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Article: Problematic megafossils in Cambrian palaeosols of South Australia

Publication: Palaeontology
Volume: 54
Part: 6
Publication Date: November 2011
Page(s): 1223 1242
Author(s): Gregory J. Retallack
Addition Information

How to Cite

RETALLACK, G. J. 2011. Problematic megafossils in Cambrian palaeosols of South Australia. Palaeontology54, 6, 1223–1242.

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References

  • ANDERSON, J. M. and ANDERSON, H. M. 1985. Palaeoflora of southern Africa. Prodromus of South African megafloras, Devonian to Lower Cretaceous. A.A. Balkema, Rotterdam, 423 pp.
  • ARAFIEV, M. P. and NAUGOLNYKH, S. V. 1998. Fossil roots from the upper Tatarian deposits in the basin of the Sukhona and Malaya Severnaya Dvina Rivers: stratigraphy, taxonomy and orientation paleoecology. Paleontological Journal, 32, 82–96.
  • BALDAUF, S. L. 2003. The deep roots of eukaryotes. Science, 300, 1703–1706.
  • BELNAP, J. and LANGE, O. L. (eds) 2003. Biological soil crusts: structure, function and management. Springer, Berlin, 503 pp.
  • BESTLAND, E. A. and RETALLACK, G. J. 1993. Volcanically influenced calcareous paleosols from the Kiahera Formation, Rusinga Island, Kenya. Journal of the Geological Society of London, 150, 293–310.
  • BRUNS, T. D., FOGEL, R., WHITE, T. J. and PALMER, J. D. 1989. Accelerated evolution of a false-truffle from a mushroom ancestor. Nature, 339, 140–142.
  • BUTTERFIELD, N. J. 2005. Probable Proterozoic fungi. Paleobiology, 31, 165–181.
  • CONWAY MORRIS, S. 2000. The Cambrian ‘explosion’: slow-fuse or megatonnage? Proceedings of the National Academy of Sciences of USA, 97, 4426–4429.
  • DOTT, R. H. 2003. The importance of eolian abrasion in supermature quartz sandstones and the paradox of weathering on vegetation-free landscapes. Journal of Geology, 111, 387–405.
  • DRIESE, S. G., SIMPSON, E. and ERICKSSON, K. A. 1995. Redoximorphic paleosols in alluvial and lacustrine deposits, 1.8 Ga Lochness Formation, Mt Isa: pedogenic processes and implications for paleoclimate. Journal of Sedimentary Research, A66, 58–70.
  • DZIK, J. 1999. Organic membranous skeleton of the Precambrian metazoans from Namibia. Geology, 27, 519–522.
  • DZIK, J. 2003. Anatomical information content in Ediacaran fossils and their possible biological affinities. Integrative and Comparative Biology, 43, 114–126.
  • FEDONKIN, M. A. and IVANTSOV, Y. A. 2007. Ventogyrus, a possible siphonophore-like trilobozoan coelenterate from the Vendian sequence (Late Neoproterozoic), Russia. 187–194. In VICKERS-RICH, P. and KOMAROWER, P. (eds). The rise and fall of the Ediacaran biota. Geological Society of London Special Publications , 286, 470 pp.
  • FEDONKIN, M. A. and YOCHELSON, E. L. 2002. Middle Proterozoic (1.5 Ga) Horodyskia moniliformis Yochelson and Fedonkin, the oldest known tissue-grade colonial eucaryote. Smithsonian Contributions to Paleobiology, 94, 29 pp.
  • FEDONKIN, M. A., GEHLING, J. G., GREY, K., NARBONNE, G. M. and VICKERS-RICH, P. 2007. The rise of animals. Johns Hopkins University Press, Baltimore, 326 pp.
  • FEIST, M. and FEIST, R. 1997. Oldest record of a bisexual plant. Nature, 385, 401.
  • FLEMING, P. J. G. and RIGBY, J. K. 1972. Possible land plants from the Middle Cambrian, Queensland. Nature, 238, 266.
  • FRITSCH, A. 1908. Problematica Silurica. Système Silurien du Centre de la Bohème, 1908, 1–28, 12 pls.
  • GENSEL, P. G. 1991. Notes on the cuticular morphology of Sawdonia acanthotheca, particularly in regard to emergences. Neues Jahrbuch für Geologie und Palontologie, Abhandlungen, 183, 49–59.
  • GRADSTEIN, F. M., OGG, J. G. and SMITH, A. G. 2004. A Geologic Time Scale 2004. Cambridge University Press, Cambridge, 589 pp.
  • GRAHAM, L. E. and WILCOX, L. W. 2000. Algae. Prentice-Hall, Upper Saddle River, 616 pp.
  • GRAY, J. 1981. The microfossil record of early land plants: advances in understanding of early terrestrialization, 1970–1984. Royal Society of London Philosophical Transactions, A309, 167–185.
  • GRAZHDANKIN, D. 2005. A re-examination of the Nama-type Vendian organism Rangea schneiderhoehni. Geological Magazine, 142, 571–582.
  • GRAZHDANKIN, D. and SEILACHER, A. 2002. Underground Vendobionta from Namibia. Palaeontology, 45, 57–78.
  • GUNTHER, L. F. and GUNTHER, V. G. 1981. Some Middle Cambrian fossils of Utah. Brigham Young University Geology Studies, 28, 1–87.
  • HALLBAUER, D. K. and VAN WARMELO, K. T. 1974. Fossilized plants in thucolite from Precambrian rocks of the Witwatersrand, South Africa. Precambrian Research, 1, 193–212.
  • HALLBAUER, D. K., JAHNS, H. M. and BELTMANN, H. A. 1977. Morphological and anatomical observations on some Precambrian plants from the Witwatersrand, South Africa. Geologische Rundschau, 66, 477–491.
  • HÄNTzSCHEL, W. 1975. Treatise on invertebrate paleontology. Part. W. Miscellanea. Supplement 1. Trace fossils and problematica. Geological Society of America, Boulder, Colorado and University of Kansas Press, Lawrence, Kansas, 269 pp.
  • HERMANN, T. N. and PODKOVRYOV, V. N. 2006. Fungal remains from the Late Riphean. Paleontological Journal, 40, 207–214.
  • HOU, X-G., ALDRIDGE, R. G., BERGSTRÖM, J., SIVETER, D. J., SIVERTER, D. J. and FENG, X.-H. 2004. The Cambrian fossils of Chengjiang, China. Blackwell, Malden, 233 pp.
  • JAGO, J. B., ZANG, W. L., SUN, X. L., BROCK, G. A., PATERSON, J. R. and SKOVSTED, C. B. 2006. Correlation within early Palaeozoic basins of eastern South Australia. Palaeoworld, 15, 406–423.
  • JENKINS, R. J. F. and NEDIN, C. 2007. The provenance and paleobiology of a new multivaned chambered frondose organism from the Ediacaran (later Proterozoic) of South Australia. 195–222. In VICKERS-RICH, P. and KOMAROWER, P. (eds). The rise and fall of the Ediacaran biota. Geological Society of London Special Publications , 286, 470 pp.
  • JURINA, A. L. and KRASSILOV, V. A. 2002. Lichenlike fossils from the Givetian of central Kazakhstan. Paleontological Journal, 36, 541–547.
  • KASTING, J. F. 1987. Theoretical constraints on oxygen and carbon dioxide concentrations in the Precambrian atmosphere. Precambrian Research, 34, 205–229.
  • KAUFFMAN, E. G. and STEIDTMANN, J. R. 1981. Are these the oldest metazoan trace fossils? Journal of Paleontology, 55, 923–927.
  • KENNEDY, M., DROSER, M., MAYER, L. M., PEVEAR, D. and MROFKA, D. 2006. Late Precambrian oxygenataion: inception of the clay mineral factory. Science, 311, 1446–1449.
  • KENRICK, P. and VINTHER, J. 2006. Chaetocladus gracilis n. sp., a non-calcified Dasycladales from the Upper Silurian of Skåne, Sweden. Review of Palaeobotany and Palynology, 142, 153–160.
  • LEVIN, L. A. 1994. Paleoecology and ecology of xenophyophores. Palaios, 9, 32–41.
  • LIGNIER, O. 1906. Radiculites reticulatus, radicelle fossile de Sequoinee. Societé Botanique du France Bulletin, 6, 193–201.
  • MAMAY, S. H. 1989. Evolsonia, a new genus of Gigantopteridaceae from the Lower Permian Vale Formation, north-central Texas. American Journal of Botany, 76, 1299–1311.
  • MARTIN, D. B. 2004. Depositional environment and taphonomy of the ‘strings of beads’; Mesoproterozoic multicellular fossils in the Bangemall Supergroup, Western Australia. Australian Journal of Earth Sciences, 51, 555–561.
  • MARTIN, G. W., ALEXOPOULOS, C. J. and FARR, M. L. 1983. The genera of Myxomycetes. University of Iowa Press, Iowa City, 561 pp.
  • MARTINSSON, A. 1970. Toponomy of trace fossils. Geological Journal, Special Issue, 3, 323–330.
  • MAWSON, D. 1938. Cambrian and sub-Cambrian formations at Parachilna Gorge. Royal Society of South Australia Tranasactions, 62, 255–262.
  • McNEILL, J., BARRIE, F. R, BURDET, H. M., et al. (eds) 2006. International code of botanical nomenclature (Vienna Code) adopted by the seventeenth International Botanical Congress, Vienna, Australia, July 2005. A.R.G. Ganter, Königstein, 568 pp.
  • MIHAIL, J. D. and BRUHN, J. N. 2005. Foraging behaviour of Armillaria rhizomorph systems. Mycological Research, 109, 1195–1207.
  • MOORE, P. S. 1990. Origin of redbeds and variegated sediments, Cambrian, Adelaide Geosyncline, South Australia. Geological Society of Australia Special Publication, 16, 334–350.
  • MÜLLER, K. J. and HINZ, I. 1992. Cambrogeorginidae fam. nov., soft-integumented problematica from the Middle Cambrian of Australia. Alcheringa, 16, 333–335.
  • OBHREL, J. 1959. Ein Landpflanzenfund im mittelböhmischen Ordovizium. Geologie, 8, 535–541.
  • PATON, T. R. 1974. Origin and terminology for gilgai in Australia. Geoderma, 11, 221–242.
  • PEGLER, D. N., SPOONER, B. M. and YOUNG, T. W. K. 1993. British truffles. Royal Botanic Gardens, Kew, 216 pp.
  • PETERSON, K. J., WAGGONER, B. and HAGADORN, J. W. 2003. A fungal analog for Newfoundland Ediacaran fossils? Integrative and Comparative Biology, 43, 127–136.
  • POELT, J. and BAUMGÄRTNER, H. 1964. Über Rhizinenstrnge bei placodialen Flechten. Österreich Botanische Zeitschrift, 111, 1–18.
  • POINAR, G. O. 1992. Life in amber. Stanford University Press, Stanford, 350 pp.
  • POTONIE, H. 1893. Die Flora des Rotliegenden von Thüringen. Preussische Geologische Landesanstalt Ahandlerung, 9, 1–298.
  • PRAVE, A. R. 2002. Life on land in the Proterozoic: evidence from the Torridonian rocks of northwest Scotland. Geology, 30, 811–814.
  • RETALLACK, G. J. 1983. Late Eocene and Oligocene paleosols from Badlands National Park, South Dakota. Geological Society of America Special Publication, 193, 82 pp.
  • RETALLACK, G. J. 1991. Miocene paleosols and ape habitats of Pakistan and Kenya. Oxford University Press, New York, 346 pp.
  • RETALLACK, G. J. 1992. What to call early plant formations on land. Palaios, 7, 508–520.
  • RETALLACK, G. J. 1994. Were the Ediacaran fossils lichens? Paleobiology, 20, 523–544.
  • RETALLACK, G. J. 1997a. A colour guide to paleosols. Wiley, Chichester, 346 pp.
  • RETALLACK, G. J. 1997b. Early forest soils and their role in Devonian global change. Science, 276, 583–585.
  • RETALLACK, G. J. 1997c. Palaeosols in the upper Narrabeen Group of New South Wales as evidence of Early Triassic palaeoenvironments without exact modern analogues. Australian Journal of Earth Sciences, 44, 185–201.
  • RETALLACK, G. J. 1997d. Dinosaurs and dirt. 345–359. In WOLBERG, D. L., STUMP, E. and ROSENBERG, G. D. (eds). Dinofest International. Academy of Natural Sciences, Philadelphia, 602 pp.
  • RETALLACK, G. J. 1998. Fossil soils and completeness of the rock and fossil record. 133–163. In DONOVAN, S. K. and PAUL, C. R. C. (eds). The adequacy of the fossil record. John Wiley, Chichester, 312 pp.
  • RETALLACK, G. J. 1999. Permafrost palaeoclimate of Permian palaeosols in the Gerringong volcanics of New South Wales. Australian Journal of Earth Sciences, 46, 11–22.
  • RETALLACK, G. J. 2001a. Soils of the past. Blackwell, Oxford, 404 pp.
  • RETALLACK, G. J. 2001b. Scoyenia burrows from Ordovician palaeosols of the Juniata Formation in Pennsylvania. Palaeontology, 44, 209–235.
  • RETALLACK, G. J. 2005. Permian greenhouse crises. In LUCAS, S. G. and ZIEGLER, K. E. (ed.). The nonmarine Permian. Bulletin New Mexico Museum of Natural History and Science, 30, 256–269.
  • RETALLACK, G. J. 2007. Growth, decay and burial compaction of Dickinsonia, an iconic Ediacaran fossil. Alcheringa, 31, 215–240.
  • RETALLACK, G. J. 2008. Cambrian paleosols and landscapes of South Australia. Australian Journal of Earth Sciences, 55, 1083–1106.
  • RETALLACK, G. J. 2009. Cambrian-Ordovician non-marine fossils from South Australia. Alcheringa, 33, 355–391.
  • RETALLACK, G. J. and DILCHER, D. L. 1981. Early angiosperm reproduction: Prisca reynoldsii gen. et sp. nov. from mid-Cretaceous coastal deposits in Kansas, U.S.A. Palaeontographica, 179, 103–137.
  • RETALLACK, G. J. and GERMÁN-HEINS, J. 1994. Evidence from paleosols for the geological antiquity of rain forest. Science, 265, 499–502.
  • RETALLACK, G. J. and KIRBY, M. X. 2007. Middle Miocene global change and paleogeography of Panama. Palaios, 22, 667–679.
  • RETALLACK, G. J. and KRULL, E. S. 1999. Landscape ecological shift at the Permian-Triassic boundary in Antarctica. Australian Journal of Earth Sciences, 46, 786–812.
  • RETALLACK, G. J., BESTLAND, E. A. and DUGAS, D. P. 1995. Miocene paleosols and habitats of Proconsul in Rusinga Island, Kenya. Journal of Human Evolution, 29, 53–91.
  • RETALLACK, G. J., BESTLAND, E. A. and FREMD, T. J. 2000. Eocene and Oligocene paleosols of central Oregon. Geological Society of America Special Paper, 344, 192 pp.
  • RETALLACK, G. J., KRULL, E. S. and BOCKHEIM, J. G. 2001. New grounds for reassessing palaeoclimate of the Sirius Group, Antarctica. Journal of the Geological Society of London, 158, 925–935.
  • RETALLACK, G. J., WYNN, J. G., BENEFIT, B. R. and McCROSSIN, M. L. 2002. Paleosols and paleoenvironments of the middle Miocene, Maboko Formation, Kenya. Journal of Human Evolution, 42, 659–703.
  • RETALLACK, G. J., SMITH, R. M. H. and WARD, P. D. 2003. Vertebrate extinction across the Permian-Triassic boundary in the Karoo Basin of South Africa. Bulletin of the Geological Society of America, 115, 1133–1152.
  • RIDE, W. D. L., COGGER, H. G., DUPUIS, C., et al. (eds) 1999. International Code of Zoological Nomenclature. International Trust for Zoological Nomenclature, London, 306 pp.
  • ROZANOV, A. Y. and ZHURAVLEV, A. Y. 1992. The Lower Cambrian fossil record in the Soviet Union. 205–282. In LIPPS, J. H. and SIGNOR, P. W. (eds). Origin and early evolution of the Metazoa. Plenum, New York, 578 pp.
  • SAGAN, C. and POLLACK, J. B. 1974. Differential transmission of sunlight on Mars: biological implications. Icarus, 21, 490–495.
  • SAVAZZI, E. 2007. A new reconstruction of Protolyellia (Early Cambrian psammocoral). 339–353. In VICKERS-RICH, P. and KOMAROWER, P. (eds). The rise and fall of the Ediacaran biota. Geological Society of London Special Publications , 286, 470 pp.
  • SEILACHER, A. 1992. Vendobionta and Psammocorallia: lost constructions of Precambrian evolution. Journal of the Geological Society, 149, 607–613.
  • SEILACHER, A. 2007. The nature of Vendobionts. 387–397. In VICKERS-RICH, P. and KOMAROWER, P. (eds). The rise and fall of the Ediacaran biota. Geological Society of London Special Publications , 286, 470 pp.
  • SEILACHER, A., BUATOIS, L. A. and MANGANO, M. G. 2005. Trace fossils in the Ediacaran-Cambrian transition: behavioral diversification, ecological turnover and paleoenvironmental shifts. Palaeogeography Palaeoclimatology Palaeoecology, 227, 323–356.
  • SEWARD, A. C. 1894. Catalogue of the Mesozoic plants in the Department of Geology, British Museum. The Wealden flora pt 1. British Museum (Natural History), London, 252 pp.
  • SHERWOOD-PIKE, M. A. 1985. Pelicothallus Dilcher, an overlooked fossil lichen. Lichenologist, 17, 114–115.
  • SMITH, A. J. E. 1990. The liverworts of Britain and Ireland. Cambridge University Press, Cambridge, 372 pp.
  • SNIGIREVSKAYA, N. S., POPOV, L. E. and ZDEBSAK, D. 1992. Novie nakhodki ostatkov drevnishchikh vishchikh rastenii v srednem ordovike yuzhnogo kazakhstana (New findings of the oldest higher plant remains in the Middle Ordovician of south Kazakhstan). Botanicheskii Zhurnal, 77, 1–8.
  • Soil Survey Staff 2000. Keys to soil taxonomy. Pocahontas Press, Blacksburg, 600 pp.
  • SOUTHGATE, P. N 1986. Cambrian phoscrete profiles, coated grains and microbial processes in phosphogenesis, Georgina Basin, Australia. Journal of Sedimentary Petrology, 56, 429–441.
  • SPICER, R. A. 1977. The pre-depositional formation of some leaf impressions. Palaeontology, 20, 907–912.
  • SPRIGG, R. C. 1947. Early Cambrian (?) jellyfishes from the Flinders Ranges, South Australia. Royal Society of South Australia Transactions, 71, 212–224.
  • STEPHENSON, S. L. and STEMPEN, H. 1994. Myxomycetes: a handbook of clime molds. Timber Press, Portland, 183 pp.
  • STROTHER, P. K. 2000. Cryptospores: the origin and early evolution of the terrestrial flora. In GASTALDO, R. A. and DIMICHELE, W. A. (eds). Phanerozoic terrestrial ecosystems. Paleontological Society Special Papers, 6, 3–17.
  • TAYLOR, T. N., KLAVINS, S. D., KRINGS, M., TAYLOR, E. L., KERP, H. and HASS, H. 2004. Fungi from the Rhynie Chert; a view from the dark side. Royal Society of Edinburgh Earth Sciences Transactions, 94, 457–473.
  • TIDWELL, W. D., SIMPER, A. D. and THAYN, G. F. 1977. Additional information concerning the controversial Triassic plant; Sanmiguelia. Palaeontographica, B163, 143–151.
  • TOJO, B., SIATO, R., KAWAKAMI, S. and OHNO, T. 2007. Theoretical morphology of quilt structures in Ediacaran fossils. 399–404. In VICKERS-RICH, P. and KOMAROWER, P. (eds). The rise and fall of the Ediacaran biota. Geological Society of London Special Publications , 286, 470 pp.
  • VOGEL, S. 1955. Niedere “Fensterpflanzen: in der südafrikanischen Wüste. Beitrage Biologie Pflanzen, 31, 45–135.
  • WALTON, J. 1923. On a new method of investigating fossil plant impressions or incrustations. Annals of Botany, 37, 379–391.
  • WATANABE, Y., MARTINI, J. E. J. and OHMOTO, H. 2000. Geochemical evidence for terrestrial ecosystems 2.6 billion years ago. Nature, 408, 574–578.
  • WYNN, J. G. and RETALLACK, G. J. 2001. Paleoenvironmental reconstruction of middle Miocene paleosols bearing Kenyapithecus and Victoriapithecus, Nyakach Formation, southwestern Kenya. Journal of Human Evolution, 40, 263–288.
  • YAKIMENKO, E., INOSEMTSEV, S. and NAUGOLNYKH, S. 2004. Upper Permian paleosols (Salarevskian Formation) in the central part of the Russian Platform: paleoecology and paleoenvironment. Revista Mexicana de Ciencias Geologicas, 21, 111–119.
  • YUAN, X-L., XIAO, S.-H. and TAYLOR, T. N. 2005. Lichen-like symbiosis 600 million years ago. Science, 308, 1017–1020.
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