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Wright, V. Paul; Cherns, Lesley (2016)
Publisher: Geological Society of London
Languages: English
Types: Article
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    • Myrow, P., M. , Tice, L., Archuleta, B., Clark, B., Taylor, J.F. & Ripperdan, R.L. 2004. Flatpebble conglomerate: its multiple origins and relationship to metre-scale depositional cycles. Sedimentology, 51, 973-996.
    • Palmer, T. & Wilson, M. 2004. Calcite precipitation and dissolution of biogenic aragonite in shallow Ordovician calcite seas. Lethaia, 37, 417-427.
    • Peters, S.E. & Gaines, R.R. 2012 Formation of the 'Great Unconformity' as a trigger for the Cambrian explosion. Nature, 484, 363-366.
    • Peters, S.E. & Loss, D.P. 2012. Storm and fair-weather wave base: A relevant distinction? Geology, 40, 511-514.
    • Porter, S.M. 2007. Seawater chemistry and early carbonate biomineralization. Science, 316, 1302-1302.
    • Porter, S.M. 2010. Calcite and aragonite seas and the de novo acquisition of carbonate skeletons. Geobiology, 8, 256-277.
    • Pratt, B.R. 2002. Storms versus tsunamis: Dynamic interplay of sedimentary, diagenetic, and tectonic processes in the Cambrian of Montana. Geology, 30 423-426.
    • Pratt, B.R. & Bordonaro, O.L. 2007. Tsunamis in a stormy sea: Middle Cambrian inner-shelf limestones of western Argentina. Journal of Sedimentary Research, 77, 256-262.
    • Pruss, S.B., Finnegan, S., Fischer, W.W. & Knoll, A.H. 2010. Carbonates in skeleton-poor seas: new insights from Cambrian and Ordovician strata of Laurentia. PALAIOS, 25, 73-84.
    • Torsvik, T.H. 2009. Bugplates software (IGCP503). With reconstructions of Torsvik, T. H. and Cocks, L. R. M. (2002-2009). StatoilHydro. http://www.geodynamics.no/bugs/SoftwareManual.pdf.
    • Walter, L.M., Bischof, S.A., Patterson, W.P. & Lyons, T.W. 1993. Dissolution and Recrystallization in Modern Shelf Carbonates - Evidence from Pore-Water and SolidPhase Chemistry. Philosophical Transactions of the Royal Society of London, Series A, 344, 27-36.
    • Walter, L.M. & Burton, E.A. 1990. Dissolution of platform carbonate sediments in marine pore fluids. American Journal of Science, 290, 601-643.
    • Westphal, H. 2006. Limestone-marl alternations as environmental archives and the role of early diagenesis: a critical review. International Journal of Earth Sciences, 95, 947- 961.
    • Westphal, H. & Munnecke, A. 2003. Limestone-marl alternations: A warm-water phenomenon? Geology, 31, 263-266.
    • Wignall, P.B. & Twitchett, R.J. 1999. Unusual intraclastic limestones in Lower Triassic carbonates and their bearing on the aftermath of the end‐Permian mass extinction. Sedimentology, 46, 303-316.
    • Wilson, M.A., Palmer, T.J., Guensburg, T.E., Finton, C.D. & Kaufman, L.E. 1992. The development of an Early Ordovician hard ground community in response to rapid sea‐floor calcite precipitation. Lethaia, 25, 19-34.
    • Wilson, M.D. 1985. Origin of Upper Cambrian flat pebble conglomerates in the northern Powder River Basin. In: Longman, M.W., Shanley, K.W., Lindsay, R.F. & Eby, D.E. (eds) Rocky Mountain carbonate reservoirs. SEPM Core Workshop, 7, 1-50.
    • Woods, A.D. 2009. Anatomy of an anachronistic carbonate platform: Lower Triassic carbonates of the southwestern United States. Australian Journal of Earth Sciences, 56, 825-839, doi: 10.1080/08120090903002649.
    • Yang, Z., Otofuji, Y.-i., Sun, Z. & Huang, B. 2002. Magnetostratigraphic constraints on the Gondwanan origin of North China: Cambrian/Ordovician boundary results. Geophysical Journal International, 151, 1-10.
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