SEARCH

SEARCH BY CITATION

References

  • Adl, S. M., Simpsom, A. G. B., Farmer, M. A., Andersen, R. A., Anderson, O. R., Barta, J. R., Bowser, S. S., Bruderolle, G., Fensome, R. A., Frederico, S., James, T. Y., Karpov, S., Kugrens, P., Krug, J., Lane, C. E., Lewis, L. A., Lodge, J., Lynn, D. H., Mann, D. G., McCourt, R. M., Mendoza, L., Moestrup, Ø., Mozley-Standridge, S. E., Nerad, T. A., Shearer, C. A., Smirnov, A. V., Spiegel, F. W. and Taylor, M. F. J. R. 2005. The New Higher Level Classification of Eukaryotes with Emphasis on the Taxonomy of Protists. The Journal of Eukaryotic Microbiology, 52, 399451.
  • Antcliffe, J. B. and Brasier, M. D. 2007a. Charnia and Sea Pens are poles apart. Journal of the Geological Society of London, 164, 4951.
  • Antcliffe, J. B. and Brasier, M. D. 2007b. Towards a morphospace for the Ediacara biota. In Vickers-Rich, P. and Komarower, P. (eds). The rise and fall of the Ediacaran Biota. Journal of the Geological Society of London, Special Publication, 286, 377386.
  • Antcliffe, J. B. and Brasier, M. D. 2008. Charnia at 50: developmental analysis of Ediacaran fronds. Palaeontology, 51, 1126.
  • Antcliffe, J. B. and McCloughlin, N. 2008. Deciphering fossil evidence for the origin of life and the origin of animals: common challenges in different worlds. 211229. In Seckbach, J. and Walsh, M. (eds). Cellular origins, life in extreme habitats and astrobiology: from fossils to astrobiology (Records of life on earth and the search for extraterrestrial biosignatures.). Springer, 548 pp.
  • Barghoorn, E. and Tyler, S. 1965. Microfossils from the Gunflint chert. Science, 147, 563577.
  • Benton, M., Donoghue, P. C. J. and Asher, R. J. 2009. Calibrating and constraining molecular clocks. 3586. In Hedges, S. B. and Kumar, S. (eds). The timetree of life. Oxford University Press, Oxford, 576 pp.
  • Bottjer, D. J., Hagadorn, J. W. and Dornbos, S. Q. 2000. The Cambrian Substrate Revolution. GSA Today, 10, 17.
  • Bowring, S., Myrow, P., Landing, E., Ramezani, J. and Grotzinger, J. 2003. Geochronological constraints on terminal Neoproterozoic events and the rise of metazoans. Geophysical Research Abstracts, 5, 13219.
  • Bowring, S., Grotzinger, J. P., Condon, D. J., Ramezani, J., Newall, M. J. and Allen, P. A. 2007. Geochronologic constrains on the chronostratigraphic framework of the Neoproterozoic Huqf Supergroup, Sultanate of Oman. American Journal of Science, 307, 10971145.
  • Brain, C. K., Prave, A. R., Hoffmann, K.-H., Fallick, A. E., Botha, A., Herd, D. A., Sturrock, C., Young, I., Condon, D. J. and Allison, S. G. 2012. The First Animals: ca. 760-million-year-old Sponge-like fossils from Namibia. South African Journal of Science, 108, Art. # 658, 8 pages.
  • Brasier, M. D. and Antcliffe, J. B. 2008. Dickinsonia from Ediacara.: a new look at morphology and body construction. Palaeogeography, Palaeoclimatology, Palaeoecology, 270, 311323.
  • Brasier, M. D. and Antcliffe, J. B. 2009. Evolutionary relationships within the Avalonian Ediacara biota: new insights from laser analysis. Journal of the Geological Society of London, 166, 363384.
  • Brasier, M. D., Cowie, J. W. and Taylor, M. E. 1994. Decision on the Precambrian–Cambrian boundary stratotype. Episodes, 17, 38.
  • Brasier, M. D., McCarron, G., Tucker, R., Leather, J., Allen, P. and Shields, G. 2000. New U–Pb zircon dates for the Neoproterozoic Ghubrah glaciations and for the top of the Huqf Supergroup, Oman. Geology, 28, 175178.
  • Brasier, M. D., Antcliffe, J. B. and Callow, R. 2011. Taphonomy in the Ediacaran interval. 519567. In Allison, P. A. and Bottjer, D. (eds). Taphonomy: bias and process through time. Springer, 600 pp.
  • Brasier, M. D., Antcliffe, J. B. and Liu, A. G. 2012. The architecture of Ediacaran Fronds. Palaeontology, 55, 11051124.
  • Brocks, J. J. and Butterfield, N. J. 2009. Early animals out in the cold. Nature, 457, 672673.
  • Budd, G. E. and Jensen, S. 2000. A critical reappraisal of the fossil record of the bilaterian phyla. Biological Reviews, 75, 253295.
  • Butterfield, N. J. 2009. Modes of pre-Ediacaran multicellularity. Precambrian Research, 173, 201211.
  • Condon, D., Zhu, M., Bowring, S., Wang, W., Yang, A. and Jin, Y. 2005. U–Pb Ages from the Neoproterozoic Doushantuo Formation, China. Science, 308, 9598.
  • Erwin, D. H., Laflamme, M., Tweedt, S. M., Sperling, E. A., Pisani, D. and Peterson, K. J. 2011. The Cambrian conundrum: early divergence and later ecological success in the early history of animals. Science, 304, 10911097.
  • Fike, D. A., Grotzinger, J. P., Pratt, L. M., and Summons, R. E. 2006. Oxidation of the Ediacaran Ocean. Nature, 444, 744747.
  • Gehling, J. G. 1991. The case for the Ediacaran fossil roots to the Metazoan Tree. Geological Society of India Memoire, 20, 181224.
  • Giner, J.-L., Zhao, H., Boyer, G. L., Satchwell, M. F. and Anderson, R. A. 2009. Sterol chemotaxonomy of marine Pelagophyte algae. Chemistry and Biodiversity, 6, 11111130.
  • Gradstein, F. M., Ogg, J. G. and Smith, A. G. 2004. A geologic timescale 2004. Cambridge University Press, Cambridge, UK, 610 pp.
  • Halverson, G. P., Hoffman, P. F., Schrag, D. P., Maloof, A. C. and Rice, A. H. R. 2005. Towards a Neoproterozoic composite carbon-isotope record. Geological Society of America Bulletin, 117, 11811207.
  • Hebert, C. L., Kaufman, A. J., Penniston-Dorland, S. C. and Martin, A. J. 2010. Radiometric and stratigraphic constraints on terminal Ediacaran (post-Gaskiers) glaciation and metazoan evolution. Precambrian Research, 182, 402412.
  • Hod, I. M., Schouten, S., Jelleman, J. and Sinninghe Damste, J. S. 1999. Origin of free and bound mid-chain methyl alkanes in oils, bitumens and kerogens of the marine, Infracambrian Huqf Formation (Oman). Organic Geochemistry, 30, 14111428.
  • Hoffman, P. F. and Schrag, D. P. 2002. The snowball Earth hypothesis: testing the limits of global change. Terra Nova, 14, 129155.
  • Hoffmann, K. H., Condon, D. J., Bowring, S. A. and Crowley, J. L. 2004. U–Pb zircon date from the Neoproterozoic Ghaub Formation, Namibia: constraints on Marinoan glaciation. Geology, 32, 817820.
  • Jenkins, R. J. F. 1984. Interpreting the oldest fossil cnidarians. Palaeontology American, 54, 95104.
  • Jenner, R. A. 2006. Unburdening evo-devo: ancestral attractions, models organisms, and basal baloney. Development Genes and Evolution, 216, 385394.
  • Kendall, B., Creaser, R. A. and Selby, D. 2006. Re-Os geochronology of postglacial black shales in Australia: constraints on the timing of “Sturtian” glaciations. Geology, 34, 729732.
  • Knoll, A. H., Walter, M. R., Narbonne, G. M. and Christie-Blick, N. 2004. A new period for the geologic time scale. Science, 305, 621622.
  • Kodner, R. B., Summons, R. E., Pearson, A., King, N. and Knoll, A. H. 2008. Sterols in a unicellular relative of the metazoans. Proceedings of the National Academy of Sciences, 105, 98979902.
  • Liu, A. G., McIlroy, D. and Brasier, M. D. 2010a. First evidence for locomotion in the Ediacara biota from the 565 Ma Mistaken Point Formation, Newfoundland. Geology, 38, 123126.
  • Liu, A. G., McIlroy, D. and Brasier, M. D. 2010b. First evidence for locomotion in the Ediacara biota from the 565 Ma Mistaken Point Formation, Newfoundland. Reply. Geology, 38, e224.
  • Liu, A. G., McIlroy, D., Antcliffe, J. B. and Brasier, M. D. 2011. Effaced preservation in the Ediacara biota and its implications for the early macrofossil record. Palaeontology, 54, 607630.
  • Lomas, M. W., Glibert, P. M., Clougherty, D. A., Huber, D. R., Jones, J., Alexander, J. and Haramoto, E. 2000. Elevated organic nutrient ratios associated with brown tide algal blooms of Aureococcus anophagefferens (Pelagophyceae). Journal of Plankton Research, 23, 13391344.
  • Love, G. D., Grosjean, E., Stalvies, C., Fike, D. A., Grotzinger, J. P., Bradley, A. S., Kelly, A. E., Bhatia, M., Meredith, W., Snape, C. E., Bowring, S. A., Condon, D. J. and Summons, R. E. 2009. Fossil steroids record the appearance of Demospongiae during the Cryogenian period. Nature, 457, 718721.
  • Maliva, R. G., Knoll, A. H. and Siever, R. 1989. Secular change in chert distribution: a reflection of evolving biological participation in the silica cycle. Palaios, 4, 519532.
  • Maliva, R. G., Knoll, A. H. and Simonson, B. M. 2005. Secular change in the Precambrian silica cycle: insights from chert petrology. Geological Society of America Bulletin, 117, 835845.
  • Maloof, A. C., Rose, C. V., Beach, R., Samuels, B. M., Calmet, C. C., Erwin, D. H., Poirier, G. R., Yao, N. and Simons, F. J. 2010. Possible animal-body fossils in pre-Marinoan limestones from South Australia. Nature Geoscience, 3, 653659.
  • McCaffrey, M., Moldowan, J. M., Lipton, P., Summons, R. E., Peters, K. E., Jeganathan, A. and Watt, D. S. 1994. Paleoenvironmental implications of novel CM steranes in Precambrian to Cenozoic age petroleum and bitumen. Cosmochimica et Geochimica Acta, 58, 529532.
  • Moldowan, J. M., Fago, F. J., Lee, C. Y., Jacobson, S. R., Watt, D. S., Slougui, N.-E., Jeganathan, A. and Young, D. C. 1990. Sedimentary 12-n-Propylcholestanes, Molecular Fossils Diagnostic of Marine Algae. Science, 247, 309312.
  • Narbonne, G. M. 2005. The Ediacara biota: Neoproterozoic origin of animals and their ecosystems. Annual Review of Earth and Planetary Sciences, 33, 421442.
  • Orr, P. J., Benton, M. J. and Briggs, D. E. G. 2003. Post-Cambrian closure of the deep-water slope-basin taphonomic window. Geology, 31, 769772.
  • Page, R. D. M. and Holmes, E. C. 2001. Molecular evolution: a phylogenetic approach. Blackwell Science, Oxford, 352 pp.
  • Pancost, R. D., Coleman, J. M., Love, G. D., Chatzi, A., Bouloubassi, I. and Snape, C. E. 2008. Kerogen-bound glycerol dialkyl tetraether lipids released by hydropyrolysis of marine sediments: a bias against incorporation of sedimentary organisms? Organic Geochemistry, 39, 13591371.
  • Patterson, C. 1982. Morphological Characters and Homology. 2174. In Joysey, K. A. and Friday, A. E. (eds). Problems of phylogenetic reconstruction. Academic Press, London and New York, 442 pp.
  • Peterson, K. J., Cotton, J. A., Gehling, J. G. and Pisani, D. 2008. The timing of the metazoan radiation: congruence between the genetic and geological fossil records. Philosophical Transactions of the Royal Society of London Biological Sciences, 363, 14351443.
  • Philippe, H., Derelle, R., Lopez, P., Pick, K., Borchiellini, C., Boury-Esnault, N., Vacelet, J., Renard, E., Houliston, E., Que′Innec, E., Da Silva, C., Wincker, P., Le Guyader, H., Leys, S., Jackson, D. J., Schreiber, F., Erpenbeck, D., Morgenstern, B., Wörheide, G. and Manuel, M. 2009. Phylogenomics revives traditional views on deep animal relationships. Current Biology, 19, 706712.
  • Pick, K. S., Philippe, H., Schreiber, F., Erpenbeck, D., Jackson, D. J., Wrede, P., Wiens, M., Alié, A., Morgenstern, B., Manuel, M. and Wörheide, G. 2010. Improved phylogenomic taxon sampling noticeably affects nonbilaterian relationships. Molecular Biology and Evolution, 27, 19831987.
  • Schopf, J. W. 1968. Microflora of the bitter springs formation, Late Precambrian Central Australia. Journal of Paleontology, 42, 651688.
  • Schopf, J. W. and Klein, C. 1992. The Proterozoic biosphere: a multidisciplinary study. Cambridge University Press, New York, 1374 pp.
  • Seilacher, A. 1992. Vendobionta and Psammocorallia: lost constructions of Precambrian evolution. Journal of the Geological Society, 149, 607613.
  • Siegl, A., Kamke, J., Hochmuth, T., Piel, J., Richter, M., Liang, C., Dandekar, T. and Hentschel, U. 2011. Single-cell genomics reveals the lifestyle of Poribacteria, a candidate phylum symbiotically associated with marine sponges. The International Society for Microbial Ecology Journal, 5, 6170.
  • Sperling, E. A., Pisani, D. and Peterson, K. J. 2007. Poriferan paraphyly and its implications for Precambrian paleobiology. Geological Society of London, Special Publication, 286, 355368.
  • Sperling, E. A., Robinson, J. M., Pisani, D. and Peterson, K. J. 2010. Where's the glass? Biomarkers, molecular clocks, and microRNAs suggest a 200-Myr missing Precambrian fossil record of siliceous sponge spicules. Geobiology, 8, 2436.
  • Srivastava, M., Simakov, O., Chapman, J., Fahey, B., Gauthier, M. E. A., Mitros, T., Richards, G. S., Conaco, C., Dacre, M., Hellsten, U., Larroux, C., Putnam, N. H., Stanke, M., Adamska, M., Darling, A., Degnan, S. M., Oakley, T. H., Plachetzki, D. C., Zhai, Y., Adamski, M., Calcino, A., Cummins, S. F., Goodstein, D. M., Harris, C., Jackson, D. J., Leys, S. P., Shu, S., Woodcroft, B. J., Vervoort, M., Kosik, K. S., Manning, G., Degnan, B. M. and Rokhsar, D. S. 2010. The Amphimedon queenslandica genome and the evolution of animal complexity. Nature, 466, 720727.
  • Thiel, V., Blumenberg, M., Hefter, J., Pape, T., Pomponi, S. A., Reed, J., Reitner, J., Wörheide, G. and Michaelis, W. 2002. A chemical view of the most ancient metazoa - biomarker chemotaxonomy of hexactinellid sponges. Naturwissenschaften, 89, 6066.
  • Tiwari, M. and Knoll, A. H. 1994. Large acanthomorphic acritarchs from the Infrakrol Formation of the Lesser Himalaya and their stratigraphic significance. Journal of Himalayan Geology, 5, 193201.
  • Verdel, C., Wernicke, B. P. and Bowring, S. A. 2011. The Shuram and subsequent Ediacaran carbon isotope excursions from southwest Laurentia, and implications for environmental stability during the metazoan radiation. Geological Society of America Bulletin, 123, 15391559.
  • Xiao, S. 2004. New multicellular algal fossils and acritarchs in Doushantuo chert nodules. Journal of Paleontology, 78, 393401.