Читаем Палеонтология антрополога. Том 3. Кайнозой полностью

Paula Couto de C. Fossil mammals from the beginning of the Cenozoic in Brazil. Condylarthra, Litopterna, Xenungulata, and Astrapotheria // Bulletin of the American Museum of Natural History, 1952, V.99, pp.355–394.

Rich P. V. et Bohaska D. J. The Ogygoptyngidae, a new family of owls from the Paleocene of North America // Alcheringa, 1981, V.5, № 2, pp.95–102. Древнейшая сова Ogygoptynx wetmorei.

Rook D. L. et Hunter J. P. Rooting around the eutherian family tree: the origin and relations of the Taeniodonta // Journal of Mammalian Evolution, 2014, V.21, pp.75–91.

Rose K. D. et Lucas S. G. An early Paleocene palaeanodont (Mammalia,? Pholidota) from New Mexico, and the origin of Palaeanodonta // Journal of Vertebrate Paleontology, 2000, V.20, № 1, pp.139–156. Escavadodon zygus.

Shoshani J. et McKenna M. C. Higher taxonomic relationships among extant mammals based on morphology, with selected comparisons of results from molecular data // Molecular Phylogenetics and Evolution, 1998, V.9, № 3, pp.572–584.

Slack K. E., Jones C. M., Ando T., Harrison (Abby) G.L., Fordyce R. E., Arnason U. et Penny D. Early penguin fossils, plus mitochondrial genomes, calibrate avian evolution // Molecular Biology and Evolution, 2006, V.23, № 6, pp.1144–1155. Пингвин Waimanu manneringi.

Tambussi C. P., Degrange F. J., De Mendoza R. S., Sferco E. et Santillana S. A stem anseriform from the early Palaeocene of Antarctica provides new key evidence in the early evolution of waterfowl // Zoological Journal of the Linnean Society, 2019, V.186, pp.673–700. Гусь из Антарктиды Conflicto antarcticus.

Toit du C.J., Chinsamy A. et Cunningham S. J. Cretaceous origins of the vibrotactile bill-tip organ in birds // Proceedings of the Royal Society B: Biological Sciences, 2020, V.287, № 20202322, pp.1–10. Вибротактильный орган у Lithornithiformes.

Torres C. R. et Clarke J. A. Nocturnal giants: evolution of the sensory ecology in elephant birds and other palaeognaths inferred from digital brain reconstructions // Proceedings of the Royal Society B: Biological Sciences, 2018, V.285, № 1890, № 20181540, pp.1–8. Обоняние у палеогнатных птиц.

Vajda V. et McLoughlin S. Fungal proliferation at the Cretaceous-Tertiary boundary // Science, 2004, V.303, p.1489. Грибы на границе мела и палеогена.

Vajda V. et McLoughlin, S. Extinction and recovery patterns of the vegetation across the Cretaceous-Palaeogene boundary – a tool for unraveling the causes of the end-Permian mass extinction // Review of Palaeobotany and Palynology, 2007, V.144, 99–112. Грибы на границе мела и палеогена.

Visscher H., Brinkhuis H., Dilcher D. L., Elsik W. C., Eshet Yo., Looy C. V., Rampino M. R. et Traverse A. The terminal Paleozoic fungal event: evidence of terrestrial ecosystem destabilization and collapse // Proceedings of the National Academy of Sciences USA, 1996, V.93, pp.2155–2158. Грибы на границе перми и триаса.

Vucetich M. G., Reguero M. A., Bond M., Candela A. M., Carlini A. A., Deschamps C. M., Gelfo J. N., Goin F. J., Lopez G. M., Ortiz Jaureguizar E., Pascual R., Scillatoyane G. J. et Vieytes E. C. Mamiferos continentales del Paleogeno argentino: las investigaciones de los ultimos cincuenta anos // Ameghiniana, 2007, № 50, Asociacion Paleontologica Argentina, Publicacion Especial 11, pp.239–255.

Vullo R., Cavin L., Khalloufi B., Amaghzaz M., Bardet N., Jalil N.-E., Jourani E., Khaldoune F. et Gheerbrant E. A unique Cretaceous – Paleogene lineage of piranha-jawed pycnodont fishes // Scientific Reports, V.7, № 6802, pp.1–9. Пираньеподобная рыба Serrasalmimus.

Wilson G. P., Evans A. R., Corfe I. J., Smits P. D., Fortelius M. et Jernvall J. Adaptive radiation of multituberculate mammals before the extinction of dinosaurs // Nature, 2012, V.483, pp.457–460. Разнообразие многобугорчатых.

Wilson Mantilla G. P., Chester S. G.B., Clemens W. A., Moore J. R., Sprain C. J., Hovatter B. T., Mitchell W. S., Mans W. W., Mundil R. et Renne P. R. Earliest Palaeocene purgatoriids and the initial radiation of stem primates // Royal Society Open Science, 2021, V.8, № 210050, pp.1–10. Пургаториус.

Zeebe R. E. et Lourens L. J. Solar System chaos and the Paleocene – Eocene boundary age constrained by geology and astronomy // Science, 2019, V.365, pp.926–929. Датировка границы палеоцена и эоцена.

Zelenitsky D. K., Therrien F., Ridgely R. C., McGee A.R. et Witmer L. M. Evolution of olfaction in non-avian theropod dinosaurs and birds // Proceedings of the Royal Society B: Biological Sciences, 2011, V.278, pp.3625–3634. Мозг и обоняние динозавров и птиц.

Zhang Y. – P. Two new genera of condylarthan phenacolophids from the Paleocene of Nanxiong Basin, Guangdong // Vertebrata PalAsiatica, 1978, V.16, № 4, pp.267–274.

ЭОЦЕН

Ковалевский В. О. Палеонтология лошадей. Москва, АН СССР, 1948, 353 с.