Difference between revisions of "River" - New World Encyclopedia

From New World Encyclopedia
({{Paid}})
 
(13 intermediate revisions by 6 users not shown)
Line 1: Line 1:
{{Paid}}{{Claimed}}{{Contracted}}{{Images OK}}{{Submitted}}{{Approved}}
+
{{Copyedited}}{{Paid}}{{Images OK}}{{Submitted}}{{Approved}}
[[Image:Victoria5.jpg|thumb|300px|right|[[Zambezi]] and [[Victoria Falls]] ([[Zambia]]/[[Zimbabwe]], Africa).]]
+
[[Image:Victoria5.jpg|thumb|250px|right|[[Zambezi River]] at [[Victoria Falls]] ([[Zambia]]/[[Zimbabwe]], Africa)]]
[[Image:Nevezis3.jpg||thumb|250px|[[Nevėžis River]] in [[Lithuania]].]]
 
[[Image:River_gambia_Niokolokoba_National_Park.gif|thumb|250px|River Gambia flowing through Niokolokoba National Park.]]
 
 
 
A '''river''' is a natural [[waterway]] that conveys water derived from [[precipitation]] from higher ground to lower ground. Most commonly rivers flow on the surface but there are many examples of underground rivers where the flow is contained within chambers, caves, or caverns. In some areas where the rainfall is highly variable, the rivers may carry water only occasionally, remaining dry for years at a time.
 
  
 +
A '''river''' is a natural [[waterway]] that conveys water derived from [[precipitation]] from higher ground to lower levels. Most commonly, rivers flow on the surface of the land, but there are also many examples of underground rivers, where the flow is contained within chambers, [[cave]]s, or [[cavern]]s. In some areas where the rainfall is highly variable, the rivers may carry water only occasionally, remaining dry for years at a time. Rivers sculpt the [[continent]]s. Many early [[civilization]]s began near the banks of rivers.
 +
{{toc}}
 +
[[Image:River_gambia_Niokolokoba_National_Park.gif|thumb|250px|River Gambia flowing through Niokolokoba National Park]]
 
==Origins of river water==
 
==Origins of river water==
 
+
A river may have its [[Source_(river_or_stream)|source]] in a [[spring (hydrosphere)|spring]], [[lake]], from damp, [[bog|boggy]] places where the [[soil]] is waterlogged, from [[glacier|glacial]] meltwater, or simply from [[rain]] flowing off impermeable [[rock (geology)|rock]] or man-made surfaces. Almost all rivers are joined by other rivers and streams termed [[tributary|tributaries]], the highest of which are known as headwaters. Water may also be recruited to a river from groundwater sources. Throughout the course of the river, the total volume transported downstream will often be a combination of the free water flow together with a substantial contribution flowing through subsurface rocks and gravels that underlie the river and its floodplain. For many rivers in large valleys, this unseen component of flow may greatly exceed the visible flow.
A river may have its [[Source_(river_or_stream)|source]] in a [[spring (hydrosphere)|spring]], [[lake]], from damp, [[bog|boggy]] places where the [[soil]] is [[waterlogged]], from [[glacier|glacial]] [[meltwater]], or simply from rain flowing off impermeable rock or man-made surfaces. Almost all rivers are joined by other rivers and streams termed [[tributary|tributaries]] the highest of which are known as [[source (river or stream)|headwaters]]. Water may also be recruited to a river from groundwater sources. Throughout the course of the river, the total volume transported downstream will often be a combination of the free water flow together with a substantial contribution flowing through subsurface rocks and gravels that underly the river and its floodplain. For many rivers in large valleys, this unseen component of flow may greatly exceed the visible flow.
 
  
 
From their source, all rivers flow downhill, typically terminating in the [[sea]] or in a lake. In [[arid]] areas rivers sometimes end by losing water to [[evaporation]]. River flow may also be lost by percolation into dry, [[porous]] material such as [[sand]], soil, or into [[pervious]] rock. Excessive abstraction of water for use in industry, irrigation etc can also cause a river to dry before reaching a lake or the sea.  
 
From their source, all rivers flow downhill, typically terminating in the [[sea]] or in a lake. In [[arid]] areas rivers sometimes end by losing water to [[evaporation]]. River flow may also be lost by percolation into dry, [[porous]] material such as [[sand]], soil, or into [[pervious]] rock. Excessive abstraction of water for use in industry, irrigation etc can also cause a river to dry before reaching a lake or the sea.  
Line 17: Line 15:
  
 
==Topography==
 
==Topography==
[[Image:Tambo river.jpg|thumb|A river flowing over a slight change in topography.]]
+
[[Image:Tambo river.jpg|thumb|250px|A river flowing over a slight change in topography]]
[[Image:A21a.JPG|thumb|right|[[Bridge]]s are a common way of crossing rivers, as seen here at the [[Buller River]], [[West Coast, New Zealand|West Coast]], [[New Zealand]].]]
 
  
A river's water is generally confined to a [[Channel (geography)|channel]], made up of a [[stream bed]] between [[stream bank|bank]]s. In larger rivers there is also a wider flood-plain shaped by flood-waters overtopping the channel. Flood plains may be very wide in relation to the size of the river channel. This distinction between river channel and floo-plain can be blurred especially in urban areas where the flood-plain of a river channel can become greatly developed by housing and industry.  
+
A river's water is generally confined to a [[Channel (geography)|channel]], made up of a stream bed between banks. In larger rivers there is also a wider floodplain shaped by floodwaters overtopping the channel. Floodplains may be very wide in relation to the size of the river channel. This distinction between river channel and floodplain can be blurred especially in urban areas where the floodplain of a river channel can become greatly developed by housing and industry.
  
The river channel itself may contain a single stream of water but many rivers, if left unconstrained by human activity, will create several streams of water within a channel producing a braided river. Braided rivers can still be commonly seen in South Island New Zealand and on some of the larger river Deltas.
+
The river channel itself may contain a single stream of water but many rivers, if left unconstrained by human activity, will create several streams of water within a channel producing a braided river. Braided rivers can still be commonly seen in South Island New Zealand and on some of the larger river deltas.
  
A river flowing in its channel is a source of considerable energy which acts on the river channel to change its shape and form. In mountainous torrential zones this can be seen as erosion channels through hard rocks and the creation of sands and gravels from the destruction of larger rocks. In U shaped glaciated valleys, the subsequent river valley can often easily be idenitified by the V shaped channel that it has carved. In the middle reaches where the river may flow over flatter land, loops ([[meander]]s) may form through [[erosion|eroding]] of the river banks and deposition on the inside of bends. Sometimes the river will cut off a loop, shortening the channel and forming an [[oxbow lake]]. Rivers that carry large amounts of [[sediment]] may develop conspicuous [[river delta|delta]]s at their mouths, if conditions permit. Rivers, whose mouths are in saline [[tide|tidal]] waters, may form [[estuary|estuaries]]. River mouths may also be [[fjord]]s or [[ria]]s.
+
A river flowing in its channel is a source of considerable energy which acts on the river channel to change its shape and form. In mountainous torrential zones, this can be seen in the form of erosion channels through hard rocks and the creation of sands and gravels from the destruction of larger rocks. In U-shaped glaciated valleys, the subsequent river valley can often easily be identified by the V-shaped channel that it has carved. In the middle reaches, where the river may flow over flatter land, loops (meanders) may form through [[erosion|eroding]] of the river banks and deposition on the inside of bends. Sometimes the river will cut off a loop, shortening the channel and forming an oxbow lake. Rivers that carry large amounts of [[sediment]] may develop conspicuous [[river delta|delta]]s at their mouths, if conditions permit. Rivers, whose mouths are in saline [[tide|tidal]] waters, may form [[estuary|estuaries]]. River mouths may also be [[fjord]]s or [[ria]]s.
 
   
 
   
Although the following classes are a useful simplified way to visualize rivers, it is important to recognize there are other factors at work here. Gradient is controlled largely by tectonics, but discharge is controlled largely by climate and sediment load is controlled by various factors including climate, geology in the headwaters, and the stream gradient.  
+
Although the following classes are a useful simplified way to visualize rivers, it is important to recognize there are other factors at work here. Gradient is controlled largely by tectonics, but discharge is controlled largely by climate and sediment load is controlled by various factors including climate, geology in the headwaters, and the stream gradient.  
  
*'''Youthful river - '''a river with a steep gradient that has very few tributaries and flows quickly. Its channels erode deeper rather than wider. (Ex: [[Brazos River]], [[Trinity River (California)|Trinity River]], [[Ebro River]])
+
*'''Youthful river - '''a river with a steep gradient that has very few tributaries and flows quickly. Its channels erode deeper rather than wider. Examples include the [[Brazos River]], [[Trinity River (California)|Trinity River]] and [[Ebro River]].
*'''Mature river - '''a river with a gradient that is less steep than those of youthful rivers and flows more slowly than youthful rivers. A mature river is fed by many tributaries and has more discharge than a youthful river. Its channels erode wider rather than deeper. (Ex: [[Mississippi River]], [[Ohio River]], [[Thames River]])
+
*'''Mature river - '''a river with a gradient that is less steep than those of youthful rivers and flows more slowly than youthful rivers. A mature river is fed by many tributaries and has more discharge than a youthful river. Its channels erode wider rather than deeper. Mature rivers are typified by the [[Mississippi River]], [[Ohio River]], and England’s [[Thames River]].
*'''Old river - '''a river with a low gradient and low erosive energy. Old rivers are characterized by flood plains. (Ex: [[Tigris River]], [[Euphrates River]], [[Indus River]])
+
*'''Old river - '''a river with a low gradient and low erosive energy. Old rivers are characterized by flood plains. Examples of old rivers include the [[Tigris River]], [[Euphrates River]] in the Middle East and the [[Indus River]].
*'''Rejuvenated river - '''a river with a gradient that is raised by [[tectonic]] uplift.  
+
*'''Rejuvenated river - '''a river with a gradient that is raised by [[plate tectonics|tectonic]] uplift.
 
 
[[Image:ReichenbachBegin2.jpg|thumb|The beginning of a mountain river (Reichenbach in Grosse Scheidegg).]]
 
[[Image:ReichenbachIce3.jpg|thumb|The Reichenbach river emerges from the melting ice.]]
 
  
 
==Flooding==
 
==Flooding==
 
+
[[Image:ReichenbachBegin2.jpg|thumb|250px|The beginning of a mountain river (Reichenbach in Grosse Scheidegg)]]
 +
[[Image:ReichenbachIce3.jpg|thumb|250px|The Reichenbach emerges from the melting ice]]
 
[[Flood]]ing is a natural part of a river's cycles. The majority of the erosion of river channels and the erosion and deposition on the associated [[floodplain]]s occur during flood stage. Human activity, however, has upset the natural way flooding occurs by walling off rivers, straightening their courses and by draining of natural [[wetland]]s.
 
[[Flood]]ing is a natural part of a river's cycles. The majority of the erosion of river channels and the erosion and deposition on the associated [[floodplain]]s occur during flood stage. Human activity, however, has upset the natural way flooding occurs by walling off rivers, straightening their courses and by draining of natural [[wetland]]s.
  
 
==River ecosystems==
 
==River ecosystems==
{{main|Aquatic ecosystem}}
 
  
The flora and fauna of rivers have developed to utilise the very wide range of aquatic habitats available, from torrential [[waterfall]]s to lowland mires. Although many organisms restrict themselves to the freshwater of rivers, some, such as [[salmon]], spend different stages of their lives in rivers and the sea.
+
The flora and fauna of rivers have developed to utilize the very wide range of aquatic habitats available, from torrential [[waterfall]]s to lowland mires. Although many organisms restrict themselves to the freshwater of rivers, some, such as [[salmon]], spend different stages of their lives in rivers and the sea.
  
 
==Human uses of rivers==
 
==Human uses of rivers==
  
Rivers have been useful for human existence since the dawn of civilization. They have served as sources of water and food, means of transport, lines of defense, sources of power to drive machinery, and waste disposal sites. Even today, many major cities are situated near rivers.
+
Rivers have been useful for human existence since the dawn of [[civilization]]. They have served as sources of [[water]] and [[food]], means of [[transport]], lines of defense, sources of [[electric power]] to drive machinery, and waste disposal sites. Even today, many major [[city|cities]] are situated near rivers.
  
In addition, rocks and gravel generated and moved by rivers have been useful for construction projects. In recent generations, the beauty of rivers and their surrounding habitat has contributed greatly to local economies by attracting income from tourism.
+
In addition, rocks and gravel generated and moved by rivers have been useful for construction projects. In recent generations, the beauty of rivers and their surrounding habitat has contributed greatly to local economies by attracting income from [[tourism]].  
 
+
In upland rivers, one often observes [[waterfall]]s and whitewater [[rapid]]s. Waterfalls are sometimes used as sources of energy, by way of watermills and [[hydroelectric power|hydroelectric plants]], and rapids are often used for recreational purposes.
In upland rivers, one often observes [[waterfall]]s and [[whitewater]] [[rapid]]s. Waterfalls are sometimes used as sources of energy, by way of [[watermill]]s and [[hydroelectric plant]]s, and rapids are often used for recreational purposes.
 
  
 
===Management===
 
===Management===
  
Rivers are often managed or controlled to make them more useful and less disruptive to human activity.
+
Rivers are often managed or controlled to make them more useful and less disruptive to human activity.
 
*Dams (see above) or [[weir]]s may be built to control the flow, store water, or extract energy.
 
*Dams (see above) or [[weir]]s may be built to control the flow, store water, or extract energy.
 
*[[Levee]]s may be built to prevent run-off of excess river water in times of flood.
 
*[[Levee]]s may be built to prevent run-off of excess river water in times of flood.
Line 65: Line 58:
 
== Geopolitical boundaries ==
 
== Geopolitical boundaries ==
  
Rivers have been important historically in determining political boundaries. For example, the [[Danube]] was a longstanding border of the [[Roman Empire]], and today forms most of the border between [[Bulgaria]] and [[Romania]]. The Mississippi in North America, and the Rhine in Europe, are major east-west boundaries in those continents. The [[Orange River]] forms the boundary between various provinces and countries along its route in Africa.
+
Rivers have been important historically in determining political boundaries. For example, the [[Danube River|Danube]] was a longstanding border of the [[Roman Empire]], and today forms most of the border between [[Bulgaria]] and [[Romania]]. The Mississippi in North America, and the [[Rhine River|Rhine]] in Europe, are major east-west boundaries in those continents. The [[Orange River]] forms the boundary between various provinces and countries along its route in Africa.
  
 
== Direction of flow ==
 
== Direction of flow ==
 +
A misconception, particularly amongst schoolchildren and college students in North America, is that most&mdash;or even all&mdash;rivers flow from north to south.<ref>Bill Weiler, [http://amasci.com/miscon/opphys.html Operation Physics: Children's Misconceptions about Science,] American Institute of Physics (September 1998). Retrieved July 31, 2017.</ref><ref>William C. Philips, [http://k12s.phast.umass.edu/~nasa/misconceptions.html Earth Science Misconceptions.] Retrieved July 31, 2017.</ref> Rivers in fact flow downhill irrespective of direction and is often a complex meandering path involving all directions of the compass.<ref>Matt Rosenberg, [https://www.thoughtco.com/rivers-flowing-north-1435099 “Rivers Flowing North,”] ThoughtCo. Retrieved July 31, 2017.</ref><ref>Nezette Rydell, [http://www.madsci.org/posts/archives/mar97/858609276.Es.r.html Re: What determines the direction of river flow? Elevation, Topography, Gravity??] MadSci Network: Earth Sciences, Washington University Medical School. Retrieved July 31, 2017.</ref>
  
A misconception, particularly amongst schoolchildren and college students in North America,<ref>{{cite web|title=Children's Misconceptions about Science|publisher=Operation Physics, American Institute of Physics|date=September 1998|url=http://amasci.com/miscon/opphys.html}}</ref><ref>{{cite web|title=Earth Science Misconceptions|author=William C. Philips|date=February 1991|url=http://k12s.phast.umass.edu/~nasa/misconceptions.html}}</ref> is that most, or even all, rivers flow from north to south. Rivers in fact flow downhill irrespective of  direction and is often a complex [[meander]]ing path involving all directions of the compass.<ref>{{cite web|author=Matt Rosenberg|title=Do All Rivers Flow South?|date=2006-06-08|url=http://geography.about.com/b/a/257582.htm}}</ref><ref>{{cite web|title=Rivers Flowing North: Rivers Only Flow Downhill; Rivers Do Not Prefer to Flow South|author=Matt Rosenberg|url=http://geography.about.com/od/learnabouttheearth/a/northrivers.htm}}</ref><ref>{{cite web|title=Re: What determines the direction of river flow? Elevation, Topography,Gravity??|work=Earth Sciences|author=Nezette Rydell|date=1997-03-16|url=http://www.madsci.org/posts/archives/mar97/858609276.Es.r.html}}</ref>
+
Studying the flows of rivers is one aspect of [[hydrology]].<ref>Cristi Cave, [http://chamisa.freeshell.org/flow.htm How a River Flows,] Stream Biology and Ecology. Retrieved July 31, 2017.</ref>
 
 
Studying the flows of rivers is one aspect of [[hydrology]].<ref>{{cite web|title=How a River Flows|url=http://chamisa.freeshell.org/flow.htm|author=Cristi Cave|work=Stream Biology and Ecology}}</ref>
 
 
 
==River lists==
 
===The world's ten longest rivers===
 
[[Image:Amazon near Manaus.jpg|thumb|250px|The [[Amazon River]] near [[Manaus]], [[Brazil]].]]
 
 
 
It is difficult to measure the length of a river, the more precise the measurement, the longer the river will seem. Also, it is difficult to determine where a river begins or ends, as very often, upstream rivers are formed by seasonal streams, swamps, or changing lakes.
 
 
 
Below is a list of the world's ten longest rivers. The lengths shown (in kilometers, or km) are average measurements.
 
 
 
# [[Nile]] (6,690 km)
 
# [[Amazon River|Amazon]] (6,452 km)
 
# [[Mississippi River|Mississippi]]-[[Missouri River|Missouri]] (6,270 km)[http://www.infoplease.com/ce6/us/A0833425.html]
 
# [[Yangtze River|Yangtze]] (Chang Jiang) (6,245 km)[http://www.infoplease.com/ce6/world/A0811329.html]
 
# [[Yenisey River|Yenisey]]-[[Angara River|Angara]] (5,550 km)
 
# [[Huang He]] (Yellow) (5,464 km)
 
# [[Ob River|Ob]]-[[Irtysh River|Irtysh]] (5,410 km)
 
# [[Amur]] (4,410 km)
 
# [[Congo River|Congo]] (4,380 km)
 
# [[Lena]] (4,260 km)
 
  
===Well-known rivers (in alphabetic order)===
+
== Well-known Rivers==
 +
(Listed in alphabetical order)
  
* The '''[[Amazon River]]''', the largest river in the world (in terms of volume and water cubic metres/second)
+
* The '''[[Amazon River]]''', the largest river in the world (in terms of volume and water cubic meters/second)
* The '''[[American River]]''', the site of [[Sutter's Mill]], a place in the USA
 
 
* '''[[Amu Darya]]''', the longest river in central [[Asia]]
 
* '''[[Amu Darya]]''', the longest river in central [[Asia]]
 
* The '''[[Amur]]''', the principal river of eastern [[Siberia]] and the border between Russia and China
 
* The '''[[Amur]]''', the principal river of eastern [[Siberia]] and the border between Russia and China
* The '''[[Arkansas River]]''', a major tributary of the [[Mississippi River]]
 
 
* The '''[[Arno River|Arno]]''', the river that runs through [[Florence]]
 
* The '''[[Arno River|Arno]]''', the river that runs through [[Florence]]
 
* The '''[[Shatt al-Arab|Arvandrud (Shatt al-Arab)]]''', the river that borders [[Iran]] and [[Iraq]]
 
* The '''[[Shatt al-Arab|Arvandrud (Shatt al-Arab)]]''', the river that borders [[Iran]] and [[Iraq]]
Line 106: Line 78:
 
* The '''[[Colorado River (Argentina)|Colorado River]]''' (in [[Argentina]])
 
* The '''[[Colorado River (Argentina)|Colorado River]]''' (in [[Argentina]])
 
* The '''[[Colorado River (U.S.)|Colorado River]]''' (in the [[United States]]), the principal river of the [[American Southwest]]
 
* The '''[[Colorado River (U.S.)|Colorado River]]''' (in the [[United States]]), the principal river of the [[American Southwest]]
* The '''[[Columbia River]]''', the principal river of the [[Pacific Northwest]]
+
* The '''[[Columbia River]]''', the principal river of the [[Pacific Northwest]] United States
 
* The '''[[Congo River|Congo]]''', the principal river of central [[Africa]]
 
* The '''[[Congo River|Congo]]''', the principal river of central [[Africa]]
* The '''[[Danube]]''', the principal river of central and southeastern [[Europe]]
+
* The '''[[Danube River|Danube]]''', the principal river of central and southeastern [[Europe]]
 
* '''[[Río de la Plata]]''', the widest river in the world
 
* '''[[Río de la Plata]]''', the widest river in the world
 
* The '''[[Dnieper River]]''', one of the main rivers of [[Russia]], [[Belarus]] and [[Ukraine]].
 
* The '''[[Dnieper River]]''', one of the main rivers of [[Russia]], [[Belarus]] and [[Ukraine]].
Line 118: Line 90:
 
* The '''[[Helmand River]]''', the principal river of [[Afghanistan]]
 
* The '''[[Helmand River]]''', the principal river of [[Afghanistan]]
 
* The '''[[Huang He]]''' (or Yellow River), one of the principal rivers of [[China]]
 
* The '''[[Huang He]]''' (or Yellow River), one of the principal rivers of [[China]]
* The '''[[Hudson River]]''', the principal river of [[New York]], USA
+
* The '''[[Hudson River]]''', the principal river of [[New York]] State
 
* The '''[[Indus River]]''', the principal river of [[Pakistan]]
 
* The '''[[Indus River]]''', the principal river of [[Pakistan]]
 
* The '''[[James River (Virginia)|James River]]'''. the principal river of [[Virginia]] in the USA, historically important.
 
* The '''[[James River (Virginia)|James River]]'''. the principal river of [[Virginia]] in the USA, historically important.
 
* The '''[[Jordan River|River Jordan]]''', the principal river of [[Palestine]], [[Jordan]], and [[Israel]]
 
* The '''[[Jordan River|River Jordan]]''', the principal river of [[Palestine]], [[Jordan]], and [[Israel]]
* '''[[Karun]]''', the principal navigable river of southern [[Iran]]
 
* The '''[[River Kaveri]]''', the principal river of [[South India]]
 
 
* The '''[[Lena River|Lena]]''', the principal river of northeastern [[Siberia]]
 
* The '''[[Lena River|Lena]]''', the principal river of northeastern [[Siberia]]
 
* The '''[[Mackenzie River]]''', the longest river in [[Canada]]
 
* The '''[[Mackenzie River]]''', the longest river in [[Canada]]
 
* The '''[[Magdalena River|Magdalena]]''', the principal river of [[Colombia]]
 
* The '''[[Magdalena River|Magdalena]]''', the principal river of [[Colombia]]
* The '''[[Main]]''', a river in [[Germany]] which runs through [[Frankfurt am Main]]
+
* The '''[[Main]]''', a river in [[Germany]] which runs through [[Frankfurt|Frankfurt am Main]]
 
* The '''[[Mekong]]''', a principal river of [[Southeast Asia]]
 
* The '''[[Mekong]]''', a principal river of [[Southeast Asia]]
* The '''[[River Mersey]]''', the river on which sits the English city of [[Liverpool]]
 
 
* The '''[[Meuse River|Maas]]''', the principal river of the southern provinces of the [[Netherlands]] and eastern [[Belgium]]
 
* The '''[[Meuse River|Maas]]''', the principal river of the southern provinces of the [[Netherlands]] and eastern [[Belgium]]
 
* The '''[[Mississippi River]]''', the principal river of the central and southern [[United States]]
 
* The '''[[Mississippi River]]''', the principal river of the central and southern [[United States]]
 
* The '''[[Missouri River]]''', one of the principal rivers of the [[Great Plains]]
 
* The '''[[Missouri River]]''', one of the principal rivers of the [[Great Plains]]
 
* The '''[[Murray River]]''', the principal river of southeastern [[Australia]]
 
* The '''[[Murray River]]''', the principal river of southeastern [[Australia]]
* The '''[[Niagara River]]''', the river which flows between [[Lake Erie]] and [[Lake Ontario]], and which flows over the [[Niagara Escarpment]] (better known as [[Niagara Falls]])
+
* The '''[[Niagara River]]''', the river which flows between [[Lake Erie]] and [[Lake Ontario]], and which flows over [[Niagara Falls]]
 
* The '''[[Niger River|Niger]]''', the principal river of west [[Africa]]
 
* The '''[[Niger River|Niger]]''', the principal river of west [[Africa]]
* The '''[[Nile]]''', the longest river in the world, principal to [[Egypt]] and northeastern Africa
+
* The '''[[Nile River|Nile]]''', the longest river in the world, principal to [[Egypt]] and northeastern Africa
 
* The '''[[Ob River|Ob]]''', a large river of [[Siberia]]
 
* The '''[[Ob River|Ob]]''', a large river of [[Siberia]]
 
* The '''[[Oder River|Oder]]''', a major river in Central Europe
 
* The '''[[Oder River|Oder]]''', a major river in Central Europe
 
* The '''[[Ohio River]]''', the largest river between the [[Mississippi River|Mississippi]] and the [[Appalachian Mountains]]
 
* The '''[[Ohio River]]''', the largest river between the [[Mississippi River|Mississippi]] and the [[Appalachian Mountains]]
 
* The '''[[Orinoco]]''', the principal river of [[Venezuela]]
 
* The '''[[Orinoco]]''', the principal river of [[Venezuela]]
* The '''[[Rhine]]''', one of the longest and most important rivers in [[Europe]]
+
* The '''[[Rhine River|Rhine]]''', one of the longest and most important rivers in [[Europe]]
 
* The '''[[Rio Grande]]''', the river that forms part of the border between the [[United States]] and [[Mexico]]
 
* The '''[[Rio Grande]]''', the river that forms part of the border between the [[United States]] and [[Mexico]]
 
* The '''[[Saint Lawrence River]]''', which drains the [[Great Lakes (North America)|Great Lakes]]
 
* The '''[[Saint Lawrence River]]''', which drains the [[Great Lakes (North America)|Great Lakes]]
 
* The '''[[São Francisco River]]''', the longest river wholly within [[Brazil]]
 
* The '''[[São Francisco River]]''', the longest river wholly within [[Brazil]]
 
* The '''[[Sava]]''', which flows through four countries—[[Slovenia]], [[Croatia]], [[Bosnia and Herzegovina]] (making its northern border) and [[Serbia]]—and was therefore one of the symbols of former [[Yugoslavia]]
 
* The '''[[Sava]]''', which flows through four countries—[[Slovenia]], [[Croatia]], [[Bosnia and Herzegovina]] (making its northern border) and [[Serbia]]—and was therefore one of the symbols of former [[Yugoslavia]]
* The '''[[Savannah River]]''', a major river in the southeastern United States, forming most of the border between the states of [[Georgia (U.S. state)|Georgia]] and [[South Carolina]]
 
 
* The '''[[Seine]]''', the river that runs through [[Paris, France|Paris]]
 
* The '''[[Seine]]''', the river that runs through [[Paris, France|Paris]]
 
* The '''[[Segura]]''', a river in southeastern [[Spain]]
 
* The '''[[Segura]]''', a river in southeastern [[Spain]]
 
* The '''[[River Severn]]''', the longest river in [[Great Britain]]
 
* The '''[[River Severn]]''', the longest river in [[Great Britain]]
 
* '''[[Shinano-gawa]]''', the longest river in [[Japan]]
 
* '''[[Shinano-gawa]]''', the longest river in [[Japan]]
* The '''[[Snake River]]''', the largest tributary of the Columbia River in [[Washington]]
 
 
* The '''[[Susquehanna River]]''', the principal river of [[Pennsylvania]] and the [[Chesapeake Bay]]
 
* The '''[[Susquehanna River]]''', the principal river of [[Pennsylvania]] and the [[Chesapeake Bay]]
* '''[[Tagus|Tajo]]''' or '''[[Tagus|Tejo]]''', the largest river in the [[Iberian Peninsula]]
+
* '''[[Tagus|Tajo]]''' or '''Tejo''', the largest river in the [[Iberian Peninsula]]
* The '''[[River Tay]]''', the largest river in [[Scotland]]
 
* The '''[[Tennessee River]]''', an important tributary of the Mississippi that flows through Eastern/Western [[Tennessee]], [[North Alabama|Northern Alabama]], and [[Kentucky]]
 
 
* The '''[[River Thames|Thames]]''', the river that runs through [[London]]
 
* The '''[[River Thames|Thames]]''', the river that runs through [[London]]
 
* The '''[[Tiber]]''', the river that runs through [[Rome]]
 
* The '''[[Tiber]]''', the river that runs through [[Rome]]
Line 163: Line 128:
 
* The '''[[Vltava]]''', the river that runs through [[Prague]]
 
* The '''[[Vltava]]''', the river that runs through [[Prague]]
 
* The '''[[Volga River]]''', the principal river of [[Russia]] and the longest river in [[Europe]]
 
* The '''[[Volga River]]''', the principal river of [[Russia]] and the longest river in [[Europe]]
* The [[Wabash River]], the principal river of [[Indiana]]
 
 
* The '''[[Yangtze River|Yangtze]]''' (Chang Jiang), the longest river in [[China]] and [[Asia]]
 
* The '''[[Yangtze River|Yangtze]]''' (Chang Jiang), the longest river in [[China]] and [[Asia]]
 
* The '''[[Yenisei River|Yenisei]]''', a large river in [[Siberia]]
 
* The '''[[Yenisei River|Yenisei]]''', a large river in [[Siberia]]
 
* The '''[[Yukon River|Yukon]]''', the principal river of [[Alaska]] and the [[Yukon Territory]]
 
* The '''[[Yukon River|Yukon]]''', the principal river of [[Alaska]] and the [[Yukon Territory]]
* The '''[[Zambezi]]''', the principal river of southeastern [[Africa]]
+
* The '''[[Zambezi River|Zambezi]]''', the principal river of southeastern [[Africa]]
  
 
==Rating systems==
 
==Rating systems==
  
* '''[[International Scale of River Difficulty]]''' - The scale is used to rate the challenges of navigation—particularly those with rapids. Class I is the easiest and Class VI is the hardest.
+
* '''International Scale of River Difficulty''' - The scale is used to rate the challenges of navigation—particularly those with rapids. Class I is the easiest and Class VI is the hardest.
  
* '''[[Strahler Stream Order]]''' - The Strahler Stream Order is a method to rank rivers based on the connectivity and hierarchy of contributing tributaries. Headwaters are considered first order, while the [[Amazon River]] is twelfth order. Approximately 80 percent of the rivers and streams on Earth are of the first and second order.
+
* '''Strahler Stream Order''' - a method to rank rivers based on the connectivity and hierarchy of contributing tributaries. Headwaters are considered first order, while the [[Amazon River]] is twelfth order. Approximately 80 percent of the rivers and streams on Earth are of the first and second order.
  
 
==See also==
 
==See also==
Line 191: Line 155:
 
*[[Ferry|Ferries]]
 
*[[Ferry|Ferries]]
 
*[[Ford (crossing)|Fords]]
 
*[[Ford (crossing)|Fords]]
*[[Tunnel]]s.
+
*[[Tunnel]]s
  
 
===Transport===
 
===Transport===
Line 199: Line 163:
 
* [[Towpath]]
 
* [[Towpath]]
  
== Footnotes ==
+
== Notes ==
 
<references />
 
<references />
  
 
==References==
 
==References==
 
+
* Benke, Arthur C., and Colbert E. Cushing (eds.). ''Rivers of North America''. Burlington, MA: Elsevier Academic Press, 2005. ISBN 0120882531
* Benke, Arthur C., and Colbert E. Cushing (editors), 2005. ''Rivers of North America ''. Burlington, MA: Elsevier Academic Press. ISBN 0120882531 and ISBN 978-0120882533.
+
* Leopold, Luna B. ''A View of the River.'' Cambridge, MA: Harvard University Press, 2003. ISBN 0674937325
 
+
* McKnight, Tom L., and Darrel Hess. ''Physical Geography: Landscape Appreciation'', 8th ed. Upper Saddle River, NJ: Prentice Hall, 2004. ISBN 0131451391
* Leopold, Luna B. 2003. ''A View of the River.'' Cambridge, MA: Harvard University Press. ISBN 0674937325 and ISBN 978-0674937321.
+
* Palmer, Tim. ''Rivers of America''. Harry N. Abrams, Inc., 2006. ISBN 0810954850
 
+
* Scheffel, Richard L. (ed.). ''ABC's of Nature - A Family Answer Book''. Reader's Digest Association, 1988. {{ASIN|B000H3ZDPM}}
* McKnight, Tom L., and Darrel Hess, 2004. ''Physical Geography: Landscape Appreciation''. (Eighth Edition). Upper Saddle River, NJ: Prentice Hall. ISBN 0131451391 and ISBN 978-0131451391.
+
* Wolf, Aaron T. et al. [http://www.tandfonline.com/doi/abs/10.1080/07900629948682?journalCode=cijw20 "International River Basins of the World."]  ''International Journal of Water Resources Development'' 15(4) (Dec. 1999). Retrieved July 31, 2017.
 
 
* Palmer, Tim, 2006. ''Rivers of America''. Harry N. Abrams, Inc. ISBN 0810954850 and ISBN 978-0810954854.
 
 
 
* Scheffel, Richard L. (editor), 1988. ''ABC's of Nature - A Family Answer Book''. Reader's Digest Association. ASIN B000H3ZDPM.
 
  
 
== External links ==
 
== External links ==
 +
All links retrieved December 14, 2022.
  
* Jacobs, Jeffrey W. [http://www.waterencyclopedia.com/Re-St/Rivers-Major-World.html "Rivers, Major World"] ''Water Encyclopedia''.
+
* [http://www.waterencyclopedia.com/Re-St/Rivers-Major-World.html "Rivers, Major World"] by Jeffrey W. Jacobs, ''Water Encyclopedia''
 
+
* [http://www.gutenberg.org/ebooks/search/?query=River River] ''Project Gutenberg Library''
* [http://www.weather.gov/ahps/ Rivers] NOAA - National Weather Service
 
 
 
* Wolf, Aaron T. et al. "International River Basins of the World." ''International Journal of Water Resources Development'', 15(4), Dec. 1999. Available online at <http://www.transboundarywaters.orst.edu/publications/register>.
 
  
 
[[Category:Physical sciences]]
 
[[Category:Physical sciences]]
[[CAtegory:Earth sciences]]
+
[[Category:Earth sciences]]
 
+
[[Category:Bodies of water]]
 +
[[Category:Rivers]]
 
{{Credit|101369849}}
 
{{Credit|101369849}}

Latest revision as of 01:43, 15 December 2022

Zambezi River at Victoria Falls (Zambia/Zimbabwe, Africa)

A river is a natural waterway that conveys water derived from precipitation from higher ground to lower levels. Most commonly, rivers flow on the surface of the land, but there are also many examples of underground rivers, where the flow is contained within chambers, caves, or caverns. In some areas where the rainfall is highly variable, the rivers may carry water only occasionally, remaining dry for years at a time. Rivers sculpt the continents. Many early civilizations began near the banks of rivers.

River Gambia flowing through Niokolokoba National Park

Origins of river water

A river may have its source in a spring, lake, from damp, boggy places where the soil is waterlogged, from glacial meltwater, or simply from rain flowing off impermeable rock or man-made surfaces. Almost all rivers are joined by other rivers and streams termed tributaries, the highest of which are known as headwaters. Water may also be recruited to a river from groundwater sources. Throughout the course of the river, the total volume transported downstream will often be a combination of the free water flow together with a substantial contribution flowing through subsurface rocks and gravels that underlie the river and its floodplain. For many rivers in large valleys, this unseen component of flow may greatly exceed the visible flow.

From their source, all rivers flow downhill, typically terminating in the sea or in a lake. In arid areas rivers sometimes end by losing water to evaporation. River flow may also be lost by percolation into dry, porous material such as sand, soil, or into pervious rock. Excessive abstraction of water for use in industry, irrigation etc can also cause a river to dry before reaching a lake or the sea.

The mouth, or lower end, of a river is known by hydrologists as its base level.

The area drained by a river and its tributaries is called catchment, catchment basin, drainage basin or watershed. The term "watershed" is also used to mean a boundary between catchments, which is also called a water divide.

Topography

A river flowing over a slight change in topography

A river's water is generally confined to a channel, made up of a stream bed between banks. In larger rivers there is also a wider floodplain shaped by floodwaters overtopping the channel. Floodplains may be very wide in relation to the size of the river channel. This distinction between river channel and floodplain can be blurred especially in urban areas where the floodplain of a river channel can become greatly developed by housing and industry.

The river channel itself may contain a single stream of water but many rivers, if left unconstrained by human activity, will create several streams of water within a channel producing a braided river. Braided rivers can still be commonly seen in South Island New Zealand and on some of the larger river deltas.

A river flowing in its channel is a source of considerable energy which acts on the river channel to change its shape and form. In mountainous torrential zones, this can be seen in the form of erosion channels through hard rocks and the creation of sands and gravels from the destruction of larger rocks. In U-shaped glaciated valleys, the subsequent river valley can often easily be identified by the V-shaped channel that it has carved. In the middle reaches, where the river may flow over flatter land, loops (meanders) may form through eroding of the river banks and deposition on the inside of bends. Sometimes the river will cut off a loop, shortening the channel and forming an oxbow lake. Rivers that carry large amounts of sediment may develop conspicuous deltas at their mouths, if conditions permit. Rivers, whose mouths are in saline tidal waters, may form estuaries. River mouths may also be fjords or rias.

Although the following classes are a useful simplified way to visualize rivers, it is important to recognize there are other factors at work here. Gradient is controlled largely by tectonics, but discharge is controlled largely by climate and sediment load is controlled by various factors including climate, geology in the headwaters, and the stream gradient.

  • Youthful river - a river with a steep gradient that has very few tributaries and flows quickly. Its channels erode deeper rather than wider. Examples include the Brazos River, Trinity River and Ebro River.
  • Mature river - a river with a gradient that is less steep than those of youthful rivers and flows more slowly than youthful rivers. A mature river is fed by many tributaries and has more discharge than a youthful river. Its channels erode wider rather than deeper. Mature rivers are typified by the Mississippi River, Ohio River, and England’s Thames River.
  • Old river - a river with a low gradient and low erosive energy. Old rivers are characterized by flood plains. Examples of old rivers include the Tigris River, Euphrates River in the Middle East and the Indus River.
  • Rejuvenated river - a river with a gradient that is raised by tectonic uplift.

Flooding

The beginning of a mountain river (Reichenbach in Grosse Scheidegg)
The Reichenbach emerges from the melting ice

Flooding is a natural part of a river's cycles. The majority of the erosion of river channels and the erosion and deposition on the associated floodplains occur during flood stage. Human activity, however, has upset the natural way flooding occurs by walling off rivers, straightening their courses and by draining of natural wetlands.

River ecosystems

The flora and fauna of rivers have developed to utilize the very wide range of aquatic habitats available, from torrential waterfalls to lowland mires. Although many organisms restrict themselves to the freshwater of rivers, some, such as salmon, spend different stages of their lives in rivers and the sea.

Human uses of rivers

Rivers have been useful for human existence since the dawn of civilization. They have served as sources of water and food, means of transport, lines of defense, sources of electric power to drive machinery, and waste disposal sites. Even today, many major cities are situated near rivers.

In addition, rocks and gravel generated and moved by rivers have been useful for construction projects. In recent generations, the beauty of rivers and their surrounding habitat has contributed greatly to local economies by attracting income from tourism. In upland rivers, one often observes waterfalls and whitewater rapids. Waterfalls are sometimes used as sources of energy, by way of watermills and hydroelectric plants, and rapids are often used for recreational purposes.

Management

Rivers are often managed or controlled to make them more useful and less disruptive to human activity.

  • Dams (see above) or weirs may be built to control the flow, store water, or extract energy.
  • Levees may be built to prevent run-off of excess river water in times of flood.
  • Canals connect rivers to one another for water transfer or navigation.
  • River courses may be modified to improve navigation, or straightened to increase the flow rate.

River management is an ongoing activity, as rivers tend to 'undo' the modifications made by man. Dredged channels silt up, sluice mechanisms deteriorate with age, levees and dams may suffer seepage or catastrophic failure. The benefits sought through managing rivers may often be offset by the social and economic costs of mitigating the effects of such management. For example, in many parts of the developed world, rivers have been confined to channels to free up flat flood-plain land for development. Subsequent extreme flooding events can inundate such development at high financial costs and often with loss of life.

Geopolitical boundaries

Rivers have been important historically in determining political boundaries. For example, the Danube was a longstanding border of the Roman Empire, and today forms most of the border between Bulgaria and Romania. The Mississippi in North America, and the Rhine in Europe, are major east-west boundaries in those continents. The Orange River forms the boundary between various provinces and countries along its route in Africa.

Direction of flow

A misconception, particularly amongst schoolchildren and college students in North America, is that most—or even all—rivers flow from north to south.[1][2] Rivers in fact flow downhill irrespective of direction and is often a complex meandering path involving all directions of the compass.[3][4]

Studying the flows of rivers is one aspect of hydrology.[5]

Well-known Rivers

(Listed in alphabetical order)

Rating systems

  • International Scale of River Difficulty - The scale is used to rate the challenges of navigation—particularly those with rapids. Class I is the easiest and Class VI is the hardest.
  • Strahler Stream Order - a method to rank rivers based on the connectivity and hierarchy of contributing tributaries. Headwaters are considered first order, while the Amazon River is twelfth order. Approximately 80 percent of the rivers and streams on Earth are of the first and second order.

See also

Crossings

Rivers may be crossed by:

Transport

  • Barge
  • Riverboat
  • Sailing
  • Towpath

Notes

  1. Bill Weiler, Operation Physics: Children's Misconceptions about Science, American Institute of Physics (September 1998). Retrieved July 31, 2017.
  2. William C. Philips, Earth Science Misconceptions. Retrieved July 31, 2017.
  3. Matt Rosenberg, “Rivers Flowing North,” ThoughtCo. Retrieved July 31, 2017.
  4. Nezette Rydell, Re: What determines the direction of river flow? Elevation, Topography, Gravity?? MadSci Network: Earth Sciences, Washington University Medical School. Retrieved July 31, 2017.
  5. Cristi Cave, How a River Flows, Stream Biology and Ecology. Retrieved July 31, 2017.

References
ISBN links support NWE through referral fees

  • Benke, Arthur C., and Colbert E. Cushing (eds.). Rivers of North America. Burlington, MA: Elsevier Academic Press, 2005. ISBN 0120882531
  • Leopold, Luna B. A View of the River. Cambridge, MA: Harvard University Press, 2003. ISBN 0674937325
  • McKnight, Tom L., and Darrel Hess. Physical Geography: Landscape Appreciation, 8th ed. Upper Saddle River, NJ: Prentice Hall, 2004. ISBN 0131451391
  • Palmer, Tim. Rivers of America. Harry N. Abrams, Inc., 2006. ISBN 0810954850
  • Scheffel, Richard L. (ed.). ABC's of Nature - A Family Answer Book. Reader's Digest Association, 1988. ASIN B000H3ZDPM
  • Wolf, Aaron T. et al. "International River Basins of the World." International Journal of Water Resources Development 15(4) (Dec. 1999). Retrieved July 31, 2017.

External links

All links retrieved December 14, 2022.

Credits

New World Encyclopedia writers and editors rewrote and completed the Wikipedia article in accordance with New World Encyclopedia standards. This article abides by terms of the Creative Commons CC-by-sa 3.0 License (CC-by-sa), which may be used and disseminated with proper attribution. Credit is due under the terms of this license that can reference both the New World Encyclopedia contributors and the selfless volunteer contributors of the Wikimedia Foundation. To cite this article click here for a list of acceptable citing formats.The history of earlier contributions by wikipedians is accessible to researchers here:

The history of this article since it was imported to New World Encyclopedia:

Note: Some restrictions may apply to use of individual images which are separately licensed.

Retrieved from https://www.newworldencyclopedia.org/p/index.php?title=River&oldid=1091457

Content is available under Creative Commons Attribution/Share-Alike License; additional terms may apply. See Terms of Use for details.
Copyright Logo
Powered by MediaWiki