Книга Звери до нас. Нерассказанная история происхождения млекопитающих - Эльза Панчироли
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12 Hochuli, P. A. & Feist-Burkhardt, S. 2013. Angiosperm-like pollen and Afropollis from the Middle Triassic (Anisian) of the Germanic Basin (northern Switzerland). Frontiers in Plant Science 4: 344.
13 In Darwin, C. 1859. On the Origin of Species (1st edition). John Murray, London.
14 Friis, E. M., Pedersen, K. R. & Crane, P. R. 2001. Fossil evidence of water lilies (Nymphaeales) in the Early Cretaceous. Nature 410: 357–360.
15 Gomez, B., Daviero-Gomez, V., Coiff ard, C., Mart í n-Closas, C. & Dilcher, D. L. 2015. Montsechia, an ancient aquatic angiosperm. Proceedings of the National Academy of Sciences 112: 10985–10988.
16 Sun, G., Dilcher, D. L., Wang, H. & Chen, Z. 2011. A eudicot from the Early Cretaceous of China. Nature 471: 625–628.
17 Field, D. J., Benito, J., Chen, A., Jagt, J. W. & Ksepka, D. T. 2020. Late Cretaceous neornithine from Europe illuminates the origins of crown birds. Nature 579: 397–401.
18 Kielan-Jaworowska, Z. 2005. Zofia Kielan-Jaworowska: An Autobiography. Unpublished: p. 3.
19 Wituska, K. & Tomaszewski, I. 2006. Inside a Gestapo Prison: The Letters of Krystyna Wituska, 1942–1944. Wayne State University Press, Detroit.
20 Buffetaut, E. & Le Loeuff, J. 1994. The discovery of dinosaur eggshells in nineteenth-century France. In Carpenter, K., Hirsch, K. & Horner, J. (eds). Dinosaur Eggs and Babies. Cambridge University Press, New York: pp. 31–34.
21 Gregory, W. K. 1927. Mongolian Mammals of the ‘Age of Reptiles’. The Scientific Monthly 24: 225–235.
22 Kielan-Jaworowska, Z. 2005 Zofia Kielan-Jaworowska: An Autobiography. Unpublished: p. 18.
23 Kielan-Jaworowska, Z., Presley, R. & Poplin, C. 1986. The cranial vascular system in taeniolabidoid multituberculate mammals. Philosophical Transactions of the Royal Society of London B: Biological Sciences 313: 525–602.
24 Cifelli, R. L. & Fostowicz Frelik, Ł. 2016. Legacy of the Gobi Desert: Papers in Memory of Zofia Kielan-Jaworowska. Acta Palaeontologica Polonica 67: 13.
25 Boyce, C. K., Brodribb, T. J., Feild, T. S. & Zwieniecki, M. A. 2009. Angiosperm leaf vein evolution was physiologically and environmentally transformative. Proceedings of the Royal Society B: Biological Sciences 276: 1771–1776.
Глава 11
1 Longrich, N. R., Tokaryk, T. & Field, D. J. 2011. Mass extinction of birds at the Cretaceous – Paleogene (K – Pg) boundary. Proceedings of the National Academy of Sciences 108: 15253–15257.
2 Longrich, N. R., Bhullar, B. A. S. & Gauthier, J. A. 2012. Mass extinction of lizards and snakes at the Cretaceous – Paleogene boundary. Proceedings of the National Academy of Sciences 109: 21396–21401.
3 Vajda, V. & McLoughlin, S. 2004. Fungal proliferation at the Cretaceous – Tertiary boundary. Science 303: 1489.
4 Rehan, S. M., Leys, R. & Schwarz, M. P. 2013. First evidence for a massive extinction event affecting bees close to the KT boundary. PLOS One 8: e76683.
5 Donovan, M. P., Iglesias, A., Wilf, P., Labandeira, C. C. & Cúneo, N. R. 2016. Rapid recovery of Patagonian plant – insect associations after the end-Cretaceous extinction. Nature Ecology & Evolution 1: 1–5.
6 Slater, G. J. 2013. Phylogenetic evidence for a shift in the mode of mammalian body size evolution at the Cretaceous – Palaeogene boundary. Methods in Ecology and Evolution 4: 734–744.
7 Grossnickle, D. M., Smith, S. M. & Wilson, G. P. 2019. Untangling the multiple ecological radiations of early mammals. Trends in Ecology and Evolution 34: 936–949.
8 Benson, R. B. J., Hunt, G., Carrano, M. T. & Campione, N. 2018. Cope’s rule and the adaptive landscape of dinosaur body size evolution. Palaeontology 61: 13–48.
9 Anderson, A. O. & Allred, D. M. 1964. Kangaroo rat burrows at the Nevada Test Site. The Great Basin Naturalist 24: 93–101.
10 Jorgensen, C. D. & Hayward, C. L. 1965. Mammals of the Nevada Test Site. Brigham Young University Science Bulletin, Biological Series 6: Article 1.
11 Wilson, G. P., Evans, A. R., Corfe, I. J., Smits, P. D., Fortelius, M. & Jernvall, J. 2012. Adaptive radiation of multituberculate mammals before the extinction of dinosaurs. Nature 483: 457–460.
12 Goin, F. J., Reguero, M. A., Pascual, R., von Koenigswald, W., Woodburne, M. O., Case, J. A., Marenssi, S. A., Vieytes, C. & Vizcaíno, S. F. 2006. First gondwanatherian mammal from Antarctica. Geological Society, London, Special Publications 258: 135–144.
13 20 ноября 2018 года. Meteorite hunters dig up 60 million-year-old site in Skye. BBC News.
14 Hooker, J. J. & Millbank, C. 2001. A Cernaysian mammal from the Upnor Formation (Late Palaeocene, Herne Bay, UK) and its implications for correlation. Proceedings of the Geologists’ Association 112: 331–338.
15 Hooker, J. J. 2016. Skeletal adaptations and phylogeny of the oldest mole Eotalpa (Talpidae, Lipotyphla, Mammalia) from the UK Eocene: the beginning of fossoriality in moles. Palaeontology 59: 195–216.
Эпилог
1 Levy, O., Dayan, T., Porter, W. P. & Kronfeld – Schor, N. 2019. Time and ecological resilience: can diurnal animals compensate for climate change by shifting to nocturnal activity? Ecological Monographs 89: e01334.
2 Pecl, G. T., Araújo, M. B., Bell, J. D., Blanchard, J., Bonebrake, T. C., Chen, I. C., Clark, T. D., Colwell, R. K., Danielsen, F., Evengård, B. & Falconi, L. 2017. Biodiversity redistribution under climate change: Impacts on ecosystems and human well-being. Science 355: eaai9214.
3 Buckley, L. B., Tewksbury, J. J. & Deutsch, C. A. 2013. Can terrestrial ectotherms escape the heat of climate change by moving? Proceedings of the Royal Society B: Biological Sciences 280: 20131149.
4 Dalén, L., Nyström, V., Valdiosera, C., Germonpré, M., Sablin, M., Turner, E., Angerbjörn, A., Arsuaga, J. L. & Götherström, A. 2007. Ancient DNA reveals lack of postglacial habitat tracking in the arctic fox. Proceedings of the National Academy of Sciences 104: 6726–6729.
5 Pacifici, M., Rondinini, C., Rhodes, J. R., Burbidge, A. A., Cristiano, A., Watson, J. E., Woinarski, J. C. & Di Marco, M. 2020. Global correlates of range contractions and expansions in terrestrial mammals. Nature Communications 11: 1–9.
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