- This article is about geography. For use as in topography, see Fall line (topography).
The examples and perspective in this article deal primarily with the United States and do not represent a worldwide view of the subject. (November 2016) (Learn how and when to remove this template message)
A fall line (or fall zone) is the geomorphologic break that demarcates the border between an upland region of relatively hard crystalline basement rock and a coastal plain of softer sedimentary rock. A fall line is typically prominent when crossed by a river, for there will often be rapids or waterfalls. Many times a fall line will recede upstream as the river cuts out the uphill dense material, often forming "c"-shaped waterfalls and exposing bedrock shoals. Because of these features riverboats typically cannot travel any farther inland without portaging, unless locks are built there. On the other hand, the rapid change in elevation of the water, and the resulting energy release, makes the fall line a good location for water mills, grist mills, and sawmills. Because of the need for a river port leading to the ocean, and a ready supply of water power, settlements often develop where rivers cross a fall line.
The slope of fall zones on rivers played a role in settlement patterns. For example, the fall line represents the inland limit of navigation on many rivers. As such, many fall line cities grew around transferring people and goods between land-based and water-based transportation at this point. Also, fall lines proved useful for hydroelectric dams such as those at Rochester, New York (on the Niagara Escarpment), at Columbia, South Carolina, and at Conowingo, Maryland, on the Susquehanna River (on the Atlantic Seaboard fall line). Cities established along fall lines in the United States include:
- New England:
- Watertown, Massachusetts (Charles River), dam and mill built 1634
- Lowell, Massachusetts (Merrimack River)
- Hartford, Connecticut (Connecticut River)
- Fall River, Massachusetts (Quequechan River)
- Bangor, Maine (Penobscot River)
- Augusta, Maine (Kennebec River)
- Pawtucket, Rhode Island (Blackstone River)
- Atlantic Seaboard fall line (Mid-Atlantic and Southern fall lines):
- Trenton, New Jersey, on the Delaware River
- Paterson, New Jersey, on the Passaic River
- Philadelphia, Pennsylvania, on the Schuylkill River
- Wilmington, Delaware, on Brandywine Creek
- Baltimore, Maryland, on the Jones Falls, Gunpowder Falls and Gwynns Falls
- Washington, D.C., on the Potomac River
- Fredericksburg, Virginia, on the Rappahannock River
- Hanover, Virginia, on the North Anna River
- Richmond, Virginia, on the James River
- Petersburg, Virginia, on the Appomattox River
- Weldon, North Carolina, and Roanoke Rapids, North Carolina, on the Roanoke River
- Rocky Mount, North Carolina, on the Tar River
- Raleigh, North Carolina, on the Neuse River
- Fayetteville, North Carolina, on the Cape Fear River
- Camden, South Carolina, on the Wateree River
- Columbia, South Carolina, on the Congaree River
- Augusta, Georgia, on the Savannah River
- Milledgeville, Georgia, on the Oconee River
- Macon, Georgia, on the Ocmulgee River
- Columbus, Georgia, on the Chattahoochee River
- Tallassee, Alabama, on the Tallapoosa River
- Wetumpka, Alabama, on the Coosa River
- Tuscaloosa, Alabama, on the Black Warrior River
Atlantic Seaboard Fall Line
|Atlantic Seaboard fall line|
|Nickname: Piedmont—Coastal Plain fall line|
Carolinas or Georgia 
|Length||900 mi (1,400 km) |
Map showing part of the Eastern Seaboard Fall Line where the pale colored coastal plain meets the brightly colored Piedmont.
The Atlantic Seaboard Fall Line, or Fall Zone, is a 900-mile (1,400 km) escarpment where the Piedmont and Atlantic Coastal Plain meet in the eastern United States. Much of the Atlantic Seaboard fall line passes through areas where no evidence of faulting is present.
The fall line marks the geologic boundary of hard metamorphosed terrain—the product of the Taconic orogeny—and the sandy, relatively flat outwash plain of the upper continental shelf, formed of unconsolidated Cretaceous and Tertiary sediments. Examples of the Fall Zone include the Potomac River's Little Falls and the rapids in Richmond, Virginia, where the James River falls across a series of rapids down to the tidal estuary of the James River. Columbia, South Carolina is similar as well with the Congaree River.
Before navigation improvements such as locks, the fall line was often the head of navigation on rivers due to rapids and waterfalls, such as the Little Falls of the Potomac River. Numerous cities were founded at the intersection of rivers and the fall line. U.S. Route 1 links many of the fall line cities.
- Schneider, Craig W.; Richard B. Searles (1991). Seaweeds of the southeastern United States: Cape Hatteras to Cape Canaveral. Duke University Press. pp. 5–7. ISBN 978-0-8223-1101-0. Retrieved 17 November 2010.
- "The Fall Line and major cities of the Eastern U.S".
- "About the Charles River". United States Environmental Protection Agency. Retrieved 23 June 2017.
- Freitag, Bob; Susan Bolton; Frank Westerlund; Julie Clark (2009). Floodplain Management: A New Approach for a New Era. Island Press. p. 77. ISBN 978-1-59726-635-2. Retrieved 17 November 2010.
- Shamsi, Nayyar (2006). Encyclopaedia of Political Geography. Anmol Publications. pp. 92–93. ISBN 978-81-261-2406-0. Retrieved 17 November 2010.
- Dunkerly, Robert; Boland, Irene (2017). Eutaw Springs. Columbia: The University of South Carolina Press. p. 24. ISBN 9781611177589.
- "A Summary of the Geologic History of Delaware". The Delaware Geological Survey. Retrieved 25 January 2017.
- "Maryland Geology". Maryland Geological Society. Retrieved 25 January 2017.
- "Geology of the Fall Line". Virginia Places. Retrieved 25 January 2017.
- "Fall Line". NCpedia. Retrieved 25 January 2017.
- "Fall Line". The New Georgia Encyclopedia. Retrieved 17 October 2011.
- "Fall Line". Encyclopedia of Alabama. Retrieved 25 January 2017.
- "The Fall Line". A Tapestry of Time and Terrain: The Union of Two Maps - Geology and Topography. USGS.gov. Archived from the original on 2011-05-14. Retrieved 2010-08-12. An alternate source claims the southern endpoint is farther west because there are "waterfalls & rapids":
- "Georgia Geology". Retrieved 2010-08-13.