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12.8: Works Cited and Reading List

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    5052
  • Works Cited

    Allen, J.R.L., 1970, A quantitative model of climbing ripples and their cross-laminated deposits: Sedimentology, v. 14, p. 5-26.

    Anderson, R.S., 1987, A theoretical model for aeolian impact ripples: Sedimentollgy, v. 34, p. 943-956.

    Andreotti, B., Claudin, P., and Pouliquen, O., 2006, Aeolian sand ripples: experimental study of fully developed states: Physical Review Letters, v. 96, 028001, 4 p.

    Arnott, R.W., and Southard, J.B., 1990, Exploratory flow-duct experiments on combined-flow bed configurations, and some implications for interpreting storm-even stratification: Journal of Sedimentary Petrology, v. 60, p. 211-219.

    Ashley, G.M., 1990, Classification of large-scale subaqueous bed forms: a new look at an old problem: Journal of Sedimentary Petrology, v. 60, p. 160-172.

    Ashley, G.M., Southard, J.B., and Boothroyd, J.C., 1982, Deposition of climbing-ripple beds: A flume simulation: Sedimentology, v. 29, p. 67-79.

    Bagnold, R.A., 1941, The Physics of Blown Sand and Desert Dunes: London, Methuen, 265 p.

    Bagnold, R.A., 1941, The Physics of Blown Sand and desert Dunes: Chapman & Hall, 265 p.

    Bennett, S.J., and Best, J.L., 1996, Mean flow and turbulence strcture over fixed ripples and the ripple–dune transition, in Ashworth, P.J., Bennett, S.J., Best, J.L., and McLelland, S.J., Coherent Flow Structures in Open Channels: Wiley, p. 281-304.

    Boguchwal, L.A., and Southard, J.B., 1990, Bed configurations in steady unidirectional water flows. Part 3. Effects of temperature and gravity: Journal of Sedimentary Petrology, v. 60, p. 680-686.

    Dillo, H.G., 1960, Sandwanderungen in Tideflussen: Technische Hochschule Hannover, Franzius-Institut für Grund- und Wsserbau, Mitteilungen, v. 17, p. 135-253.

    Dumas, S., Arnott, R.W.C., and Southard, J.B., 2005, Experiments on oscillatory-flow and combined-flow bed forms: implications for interpreting parts of the shallow-marine sedimentary record: Journal of Sedimentary Research, v. 75, p. 501-513.

    Engelund, F., 1970, Instability of erodible beds: Journal of Fluid Mechanics, v. 42, p. 225-244.

    Engelund, F., and Fredsøe, J., 1974, Transition from dunes to plane bed in alluvial channels: Technical University of Denmark, Institute of Hydraulic Engineering, Series Paper 4.

    Exner, F.M., 1925, Über die Wechselwirkung zwischen Wasser und Geschiebe in Flussen: Vienna, Austria, Akademie der Wissenschaften, Sitzungsberichte, Mathematisch- Naturwissenschaftliche Klasse, Abteilung IIa, v. 134, p. 166-204.

    Fredsøe, J, 1974, On the development of dunes in erodible channels: Journal of Fluid Mechanics, v. 64, p. 1-16.

    Gilbert, G.K., 1914, The transportation of debris by running water: U.S. Geological Survey, Professional paper 86, 263 p.

    Guy, H.P., Simons, D.B., and Richardson, E.V., 1966, Summary of alluvial channel data from flume experiments: U.S. Geological Survey, Professional paper 462-I, 96 p.

    Harms, J.C., Southard, J.B., and Walker, R.G., 1982, Structures and Sequences in Clastic Rocks: Society of Economic Paleontologists and Mineralogists, Short Course 9, variously paged.

    Hoyle, R.B., and Mehta, A, 1999, Two-species continuum model for aeolian sand ripples: Physical Review Letters, v. 83, p. 5170-5173.

    Hoyle, R.B., and Woods, A.W., 1997, Analytical model of propagating sand ripples: Physical Review E, v. 56, p. 6861-6868.

    Jackson, P.S., 1981, On the displacement height in the logarithmic velocity profile: Journal of Fluid Mechanics, v. 111, p. 15-25.

    Jerolmack, D.J., Mohrig, D., and McElroy, B., 2006, A unified description of ripples and dunes in rivers, in Parker, G., and García, M.H., eds., River, Coastal and Estuarine Morphodynamics: London, Taylor & Francis Group, p. 843-851.

    Ji, Z.G., and Mendoza, C., 1997, Weakly nonlinear stability anaoysis for dune formation: Journal of Hydraulic Engineering, v, 123, p. 979-985.

    Kennedy, J.F., 1963, The mechanics of dunes and antidunes in erodible channels: Journal of Fluid Mechanics, v. 16, p. 521-544.

    Kennedy, J.F., 1969, The formation of sediment ripples, dunes, and antidunes: Annual Review of Fluid Mechanics, v. 16, p. 147-168.

    Kurtze, D.A., Both, J.A., and Hong, D.C., 2000, Surface instability in windblown sand: Physical Review E, v. 61, p. 6750-6758.

    Landry, W., and Werner, B.T., 1994, Computer simulations of self-organized wind ripple patterns: Physica D, v. X, p. X-X.

    Lopez, F., Fernandez, R., and Best, J., 2000, Turbulence and coherent flow structure associated with bedform amalgamation: an experimental study of the ripple–dune transition: American Society of Civil Engineers, Joint Conference on Water Resources Engineering and Water Resources Planning and Management, Minneapolis, Minnesota.

    McLean, S.R., 1990, The stability of ripples and dunes: Earth-Science Reviews, v. 129, p. 131- 144.

    Miao, T.D., Mu, Q.S., and Wu, S.Z., 2001, Computer simulation of aeolian sand ripples and dunes: Physics Letters A, v. 288, p. 16-22.

    Middleton, G.V., and Southard, J.B., 1984, Mechanics of Sediment Movement, Second Edition: SEPM (Society for Sedimentary Geology), variously paged.

    Monin, A.S., and Yaglom, A.M., 1971, Statistical Fluid Mechanics, Volume 1: Cambridge, Massachusetts, MIT Press, 769 p.

    Niño, Y., Atala, A., Barahona, M., and Aracena, D., 2002, Discrete particle model for analyzing bedform development: Journal of Hydraulic Engineering, v. 128, p. 381-389.

    Nishimori, H., and Ouchi, N., 1993, Formation of ripple patterns and dunes by wind-blown sand: Physical Review Letters, v. 71, p. 197-201.

    Nordin, C.F., 1976, Flume studies with fine and coarse sands: U.S. Geological Survey, Open- File Report 76-762.

    Ouchi, N.B., and Nishimori, H., 1995, Modeling of wind-blown sand using cellular automata: Physical Review E, v. 52, p. 5877-5880.

    Paola, C., 1983, Flow and skin friction over natural rough beds: Cambridge, Massachusetts, Massachusetts Institute of Technology, Department of Earth and Planetary Sciences, Ph.D. dissertation, 347 p.

    Prigozhin, L. 1995, Nonlinear dynamics of aeolian ripples: Physical review E, v. 60, 041302, 6 p.

    Pye, K., and Tsoar, H., 1990, Aeolian Sand and Sand Dunes: Unwin Hyman, 396 p/

    Richards, K.J., 1980, The formation of ripples and dunes on an erodible bed: Journal of Fluid Mechanics, v. 99, p. 597-618.

    Robert, A, and Uhlman, W., 2001, An experimental study on the ripple–dune transition: Earth Surface Processes and Landforms, v. 26, p. 615-629.

    Rubin, D.M., and Hunter, R.S., 1982, Bedform climbing in theory and nature: Sedimentology, v. 29, p. 121-138.

    Rubin, D.M., and McCulloch, D.S., 1980, Single and superimposed bedforms: A synthesis of San Francisco Bay and flume observations: Sedimentary Geology, v. 26, p. 207-231.

    Seppälä, M., and Lindé, K., 1978, Wind tunnel studies of ripple formation: Geografiska Annaler, v. A60, p. 29-42.

    Sharp, R.P., 1963, Wind ripples: Journal of Geology, v. 71, p. 617-636.

    Simons, D.B., and Richardson, E.V., 1966, Resistance to flow in alluvial channels: U.S. Geological Survey, Professional paper 422-J, 61 p.

    Simons, D.B., and Richardson, E.V.,1963, Forms of bed roughness in alluvial channels: American Society of Civil Engineers, Transactions, v. 128, Part I, p. 284-302.

    Simons, D.B., Richardson, E.V., and Nordin, C.F., Jr., 1965, Bedload equation for ripples and dunes: U.S. Geological Survey, Professional paper 462-H.

    Smith, J.D., 1970, Stability of a sand bed subjected to a shear flow of low Froude number: Journal of Geophysical Research, v. 75, p. 5928-5939.

    Smith, J.D., and McLean, S.R., 1977, Spatially averaged flow over a wavy surface: Journal of Geophysical research, v. 82, p. 1735-1746.

    Southard, J.B., 1971, Representation of bed configurations in depth-velocity-size diagrams: Journal of Sedimentary petrology, v. 41, p. 903-915.

    Southard, J.B., 1991, Experimental determination of bed-form stability: Annual Review of Fluid Mechanics, v. 19, p. 423-455.

    Southard, J.B., and Boguchwal, L.A., 1990, Bed configurations in steady unidirectional water flows. Part 2. Synthesis of flume data: Journal of Sedimentary Petrology, v. 60, p. 658-679.

    Southard, J.B., and Dingler, J.R., 1971, Flume study of ripple propagation behind mounds on flat sand beds: Sedimentology, v. 16, p. 251-263.

    Southard, J.B., Boguchwal, L.A., and Romea, R.D., 1980, Test of scale modeling of sediment transport in steady unidirectional flow: Earth Surface Processes, v. 5, p. 17-23.

    Stam, J.M.T., 1996, Migration and growth of aeolian bedforms: Mathematical Geology, v. 28, p. 519-536.

    Terzidis, O., Claudin, P., and Bouchaud, J.P., 1998, A model for ripple instabilities in granular media: European Physical Journal B, v. 5, p. 245-249.

    Thom, A.S., 1971, Momentum absorption by vegetation: Royal Meteorological Society, Journal, v. 97, p. 414-428.

    Valance, A., and Rioual, F., 1999, A nonlinear model for aeolian sand ripples: European Physical Journal B, v. 10, p. 543-548.

    Valdewalle, N., and Galam, S., 2000, A 1D Ising model for ripple formation: Journal of Physics A, v. 33, p. 4955-4962.

    van den Berg, J.H., and van Gelder, A., 1993, A new bedform stability diagram, with emphasis on the transition of ripples to plane bed over fine and ssilt, in Marzo, M., and Puigdefàbregas, C., eds., Alluvial Sediments: International Association of Sedimentologists, Special Publication 17, p. 11-21.

    Vanoni, V.A., and Brooks, N.H., 1957, Laboratory studies of the roughness and suspended load of alluvial streams: California Institute of Technology, Sedimentation Laboratory, Report E-68, MRD Sediment Series no. 11.

    Vanoni, V.A., ed., 1975, Sedimentation Engineering: American Society of Civil Engineers, Manuals and Reports on Engineering Practice, no. 54, 745 p.

    Walker, J.D., 1981, An experimental study of wind ripples: M.S., thesis, Massachusetts Institute of Technology, Cambridge, Massachusetts, USA, 145 p.

    Werner, B.T., and Gillespie, D.T., 1993, Fundamentally discrete stochastic model for wind ripple dynamics: Physical review Letters, v. 71, p. 3230-3233.

    Willis, J.C., Coleman, N.L., and Ellis, W.M., 1972, Laboratory study of transport of fine sand: American Society of Civil Engineers, Proceedings, Journal of the Hydraulics Division, v. 98, p. 489-502.

    Yizhaq, H., Balmforth, N.J., and Provenzale, A., 2004, Blown by wind: nonlinear dynamics of aeolian sand ripples: Physica D, v. 195, p. 207-228.

    Yokokawa, M., 1995, Combined-flow ripples: genetic experiments and applications for geologic records: Kyushu University, Faculty of Science, Memoirs, v. 29, no. 1, p. 1-38.

    Recent Papers on Bed Configurations, not cited:

    Alexander, J., Bridge, J.S., Cheel, R.J., and Leclair, S.F., 2001, Bedforms and associated sedimentary structures formed under supercritical water flows over aggrading sand beds: Sedimentology, v. 48, p. 133-152.

    Arnott, R.W.C., and Hand, B.M., 1989, Bedforms, primary structures and grain fabric in the presence of suspended sediment rain: Journal of Sedimentary Petrology, v. 59, p. 1062- 1069.

    American Society of Civil Engineers Task Committee, 2002, Flow and transport over dunes: Journal of Hydraulic Engineering, v. 128, p. 726-728.

    Baas, J.H., 1999, An empirical model for the development and equilibrium morphology of current ripples in fine sand: Sedimentology, v. 46, p. 123-138.

    Bartholdy, J., Bartholomae, A., and Flemming, B.W., 2002, Grain-size control of large compound flow-transverse bedforms in a tidal inlet of the Danish Wadden Sea: Marine Geology, v. 188, p. 391-413.

    Bartholdy, J., Flemming, B.W., Bartholomä, A., and Ernstsen, V.B., 2005, Flow and grain size control of depth-independent simple subaqueous dunes: Journal of Geophysical Research, v. 110, F04S16, 12 p.

    Bennett, S.J,, and Best, J.L., 1995, Mean flow and turbulence structure over fixed, two- dimensional dunes: implications for sediment transport and bedform stability: Sedimentology, v. 42, p. 491-513.

    Besio, G., Blondeaux, P., Brocchini, M., and Vittori, G., 2004, On the modeling of sand wave migration: Journal of Geophysical Research, v 109, C04018, 13 p.

    Best, J., 2005, The fluid dynamics of river dunes: A review of some future research directions: Journal of Geophysical Research, v. 110, F04S02, 21 p.

    Best, J., and Bridge, J., 1992, The morphology and dynamics of low amplitude bedwaves upon upper stage plane beds and the preservation of planar laminae: Sedimentology, v. 39, p. 737-752.

    Best, J.L., and Kostaschuk, R., 2002, An experimental study of turbulent flow over a low-angle dune: Journal of Geophysical Research, v. 107(C9), 3135, 19 p.

    Blom, A., 2006, The impact of variability in dune dimensions on sediment sorting and morphodynamics, in Parker, G., and García, M.H., eds., River, Coastal and Estuarine Morphodynamics: London, Taylor & Francis Group, p. 873-881.

    Blom, A., and Parker, G., 2004, Vertical sorting and the morphodynamics of bed form–dominated rivers: A modeling framework: Journal of Geophysical Research, v. 109, F02007, 15 p.

    Blom, A., Ribberink, J.S., and de Vriend, H.J., 2003, Vertical sorting in bed forms: Flume experiments with a natural and a trimodal sediment mixture: Water Resources Research, v. 39 (2), 1025, ESG 1, 13 p.

    Bridge, J.S., and Best, J.L., 1988 Flow, sediment transport and bedform dynamics over the transition from dunes to upper-stage plane beds: implications for the formation of planar laminae: Sedimentology, v. 35, p. 753-763.

    Cacchione, D.A., Wiberg, P.L., Lynch, J., Irish, J., and Traykovski, P., 1999, Estimates of suspended-sediment flux and bedform activity on the inner portion of the Eel continental shelf: Marine Geology, v. 154, p. 83-97.

    Carling, P.A., 1999, Subaqueous gravel dunes: Journal of Sedimentary Research, v. 69, p. 534- 545.

    Carling, P.A., and Shvidchenko, A.B., 2002, A consideration of the dune:antidune transition in fine gravel: Sedimentology, v. 49, p. 1269-1282.

    Carling, P.A., Gölz, E., Orr, H.G., and Radecki-Pawlik, A., 2000, The morphodynamics of fluvial sand dunes in the River Rhine, near Mainz, Germany. I. Sedimentology and morphology: Sedimentology, v. 47, p. 227-252.

    Carling, P.A., Williams, J.J., Gölz, E., and Kelsey, A.D., 2000, The morphodynamics of fluvial sand dunes in the River Rhine, near Mainz, Germany. II. Hydrodynamics and sediment transport: Sedimentology, v. 47, p. 253-278.

    Cataño-Lopera, Y.A., and García, M.H., 2006, Geometric and migrating characteristics of amalgamated bedforms under oscillatory flows, in Parker G, and García M, eds., River, Coastal and Estuarine Morphodynamics: London, Taylor & Francis Group, p. 1017- 1026.

    Chang, Y.S., and Hanes, D.M., 2004, Suspended sediment and hydrodynamics above mildly sloped long wave ripples: Journal of Geophysical Research, v. 109, C07022, 16 p.

    Chang, Y.S., and Scotti, A., 2004, Modeling unsteady turbulent flows over ripples: Reynolds- averaged Navier-Stokes equations (RANS) versus large-eddy simulation (LES): Journal of Geophysical Research, v. 109, C09012, 16 p.

    Cheel, R.J., 1990, Horizontal lamination and the sequence of bed phases and stratification under upper-flow-regime conditions: Sedimentology, v. 37, p. 517-529.

    Clarke, L.B., and Werner, B.T., 2004, Tidally modulated occurrence of megaripples in a saturated surf zone: Journal of Geophysical Research, v. 109, C01012, 15 p.

    Coleman, S.E., Fedele, J.J., and Garcia, M.H., 2003, Closed-conduit bed-form initiation and development: Journal of Hydraulic Engineering, v. 129, p. 956-965.

    Coleman, S.E., Schlicke, E., and Blackbourn, S., 2006, Growth of wave-induced ripples, in Parker, G., and García, M.H., eds., River, Coastal and Estuarine Morphodynamics: London, Taylor & Francis Group, p. 963-971.

    Crawford, A.M., and Hay, A.E., 2001, Linear transition ripple migration and wave orbital velocity skewness: Observations: Journal of Geophysical Research, v. 106, p. 14,113-14,128.

    Damgaard, J., Soulsby, R., Peet, A., and Wright, S., 2003, Sand transport on steeply sloping plane and rippled beds: Journal of Hydraulic Engineering, v. 129, p. 706-719.

    Davis, J.P., Walker, D.J., Townsend, M., and Young, I.R., 2004, Wave-formed sediment ripples: Transient analysis of ripple spectral development: Journal of Geophysical Research, v. 109, C07020, 15 p.

    Dinehart, R.L., 1992, Evolution of coarse gravel bed forms: field measurements at flood stage: Water Resources Research, v. 28, p. 2667-2689.

    Doucette, J.S., 2000, The distribution of nearshore bedforms and effects on sand suspension on low-energy, micro-tidal beaches in Southwestern Australia: Marine Geology, v. 165, p. 41-61.

    Doucette, J.S., 2002, Geometry and grain-size sorting of ripples on low-energy sand beaches: field observations and model predictions: Sedimentology, v. 49, p. 483-503.

    Duffy, G.P., and Hughes-Clarke, J.E., 2005, Applications of spatial cross correlation to detection of migration of submarine sand dunes: Journal of Geophysical Research, v. 110, F04S12.

    Elhakeem, M., and Imran, J., 2006, A bedload model for uniform sediment derived from the movement of bed forms, in Parker, G., and García, M.H., eds., River, Coastal and Estuarine Morphodynamics: London, Taylor & Francis Group, p. 853-860.

    Ernstsen, V.B., Noormets, R., Winter, C., Hebbeln, D., Bartholomä, A., Flemming, B.W., and Bartholdy, J., 2005, Development of subaqueous barchanoid-shaped dunes due to lateral grain size variability in a tidal inlet channel of the Danish Wadden Sea: Journal of Geophysical Research, v. 110,F04S08, 13 p.

    Flemming, B.W., 1992, Bed phases in bioclastic sands exposed to unsteady, non-equilibrated flows: an experimental flume study: Senckenbergiana Maritima, v. 22. p. 95-108.

    Giménez-Curto, L.A., and Corniero, M.A., 2003, Highest natural bed forms: Journal of Geophysical Research, v.108(C2), 3046, 7 p.

    Gonzalez, R., and Eberli, G., 1997, Sediment transport and bedforms in a carbonate tidal inlet; Lee Stocking Island, Exumas, Bahamas: Sedimentology, v. 44, p. 1015-1030.

    Ha, H.K., and Chough, S.K., 2003, Intermittent turbulent events over sandy current ripples: a motion-picture analysis of flume experiments: Sedimentary Geology, v. 161, p. 295- 308.

    Harbor, D.J., 1998, Dynamics of bedforms in the lower Mississippi River: Journal of Sedimentary Research, v. 68 , p. 750-762.

    Héquette, A., and Hill, P.R., 1995, Response of the seabed to storm-generated combined flows on a sandy Arctic shoreface, Canadian Beaufort Sea: Journal of Sedimentary Research, v. A65, p. 461-471.

    Hersen, P., 2005, Flow effects on the morphology and dynamics of aeolian and subaqueous barchan dunes: Journal of Geophysical Research, v. 110, F04S07, 10 p.

    Hoekstra, P., Bell, P., van Santen, P., Roode, N., Levoy, F., and Whitehouse, R., 2004, Bedform migration and bedload transport on an intertidal shoal: Continental Shelf Research, v. 24, p. 1249-1269.

    Hulscher, S.J.M.H., 1996, Tidal-induced large-scale regular bed form patterns in a three- dimensional shallow water model: Journal of Geophysical Research, v. 101, p. 20,727- 20,744.

    Hulscher, S.J.M.H., and Dohmen-Janssen, C.M., 2005, Introduction to special section on Marine Sand Wave and River Dune Dynamics: Journal of Geophysical Research, v. 110, F04S01, 6 p.

    Jerolmack, D., and Mohrig, D., 2005, Interactions between bed forms: Topography, turbulence, and transport: Journal of Geophysical Research, v. 110, F02014, 13 p.

    Kleinhans, M.G., 2001, The key role of fluvial dunes in transport and deposition of sand–gravel mixtures, a preliminary note: Sedimentary Geology, v. 143, p. 7-13.

    Kleinhans, M.G., 2005, Upstream sediment input effects on experimental dune trough scour in sediment mixtures: Journal of Geophysical Research, v. 110, F04S06, 8 p.

    Kleinhans, M.G., Wilbers, A.W.E., de Swaaf, A., and van den Berg, J.H., 2002, Sediment supply– limited bedforms in sand–gravel bed rivers: Journal of Sedimentary Research, v. 72, p. 629-640.

    Kostaschuk, R., 2000, A field study of turbulence and sediment dynamics over subaqueous dunes with flow separation: Sedimentology, v. 47, p. 519-531.

    Kostaschuk, R., 2006, Sediment transport mechanics and subaqueous dune morphology, in Parker G,, and García M., eds, River, Coastal and Estuarine Morphodynamics: London, Taylor & Francis Group, p. 795-801.

    Kostaschuk, R., and Best, J., 2005, Response of sand dunes to variation in tidal flow: Fraser Estuary, Canada: Journal of Geophysical Research, v. 110, F04S04, 10 p.

    Langlois, V., and Valance, A., 2005, Three-dimensionality of sand ripples under steady laminar shear flow: Journal of Geophysical Research, v. 110, F04S09, 12 p.

    Larcombe, P., and Jago, C.F., 1996, The morphological dynamics of intertidal megaripples in the Mawddach Estuary, North Wales, and the implications for palaeoflow reconstructions: Sedimentology, v. 43, p. 541-559.

    Lawless, M., and Robert, A., 2001, Three-dimensional flow structure around small-scale bedforms in a simulated gravel-bed environment: Earth Surface Processes and Landforms, v. 26, p.507-522.

    Leclair, S.F., 2002, Preservation of cross-strata due to the migration of subaqueous dunes: an experimental investigation: Sedimentology, v. 49, p. 1157-1180.

    Leclair, S.F., and Bridge, J.S., 2001, Qualitative interpretation of sedimentary structures formed by river dunes: Journal of Sedimentary Research, v. 71, p. 713-716.

    Leclair, S.F., and Miller, J.Z., 2006, Time variation of probability distributions of dune-bed elevation in a large river, in Parker, G., and García, M.H., eds., River, Coastal and Estuarine Morphodynamics: London, Taylor & Francis Group, p. 803-812.

    Lee, H.J., Jo, H.R., and Chu, Y.S., 2006, Dune migration on macrotidal flats under symmetrical tidal flows: Garolim Bay, Korea : Journal of Sedimentary Research, v. 76, p. 284-291.

    Li, M.Z., 1994, Direct skin friction measurements and stress partitioning over movable sand ripples: Journal of Geophysical Research, v. 99, p. 791-799.

    Li, M.Z., and Amos, C.L., 1998 Predicting ripple geometry aned bed roughness under combined waves and currents in a continental shelf environment Continental Shelf Research 18 941-970 .

    Li, M.Z., and Amos, C.L., 1999a, Field observations of bedforms and sediment transport thresholds of fine sand under combined waves and currents: Marine Geology, v. 158, p. 147-160.

    Li, M.Z., and Amos, C.L., 1999b, Sheet flow and large wave ripples under combined waves and currents: field observations, model prediction and effects on boundary layer dynamics: Continental Shelf Research, v. 19, p. 637-663.

    Maddux, T.B., McLean, S.R., and Nelson, J.M., 2003a, Turbulent flow over three-dimensional dunes: 2. Fluid and bed stress: Journal of Geophysical Research, v.108 (F1), 6010, 11, 17 p.

    Maddux, T.B., Nelson, J.M., and McLean, S.R., 2003b, Turbulent flow over three-dimensional dunes: 1. Free surface and flow response: Journal of Geophysical Research, v. 108, F1, 6009, 20 p.

    Malarkey, J., and Davies, A.G., 2004, An eddy viscosity formulation for oscillatory flow over vortex ripples: Journal of Geophysical Research, v. 109, C12016, 13 p.

    Mantz, P.A., 1992, Cohesionless fine-sediment bed forms in shallow flows: Journal of Hydraulic Engineering, v. 118, p. 743-764.

    Marin, F., Abcha, N., Brossard, J., and Ezersky, A.B., 2005, Laboratory study of sand bed forms induced by solitary waves in shallow water: Journal of Geophysical Research, v. 110, F04S17.

    Mazumder, R., 2000, Turbulence–particle interactions and their implications for sediment transport and bedform mechanics under unidirectional current: some recent developments: Earth-Science Reviews, v. 50, p. 113-124.

    Mazumder, R., 2003, Sediment transport, aqueous bedform stability and morphodynamics under unidirectional current: a brief overview: Journal of African Earth Sciences, v. 36, p. 1- 14.

    McLean, S.R., and Nelson, J.M., 2006, Sediment transport over ripples and dunes, in Parker, G., and García, M.H., eds., River, Coastal and Estuarine Morphodynamics: London, Taylor & Francis Group, 821-829.

    McLean, S.R., Nelson, J.M., and Wolfe, S.R., 1994, Turbulence structure over two-dimensional bed forms: Implications for sediment transport: Journal of Geophysical Research, v. 99, p. 12,729-12,747.

    McLean, S.R., Wolfe, S.R., and Nelson, J.M., 1999, Predicting boundary shear stress and sediment transport over bed forms: Journal of Hydraulic Engineering, v. 125, p. 725-736.

    Morris, S.A., Kenyon, N.H., Limonov, A.F., and Alexander, J., 1998, Downstream changes of large-scale bedforms in turbidites around the Valencia channel mouth, north-west Mediterranean: implications for palaeoflow reconstruction: Sedimentology, v. 45, p. 365-377.

    Murray, A.B., Coco, G., Green, M., Hume, T., and Thieler, R., 2006, Different approaches to modeling inner-shelf ‘sorted bedforms’, in Parker, G., and García, M.H., eds., River, Coastal and Estuarine Morphodynamics: London, Taylor & Francis Group, p. 1009- 1015.

    Narteau, C., Lajeunesse, E., Métivier, F., and Rozier, O., 2006, Modelling of dune patterns by short range interactions, in Parker, G,, and García, M., eds., River, Coastal and Estuarine Morphodynamics: London, Taylor & Francis Group, p. 1035-1046.

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