarine Permian // New Mexico Museum of Natural History and Science Bulletin. 2005. № 30. P. 185–186; Benton M. J. No gap in the Middle Permian record of terrestrial vertebrates // Geology. 2012. V. 40. P. 339–342.
466
Lucas S. G. No gap in the Middle Permian record of terrestrial vertebrates (forum comment) // Geological Society of America. 2013, September. P. e293.
467
Ogg, Ogg, and Gradstein, 2016. P. 121.
468
Sánchez-Villagra M. R. Developmental palaeontology in synapsids: The fossil record of ontogeny in mammals and their closest relatives // Proceedings of the Royal Society of Britain. 2010. V. 277. № 1685. P. 1139.
469
Shen S. Z. and Bowring S. A. The end-Permian mass extinction: A still-unexplained catastrophe // National Science Review. 2014. V. 1. № 4. P. 492.
470
Reichow M. K. et al. The timing and extent of the eruption of the Siberian Traps large igneous province: Implications for the end-Permian environmental crisis // Earth and Planetary Science Letters. 2009. V. 277, № 1–2. P. 9; Renne P. and Basu A. R. Rapid eruption of the Siberian Traps flood basalts at the Permo-Triassic boundary // Science. 1991. V. 253. № 5016. P. 176–179.
471
Burgess S. D., Muirhead J. D. and Bowring S. A. Initial pulse of Siberian Traps sills as the trigger of the end-Permian mass extinction // Nature Communications. 2017. V. 8. № 1. P. 1–6.
472
Сентрейлия – шахтерский город в штате Пенсильвания. В 1962 г. на мусорной свалке начался пожар, в результате которого огонь распространился по лабиринту тоннелей шахты и привел к возгоранию угольных пластов. Горение подземных угольных пластов продолжается по сей день // DeKok D. Fire Underground: The Ongoing Tragedy of the Centralia Mine Fire. Globe Pequot, 2009. — Примеч. перев.
473
Shen S. Z. and Bowring S. A. The end-Permian mass extinction: A still unexplained catastrophe // National Science Review. 2014. V. 1. № 4. P. 494.
474
Rothman D. H., Fourier G. P., French K. L., Alm E. J., Boyle E. A., Cao C. and Summons R. E. Methanogenic burst in the end-Permian Carbon Cycle // Proceedings of the National Academy of Sciences. 2014. V. 111. № 15. P. 5462.
475
Shen S. Z. et al. Calibrating the end-Permian mass extinction: Science. 2011. V. 334. № 6061. P. 1367–1372. 10. Биография Земли: мезозойская эра
476
Lucas S. G. The Triassic time scale: An introduction // Lucas S. G. (ed.) The Triassic Time Scale. Geological Society of London Special Publications. 2010. V. 334. P. 2
477
Ibid. P. 9.
478
Currie B. S., Colombi C. E., Tabor N. J., Shipman T. C. and Montañez I. P. Stratigraphy and architecture of the Upper Triassic Ischigualasto Formation, Ischigualasto Provincial Park, San Juan, Argentina // Journal of South American Earth Sciences. 2009. V. 27. P. 74–87.
479
Seeley H. G. On a sacrum apparently indicating a new type of bird, Ornithodesmus cluniculus Seeley: Quarterly Journal of the Geological Society of London, 1887. V. 43. P. 206–211; Seeley H. G. On Thecospondylus daviesi (Seeley), with some remarks on the classification of the Dinosauria // Quarterly Journal of the Geological Society of London, 1888. Vol. 44. P. 79–87.
480
Marsh O. C. Principal characters of American Jurassic dinosaurs, Part V // American Journal of Science. 1881, series 3. V. 21, May. P. 417–423.
481
Baron M. G., Norman D. B. and Barrett P. M. A new hypothesis of dinosaur relationships and early dinosaur evolution: Nature. 2017. V. 543. № 7646. P. 501–506.
482
Brusatte S. L., O’Connor J. K. and Jarvis E. D. The origin and diversification of birds // Current Biology. 2015. V. 25. № 19. P. R888.
483
Sereno P. C. Basal sauropodomorphs and the vertebrate fossil record of the Ischigualasto Formation (Late Triassic: Carnian-Norian) of Argentina // Journal of Vertebrate Paleontology. 2013. V. 32. № sup1: Memoir 12: p. 1–9.
484
Sereno P. C., Forster C. A., Rogers R. R. and Monetta A. M. Primitive dinosaur skeleton from Argentina and the early evolution of Dinosauria // Nature. 1993. V. 361. № 6407. P. 64–66.
485
Sues H. D., Nesbitt S. J., Berman D. S. and Henrici A. C. A late-surviving basal theropod dinosaur from the latest Triassic of North America // Proceedings of the Royal Society. 2011. V. B278. № 1723. P. 3459.
486
Ibid. P. 3463.
487
Jiang D. Y. et al. A large aberrant stem ichthysauriform indicating early rise and demise of ichthysauromorphs in the wake of the end-Permian extinction // Scientific Reports. 2016. V. 6. № 26232. P. 1.
488
Ogg, Ogg, and Gradstein, 2016. P. 151.
489
Ward P. D., Garrison G. H., Haggart J. W., Kring D. A. and Beattie M. J. Isotopic evidence bearing on the late Triassic extinction events, Queen Charlotte Islands, British Columbia, and implications for the duration and cause of the Triassic—Jurassic mass extinction // Earth and Planetary Science Letters. 2004. V. 224. P. 599.
490
Woodford A. O. Catastrophism and evolution // Journal of Geological Education. 1971. V. 19. № 5. P. 229.
491
D’Orbigny A. Cours élémentaire de paléontologic et de Géologie Stratigraphies (2 volumes). Paris: Masson, 1849–1852, 1146 p.
492
Oppel A. Die Juraformation Englands, Frankreichs und das Südwestlichen Deutschlands. Stuttgart: Ebner & Serebert, 1856–1858, 857 p.
493
Ogg, Ogg, and Gradstein, 2016. P. 156.
494
Martill D. M., Vidovic S. U., Howells C. and Nudds J. R. The oldest Jurassic dinosaur: A basal neotheropod from the Hettangian of Great Britain // PLOS One. 2016. V. 11. № 1. P. e0154352.
495
Conybeare W. D. Additional notices on the fossil genera Ichthyosaurus and Plesiosaurus // Transactions of the Geological
Ознакомительная версия. Доступно 25 страниц из 122
