406


Journal of Paleontology 91(3):393–406


Nautiyal, A.C., 1978, Discovery of cyanophycean algal remains and chitinozoans from the Late Precambrian argillaceous sequence of Satpuli, Garhwal Himalaya, India: Current Science, v. 47, p. 222–226.


O’Connor, E.A., and Walde, D.H.G., 1985, Recognition of an Eocambrian Orogenic Cycle inSWBrazil and SE Bolivia: Zentralblatt für Geologie und Paläontologie, v. 9, p. 1441–1456.


Ogden, C.G., and Ellison, R.L., 1988, The value of the organic cement matrix in the identification of the shells of fossil testate amoebae: Journal of Micropalaeontology, v. 7, p. 233–240.


Parfrey, L.W., Lahr, D.J.G., Knoll, A.H., and Katz, L.A., 2011, Estimating the timing of early eukaryotic diversification with multigene molecular clocks: Proceedings of the National Academy of Sciences, USA, v. 108, p. 13624–13629.


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.


Siever, R., 1992, The silica cycle in the Precambrian: Geochimica et Cosmo- chimica Acta, v. 56, p. 3265–3272.


Strauss, J.V., Rooney, A.D., Macdonald, F.A., Brandon, A.D., and Knoll, A.H., 2014, 740 Ma vase-shaped microfossils from Yukon, Canada: implications for Neoproterozoic chronology and biostratigraphy: Geology, v. 42, p. 659–662.


Tappan, H., 1993, Tintinnids, in Lipps, J.H., ed., Fossil Prokaryotes and Protists: Boston, Blackwell Scientific Publications, p. 285–303.


Piacentini, T., Vasconcelos, P.M., and Farley, K.A., 2013, 40Ar/39Ar constraints on the age and thermal history of the Urucum Neoproterozoic banded iron-formation, Brazil: Precambrian Research, v. 248, p. 48–62.


Porter, S., 2011, The rise of predators: Geology, v. 39, p. 607–608. Porter, S.M., and Knoll, A.H., 2000, Testate amoebae in the Neoproterozoic Era: evidence from vase-shaped microfossils in the Chuar Group, Grand Canyon: Paleobiology, v. 26, p. 360–385.


Porter, S.M., Meisterfeld, R., and Knoll, A.H., 2003, Vase-shaped microfossils from the Neoproterozoic Chuar Group, Grand Canyon: a classification guided by modern testate amoebae: Journal of Paleontology, v. 77, p. 409–429.


Puppe, D., Kaczorek, D., Wanner, M., and Sommer, M., 2014, Dynamics and drivers of the protozoan Si pool along a 10-year chronosequence of initial ecosystem states: Ecological Engineering, v. 70, p. 477–482.


Reytlinger, E.A., 1950, Foraminifera from the Middle Carboniferous deposits of the central part of the Russian Platform (exclusive of the family Fusulinidae): Akademiya Nauk SSSR, Trudy Instituta Geolo- gicheskikh Nauk, vypusk 126, Geologicheskaya Seriya, v. 47, p. 1–127. [in Russian]


Saito, Y., Tiba, T., and Matsubara, S., 1988, Precambrian and Cambrian cherts in northwestern Tasmania: Bulletin of the National Science Museum, Series C, v. 14, p. 59–70.


Sarmiento, J.L., 2013, Ocean Biogeochemical Dynamics: Princeton, New Jersey, Princeton University Press, 528 p.


Schopf, J.W., 1992, Evolution of the Proterozoic biosphere: benchmarks, tempo, and mode, in Schopf, J.W., and Klein, C., eds., The Proterozoic Biosphere, a Multidisciplinary Study: Cambridge, Cambridge University Press, p. 583–600.


Schopf, J.W., Kudryavtsev, A.B., Agresti, D.G., Wdowiak, T.J., and Czaja, A. D., 2002, Laser-Raman imagery of Earth’s earliest fossils: Nature, v. 416, p. 73–76.


Schopf, J.W., Kudryavtsev, A.B., Agresti, D.G., Czaja, A.D., and Wdowiak, T. J., 2005, Raman imagery: a new approach to assess the geochemical maturity and biogenicity of permineralized Precambrian fossils: Astro- biology, v. 5, p. 333–371.


Schopf, J.W., Tripathi, A., and Kudryavtsev, A.B., 2006, Three-dimensional confocal optical microscopy of Precambrian microscopic organisms: Astrobiology, v. 6, p. 1–16.


Schopf, J.W., Calça, C.P., Garcia, A.K., Kudryavtsev, A.B., Souza, P.A., Félix, C.M., and Fairchild, T. R., 2016, In situ confocal laser scanning microscopy and Raman spectroscopy of bisaccate pollen from the Irati Subgroup (Permian, Paraná Basin, Brazil): comparison with acid- macerated specimens: Review of Palaeobotany and Palynology, v. 233, p. 169–175.


Tucker, M.E., and Wright, V.P., 1990, Carbonate Sedimentology: Oxford, John Wiley & Sons, 251 p.


Turner, N.J., Black, L.P., and Kamperman, M., 1998, Dating of Neoproterozoic and Cambrian orogenies in Tasmania: Australian Journal of Earth Sciences, v. 45, p. 789–806.


Urban, H., Stribrny, B., and Lippolt, H.J., 1992, Iron and manganese deposits of the Urucum district, Mato Grosso do Sul, Brazil: Economic Geology, v. 87, p. 1375–1392.


Valkanov, A., 1970, Beitrag zur Kenntnis der Protozoen des Schwarzen Meeres: Zoologischer Anzeiger, v. 184, p. 241–290.


Venkatachala, B.S., and Kumar, A., 1998, Fossil microbiota from the Vaishnodevi Limestone, Himalayan Foothills, Jammu: age and palaeoen- vironmental implications: Geological Society of India, v. 52, p. 529–536.


Vidal, G., 1979, Acritarchs from the upper Proterozoic and lower Cambrian of East Greenland: Grønlands Geologiske Undersøgelse, v. 134, p. 1–55.


Vidal, G., and Moczydłowska, M., 1995, The Neoproterozoic of Baltica— stratigraphy, palaeobiology and general geological evolution: Precambrian Research, v. 73, p. 197–216.


Vidal, G., and Siedlecka, A., 1983, Planktonic, acid-resistant microfossils from the Upper Proterozoic strata of the Barents Sea region of Varanger Peninsula, East Finnmark, northern Norway: Norges Geologiske Undersokelse Bulletin, v. 71, p. 45–79.


Walde, D.H.G., and Oliveira, M.M., 1980, Substratos para a estratigrafia dos grupos Corumbá e Jacadigo na região de Corumbá,MS, in 31st Congresso Brasileiro de Geologia: Balneário de Camburiú, Sociedade Brasileira de Geologia, Resumos, Boletim 2, 446 p. [in Portuguese]


Wilkinson, D.M., and Mitchell, E.A., 2010, Testate amoebae and nutrient cycling with particular reference to soils: Geomicrobiology Journal, v. 27, p. 520–533.


Xiao, S., Shen, B., Tang, Q., Kaufman, A.J., Yuan, X., Li, J., and Qian, M., 2014, Biostratigraphic and chemostratigraphic constraints on the age of early Neoproterozoic carbonate successions in North China: Precambrian Research, v. 246, p. 208–225.


Zaine, M.F., 1991, Analise dos fósseis de parte da Faixa Paraguai (MS,MT) e seu contexto temporal e paleoambiental. [Ph.D. thesis]: São Paulo, Universidade de São Paulo, 218 p. [in Portuguese with English abstract].


Zhang, L., 1994, A new progress in research on vase-shaped microfossils from the Dengying Formation of Sinian in southern Shaanxi Province: Acta Geologica Gansu, v. 13, p. 1–8.


Zhang, L., and Li, Y., 1991, The Late Sinian vasiform microfossils of Ningqiang, Shaanxi Province: Northwest Geoscience, v. 1, p. 1–5.


Accepted 3 March 2017


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