, 4600 yrs
BP, 3500 yrs BP, 2800 yrs BP, 1000 yrs BP, 300 yrs BP, 500 yrs BP,× current Deltas are typically classified according to the main control on deposition, which is a combination of river,
wave, and
tidal processes, depending on the strength of each. The other two factors that play a major role are landscape position and the grain size distribution of the source sediment entering the delta from the river.
Fluvial-dominated deltas Fluvial-dominated deltas are found in areas of low tidal range and low wave energy. Where the river water is nearly equal in density to the basin water, the delta is characterized by
homopycnal flow, in which the river water rapidly mixes with basin water and abruptly dumps most of its sediment load. Where the river water has a higher density than basin water, typically from a heavy load of sediment, the delta is characterized by
hyperpycnal flow in which the river water hugs the basin bottom as a
density current that deposits its sediments as
turbidites. When the river water is less dense than the basin water, as is typical of river deltas on an ocean coastline, the delta is characterized by
hypopycnal flow in which the river water is slow to mix with the denser basin water and spreads out as a surface fan. This allows fine sediments to be carried a considerable distance before settling out of suspension. Beds in a hypopycnal delta dip at a very shallow angle, around 1 degree. Fluvial-dominated deltas are further distinguished by the relative importance of the inertia of rapidly flowing water, the importance of turbulent bed friction beyond the river mouth, and
buoyancy. Outflow dominated by
inertia tends to form Gilbert-type deltas. Outflow dominated by turbulent friction is prone to channel bifurcation, while buoyancy-dominated outflow produces long distributaries with narrow subaqueous natural levees and few channel bifurcations. The modern Mississippi River delta is a good example of a fluvial-dominated delta whose outflow is buoyancy-dominated. Channel abandonment has been frequent, with seven distinct channels active over the last 5000 years. Other fluvial-dominated deltas include the Mackenzie delta and the Alta delta.
Gilbert deltas A Gilbert delta (named after
Grove Karl Gilbert) is a type of fluvial-dominated delta formed from coarse sediments, as opposed to gently sloping muddy deltas such as that of the Mississippi. For example, a mountain river depositing sediment into a freshwater lake would form this kind of delta. It is commonly a result of homopycnal flow. Such deltas are characterized by a tripartite structure of topset, foreset, and bottomset beds. River water entering the lake rapidly deposits its coarser sediments on the submerged face of the delta, forming steeping dipping foreset beds. The finer sediments are deposited on the lake bottom beyond this steep slope as more gently dipping bottomset beds. Behind the delta front, braided channels deposit the gently dipping beds of the topset on the delta plain. While some authors describe both lacustrine and marine locations of Gilbert deltas, Elsewhere, similar structures occur, for example, at the mouths of several creeks that flow into
Okanagan Lake in
British Columbia and form prominent
peninsulas at
Naramata,
Summerland, and
Peachland.
Wave-dominated deltas In wave-dominated deltas, wave-driven sediment transport controls the shape of the delta, and much of the sediment emanating from the river mouth is deflected along the coastline. in
India and
Bangladesh is the largest delta in the world, and one of the most fertile regions in the world.
Tide-dominated deltas Erosion is also an important control in tide-dominated deltas, such as the
Ganges Delta, which may be mainly submarine, with prominent
sandbars and ridges. This tends to produce a "dendritic" structure. Tidal deltas behave differently from river-dominated and wave-dominated deltas, which tend to have a few main distributaries. Once a wave-dominated or river-dominated distributary silts up, it is abandoned, and a new channel forms elsewhere. In a tidal delta, new distributaries are formed during times when there is a lot of water around – such as floods or
storm surges. These distributaries slowly silt up at a more or less constant rate until they fizzle out. is a sedimentary deposit formed at the boundary between an upland stream and an estuary, in the region known as the "subestuary". Drowned coastal river valleys that were inundated by rising sea levels during the late
Pleistocene and subsequent
Holocene tend to have dendritic estuaries with many feeder tributaries. Each tributary mimics this salinity gradient from its brackish junction with the mainstem
estuary up to the fresh stream feeding the head of tidal propagation. As a result, the tributaries are considered to be "subestuaries". The origin and evolution of a tidal freshwater delta involves processes that are typical of all deltas The combination of processes that create a tidal freshwater delta result in a distinct morphology and unique environmental characteristics. Many tidal freshwater deltas that exist today are directly caused by the onset of or changes in historical land use, especially
deforestation,
intensive agriculture, and
urbanization. These ideas are well illustrated by the many tidal freshwater deltas prograding into
Chesapeake Bay along the east coastline of the United States. Research has demonstrated that the accumulating sediments in this estuary derive from post-European settlement deforestation, agriculture, and urban development.
Estuaries Other rivers, particularly those on coasts with significant
tidal range, do not form a delta but enter into the sea in the form of an
estuary. Notable examples include the
Gulf of Saint Lawrence and the
Tagus estuary.
Inland deltas In rare cases, the river delta is located inside a large valley and is called an
inverted river delta. Sometimes a river divides into multiple branches in an inland area, only to rejoin and continue to the sea. Such an area is called an
inland delta, and often occurs on former lake beds. The term was first coined by
Alexander von Humboldt for the middle reaches of the
Orinoco River, which he visited in 1800. Other prominent examples include the
Inner Niger Delta,
Peace–Athabasca Delta, the
Sacramento–San Joaquin River Delta, and the
Sistan delta of Iran. The
Danube has one in the valley on the Slovak–Hungarian border between
Bratislava and
Iža. In some cases, a river flowing into a flat arid area splits into channels that evaporate as it progresses into the desert. The
Okavango Delta in
Botswana is one example. See
endorheic basin.
Mega deltas The generic term
mega delta can be used to describe very large Asian river deltas, such as the
Yangtze,
Pearl,
Red,
Mekong,
Irrawaddy,
Ganges-Brahmaputra, and
Indus. == Sedimentary structure ==