in the aftermath of
Hurricane Katrina al rain and high tide in
Darwin,
Northern Territory,
Australia , covering the King Abdullah Street in
Saudi Arabia Areal flooding , a flat-lying area in
Finland. A flood-surrounded house in
Ilmajoki,
South Ostrobothnia. Floods can happen on flat or low-lying areas when water is supplied by rainfall or snowmelt more rapidly than it can either
infiltrate or
run off. The excess accumulates in place, sometimes to hazardous depths. Surface
soil can become saturated, which effectively stops infiltration, where the
water table is shallow, such as a
floodplain, or from intense rain from one or a
series of storms. Infiltration also is slow to negligible through frozen ground, rock,
concrete, paving, or roofs. Areal flooding begins in flat areas like floodplains and in local depressions not connected to a stream channel, because the velocity of
overland flow depends on the surface slope.
Endorheic basins may experience areal flooding during periods when precipitation exceeds evaporation.
River flooding Floods occur in all types of
river and
stream channels, from the smallest
ephemeral streams in humid zones to
normally-dry channels in arid climates to the
world's largest rivers. When overland flow occurs on tilled fields, it can result in a
muddy flood where
sediments are
picked up by run off and carried as suspended matter or
bed load. Localized flooding may be caused or exacerbated by drainage obstructions such as
landslides,
ice,
debris, or
beaver dams. Slow-rising floods most commonly occur in large rivers with large
catchment areas. The increase in flow may be the result of sustained rainfall, rapid snow melt,
monsoons, or
tropical cyclones. However, large rivers may have rapid flooding events in areas with dry climates, since they may have large basins but small river channels, and rainfall can be very intense in smaller areas of those basins. In extremely flat areas, such as the
Red River Valley of the North in
Minnesota,
North Dakota, and
Manitoba, a type of hybrid river/areal flooding can occur, known locally as "overland flooding". This is different from "overland flow" defined as "surface runoff". The Red River Valley is a former glacial lakebed, created by
Lake Agassiz, and over a length of , the river course drops only , for an average slope of about 5 inches per mile (or 8.2 cm per kilometer). In this very large area, spring snowmelt happens at different rates in different places, and if winter snowfall was heavy, a fast snowmelt can push water out of the banks of a tributary river so that it moves overland, to a point further downstream in the river or completely to another streambed. Overland flooding can be devastating because it is unpredictable, it can occur very suddenly with surprising speed, and in such flat land it can run for miles. It is these qualities that set it apart from simple "overland flow". Rapid flooding events, including
flash floods, more often occur on smaller rivers, rivers with steep valleys, rivers that flow for much of their length over impermeable terrain, or normally-dry channels. The cause may be localized
convective precipitation (intense
thunderstorms) or sudden release from an upstream impoundment created behind a
dam, landslide, or
glacier. In one instance, a flash flood killed eight people enjoying the water on a Sunday afternoon at a popular waterfall in a narrow canyon. Without any observed rainfall, the flow rate increased from about in just one minute. Two larger floods occurred at the same site within a week, but no one was at the waterfall on those days. The deadly flood resulted from a thunderstorm over part of the drainage basin, where steep, bare rock slopes are common and the thin soil was already saturated. Flash floods are the most common flood type in normally-dry channels in arid zones, known as
arroyos in the southwest United States and many other names elsewhere. In that setting, the first flood water to arrive is depleted as it wets the sandy stream bed. The leading edge of the flood thus advances more slowly than later and higher flows. As a result, the rising limb of the
hydrograph becomes ever quicker as the flood moves downstream, until the flow rate is so great that the depletion by wetting soil becomes insignificant.
Coastal flooding Coastal areas may be flooded by
storm surges combining with high tides and large wave events at sea, resulting in waves over-topping flood defenses or in severe cases by
tsunami or tropical cyclones. A
storm surge, from either a
tropical cyclone or an
extratropical cyclone, falls within this category. A storm surge is "an additional rise of water generated by a storm, over and above the predicted astronomical tides". Due to the
effects of climate change (e.g.
sea level rise and an increase in
extreme weather events) and an increase in the population living in coastal areas, the damage caused by coastal flood events has intensified and more people are being affected. Flooding in
estuaries is commonly caused by a combination of storm surges caused by
winds and low
barometric pressure and large waves meeting high upstream river flows.
Urban flooding Intentional floods The intentional flooding of land that would otherwise remain dry may take place for agricultural, military or river-management purposes. This is a form of
hydraulic engineering. Agricultural flooding may occur in preparing
paddy fields for the growing of semi-aquatic rice in many countries. Flooding for river management may occur in the form of diverting flood waters in a river at flood stage upstream from areas that are considered more valuable than the areas that are sacrificed in this way. This may be done
ad hoc, or permanently, as in the so-called
overlaten (literally "let-overs"), an intentionally lowered segment in Dutch riparian levees, like the
Beerse Overlaat in the left levee of the
Meuse between the villages of
Gassel and
Linden, North Brabant. Military inundation creates an obstacle in the field that is intended to impede the movement of the enemy. This may be done both for
offensive and
defensive purposes. Furthermore, in so far as the methods used are a form of hydraulic engineering, it may be useful to differentiate between controlled inundations and uncontrolled ones. Examples for controlled inundations include those in the Netherlands under the
Dutch Republic and its
successor states in that area and exemplified in the two
Hollandic Water Lines, the
Stelling van Amsterdam, the
Frisian Water Line, the
IJssel Line, the
Peel-Raam Line, and the
Grebbe line in that country. To count as
controlled, a military inundation has to take the interests of the civilian population into account, by allowing them a timely
evacuation, by making the inundation
reversible, and by making an attempt to minimize the adverse
ecological impact of the inundation. That impact may also be adverse in a
hydrogeological sense if the inundation lasts a long time. Examples for uncontrolled inundations are the
second Siege of Leiden during the first part of the
Eighty Years' War, the
flooding of the Yser plain during the
First World War, and the
Inundation of Walcheren, and the
Inundation of the Wieringermeer during the
Second World War). ==Causes==