Bader W. et al. 2017. The recent increase of atmospheric methane from 10 years of ground-based NDACC FTIR observations since 2005 // Atmospheric Chemistry and Physics, 17, 2255–77.
Bains S., Norris R. D., Corfield R. M., Faul K. L. 2000. Termination of global warmth at the Palaeocene/Eocene boundary through productivity feedback // Nature, 407, 171–4.
Bambach R. K., Knoll A. N., Sepkoski J. J., Jr. 2002. Anatomical and ecological constraints on Phanerozoic animal diversity in the marine realm // Proceedings of the National Academy of Sciences of the USA, 99, 6854–9.
Bannikov A. F. 2014. The systematic composition of the Eocene actinopterygian fish fauna from Monte Bolca, northern Italy, as known to date // Studi e Ricerche sui Giacimenti Terziari di Bolca, 12, 23–34.
Bargo M. S., De Iuliis G., Vizcaíno S. F. 2006. Hypsodonty in Pleistocene ground sloths // Acta Palaeontologica Polonica, 51, 53–61.
Barnosky A. D. et al. 2016. Variable impact of late-Quaternary megafaunal extinction in causing ecological state shifts in North and South America // Proceedings of the National Academy of Sciences of the USA, 113, 856–61.
Bates K. T., Falkingham P. L. 2012. Estimating maximum bite performance in Tyrannosaurus rex using multi-body dynamics // Biology Letters, 8, 660–4.
Beerling D. J., Osborne C. P. 2006. The origins of the savanna biome // Global Change Biology, 12, 2023–31.
Beerling D. J., Royer D. L. 2011. Convergent Cenozoic CO2 history // Nature Geoscience, 4, 418–20.
Behrensmeyer A. K. et al., eds. 1992. Terrestrial Ecosystems Through Time: Evolutionary Paleoecology of Terrestrial Plants and Animals. Chicago: Univ. Chicago Press, 588 p.
Bellwood D. R., Goatley C. H. R., Bellwood O. 2017. The evolution of fishes and corals on reefs: form, function and interdependence // Biological Reviews, 92, 878–901.
Berendse F., Scheffer M. 2009. The angiosperm radiation revisited, an ecological explanation for Darwin’s ‘abominable mystery’ // Ecology Letters, 12, 865–72.
Beuck L., Wisshak M., Munnecke A., Freiwald A. 2008. A giant boring in Silurian stromatoporoid analysed by computer tomography // Acta Palaeontologica Polonica, 53, 149–60.
Bininda-Emonds O. R. P. et al. 2007. The delayed rise of present-day mammals // Nature, 446, 507–12.
Black B., Archer M., Hand S. J., Gothelp H. 2012. The rise of Australian marsupials: A synopsis of biostratigraphic, phylogenetic and palaeobiogeographic understanding // Talent J. A., ed. Earth and Life. Global Biodiversity, Extinction Intervals and Biogeographic Perturbations Through Time. Dordrecht: Springer, p. 983–1078.
Bocherens H. et al. 2011. Isotopic evidence for dietary ecology of cave lion (Panthera spelaea) in North-Western Europe: Prey choice, competition and implications for extinction // Quaternary International, 245, 249–61.
Botha-Brink J. 2017. Burrowing in Lystrosaurus: Preadaptation to a postextinction environment? // Journal of Vertebrate Paleontology. DOI: 10.1080/02724634.201.1365080
Bouchenak-Khelladi Y. et al. 2009. The origins and diversification of C4 grasses and savanna-adapted ungulates // Global Change Biology, 15, 2397–417.
Boyce C. K., Lee J. E. 2010. An exceptional role for flowering plant physiology in the expansion of tropical rainforests and biodiversity // Proceedings of the Royal Society of London B, 277, 3437–43.
Brandt D. S., Elias R. J. 1989. Temporal variations in tempestite thickness may be a geologic record of atmospheric CO2 // Geology, 17, 951–2.
Brodribb T. J., Field T. S. 2010. Leaf hydraulic evolution led a surge in leaf photosynthetic capacity during early angiosperm diversification // Ecology Letters, 13, 175–83.
Brown C. M. et al. 2017. An exceptionally preserved three-dimensional armored dinosaur reveals insight into coloration and Cretaceous predator-prey dynamics // Current Biology, 27, 1–8. DOI: 10.1016/j.cub.2017.06.071
Burgess S. D., Bowring S. A. 2015. High-precision geochronology confirms voluminous magmatism before, during, and after Earth’s most severe extinction // Science Advances, 1, e1500470. DOI: 10.1126/sciadv.1500470
Burness G. P., Diamond J., Flannery T. 2001. Dinosaurs, dragons, and dwarfs: The evolution of maximal body size // Proceedings of the National Academy of Sciences of the USA, 98, 14518–23.
Carter L. B., Dasgupta R. 2013. Hydrous basalt-limestone interaction at crustal conditions: Implications for generation of ultracalcic melts and outflux of CO2 at volcanic arcs // Earth and Planetary Science Letters, 427, 202–14.
Chernova O. F., Kirillova I. V., Boeskorov G. G., Shidlovskiy F. K., Kabilov M. R. 2015. Architectonics of the hairs of the woolly mammoth and woolly rhino // Proceedings of the Zoological Institute RAS, 319, 441–60.
Chu D. et al. 2015. Early Triassic wrinkle structures on land: stressed environments and oases for life // Scientific Reports, 5, 10109. DOI: 10.1038/srep10109
Clapham M. E., Payne J. L. 2011. Acidification, anoxia, and extinction: A multiple logistic regression analysis of extinction selectivity during the Middle and Late Permian // Geology, 39, 1059–62.
Clarkson M. O. et al. 2015. Ocean acidification and the Permian-Triassic mass extinction // Science, 348, 229–32.
Clarkson M. O. et al. 2016. Dynamic anoxic ferruginous conditions during the end-Permian mass extinction and recovery // Nature Communications, 7, 12236. DOI: 10.1038/ncomms.12236
Codron D., Carbone C., Müller D. W. H., Clauss M. 2012. Ontogenetic niche shifts in dinosaurs influenced size, diversity and extinction in terrestrial vertebrates // Biology Letters, 8, 620–3.
Cui Y., Kump L. R. 2015. Global warming and the end-Permian extinction event: Proxy and modelling perspectives // Earth-Science Reviews, 149, 5–22.
Danise S., Higgs N. D. 2015. Bone-eating Osedax worms lived on Mesozoic marine reptile deadfalls // Biology Letters, 11 (4), 20150072. DOI: 10.1098/rsbl.2015.0072
de Boer H. J., Eppinga M. B., Wassen M. J., Dekker S. C. 2012. A critical transition in leaf evolution facilitated the Cretaceous angiosperm revolution // Nature Communications, 3, 1221. DOI: 10.1038/ncomms2217
Dlussky G. M., Wappler T., Wedmann S. 2009. Fossil ants of the genus Gesomyrmex Mayr (Hymenoptera, Formicidae) from the Eocene of Europe and remarks on the evolution of arboreal communities // Zootaxa, 2031, 1–20.
