Schopf et al.—Berkuta and Chulaktau microbiotas
Schopf, J.W., Kudryavtsev, A.B., and Sergeev, V.N., 2010a, Confocal laser scan- ning microscopy and Raman imagery of the late Neoproterozoic Chichkan microbiota of South Kazakhstan: Journal of Paleontology, v. 84, p. 402–416.
Schopf, J.W., Kudryavtsev, A.B., Tripathi, A.B., and Czaja, A.D., 2010b, Three- dimensional morphological (CLSM) and chemical (Raman) imagery of cellularly mineralized fossils, in Allison, P.A., and Bottjer, D.J., eds., Taphonomy: Process and Bias through Time: Amsterdam, the Netherlands, Springer-Verlag, p. 457–486.
Schopf, J.W., Farmer, J.D., Foster, I.S., Kudryavtsev, A.B., Gallardo, V.A., and Espinoza, C., 2012, Gypsum-permineralized microfossils and their relevance to the search for life on Mars: Astrobiology, v. 12, p. 619–633.
Sergeev, V.N., 1992, Silicified microfossils from the Precambrian and Cambrian deposits of the southern Ural Mountains and Middle Asia: Moscow, Nauka, 134 p. [in Russian]
Sergeev, V.N., 1989, Microfossils from transitional Precambrian-Phanerozoic strata of Central Asia: Himalayan Geology, v. 13, p. 269–278.
Sergeev, V.N., 2002, Silicified microfossils from the Vendian Yudoma Group, the Uchur-Maya Region of Siberia: facies dependence and biostratigraphic potential: Stratigraphy and Geological Correlation, v. 10(6), p. 547–564. [English version]
Sergeev, V.N., 2001, Paleobiology of the Neoproterozoic (Upper Riphean) Shorikha and Burovaya silicified microbiotas, Turukhansk Uplift, Siberia: Journal of Paleontology, v. 75, p. 427–448.
Sergeev, V.N., 2006, Precambrian Microfossils in Mherts: Their Paleobiology, Classification and Biostratigraphic Usefulness: Moscow, GEOS, 280 p. [in Russian]
Sergeev, V.N., and Seong-Joo., L., 2004, New data on silicified microfossils from the Satka Formation of the Lower Riphean stratotype, the Urals: Stratigraphy and Geological Correlation, v. 12(1), p. 1–21. [English version]
Sergeev, V.N., and Seong-Joo, L., 2001, Microfossils from cherts of the Middle Riphean Svetlyi Formation, the Uchur-Maya Region of Siberia and their stratigraphic significance: Stratigraphy and Geological Correlation, v. 9(1), p. 1–10. [English version]
Sergeev, V.N., and Ogurtsova, R.N., 1989, Microbiota from the Lower Cambrian phosphatic deposits of the Maly Karatau (South Kazakhstan): Izvestiya Akademiya Nauk SSSR, Seriya Geologicheskaya, v. 3, p. 58–66. [In Russian]
Sergeev, V.N., and Schopf, J.W., 2010, Taxonomy, paleoecology and biostratigraphy of the Late Neoproterozoic Chichkan microbiota of South Kazakhstan: the marine biosphere on the eve of metazoan radiation: Journal of Paleontology, v. 84, p. 363–401.
Sergeev, V.N., Knoll, A.H., and Grotzinger, J.P., 1995, Paleobiology of the Mesoproterozoic Billyakh Group, Anabar Uplift, Northeastern Siberia: Paleontological Society Memoir, v. 39, 37 p.
Sergeev, V.N., Knoll, A.H., Kolosova, S.P., and Kolosov, P.N., 1994, Micro- fossils in cherts from the Mesoproterozoic Debengda Formation, the Olenek Uplift, northeastern Siberia: Stratigraphy and Geological Correlation, v. 2(1), p. 23–38. [English version]
Sergeev, V.N., Sharma, M., and Shukla, Y., 2008, Mesoproterozoic silicified microbiotas of Russia and India-characteristics and contrasts: Palaeo- botanist, v. 57, p. 323–358.
Sergeev, V.N., Knoll, A.H., and Petrov,
P.Yu., 1997, Paleobiology of the Mesoproterozoic-Neoproterozoic transition: the Sukhaya Tunguska Formation, Turukhansk Uplift, Siberia: Precambrian Research, v. 85, p. 201–239.
Sergeev, V.N., Sharma, M., and Shukla, Y., 2012, Proterozoic fossil cyano- bacteria: Palaeobotanist, v. 61, p. 189–358.
Sharma, M., 2006, Palaeobiology of Mesoproterozoic Salkhan Limestone Semri Group, Rohtas, Bihar, India: systematics and significance: Journal of Earth System Sciences, v. 115, p. 67–78.
Song, X., 1984, Obruchevella from the Early Cambrian Meishucunian Stage of the Meishucun section, Jinning, Yunnan, China: Geological Magazine, v. 121, p. 179–183.
Sovietov, Yu.K., 2008, Neoproterozoic rifting and sedimentary basins evolution located on the Tarim-type microcontinents: Maly Karatau, southern Kazakh- stan, in Sedimentogenesis and Lithogenesis Types and their Evolution through Earth’s History, Transactions of 5th All-Russian Lithological Conference. Russian Academy of Science, Yekaterinburg. p. 143–146. [in Russian]
Srivastava, P., and Kumar, S., 2003, New microfossils from the Meso– Neoproterozoic Deoban Limestone, Garhwal, Lesser Himalaya, India: Palaeobotanist, v. 52, p. 13–47.
Stanier, R.Y., Sistrom, Y.R., Hansen, T.A., Whitton, B.A., Castenholz, R.W., Pfennig, N., Gorlenko, V.M., Kondratieva, E.N., Eimhjellen, K.E., Whittenbury, R., Gherna, R.L., and Trüper, , H.G., 1978, Proposal to place nomenclature of the Cyanobacteria [blue-green algae] under the rules of the International Code of Nomenclature of bacteria: International Journal of Systematic Bacteriology, v. 28, p. 335–336.
729
Talyzina, N., and Moczydłowska, M., 2000, Morphological and ultrastructural studies of some acritarchs from the Lower Cambrian Lukati Formation, Estonia: Review of Palaeobotany and Palynology, v. 112, p. 1–21.
Tappan, H., 1980, The Paleobiology of Plant Protists: San Francisco, Freeman, 1028 p.
Thuret, G., 1875, Essai de classification des nostocines: Annales des Sciences Naturelles: Paris (Botanique), v. 6, p. 372–382.
Timofeev, B.V., and Hermann, T.N., 1979, The Precambrian microbiota of the Lakhanda Formation, in Sokolov, B.S., ed., Paleontology of Precambrian and Early Cambrian: Leningrad, Nauka, p. 137–147. [in Russian]
Timofeev, B.V., Hermann, T.N., and Mikhailova, N.S., 1976, Microphytofossils from the Precambrian, Cambrian and Ordovician: Leningrad, Nauka, 106 p. [in Russian]
Turner, R.E., 1984, Acritarch from type area of the Ordovician Caradoc Series, Shropshire, England: Palaeontographica Abteilung B, v. 190(4-6), p. 87–157.
Vidal, G., 1981, Micropalaeontology and biostratigraphy of the Upper Proter- ozoic and Lower Cambrian Sequence in East Finnmark, northern Norway: Norges Geologiske Underssogelse Bulletin, v. 362, p. 1–53.
Vidal, G., and Ford, T.D., 1985, Microbiotas from the Late Proterozoic Chuar Group (Northern Arizona) and Uinta Group (Utah) and their chronostrati- graphic implications: Precambrian Research, v. 28, p. 344–389.
Vidal, G., and Knoll, A.H., 1982, Radiations and extinctions of plankton in the late Proterozoic and early Cambrian: Nature, v. 296, p. 57–60.
Vidal, G., and Moczydlłowska-Vidal, M., 1997, Biodiversity, speciation and extinction trends of Proterozoic and Cambrian phytoplankton: Paleobiology, v. 23, p. 230–246.
Volkova, N.A., Kirjanov, V.V., Piskun, L.V., Paskeviciene, L.T., and Yankauskas, T.V., 1979, Plant microfossils, in Upper Precambrian and Cambrian Palaeontology of the East European Platform: Moscow, Nauka, p. 5–46. [English version, 1983, p. 7–46]
Vorob’eva, N.G., Sergeev, V.N., and Knoll, A.H., 2009, Neoproterozoic microfossils from the northeastern margin of the East European Platform: Journal of Paleontology, v. 83, p. 161–196.
Wang, F., Zhang, X., and Guo, R., 1983, The Sinian microfossils from Jinning, Yunnan, Southwest China: Precambrian Research, v. 23, p. 133–175.
Wettstein, F.V., 1924, Handbuch der Systematischer Botanik, 3rd ed., Leipzig, Franz Deutike, Band 1, 1017 p.
Wetzel, W., 1933, Die in organischer Substanz erhaltenen Mikrofossillien des baltischen Kreide-Feuersteins mit einem sediment-petrographischen und stratigraphischen Anhang: Palaeontographica Abteiling A, v. 77, p. 141–186.
Williams, K.P.J., Nelson, J., and Dyer, S., 1997, The Renishaw Raman Database of Gemological and Mineralogical Materials: Gloucestershire, England, Renishaw Transducers Systems Division, 298 p.
Woese, C., and Fox, G., 1977, Phylogenetic structure of the prokaryotic domain: Proceedings of the National Academy of Sciences USA, v. 74, p. 5088–5090.
Wopenka, B., and Pasteris, J.D., 1993, Structural characterization of kerogens to granulite–facies graphite, p. applicability of Raman microprobe spectro- scopy: American Mineralogist, v. 78, p. 533–557.
Yankauskas, T.V., ed., 1989, Precambrian Microfossils of the USSR: Leningrad, Nauka, 188 p. [in Russian]
Yakschin, M.S., and Luchinina, V.A., 1981, New data on fossilized algae of the family Oscillatoriaceae (Kirchn.) Elenkin, in Precambrian-Cambrian Boundary Deposits of the Siberian Platform: Novosibirsk, Nauka, p. 28–34. [in Russian]
Zhang, Y., 1981, Proterozoic stromatolite microfloras of the Gaoyuzhuang Formation (Early Sinian: Riphean), Hebei, China: Journal of Paleontology, v. 55, p. 485–506.
Zhang, Z., 1985, Coccoid microfossils from the Doushantuo Formation (Late Sinian) of South China: Precambrian Research, v. 28, p. 163–173.
Zhang, Y., and Yan, X., 1984, Microfossils from the Gaoyuzhuang Formation in Laishui County, Hebei, China: Acta Geologica Sinica, v. 3, p. 196–204.
Zhang, Y., Yin, L., Xiao, S., and Knoll, A.H., 1998, Permineralized fossils from the Terminal Proterozoic Doushantuo Formation, China: Paleontological Society Memoir, v. 50, 56 p.
Zhegallo, E.A., Rozanov,
A.Yu., Ushatinskaya, G.T., Hoover, R.B., Gerasimenko, L.M., and Ragozina, L.M., 2000, The Atlas of Microorgan- isms from the Ancient Khubsugul Phosphorites (Mongolia): Huntsville, Alabama, USA, 168 p.
Zhou, C., Yuan, X., Xiao, S., Chen, Z., and Xue, Y., 2004, Phosphatized fossil assemblage from the Doushantuo Formation in Baokang, Hebei Province: Acta Micropalaeontologica Sinica, v. 21, p. 349–366.
Accepted 4 March 2015* *This acceptance date has been corrected since original publication. An addendum detailing this change was also published (DOI 10.1017/jpa.2016.79).
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