Estuarine Facies Models: Conceptual Basis and Stratigraphic Implications: PERSPECTIVE

ABSTRACT The nature and organization of facies within incised-valley estuaries is controlled by the interplay between marine processes (waves and tides), which generally decrease in intensity up-estuary, and fluvial processes, which decrease in strength down-estuary. All estuaries ideally possess a three-fold (tripartite) structure: an outer, marine-dominated portion where the net bedload transport is headward; a relatively low-energy central zone where there is net bedload convergence; and an inner, river-dominated (but marine-influenced) part where the net transport is seaward. These three zones are not equally developed in all estuaries because of such factors as sediment availability, coastal zone gradient and the stage of estuary evolution. Two distinct but intergradational types of estuaries (wave- and tide-dominated) are recognized on the basis of the dominant marine process. Wave-dominated estuaries typically possess a well-defined tripartite zonation: a marine sand body comprised of barrier, washover, tidal inlet and tidal delta deposits; a fine-grained (generally muddy) central basin; and a bay-head delta that experiences tidal and/or salt-water influence. The marine sand body in tide-dominated estuaries consists of elongate sand bars and broad sand flats that pass headward into a low-sinuosity ("straight") single channel; net sand transport is headward in these areas. The equivalent of the central basin consists of a zone of tight meanders where bedload transport by flood-tidal and river currents is equal in the lo g term, while the inner, river-dominated zone has a single, low-sinuosity ("straight") channel. These facies models and their conceptual basis provide a practical means of highlighting the differences and similarities between estuaries. They also allow the predication of the stratigraphy of estuarine deposits within a sequence-stratigraphic context.

[1]  J. Demarest,et al.  Stratigraphic Record of Quaternary Sea Levels: Implications for More Ancient Strata , 1987 .

[2]  R. Boyd,et al.  CHAPTER 4 – An Evolutionary Model for Transgressive Sedimentation on the Eastern Shore of Nova Scotia , 1987 .

[3]  S. Short,et al.  A preliminary study of sedimentation in the tidally dominated Fly River Delta, Gulf of Papua , 1993 .

[4]  S. Bartsch-Winkler,et al.  Macrotidal Subarctic Environment of Turnagain and Knik Arms, Upper Cook Inlet, Alaska: Sedimentology of the Intertidal Zone , 1984 .

[5]  Richard A. Davis,et al.  Sea-Level Change and the Preservation Potential of Wave-Dominated and Tide-Dominated Coastal Sequences , 1987 .

[6]  S. Colman,et al.  The record of major Quaternary sea level changes in a large coastal plain estuary , 1988 .

[7]  Chen Ji-yu,et al.  THE MODEL OF DEVELOPMENT OF THE CHANG JIANG ESTUARY DURING THE LAST 2000 YEARS , 1982 .

[8]  P. Harris Large-scale bedforms as indicators of mutually evasive sand transport and the sequential infilling of wide-mouthed estuaries , 1988 .

[9]  S. Nichol Zonation and Sedimentology of Estuarine Facies in an Incised Valley, Wave-dominated, Microtidal Setting, New South Wales, Australia , 1991 .

[10]  G. Middleton,et al.  Dynamics and facies model of a macrotidal sand‐bar complex, Cobequid Bay—Salmon River Estuary (Bay of Fundy) , 1990 .

[11]  G. Reinson Tidal-current control of submarine morphology at the mouth of the Miramichi estuary, New Brunswick , 1977 .

[12]  L. Meckel Holocene Sand Bodies in the Colorado Delta Area, Northern Gulf of California , 1975 .

[13]  R. W. Frey,et al.  Mesotidal Estuarine Sequences: A Perspective From The Georgia Bight , 1986 .

[14]  W. Kanes,et al.  Holocene Guadalupe Delta of Texas Gulf Coast , 1970 .

[15]  B. Wilkinson,et al.  Lavaca Bay--Transgressive Deltaic Sedimentation in Central Texas Estuary , 1977 .

[16]  Donald W. Pritchard,et al.  What is an estuary: Physical Viewpoint , 1967 .

[17]  J. Lambiase Sediment dynamics in the macrotidal Avon River estuary, Bay of Fundy, Nova Scotia , 1980 .

[18]  R. Dalrymple,et al.  Temporal and Spatial Patterns of Rhythmite Deposition on Mud Flats in the Macrotidal Cobequid Bay-Salmon River Estuary, Bay of Fundy, Canada , 1991 .

[19]  J. Wagoner,et al.  Siliciclastic sequence stratigraphy in well logs, cores, and outcrops , 1990 .

[20]  J. J. Lambiase Sediment Dynamics in the Macrotidal Avon River Estuary, Nova Scotia , 1977 .

[21]  R. J. Weimer Relation of Unconformities, Tectonics, and Sea-Level Changes, Cretaceous of Western Interior, U.S.A. , 1984 .

[22]  A. Maldonado Sedimentation, Stratigraphy, and Development of the Ebro Delta, Spain , 1975 .

[23]  L. Kulm Sediments of Yaquina Bay, Oregon , 1964 .

[24]  Miles O. Hayes,et al.  What is a wave-dominated coast? , 1984 .

[25]  William E. Galloway,et al.  Process Framework for Describing the Morphologic and Stratigraphic Evolution of Deltaic Depositional Systems , 1975 .

[26]  Chang-Shu Yang,et al.  An ebb-tide delta depositional model—a comparison between the modern Eastern Scheldt tidal basin (southwest Netherlands) and the Lower Eocene Roda Sandstone in the southern Pyrenees (Spain) , 1989 .

[27]  H. Clifton Discrimination between Subtidal and Intertidal Facies in Pleistocene Deposits, Willapa Bay, Washington , 1983 .

[28]  G. H. Johnson,et al.  Modern Sediments and Facies Model for a Microtidal Coastal Plain Estuary, the James Estuary, Virginia , 1991 .

[29]  G. P. Allen Sedimentary Processes and Facies in the Gironde Estuary: A Recent Model for Macrotidal Estuarine Systems , 1991 .

[30]  L. D. Wright,et al.  Holocene sequences on an embayed high-energy coast: an evolutionary model , 1980 .

[31]  S. Schumm,et al.  Experimental Study of Channel Patterns , 1972 .

[32]  R. H. Meade Transport and Deposition of Sediments in Estuaries , 1972 .

[33]  Colin D. Woodroffe,et al.  Depositional model of a macrotidal estuary and floodplain, South Alligator River, Northern Australia , 1989 .

[34]  B. Zaitlin,et al.  Wave-Influenced Estuarine Sand Body, Senlac Heavy Oil Pool, Saskatchewan, Canada , 1990 .

[35]  P. Harris,et al.  Bedform distributions and sediment transport paths in the Bristol Channel and Severn Estuary, U.K. , 1984 .

[36]  Luna Bergere Leopold,et al.  Hydraulic geometry of a small tidal estuary , 1963 .

[37]  B. D'anglejan,et al.  Recent Sediments of the St. Lawrence Middle Estuary , 1978 .