Ознакомительная версия. Доступно 19 страниц из 92
Lyons T.W., Reinhard Ch.T. et Planavsky N.J. The rise of oxygen in Earth's early ocean and atmosphere // Nature, 2014, V.506, № 7488, pp.307-315.
Manhes G., Allegre C.J., Dupre B. et Hamelin B. Lead isotope study of basic-ultrabasic layered complexes: speculations about the age of the Earth and primitive mantle characteristics // Earth and Planetary Science Letters, 1980, V.47, pp.370-382.
O'Hara T.D., Hugall A.F., MacIntosh H., Naughton K.M., Williams A. et Moussalli A. Dendrogramma is a siphonophore // Current Biology, 2016, V.26, pp.R445-R460.
Pecoits E., Konhauser K.O., Aubet N.R., Heaman L.M., Veroslavsky G., Stern R.A. et Gingras M.K. Bilaterian burrows and grazing behavior at >585 million years ago // Science, 2012, V.336, № 6089, pp.1693-1636.
Petryshyn V.A., Bottjer D.J., Chen Ju.-Yu. et Gao F. Petrographic analysis of new specimens of the putative microfossil Vernanimalcula guizhouena (Doushantuo Formation, South China) // Precambrian Research, 2011, V.225, pp.58-66.
Raff E.C., Villinski J.T., Turner F.R., Donoghue Ph.C.J. et Raff R.A. Experimental taphonomy shows the feasibility of fossil embryos // Proceedings of the National Academy of Sciences, USA, 2006, V.103, № 15, pp.5846-5851.
Roos de A.D.G. The origin of the eukaryotic cell based on conservation of existing interfaces // Artificial Life, 2006, V.12, pp.513-523.
Santarella-Mellwig R., Pruggnaller S., Roos N., Mattaj I.W. et Devos D.P. Three-dimensional reconstruction of bacteria with a complex endomembrane system // PLOS Biology, 2013, V.11, № 5, p.e1001565.
Shields-Zhou G.A., Porter S. et Halverson G.P. A new rock-based definition for the Cryogenian Period (circa 720 – 635 Ma) // Episodes, 2016, V.39, № 1.
Spang A., Saw J.H., Jorgensen S.L., Zaremba-Niedzwiedzka K., Martijn J., Lind A.E., Eijk van Roel, Schleper Ch., Guy L. et Ettema ThJ.G. Complex archaea that bridge the gap between prokaryotes and eukaryotes // Nature, 2015, V.521, № 7551, pp.173-179.
Sperling E. A. et Vinther J. A placozoan affinity for Dickinsonia and the evolution of late Proterozoic metazoan feeding modes // Evolution & Development, 2010, V.12, № 2, pp.201-209.
Sun W.G. Late Precambrian pennatulids (sea pens) from the Eastern Yangtze Gorge, China: Paracharnia gen. nov. // Precambrian Research, 1986, V.31, pp.361-375.
Takemura M. Poxviruses and the origin of the eukaryotic nucleus // Journal of Molecular Evolution, 2001, V.52, pp.419-425.
Tera F. Aspects of isochronism in Pb isotope systematics-application to planetary evolution // Geochimica et Cosmochimica Acta, 1981, V.45, № 9, pp.1439-1448.
Villarreal L.P. et Defilippis V.R. A hypothesis for DNA viruses as the origin of eukaryotic replication proteins // Journal of Virology, 2000, V.74, № 15, pp.7079-7084.
Wang G. Late Precambrian Annelia and Pogonophora from the Huinan of Anhui Province // Bulletin of the Tianjin Institute of Geology and Mineral Resources, 1983, V.6, pp.9-22.
Xiao Sh. et Knoll A.H. Phosphatized animal embryos from the Neoproterozoic Doushantuo formation at Weng'an, Guizhou, South China // Journal of Paleontology, 2000, V.74, № 5, pp.767-788.
Xiao Sh., Yuan X. et Knoll A.H. Eumetazoan fossils in terminal Proterozoic phosphorites? // Proceedings of the National Academy of Sciences, USA, 2000, V.97, № 25, pp.13684-13689.
Xiao Sh., Zhang Yu. et Knoll A.H. Three-dimensional preservation of algae and animal embryos in a Neoproterozoic phosphorite // Nature, 1998, V.391, № 6667, pp.553-558.
Yin L., Zhu M., Knoll A.H., Yuan X., Zhang Ju. et Hu J. Doushantuo embryos preserved inside diapause egg cysts // Nature, 2007, V.446, № 7136, pp.661-663.
Кембрий
Иванова-Казас О.М. Вторичный рот и его филогенетическое значение // Биология моря, 2015, Т.41, № 2, сс.81-91.
Иванцов A.Ю., Журавлёв A.Ю., Kрaсилoв В.A., Легутa A.В., Meльникoвa Л.M., Урбанек А., Ушaтинскaя Г.T., Малаховская Я.Е. Уникальные синские местонахождения раннекембрийских организмов. Сибирская платформа. М., Наука, 2005, 143 с.
Малахов В.В. Происхождение хордовых животных // Соросовский образовательный журнал, 1996, № 7, сс.2-9.
Archibald J.M. Genomic perspectives on the birth and spread of plastids // Proceedings of the National Academy of Sciences, USA, 2015, V.112, № 33, pp.10147-10153.
Aria C. et Caron J.-B. Burgess Shale fossils illustrate the origin of the mandibulate body plan // Nature, 2017, V.545, № 7652, pp.89-92.
Awramik S.M. The oldest records of photosynthesis // Photosynthesis Research, 1992, V.33, pp.75-89.
Bengtson S. et Zhao Yu. Predatorial borings in late Precambrian mineralized exoskeletons // Science, 1992, V.257, № 5068, pp.367-369.
Bengtson S., Rasmussen B. et Krapez B. The Paleoproterozoic megascopic Stirling biota // Paleobiology, 2007, V.33, № 3, pp.351-381.
Bergstrom Ja. et Xian-Guang H. Arthropod origins // Bulletin of Geosciences, 2003, V.78, № 4, pp.323-334.
Briggs D.E.G. et Collins D. The arthropod Alalcomenaeus cambricus Simonetta, from the middle Cambrian Burgess Shale of British Columbia // Palaeontology, 1999, V.42, № 6, pp.953-977.
Briggs D.E.G., Erwin D.H. et Collier F.J. The fossils of the Burgess Shale. Washington, Smithsonian Institution Press, 1994, 238 p.
Briggs D.E.G., Lieberman B.S., Halgedahl S.L. et Jarrard R.D. A new metazoan from the middle Cambrian of Utah and the nature of the Vetulicolia // Palaeontology, 2005, V.48, № 4, pp.681-686.
Brock G.A. et Paterson J.R. A new species of Tannuella (Helcionellida, Mollusca) from the early Cambrian of South Australia // Memoirs of the Association of Australasian Palaeontologists, 2004, V.30, pp.133-143.
Budd G. A Cambrian gilled lobopod from Greenland // Nature, 1993, 364, № 6439, pp.709-711.
Budd G. E. The morphology of Opabinia regalis and the reconstruction of the arthropod stem-group // Lethaia, 1996, V.29, № 1, pp.1-14.
Budd G.E. Tardigrades as «Stem-Group Arthropods»: the evidence from the Cambrian fauna // Zoologischer Anzeiger – A Journal of Comparative Zoology, 2001, V.240, № 3-4, pp.265-279.
Butterfield N.J. An early Cambrian radula // Journal of Paleontology, 2008, V.82, № 3, pp.543-554.
Caron J.-B. et Aria C. Cambrian suspension-feeding lobopodians and the early radiation of panarthropods // BMC Evolutionary Biology, 2017, V.17, p.29.
Caron J.-B., Scheltema A., Schander Ch. et Rudkin D. A soft-bodied mollusc with radula from the Middle Cambrian Burgess Shale // Nature, 2006, V.442, № 7099, pp.159-163.
Chen J.Y., Edgecombe G.D., Ramskold L. et Zhou L. Head segmentation in early Cambrian Fuxianhuia: implications for arthropod evolution // Science, 1995, V.268, № 5215, pp.1339-1343.
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