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Published December 31, 2002 | Version v1
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The tube wall of Cambrian anabaritids

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Kouchinsky, Artem, Bengtson, Stefan (2002): The tube wall of Cambrian anabaritids. Acta Palaeontologica Polonica 47 (3): 431-444, DOI: 10.5281/zenodo.13304987

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Figure: 10.5281/zenodo.13304989 (DOI)
Figure: 10.5281/zenodo.13304991 (DOI)
Figure: 10.5281/zenodo.13304993 (DOI)
Figure: 10.5281/zenodo.13304995 (DOI)
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Figure: 10.5281/zenodo.13305003 (DOI)
Figure: 10.5281/zenodo.13305005 (DOI)

References

  • Abaimova, G.P. 1978. Anabaritids - ancient fossils with carbonate skeleton [In Russian]. Trudy SNIIGGIMSa 260: 77-83.
  • Bengtson, S. 1994. The advent of animal skeletons. In: S. Bengtson (ed.), Early Life on Earth. Nobel Symposium 84, 412-425. Columbia University Press, New York, N.Y.
  • Bengtson, S., Conway Morris, S., Cooper, B.J., Jell, P.A., and Runnegar, B.N. 1990. Early Cambrian fossils from South Australia. Memoirs of the Association of Australasian Palaeontologists 9: 1-364.
  • Bokova, A.R.1985. The oldest complex of organisms in the Cambrian of the western Anabar region [in Russian]. In: V.V. Khomentovskij, A.A. Terleev, and S.S. Bragin (eds.), Stratigrafia pozdnego dokembria i rannego kembria paleozoa Sibiri, 13-28. Institut Geologii i Geofiziki SO AN SSSR, Novosibirsk.
  • Carter, J.G. (ed.) 1990a. Skeletal Biomineralization: Patterns, Processes andEvolutionary Trends , vol. 1. 832 pp. Van Nostrand Reinhold, New York, N.Y.
  • Carter, J.G. (ed.) 1990b. Skeletal Biomineralization: Patterns, Processes andEvolutionary Trends , vol. 2. 101 pp. Van Nostrand Reinhold, New York, N.Y.
  • Chang, L.L.Y., Howe, R.A., and Zussman, J. 1996. Non-silicates: Sulphates, Carbonates, Phosphates, Halides. 383 pp. Longman, Harlow, Essex.
  • Cherns, L. and Wright, V.P. 2000. Missing molluscs as evidence of largescale, early skeletal aragonite dissolution in a Silurian sea. Geology 28: 791-794.
  • Clark, G.R., II 1976.Shell growth in the marine environment: approaches to the problem of marginal calcification.American Zoologist 16:617-626.
  • Constantz, B.R. 1986. Coral skeleton construction: a physiochemically dominated process. Palaios 1: 152-157.
  • Conway Morris, S. and Chen M. 1989. Lower Cambrian anabaritids from South China. Geological Magazine 126: 615-632.
  • Dodd, J.R. 1966. Processes of conversion from aragonite to calcite with examples from the Cretaceous of Texas. Journal of Sedimentary Petrology 36: 733-741.
  • Fedonkin, M.A. 1986. Precambrian problematic animals: Their body plan and phylogeny. In: A. Hoffman and M.H. Nitecki (eds.), Problematic Fossil Taxa, 59-67. Oxford U.P., New York, N.Y.
  • Fedonkin, M.A. 1987. The non-skeletal fauna of the Vendian and its place in the evolution of the Metazoa [in Russian]. Trudy Paleontologiceskogo Instituta AN SSSR 226: 1-174.
  • Glaessner, M.F. 1976. Early Phanerozoic annelid worms and their geological and biological significance. Journal of the Geological Society of London 132: 259-275.
  • Hedley, R.H. 1958. Tube formation by Pomatoceros triqueter (Polychaeta). Journal of the Marine Biological Association of the UnitedKingdom 37: 315-322.
  • James, N.P. 1974. Diagenesis of scleractinian corals in the subaerial vadose environment. Journal of Paleontology 48: 785-799.
  • James, N.P. and Klappa, C.F. 1983. Petrogenesis of Early Cambrian reef limestones, Labrador, Canada. Journal of Sedimentary Petrology 53: 1051-1096.
  • Kirschvink, J.L. and Hagadorn, J.W. 2000. A Grand Unified Theory of biomineralization. In: E. Bauerlein (ed.), Biomineralization, 139-150. Wiley-VCH, Weinheim.
  • Kouchinsky, A., Bengtson, S., and Gershwin, L.-a. 1999. Cnidarian-like embryos associated with the first shelly fossils in Siberia. Geology 27 (7): 609-612.
  • Land, L.S. 1967. Diagenesis of skeletal carbonates. Journal of Sedimentary Petrology 37: 914-930.
  • Lowenstam, H.A. and Margulis, L. 1980. Evolutionary prerequisites for early Phanerozoic calcareous skeletons. Biosystems 12: 27-41.
  • Lowenstam, H.A. and Weiner, S. 1989. On Biomineralization. 324 pp. Oxford University Press, New York.
  • Lucas, J. and Prevot, L.E. 1991. Phosphates and fossil preservation.In: P.A. Allison and D.E.G. Briggs (eds.), Topics in Geobiology, vol. 9: Taphonomy-Releasing the Data Lockedin the Fossil Record, 389-409. Plenum, New York.
  • Maliva, R.G. 1998. Skeletal aragonite neomorphism-quantitative modelling of a two-water diagenetic system. Sedimentary Geology 121 (3-4): 179-190.
  • Maliva, R.G. and Siever, R. 1988. Diagenetic replacement controlled by force of crystallization. Geology 16: 688-691.
  • Maliva, R.G. and Dickson, J.A.D. 1992. The mechanism of skeletal aragonite neomorphism: evidence from neomorphosed mollusks from the upper Purbeck Formation (Late Jurassic-Early Cretaceous), southern England. Sedimentary Geology 76: 221-232.
  • Matthews, S.C. and Missarzhevsky, V.V. 1975. Small shelly fossils of late Precambrian and early Cambrian age: a review of recent work. Journal of the Geological Society 131: 289-304.
  • Missarzhevskij, V.V. [Missarzevskij, V.V.] 1974. New data on the oldest Lower Cambrian fossils of the Siberian Platform [in Russian]. In: I.T. Zuravleva and A.U. Rozanov (eds.), Biostratigrafia i paleontologia niznego kembria Evropy i severnoj Azii, 179-189. Nauka, Moskva.
  • Missarzhevskij, V.V. [Missarzevskij, V.V.] 1989. The oldest skeletal fossils and stratigraphy of the Precambrian-Cambrian boundary beds [in Russian]. Trudy Geologiceskogo Instituta AN SSSR 443: 1-237.
  • Missarzhevskij, V.V. [Missarzevskij, V.V.] and Mambetov, A.M. 1981.Stratigraphy and fauna of the Precambrian-Cambrian boundary beds in Malyj Karatau [in Russian]. Trudy Geologiceskogo Instituta AN SSSR 326: 1-92.
  • Neff, J.M. 1971. Ultrastructural studies of the secretion of calcium carbonate by the serpulid polychaete worm, Pomatoceros caeruleus. Zeitschrift fur Zellforschung 120: 160-186.
  • Qian Y. 1977. Hyolitha and some problematica from the Lower Cambrian Meishucunian Stage in central and southwestern China [in Chinese]. Acta Palaeontologica Sinica 16: 255-275.
  • Rozanov, A.Y., Missarzhevskij, V.V., Volkova, N.A., Voronova, L.G., Krylov, I.N., Keller, B.M., Korolyuk, I.K., Lendzion, K., Michniak, R., Pykhova, N.G., and Sidorov, A.D. 1969. The Tommotian Stage and the problem of the lower boundary of the Cambrian [in Russian]. Trudy Geologiceskogo Instituta AN SSSR 206: 1-380.
  • Runnegar, B. 1985. Shell microstructures of Cambrian molluscs replicated by phosphate. Alcheringa 9: 245-257.
  • Runnegar, B. 1989. The evolution of mineral skeletons. In: R.E. Crick (ed.), Origin, Evolution, andModern Aspects of Biomineralization in Plants and Animals, 75-94. Plenum, New York, N.Y.
  • Towe, K.M., Bengtson, S., Fedonkin, M.A., Hofmann, H.J., Mankiewicz, C., and Runnegar, B. 1992. Described taxa of Proterozoic and selected earliest Cambrian carbonaceous remains, trace and body fossils. In: J.W. Schopf and C. Klein (eds.), The Proterozoic Biosphere: A Multidisciplinary Study, 953-1054. Cambridge U.P., Cambridge.
  • Val'kov, A.K. 1975. Biostratigrafia i hiolity kembria severo-vostoka Sibirskoj platformy. 139 pp. Nauka, Moskva.
  • Val'kov, A.K. 1982. Biostratigrafia niznego kembria vostoka Sibirskoj platformy. 91 pp. Nauka, Moskva.
  • Val'kov, A.K. and Sysoev, V.A. 1970. Cambrian angustiochreids from Siberia [in Russian]. In: A.K. Bobrov (ed.), Stratigrafia i paleontologia proterozoa i kembria vostoka Sibirskoj platformy, 94-100. Akutskoe Kniznoe Izdatel'stvo, Akutsk.
  • Voronova, L.G. and Missarzhevskij, V.V. 1969. Finds of algae and worm tubes in the Precambrian-Cambrian boundary beds in the northern part of the Siberian Platform [in Russian]. Doklady AN SSSR 184 (1): 207-210.
  • Weedon, M.J. 1990. Shell structure and affinity of vermiform "gastropods". Lethaia 23: 297-309.
  • Weedon, M.J. 1991. Microstructure and affinity of the enigmatic Devonian tubular fossil Trypanopora. Lethaia 24: 227-234.
  • Weedon, M.J. 1994.Tube microstructure of Recent and Jurassic serpulid polychaetes and the question of the Palaeozoic 'spirorbids'. Acta Palaeontologica Polonica 39: 1-15.
  • Yermolaev, N.P., Sozinov, N.A., Kotina, R.P., Pashkova, E.A., and Goryachin, N.I. 1999. Concentration Mechanisms of Noble Metals in Terrigenous- Carbonaceous Deposits. 124 pp. Scientific World, Moscow.
  • Yue Z. and Bengtson, S. 1999.Embryonic and post-embryonic development of the Early Cambrian cnidarian Olivooides. Lethaia 32: 181-195.