The headwaters of a river or stream is the farthest place in that river or stream from its estuary or downstream confluence with another river, as measured along the course of the river. It is also known as a river's source.
The United States Geological Survey (USGS) states that a river's "length may be considered to be the distance from the mouth to the most distant headwater source (irrespective of stream name), or from the mouth to the headwaters of the stream commonly known as the source stream". As an example of the second definition above, the USGS at times considers the Missouri River as a tributary of the Mississippi River. But it also follows the first definition above (along with virtually all other geographic authorities and publications) in using the combined Missouri—lower Mississippi length figure in lists of lengths of rivers around the world. Most rivers have numerous tributaries and change names often; it is customary to regard the longest tributary or stem as the source, regardless of what name that watercourse may carry on local maps and in local usage.
This most commonly identified definition of a river source specifically uses the most distant point (along watercourses from the river mouth) in the drainage basin from which water runs year-around (perennially), or, alternatively, as the furthest point from which water could possibly flow ephemerally. The latter definition includes sometimes-dry channels and removes any possible definitions that would have the river source "move around" from month to month depending on precipitation or ground water levels. This definition, from geographer Andrew Johnston of the Smithsonian Institution, is also used by the National Geographic Society when pinpointing the source of rivers such as the Amazon or Nile. A definition given by the state of Montana agrees, stating that a river source is never a confluence but is "in a location that is the farthest, along water miles, from where that river ends."
Under this definition, neither a lake (excepting lakes with no inflows) nor a confluence of tributaries can be a true river source, though both often provide the starting point for the portion of a river carrying a single name. For example, National Geographic and virtually every other geographic authority and atlas define the source of the Nile River not as Lake Victoria's outlet where the name "Nile" first appears, which would reduce the Nile's length by over 900 km (560 mi) (dropping it to fourth or fifth on the list of world's rivers), but instead use the source of the largest river flowing into the lake, the Kagera River. Likewise, the source of the Amazon River has been determined this way, even though the river changes names numerous times along its course. However, the source of the Thames in England is traditionally reckoned according to the named river Thames rather than its longer tributary, the Churn — although not without contention.
When not listing river lengths, however, alternative definitions may be used. The Missouri River's source is named by some USGS and other federal and state agency sources, following Lewis and Clark's naming convention, as the confluence of the Madison and Jefferson Rivers, rather than the source of its longest tributary (the Jefferson). This contradicts the most common definition, which is, according to a US Army Corps of Engineers official on a USGS site, that "[geographers] generally follow the longest tributary to identify the source of rivers and streams." In the case of the Missouri River, this would have the source be well upstream from Lewis and Clark's confluence, "following the Jefferson River to the Beaverhead River to Red Rock River, then Red Rock Creek to Hell Roaring Creek."
Sometimes the source of the most remote tributary may be in an area that is more marsh-like, in which the "uppermost" or most remote section of the marsh would be the true source. For example, the source of the River Tees is marshland.
The furthest stream is also often called the head stream. Headwaters are often small streams with cool waters because of shade and recently melted ice or snow. They may also be glacial headwaters, waters formed by the melting of glacial ice.
Headwater areas are the upstream areas of a watershed, as opposed to the outflow or discharge of a watershed. The river source is often but not always on or quite near the edge of the watershed, or watershed divide. For example, the source of the Colorado River is at the Continental Divide separating the Atlantic Ocean and Pacific Ocean watersheds of North America.
- "Largest Rivers in the United States". United States Geological Survey.
- U.S. Geological Survey Geographic Names Information System: Mississippi River, Length: 2,340 miles (3,770 km), Source:
- U.S. Geological Survey Geographic Names Information System: Missouri River, Length: 2,540 miles (4,090 km), Source:
The verb "rise" can be used to express the general region of a river's source, and is often qualified with an adverbial expression of place. For example:
- The River Thames rises in Gloucestershire.
- The White Nile rises in the Great Lakes region of central Africa.
DeBarry, Paul A. (2004). Watersheds: Processes, Assessment and Management. John Wiley & Sons.
- "Largest Rivers in the United States" (PDF). United States Geological Survey. Retrieved 24 October 2009.
- "National Geographic News @ nationalgeographic.com". news.nationalgeographic.com.
- "The True Utmost Reaches of the Missouri".
- "IBGE - Instituto Brasileiro de Geografia e Estatística". Archived from the original on 2011-06-15.
- Bailey, David (15 May 2012). "Could the River Thames be longer than the River Severn?" – via www.bbc.co.uk.
- "CERC Science Topic: Missouri River" (PDF). infolink.cr.usgs.gov.
- "Owens Valley Particulate Matter Plan: Q & A". Environmental Protection Agency. Retrieved 2008-05-30.
...the Owens River, the source of the lake...
- Jorge Enrique Casallas Guzmán (2004-02-11). "Limnological investigations in Lake San Pablo" (PDF). Archived from the original (PDF) on 2008-06-25. Retrieved 2008-05-30.
...source of the lake is the River Itambi...