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  • Aigner, T. and Reineck, H.-E. (1982) Proximality trends in modern storm sands from the Helgoland Bight (North Sea) and their implications for basin analysis. Senckenb. Marit., 14, 183215.
  • Aller, J.Y. and Aller, R.C. (1986) General characteristics of benthic faunas on the Amazon inner continental shelf with comparison to the shelf off the Changjiang River, East China Sea. Cont. Shelf Res., 6, 291310.
  • Allison, M.A., Kineke, G.C., Gordon, E.S. and Goñi, M.A. (2000) Development and reworking of a seasonal flood deposit on the inner continental shelf off the Atchafalaya River. Cont. Shelf Res., 20, 22672294.
  • Andrews, P.B. (1982) Revised guide to recording field observations in sedimentary sequences. NZ Geol. Surv. Rep., 102, 74.
  • Aplin, A.C. and Macquaker, J.H.S. (2011) Mudstone diversity: origin and implications for source, seal, and reservoir properties in petroleum systems. AAPG Bull., 95, 20312059.
  • Baas, J.H. and Best, J.M. (2002) Turbulence modulation in clay-rich sediment-laden flows and some implications for sediment deposition. J. Sed. Res., 72, 336340.
  • Baas, J.H., Best, J.H., Peakall, J. and Wang, M. (2009) A phase diagram for turbulent, transitional and laminar clay suspension flows. J. Sed. Res., 79, 162183.
  • Baas, J.H., Best, J.L. and Peakall, J. (2011) Depositional processes, bedform development and hybrid bed formation in rapidly decelerated cohesive (mud-sand) sediment flows. Sedimentology, 58, 19531987.
  • Bennett, R.H., Bryant, W.R. and Keller, G.H. (1981) Clay fabric of selected submarine sediments: fundamental properties and models. J. Sed. Petrol., 51, 217232.
  • Bennett, R.H., Bryant, W.R. and Hulbert, M.H. (1991) Microstructure of Fine-Grained Sediments: From Mud to Shale. Springer-Verlag, New York, 582 pp.
  • Bentley, S.J., Sheremet, A. and Jaeger, J.M. (2006) Event sedimentation, bioturbation and preserved sedimentary fabric: field and model comparisons in three contrasting marine settings. Cont. Shelf Res., 26, 21082124.
  • Bhattacharya, J.P. and MacEachern, J.A. (2009) Hyperpycnal rivers and prodeltaic shelves in the Cretaceous Seaway of North America. J. Sed. Res., 79, 184209.
  • Bhattacharya, J.P. and Walker, R.G. (1991a) Allostratigraphic subdivision of the Upper Cretaceous Dunvegan, Shaftesbury and Kaskapau formations in the northwestern Alberta subsurface. Bull. Can. Petrol. Geol., 39, 145164.
  • Bhattacharya, J.P. and Walker, R.G. (1991b) River- and wave-dominated depositional systems of the Upper Cretaceous Dunvegan Formation, northwestern Alberta. Bull. Can. Petrol. Geol., 39, 165191.
  • Carozzi, A.V. (1993) Sedimentary Petrography. Prentice Hall, New Jersey, 263 pp.
  • Cheadle, B.A. and Jiang, P. (2013) Born this way – Inherited heterogeneity and microporosity modalities in “hybrid” reservoirs of the Upper Cretaceous Colorado Group, Western Canada Foreland Basin. Abstract, Integration Geoconvention 2013, Calgary, Alberta, May 6–10, http://www.geoconvention.com/uploads/2013abstracts/056_GC2013_ Born_This_Way.pdf.
  • Cobban, W.A., Merewether, E.A., Fouch, T.D. and Obradovich, J.D. (1994) Some Cretaceous shorelines in the Western Interior of the United States. In: Mesozoic Systems of the Rocky Mountain region, USA (Eds M.V. Caputo, J.A. Peterson and K.J. Franczyk), pp. 393414. Rocky Mountain Section of SEPM, Denver, Colorado.
  • Davis, H.R. and Byers, C.W. (1993) The role of bottom currents and pelagic settling in the deposition of shale in an oxygen-stratified basin: case study of the Mowry Shale (Cretaceous) of Wyoming. In: Evolution of the Western Interior Basin (Eds W.G.E. Caldwell and E.G. Kauffman), Geol. Assoc. Can. Spec. Pap., 39, 177188.
  • De Raaf, J.F.M., Boersma, J.R. and Van Gelder, A. (1977) Wave-generated structures and sequences from a shallow marine succession, Lower Carboniferous, County Cork, Ireland. Sedimentology, 24, 451483.
  • Debnath, K., Nikora, V., Aberle, J., Westrich, B. and Muste, M. (2007) Erosion of cohesive sediments: resuspension, bed load and erosion patterns from field experiments. J. Hydraul. Eng., 133, 508520.
  • Einsele, G., Overbeck, R., Schwarz, H.U. and Unsöld, G. (1974) Mass physical properties, sliding and erodibility of experimentally deposited and differently consolidated clayey muds. Sedimentology, 21, 339372.
  • Fan, S., Swift, D.J.P., Traykovski, P., Bentley, S., Borgeld, J.C., Reed, C.W. and Niedoroda, A.W. (2004) River flooding, storm resuspension, and event stratigraphy on the northern California shelf: observations compared with simulations. Mar. Geol., 210, 1741.
  • Friedrichs, C.T. and Scully, M.E. (2007) Modeling deposition by wave-supported gravity flows on the Po River prodelta: from seasonal floods to prograding clinoforms. Cont. Shelf Res., 27, 322337.
  • Friedrichs, C.T. and Wright, L.D. (2004) Gravity-driven sediment transport on the continental shelf: implications for equilibrium profiles near river mouths. Coast. Eng., 51, 795811.
  • Ghadeer, S.G. and Macquaker, J.H.S. (2011) Sediment transport processes in an ancient mud-dominated succession: a comparison of processes operating in marine offshore settings and anoxic basinal environments. J. Geol. Soc. London, 168, 11211132.
  • Ghadeer, S.G. and Macquaker, J.H.S. (2012) The role of event beds in the preservation of organic carbon in fine-grained sediments: analyses of the sedimentological processes operating during deposition of the Whitby Mudstone Formation (Toarcian, Lower Jurassic), preserved in northeast England. Mar. Petrol. Geol., 35, 309320.
  • Grabowski, R.C., Droppo, I.G. and Wharton, G. (2011) Erodibility of cohesive sediment: the importance of sediment properties. Earth-Sci. Rev., 105, 101120.
  • Harazim, D., McIlroy, D., Macquaker, J.H.S. and Bentley, S.J. (2011) Unbioturbated marine mudstones: Environmental stress or rapid deposition? A worked example from the Ordovician Beach Formation, Newfoundland, Canada. AAPG Search and Discovery article No. 50448 (2011). Available at: http://www.searchanddiscovery.com/documents/2011/50448harazim/ndx_harazim.pdf.
  • Hay, M.J. and Plint, A.G. (2009) An allostratigraphic framework for a retrogradational delta complex: the uppermost Dunvegan Formation (Cenomanian) in subsurface and outcrop, Alberta and British Columbia. Bull. Can. Petrol. Geol., 57, 323349.
  • Houseknecht, D.W. and Pittman, E.D., Eds, (1992) Origin, Diagenesis, and Petrophysics of Clay Minerals in Sandstones. SEPM Special Publication 47, Tulsa, Oklahoma, 282 pp.
  • Hovikoski, J., Lemiski, R., Gingras, M., Pemberton, G. and MacEachern, J.A. (2008) Ichnology and sedimentology of a mud-dominated deltaic coast: Upper Cretaceous Alderson Member (Lea Park Fm.), Western Canada. J. Sed. Res., 78, 803824.
  • Ichaso, A.A. and Dalrymple, R.W. (2009) Tide- and wave-generated fluid mud deposits in the Tilje Formation (Jurassic), offshore Norway. Geology, 37, 539542.
  • Kranck, K. and Milligan, T. (1980) Macroflocs: production of marine snow in the laboratory. Mar. Ecol. Prog. Ser., 3, 1924.
  • Kuehl, S.A., Nittrouer, C.A. and DeMaster, D.J. (1986) Distribution of sedimentary structures in the Amazon subaqueous delta. Cont. Shelf Res., 6, 311336.
  • Kuehl, S.A., Nittrouer, C.A. and DeMaster, D.J. (1988) Microfabric study of fine-grained sediments: observations from the Amazon subaqueous delta. J. Sed. Petrol., 58, 1223.
  • Kuenen, PhH (1966) Experimental turbidite lamination in a circular flume. J. Geol., 74, 523545.
  • Lobza, V. and Schieber, J. (1999) Biogenic sedimentary structures produced by worms in soupy, soft muds: observations from the Chattanooga Shale (Upper Devonian) and experiments. J. Sed. Res., 69, 10411049.
  • Longstaffe, F.J., Tilley, B.J., Ayalon, A. and Connolly, C.A. (1992) Controls on porewater evolution during sandstone diagenesis, Western Canada Sedimentary Basin: an oxygen isotope perspective. In: Origin, Diagenesis, and Petrophysics of Clay Minerals in Sandstones (Eds D.W. Houseknecht and E.D. Pittman), SEPM Spec. Publ., 47, 1334.
  • Lundkvist, M., Grue, M., Friend, P.L. and Flindt, M.R. (2007) The relative contributions of physical and microbiological factors to cohesive sediment stability. Cont. Shelf Res., 27, 11431152.
  • MacEachern, J.A. and Bann, K.L. (2008) The role of ichnology in refining shallow marine facies models. In: Recent Advances in Models of Siliclastic Shallow-Marine Stratigraphy (Eds G.J. Hampson, R.J. Steel, P.M. Burgess and R.W. Dalrymple), SEPM Spec. Publ., 90, 73116.
  • MacEachern, J.A., Pemberton, S.G., Bann, K.L. and Gingras, M.K. (2005) Ichnology of deltas. In: River Deltas, Concepts, Models and Examples (Eds L., Giosan and J.P., Bhattacharya), SEPM Spec. Publ., 83,4985.
  • MacKay, D.A. and Dalrymple, R.W. (2011) Dynamic mud deposition in a tidal environment: the record of fluid-mud deposition in the Cretaceous Bluesky Formation, Alberta, Canada. J. Sed. Res., 81, 901920.
  • Macquaker, J.H.S. and Bohacs, K.M. (2007) On the accumulation of mud. Science, 318, 17341735.
  • Macquaker, J.H.S. and Gawthorpe, R.L. (1993) Mudstone lithofacies in the Kimmeridge Clay Formation, Wessex Basin, southern England: implications for the origin and controls of the distribution of mudstones. J. Sed. Petrol., 63, 11291143.
  • Macquaker, J.H.S. and Keller, M.A. (2005) Mudstone sedimentation at high latitudes: ice as a transport medium for mud and supplier of nutrients. J. Sed. Res., 75, 696709.
  • Macquaker, J.H.S., Taylor, K.G. and Gawthorpe, R.L. (2007) High-resolution facies analysis of mudstones: implications for paleoenvironmental and sequence stratigraphic interpretations of offshore ancient mud-dominated successions. J. Sed. Res., 77, 324339.
  • Macquaker, J.H.S., Bentley, S.J. and Bohacs, K.M. (2010) Wave-enhanced sediment-gravity flows and mud dispersal across continental shelves: reappraising sediment transport processes operating in ancient mudstone successions. Geology, 38, 947950.
  • McCave, I.N. (1984) Size spectra and aggregation of suspended particles in the deep ocean. Deep-Sea Res., 31, 329352.
  • Mehta, A.J. (1991) Understanding fluid mud in a dynamic environment. Geo-Mar. Lett., 11, 113118.
  • Melton, I.E. and Rand, B. (1977) Particle interactions in aqueous kaolinite suspensions. 3. sedimentation volumes. J. Colloid Interf. Sci., 60, 331336.
  • Moon, C.F. (1972) The microstructure of clay sediments. Earth-Sci. Rev., 8, 303321.
  • Mulder, T., Syvitski, J.P.M., Migeon, S., Faugères, J.-C. and Savoye, B. (2003) Marine hyperpycnal flows: initiation, behaviour and related deposits. A review. Mar. Petrol. Geol., 20, 861882.
  • Neill, C.F. and Allison, M.A. (2005) Subaqueous deltaic formation on the Atchafalaya shelf, Louisiana. Mar. Geol., 214, 411430.
  • Nishida, N., Ito, M., Inoue, A. and Takizawa, S. (2013) Clay fabric of fluid mud deposits from laboratory and field observations: potential application to the stratigraphic record. Mar. Geol., 337, 18.
  • O'Brien, N.R. (1987) The effects of bioturbation on the fabric of shale. J. Sed. Petrol., 57, 449445.
  • O'Brien, N.R., Brett, C.E. and Woodard, M.J. (1998) Shale fabric as a clue to sedimentary processes – examples from the Williamson-Willowvale Shales (Silurian), New York. In: Shales and Mudstones, vol. 1, (Ed. by J. Schieber, W. Zimmerle and P. Sethi), pp. 5566. E. Schweizerbart'sche Verlagsbuchhandlung (Nägele u. Obermiller), D-70167, Stuttgart, Germany.
  • Ogston, A.S., Cacchione, D.A., Sternberg, R.W. and Kineke, G.C. (2000) Observations of storm and river flood-driven sediment transport on the northern California continental shelf. Cont. Shelf Res., 20, 21412162.
  • Plint, A.G. (2000) Sequence stratigraphy and palaegeography of a Cenomanian deltaic complex: the Dunvegan and lower Kaskapau formations in subsurface and outcrop, Alberta and British Columbia, Canada. Bull. Can. Petrol. Geol., 47, 4379.
  • Plint, A.G. (2003) Clastic sediment partitioning in a Cretaceous delta system, western Canada: Responses to tectonic and sea-level controls. Geol. Croatica, 56, 3968.
  • Plint, A.G., Tyagi, A., Hay, M.J., Varban, B.L., Zhang, H. and Roca, X. (2009) Clinoforms, paleobathymetry, and mud dispersal across the Western Canada Cretaceous foreland basin: evidence from the Cenomanian Dunvegan Formation and contiguous strata. J. Sed. Res., 79, 144161.
  • Plint, A.G., Macquaker, J.H.S. and Varban, B.L. (2012) Bedload transport of mud across a wide, storm-influenced ramp: Cenomanian-Turonian Kaskapau Formation, Western Canada Foreland Basin. J. Sed. Res., 82, 801822.
  • Rand, B. and Melton, I.E. (1977) Particle interactions in aqueous kaolinite suspensions. 1. Effect of pH and electrolyte upon the mode of particle interaction in homoionic sodium kaolinite suspensions. J. Colloid Interf. Sci., 60, 308320.
  • Ravisangar, V., Brouckaert, B.M., Amirtharajah, A. and Sturm, T.W. (2001) The role of solution chemistry in the stability and detachment of cohesive kaolinite particles. Water Sci. Technol., 1, 2532.
  • Ravisangar, V., Sturm, T.W. and Amirtharajah, A. (2005) Influence of sediment structure on erosional strength and density of kaolinite sediment beds. J. Hydraul. Eng., 131, 356365.
  • Rine, J.M. and Ginsberg, R.N. (1985) Depositional facies of a mud shoreface in Suriname, South America – a mud analogue to sandy, shallow-marine deposits. J. Sed. Petrol., 55, 633652.
  • Schieber, J. (1994a) Evidence for episodic high energy events and shallow water deposition in the Chattanooga Shale, Devonian, central Tennessee, U.S.A. Sed. Geol., 93, 193208.
  • Schieber, J. (1994b) Reflection of deep vs. shallow water deposition by small-scale sedimentary features and microfabrics of the Chattanooga Shale in Tennessee. In: Pangea, Global Environments and Resources (Eds A.E. Embry, B. Beauchamp and D.J. Glass), Can. Soc. Petrol. Geol. Mem., 17,773784.
  • Schieber, J. (1998) Sedimentary features indicating erosion, condensation, and hiatuses in the Chattanooga Shale of central Tennessee: relevance for sedimentary and stratigraphic evolution. In: Shales and Mudstones, vol. 1, (Eds J. Schieber, W. Zimmerle and P. Sethi), pp. 187215. E. Schweizerbart'sche Verlagsbuchhandlung (Nägele u. Obermiller), D-70167, Stuttgart, Germany.
  • Schieber, J. (1999) Distribution and deposition of mudstone facies in the Upper Devonian Sonyea Group of New York. J. Sed. Res., 69, 909925.
  • Schieber, J. and Southard, J.B. (2009) Bedload transport of mud by floccule ripples – direct observation of ripple migration processes and their implications. Geology, 37, 483486.
  • Schieber, J. and Yawar, Z. (2009) A new twist on mud deposition – mud ripples in experiment and rock record. Sed. Rec., 7, 48.
  • Schieber, J., Southard, J.B. and Thaisen, K. (2007) Accretion of mudstone beds from migrating floccule ripples. Science, 318, 17601763.
  • Schieber, J., Southard, J.B. and Schimmelmann, A. (2010) Lenticular shale fabrics resulting from intermittent erosion of water-rich muds – interpreting the rock record in the light of recent flume experiments. J. Sed. Res., 80, 119128.
  • Slingerland, R. and Keen, T.R. (1999) Sediment transport in the Western Interior Seaway of North America: predictions from a climate-ocean-sediment model. In: Isolated Shallow Marine Sand Bodies: Sequence Stratigraphic Analysis and Sedimentologic Interpretation (Eds K.M. Bergman and J. R. Snedden), SEPM Spec. Publ., 64,179190.
  • Soyinka, O.A. and Slatt, R.M. (2008) Identification and micro-stratigraphy of hyperpycnites and turbidites in Cretaceous Lewis Shale, Wyoming. Sedimentology, 55, 11171133.
  • Stow, D.A.V. and Bowen, A.J. (1980) A physical model for the transport and sorting of fine-grained sediment by turbidity currents. Sedimentology, 27, 3146.
  • Sutherland, T.F., Amos, C.L. and Grant, J. (1998) The effect of buoyant biofilms on the erodibility of sublittoral sediments of a temperate microtidal estuary. Limnol. Oceanogr., 43, 225235.
  • Swift, D.J.P., Han, G. and Vincent, C.E. (1986) Fluid processes and sea-floor response on a modern storm-dominated shelf: Middle Atlantic shelf of North America. Part 1: the storm-current regime. In: Shelf Sands and Sandstones (Eds R.J. Knight and J.R. McLean), Can. Soc. Petrol. Geol. Mem., 11,99119.
  • Talling, P.J., Masson, D.G., Sumner, E.J. and Malgesini, G. (2012) Subaqueous sediment density flows: depositional processes and deposit types. Sedimentology, 59, 19372003.
  • Teisson, C., Ockenden, M., Le Hir, P., Kranenburg, C. and Hamm, L. (1993) Cohesive sediment transport processes. Coast. Eng., 21, 129162.
  • Traykovski, P., Geyer, W.R., Irish, J.D. and Lynch, J.F. (2000) The role of wave-induced density-driven fluid mud flows for cross-shelf transport on the Eel River continental shelf. Cont. Shelf Res., 20, 21132140.
  • Traykovski, P., Wiberg, P.L. and Geyer, W.R. (2007) Observations and modelling of wave-supported sediment gravity flows on the Po prodelta and comparison to prior observations from the Eel shelf. Cont. Shelf Res., 27, 375399.
  • Wheatcroft, R.A., Wiberg, P.L., Alexander, C.R., Bentley, S.J., Drake, D.E., Harris, C.K. and Ogston, A.S. (2007) Post-depositional alteration and preservation of sedimentary strata. In: Continental Margin Sedimentation (Eds C.A. Nittrouer, J.A. Austin, M.E. Field, J.H. Kravitz, J.P.M. Syvitski and P.L. Wiberg), Int. Assoc. Sedimentol. Spec. Publ., 37, 101155.
  • Williams, G.D. and Stelck, C.R. (1975) Speculations on the Cretaceous palaeogeography of North America. In: The Cretaceous System in the Western Interior of North America (Eds W.G.E. Caldwell), Geol. Assoc. Can. Spec. Pap., 13, 120.
  • Winterwerp, J.C. and van Kesteren, W.G.M. (2004) Introduction to the Physics of Cohesive Sediment in the Marine Environment. Elsevier, Amsterdam, 576 pp.
  • Wolanski, E., Gibbs, R.J., Mazada, Y., Mehta, A. and King, B. (1992) The role of turbulence in the settling of mud flocs. J. Coastal Res., 8, 3546.
  • Worden, R.H. and Morad, S. (2003) Clay minerals in sandstones: controls on formation, distribution and evolution. In: Clay Mineral Cements in Sandstones, (Eds R.H. Worden and S. Morad), Int. Assoc. Sedimentol. Spec. Publ., 34,341.