|Name origin: Named for Mohawk Nation|
|- left||Lansing Kill, West Canada Creek, |
East Canada Creek, Caroga Creek,
North Chuctanunda Creek, Alplaus Kill
|- right||Oriskany Creek, Schoharie Creek,|
Otsquago Creek, Canajoharie Creek,
|Cities||Schenectady, Amsterdam, Utica, Rome|
|Source||East Branch Mohawk River and West Branch Mohawk River|
|- location||Ava, Oneida County, New York|
|- elevation||920 ft (280 m) |
|- elevation||10 ft (3 m) |
|- coordinates||Coordinates: |
|Length||149 mi (240 km) |
|Basin||3,412 sq mi (8,837 km2) |
|- average||5,908 cu ft/s (167 m3/s) |
|- max||200,000 cu ft/s (5,663 m3/s) |
|- min||6 cu ft/s (0 m3/s) |
Hudson River watershed map showing the Mohawk River
The Mohawk River is a 149-mile-long (240 km)river in the U.S. state of New York. It is the largest tributary of the Hudson River. The Mohawk flows into the Hudson in Cohoes, New York, a few miles north of the city of Albany. The river is named for the Mohawk Nation of the Iroquois Confederacy. It is a major waterway in north-central New York.
From its source in Lewis County, the Mohawk River flows generally east through the Mohawk Valley, passing by the cities of Rome, Utica, Little Falls, Canajoharie, Amsterdam, and Schenectady before entering the Hudson River at Cohoes, just north of Albany.
The river and its supporting canal, the Erie Canal, connect the Hudson River and port of New York with the Great Lakes at Buffalo, New York. The lower part of the Mohawk River has five permanent dams, nine movable dams (seasonal), and five active hydropower plants.
Schoharie Creek and West Canada Creek are the principal tributaries of the Mohawk River. Both of these tributaries have several significant dams including the Hinckley Dam on the West Canada and the Gilboa Dam on the upper reaches of Schoharie Creek. The Gilboa Dam, which was completed in 1926 as part of the New York City water supply system, is the subject of an active and aggressive rehabilitation project.
This article is missing information about how did the Iroquois use the river? Dutch and English colonists? What is known of its geological history? When were the first dams built, and why? What about environmental protection? N.B. Mohawk Valley has its own article; this one is all about the river.. (August 2008)
The river has long been important to transportation and migration to the west as a passage through the Appalachian Mountains, between the Catskill Mountains and Allegheny Plateau to the south and the Adirondack Mountains to the north. The Mohawk Valley allowed easier passage than going over the mountains to the north or south of the valley. As a result, it was strategically important during the French and Indian War and the American Revolutionary War, and a number of important battles were fought here. The fertile Mohawk Valley also attracted early settlers.
In the early nineteenth century water transport was a vital means of transporting both people and goods. A corporation was formed to build the Erie Canal off the Mohawk River to Lake Erie. The canal cut shipping costs to Lake Erie by 95%. It also simplified and reduced the difficulties of westward settler migration.
The Mohawk River Heritage Corridor Commission was created to preserve and promote the natural and historic assets of the Mohawk River. This commission was created by the NY State Legislature in 1997 to improve historic preservation along the river.
The Mohawk watershed drains a large section of the Catskill Mountains, the Mohawk Valley proper, and a section of the southern Adirondack Mountains. All three regions have distinct bedrock geology, and the underlying rocks become progressively younger to the south. Overall, this part of New York is represented by lower Paleozoic sedimentary rocks that unconformably overlie the Grenville-aged (Proterozoic, here about 1.1 billion years old) metamorphic rocks of the Adirondacks. In the watershed, these rocks are only significant in the headwaters of the West Canada Creek. Much of the main trunk of the Mohawk River sits in Cambro-Ordovician carbonates (limestone) and Middle Ordovician sandstones and shales. The southern tributaries (Catskill Mountains) are underlain by a thin sequence of Devonian limestones that are overlain by a thick sequence of sandstones and shale of the Catskill Delta, which is also Devonian in age.
During the Pleistocene (c. 1.8 to 0.01 mya), the watershed was extensively modified by continental glaciation. As a result of glacial scour and deposition, the surficial deposits in much of the watershed are poorly sorted boulder- and clay-rich glacial till. During deglaciation, several glacial lakes left varved clay deposits. In the final stages of deglaciation, approximately 13,350 years ago, the catastrophic draining of Glacial Lake Iroquois, a pro-glacial lake, was through what would become the modern Mohawk Valley. In this final phase, the enormous discharge of water caused local deep scour features (e.g. the Potholes at Little Falls), and extensive sand and gravel deposition, which is one of the key sources of municipal groundwater including the Scotia Delta, which is also known as the Great Flats Aquifer.
The river was the highway of the native Mohawk people. the Mohawk name for the river was Tenonanatche, "A river flowing through a mountain":p.71 (or Yenonanatche, "going round a mountain"). The first recorded European exploration of the Mohawk was a trip by the Dutchman Harman Meyndertsz van den Bogaert in 1634. He followed the river upstream from Albany for a distance of 100 miles, including all the territory of the Mohawks.
In 1661 Dutch colonists founded the city of Schenectady on the Mohawk River approximately 19 miles (31 km) from Albany. "For fifty years Schenectady was the outpost of civilization and Dutch-English rule in the Mohawk valley."
In 1712 the British, now in control of New York, built Fort Hunter at the confluence of the Mohawk and the Schoharie Creek, about 22 miles (35 km) upriver from Schenectady. Around 600 Palatine Germans were settled along the Mohawk and Schoharie Creek.
Historically, the Mohawk watershed has lacked a watershed management plan typical in many adjacent basins. In 2010, the New York State Department of Environmental Conservation released the Mohawk River Basin Action Agenda, which is the first framework for a watershed management plan in this basin. This plan identifies five priority goals for the Mohawk River Basin that are designed to enhance ecosystem health and the vitality of the region. The Action Agenda, developed by the NYS DEC in collaboration with a number of stakeholders in the basin with public input, advocates an ecosystem-based approach to watershed management. In October 2014, Riverkeeper, an environmental advocacy and clean water watchdog organization, announced that they will be expanding the reach of their efforts from the Hudson River to the Mohawk as well.
The Mohawk River has a relatively long record of flooding that has been documented back to settlement in the 17th century. The average volume of water that flows through the Mohawk is about 184 billion cubic feet (5.21 km3) every year. Much of the water flows through the watershed in the spring as snow melts rapidly and enters the tributaries and the main trunk of the river. The maximum average daily flow on the river occurs between late March and early April. For the period between 1917 and 2000, the highest mean daily flow is c. 18,000 cu ft (510 m3) as measured at Cohoes, near the confluence with the Hudson. The lowest mean daily flow of 1,400 cu ft (40 m3) occurs in late August. There is a long record of significant and damaging floods along the entire length of the river.
Because the river and its tributaries typically freeze in the winter, the spring melt is commonly accompanied by ice floes that get stuck and jammed along the main trunk of the river. This annual spring breakup typically occurs in the last few weeks of March, although there are plenty of floods that have occurred before or after this time, such as in 2018 when the ice jam breakup happened in late February after record warmth in the region. These ice jams can cause considerable damage to structures along the riverbanks and on the floodplain. The most severe flood of record on the main trunk of the Mohawk River was the spring breakup flood that occurred from 27-28 March 1914. This flood caused a tremendous amount of damage to the infrastructure because it was a spring breakup flood with enormous amounts of ice. Ice jams of some significance occur about every other year.
One major flood on the Mohawk was on 26-29 June 2006, during the Mid-Atlantic United States flood of 2006. Flooding was caused by a stalled frontal system that resulted in 50 to 330 millimeters (2.0 to 13.0 in) of rain across central New York and widespread flooding occurred in the Mohawk, Delaware, and Susquehanna watersheds. Across the state, this event caused over US$227m in damage and resulted in the loss of four lives. This flooding was acute in the upper parts of the Mohawk watershed.
The Mohawk River also saw significant flooding during the weeks between August 21, 2011 and September 5, 2011 due to torrential rains experienced from Hurricane Irene and Tropical Storm Lee. Many of the Mohawk Barge Canal locks sustained major damage, especially near Waterford and Rotterdam Junction.
Another major flood was on June 28, 2013. It was caused because of heavy rain that had fallen in the region for weeks, and then on the night of June 27, 2013, it was reported in the Jordanville area that 4 inches of rain fell in one hour that night. The next day, the Mohawk River completely flooded the valley, residents were stranded, and without power for approximately one week. There was extreme damage everywhere, especially Mohawk and Fort Plain.
Media related to Mohawk River (New York) at Wikimedia Commons