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A river is a natural flowing watercourse, usually a freshwater stream, flowing on the Earth's land surface or inside caves towards another waterbody at a lower elevation, such as an ocean, sea, bay, lake, wetland, or another river.

Topography

Sources of rivers

The Continental Divide of the Americas showing the major drainage basins in North America.

Rivers are part of the water cycle, the continuous process by which water moves about Earth.^[1] This means that all water that flows in rivers must ultimately come from precipitation.^[1] The sides of rivers have land that is at a higher elevation than the river itself, and in these areas, water flows downhill into the river.^[2] The headwaters of a river are the smaller streams that feed a river, and make up the river's source.^[2] These streams may be small and flow rapidly down the sides of mountains.^[3] All of the land that is uphill and feeds a river with water in this way is said to be in that river's drainage basin or watershed.^[2] A ridge of higher elevation land is what typically separates drainage basins; water on one side of a ridge will flow into one set of rivers, and water on the other side will flow into another.^[2] One example of this is the Continental Divide of the Americas in the Rocky Mountains. Water on the western side of the divide flows into the Pacific Ocean, whereas water on the other side flows into the Atlantic Ocean.^[2]

This melting toe of the Athabasca Glacier in Jasper National Park, Alberta, Canada will eventually feed water into the ocean.

Not all precipitation flows directly into rivers; some water seeps into underground aquifers.^[1] These in turn can still feed rivers via the water table, the groundwater beneath the surface of the land stored in soil. Water flows into rivers in places where the river's elevation is lower than that of the water table.^[1] This phenomena is why rivers can still flow even during times of drought.^[1] Rivers are also fed by the melting of snow glaciers present in higher elevation regions.^[4] In summer months, higher temperatures melt snow and ice, causing additional water to flow into rivers. Glacier melt can supplement snow melt in times like the late summer, when there may be less snow left to melt, helping to ensure that the rivers downstream of the glaciers have a continuous supply of water.^[4]

The flow of rivers

As rivers flow downstream, they eventually merge together to form larger rivers. A river that feeds into another is a tributary, and the place they meet is a confluence.^[2] Rivers must flow to lower altitudes due to gravity.^[1] The bed of a river is typically within a river alley between hills or mountains. Rivers flowing through an impermeable section of land such as rocks will erode the slopes on the sides of the river.^[5] When a river carves a plateau or a similar high elevation area, a canyon can form, with cliffs on either side of the river.^[6]^[2] A river in a permeable area does not exhibit this behavior, and may even have raised banks due to sediment.^[5] Rivers also change their landscape through their transportation of sediment, also known as alluvium when applied specifically to rivers. This debris comes from erosion performed by the rivers themselves, debris swept into rivers by rainfall, as well as erosion caused by the slow movement of glaciers. The particle size of the debris is gradually sorted by the river, with heavier particles like rocks sinking to the bottom, and finer particles like sand or silt carried further downriver. This sediment may be deposited in river valleys or carried all the way to the sea.^[5]

Rivers rarely will run in a straight direction, instead preferring to bend or meander.^[5] This is because any natural impediment to the flow of the river may cause the current to deflect in a different direction. When this happens, the alluvium carried by the river can build up against this impediment, serving to further redirect the course of the river. The flow is then directed against the opposite bank of the river, which will erode into a more concave shape to accommodate the flow. The bank will still serve to block the flow, causing it to reflect back in the other direction. Thus, a bend in the river is created.^[5]

The Nile in Egypt is known for its fertile floodplains, which flood annually.

Rivers may run through low, flat regions on their way to the sea.^[7] These areas may have floodplains, areas that are periodically flooded when there is a high level of water running through the river. These events may be referred to as "wet seasons' and "dry seasons" when the flooding is predictable due to the climate. The alluvium carried by rivers, laden with minerals, is deposited into the floodplain when the banks spill over, providing new nutrients to the soil, allowing them to support human activity like farming as well as a host of plant and animal life.^[7]^[2]

The terminus

The Lena river delta in Russia is formed from sediment carried by the river.

While rivers may flow into lakes or man-made features such as reservoirs, the water they contain will always tend to flow down towards the ocean.^[1] However, if human activity siphons too much water away from a river for other uses, the riverbed may run dry before reaching the sea.^[1] The outlets mouth of a river can take several forms. Tidal rivers (often part of an estuary) have their levels rise and fall with the tide.^[5] Since the levels of these rivers are often already at or near sea level, the flow of alluvium and the brackish water that flows in these rivers may be either upriver or downriver depending on the time of day.^[5]

Rivers that are not tidal may form deltas that continuously deposit alluvium into the sea from their mouths.^[5] Depending on the activity of waves, the strength of the river, and the strength of the tidal current, the sediment can accumulate to form new land.^[8] When viewed from above, a delta can appear to take the form of several triangular shapes as the river mouth appears to fan out from the original coastline.^[8]

Ecology

Models

River Continuum Concept

The ecosystem of a river includes the life that lives in its water, on its banks, and in the surrounding land.^[9] The width of the channel of a river, its velocity, and how shaded it is by nearby trees. Creatures in a river ecosystem may be divided into a number of roles, based on the River Continuum Concept. "Shredders" are organisms that consume this organic material. The role of a "grazer" or "scraper" organism is to feed on the algae that collects on rocks and plants. "Collectors" consume the detritus of dead organisms. Lastly, predators feed on living things to survive.^[9]

The river can then be modeled by the availability of resources for each creature's role. A shady area with deciduous trees might experience frequent deposits of organic matter in the form of leaves. In this type of ecosystem, collectors and shredders will be most active.^[9] As the river becomes deeper and wider, it may move slower and receive more sunlight. This supports invertebrates and a variety of fish, as well as scrapers feeding on algae.^[10] Further downstream, the river may get most of its energy from organic matter that was already processed upstream by collectors and shredders. Predators may be more active here, including fish that feed on plants, plankton, and other fish.^[10]

Flood Pulse Concept

The flood pulse concept focuses on habitats that flood seasonally, including lakes and marshes. The land that interfaces with a water body is that body's riparian zone. Plants in the riparian zone of a river help stabilize its banks to prevent erosion, filter alluvium deposited by the river on the shore, including processing the nitrogen and other nutrients it contains. Forests in a riparian zone also provide important animal habitats.^[9]

Movement of organisms

The flow of a river can act as a means of transportation for plant and animal species, as well as a barrier. For example, the Amazon River is so wide in parts that the variety of species on either side of its basin are distinct.^[9] Some fish may swim upstream in order to spawn as part of a seasonal migration. Species that travel from the sea in order to breed in freshwater rivers are called anadromous. Salmon are an anadramous fish that may die in the river after spawning, contributing nutrients back tot he river ecosystem.^[9]

Humans and rivers

Transportation

transport

Food

food

Infrastructure

Water wheels and mills

wheels

Dams

Aqueducts

Canals

canals

History

The Sumerian civilization was made possible by the floodplains of the Tigris and Euphrates rivers.

The first civilizations of Earth were born on floodplains between 5,500 and 3,500 years ago.^[9] The fresh water, fertile soil, and transportation provided by rivers helped create the conditions for complex societies to emerge. Three such civilizations ere the Sumerians in the Tigris–Euphrates river system, the Ancient Egyptian civilization in the Nile, and the Indus Valley Civilization on the Indus River.^[9] The desert climates of the surrounding areas made these societies especially reliant on rivers for survival, leading to people clustering in these areas to form the first cities. It is also thought that these civilizations were the first to organize the irrigation of desert environments for growing food. Growing food at scale allowed people to specialize in other roles, form hierarchies, and organize themselves in new ways, leading to the birth of civilization.^[9]

In pre-industrial society, rivers were a source of transportation and abundant resources.^[9] Many civilizations depended on what resources were local to them to survive. Shipping of commodities, especially the floating of wood on rivers to transport it, was especially important. Rivers also were an important source of drinking water. For civilizations built around rivers, fish were an important part of the diet of humans. Other animals like frogs, mussels, and beavers could provide food and valuable goods such as fur.^[9]

Humans have been building infrastructure to make use of rivers for thousands of years.^[9] The Sadd el-Kafara dam near Cairo, Egypt is an ancient dam built on the Nile 4,500 years ago. The Ancient Roman civilization made use of aqueducts to transport water to urban areas. Spanish Muslims used mills and water wheels beginning in the seventh century. Between 130 and 1492, larger dams were built in Japan, Afghanistan, and India, including 20 dams higher than 15 metres (49 ft).^[9]

Rivers became more industrialized with the growth of technology and the human population.^[9] As fish and water could be brought from elsewhere, and goods and people could be transported via railways, pre-industrial river uses diminished in favor of more complex uses. This meant that the local ecosystems of rivers needed less protection, as humans became less reliant on their continued flourishing. River engineering began to develop projects that enabled industrial hydropower, canals for the more efficient movement of goods, as well as projects for flood prevention.^[9]

River projects began to be used to irrigate agricultural land, and power larger watermills. Flood prevention projects switched from passive infrastructure to active infrastructure like levees.^[9]

Politics of rivers

As a natural barrier, rivers are often used as a border between countries, cities, and other territories.^[9] For example, the Lamari River in New Guinea separates the Angu and the Fore people in New Guinea. The two cultures speak different languages, and rarely mix. The traditional northern border of the Roman Empire was the Danube, a river that today forms the border of Hungary and Slovakia. Since the flow of a river is rarely static, the exact location of a river border may be called into question by countries when it is convenient. The Rio Grande between the United States and Mexico is regulated by the International Boundary and Water Commission in order to manage the right to fresh water from the river, as well as mark the exact location of the border.^[9]

Up to 60% of fresh water that is used by countries comes from rivers that cross international borders.^[9] This can cause disputes between countries that live upstream and downstream of the river. A country that is downstream of another may object to the upstream country diverting too much water for agricultural uses, pollution, as well as the creation of dams that change the river's flow characteristics. Egypt, for example, has an agreement with Sudan requiring a specific minimum volume of water to pass into the Nile yearly over the Aswan Dam, to maintain both countries access to water.^[9]

Religion and mythology

Noah's Ark carried the survivors of the flood in the flood myth of the Old Testament.

The importance of rivers throughout the human history has given them an association with life and fertility. They have also become associated with the reverse, death and destruction, especially through floods. This power has caused rivers to have a central role in religion, ritual, and mythology.^[9]

In Greek mythology, the underworld is bordered by several rivers.^[9] Ancient Greeks believed that the soul of those who perished had to be borne across the River Styx on a boat by Charon in exchange for money. Souls that were judged to be good were admitted to Elysium and permitted to drink water from the River Lethe in order to forget their previous life.^[9] Rivers also appear in descriptions of paradise in Abrahamic religions, beginning with the story of Genesis. A river beginning in the Garden of Eden waters the garden and then splits into four rivers that flow to provide water to the world. These rivers include the Tigris and Euphrates, and two rivers that are possibly apocryphal but may refer to the Nile and the Ganges.^[9] The Quran describes these four rivers as flowing with water, milk, wine, and honey respectively. The Rigveda, a sacred text in Hinduism, describes the Sarasvati river as being the personification of a goddess of the same name, though there is scholarly debate as to which modern-day river (or dry riverbed) the book describes.^[9]

The book of Genesis also contains a story of a great flood.^[9] Similar myths are present in the Epic of Gilgamesh, Sumerian mythology, and in other cultures. In Genesis, the flood's role was to cleanse Earth of the wrongdoing of humanity. The act of water working to cleanse humans in a ritualistic sense has been compared to the Christian ritual of baptism, famously the Baptism of Jesus in the Jordan River. Floods also appear in Norse mythology, where the world is said to emerge from a void that eleven rivers flowed into. Aboriginal Australian religion and Mesoamerican mythology also have stories of floods, some of which contain no survivors, unlike the Abrahamic flood.^[9]

The ghats along the Ganges river are the steps that allow people to bathe and release the ashes of the dead.

Along with mythological rivers, religions have also cared for specific rivers as sacred.^[9] The Ancient Celtic religion saw rivers as goddesses. The Nile had a number of gods attached to it. The tears of the goddess Isis were said to be the cause of the river's yearly flooding, itself personified by the goddess Hapi. Many African religions regard certain rivers as the originator of life. In Yoruba religion, Yemọja rules over the Ogun River in modern-day Nigeria and is responsible for creating all children and fish.^[9] Some sacred rivers have religious prohibitions attached to them, such as not being allowed to drink from them or ride in a boat along certain stretches. In these religions, such as that of the Altai in Russia, the river is considered a living being that must be afforded respect.^[9]

Rivers are some of the most sacred places in Hinduism.^[9] There is archeological evidence that mass ritual bathing in rivers at least 5,000 years ago in the Indus river valley. While most rivers are revered in India, the one that is most sacred is the Ganges. The river has a central role in various Hindu myths, and its water is said to have properties of healing as well as absolution from sins. Hindus believe that when the cremated remains of a person is released into the Ganges, their soul can be released. The Ganges is also the site of several pilgrimages, including Kumbh Mela, which draws tens of millions of people to the river every twelve years.^[9]

References

^ ^a ^b ^c ^d ^e ^f ^g ^h "Rivers, Streams, and Creeks | U.S. Geological Survey". www.usgs.gov. June 6, 2018. Retrieved 2024-07-14.
^ ^a ^b ^c ^d ^e ^f ^g ^h "Rivers and the Landscape | U.S. Geological Survey". www.usgs.gov. June 6, 2018. Retrieved 2024-07-14.
^ "River Systems and Fluvial Landforms - Geology (U.S. National Park Service)". www.nps.gov. Retrieved 2024-07-14.
^ ^a ^b "Why Glaciers Matter". National Snow and Ice Data Center. Retrieved 2024-07-14.
^ ^a ^b ^c ^d ^e ^f ^g ^h Vernon-Harcourt, Leveson Francis (1896). Rivers and Canals: Rivers. Clarendon Press. pp. 14–19.
^ Canyon, Mailing Address: PO Box 129 Grand; Us, AZ 86023 Phone: 928-638-7888 Contact. "Geology - Grand Canyon National Park (U.S. National Park Service)". www.nps.gov. Retrieved 2024-07-14.{{cite web}}: CS1 maint: numeric names: authors list (link)
^ ^a ^b "Floodplains — All About Watersheds". allaboutwatersheds.org. Retrieved 2024-07-14.
^ ^a ^b "Delta Landforms (U.S. National Park Service)". www.nps.gov. Retrieved 2024-07-14.
^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l ^m ⁿ ^o ^p ^q ^r ^s ^t ^u ^v ^w ^x ^y ^z ^aa ^ab ^ac ^ad ^ae ^af Middleton, Nick (2012-04-26). Rivers: A Very Short Introduction. New York City: Oxford University Press (published 2012). pp. 25–27. ISBN 978-0-19-958867-1.
^ ^a ^b "River Continuum Concept". Minnesota Department of Natural Resources. Retrieved 2024-07-15.

[:0-1] ^ ^a ^b ^c ^d ^e ^f ^g ^h "Rivers, Streams, and Creeks | U.S. Geological Survey". www.usgs.gov. June 6, 2018. Retrieved 2024-07-14.

[:1-2] ^ ^a ^b ^c ^d ^e ^f ^g ^h "Rivers and the Landscape | U.S. Geological Survey". www.usgs.gov. June 6, 2018. Retrieved 2024-07-14.

[3] "River Systems and Fluvial Landforms - Geology (U.S. National Park Service)". www.nps.gov. Retrieved 2024-07-14.

[:2-4] "Why Glaciers Matter". National Snow and Ice Data Center. Retrieved 2024-07-14.

[:3-5] ^ ^a ^b ^c ^d ^e ^f ^g ^h Vernon-Harcourt, Leveson Francis (1896). Rivers and Canals: Rivers. Clarendon Press. pp. 14–19.

[6] Canyon, Mailing Address: PO Box 129 Grand; Us, AZ 86023 Phone: 928-638-7888 Contact. "Geology - Grand Canyon National Park (U.S. National Park Service)". www.nps.gov. Retrieved 2024-07-14.{{cite web}}: CS1 maint: numeric names: authors list (link)

[:4-7] "Floodplains — All About Watersheds". allaboutwatersheds.org. Retrieved 2024-07-14.

[:5-8] "Delta Landforms (U.S. National Park Service)". www.nps.gov. Retrieved 2024-07-14.

[:6-9] ^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l ^m ⁿ ^o ^p ^q ^r ^s ^t ^u ^v ^w ^x ^y ^z ^aa ^ab ^ac ^ad ^ae ^af Middleton, Nick (2012-04-26). Rivers: A Very Short Introduction. New York City: Oxford University Press (published 2012). pp. 25–27. ISBN 978-0-19-958867-1.

[:7-10] "River Continuum Concept". Minnesota Department of Natural Resources. Retrieved 2024-07-15.

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