Learn more about USGS flood activities related to the April 2011 North Dakota Flood resulting from sudden winter snowmelt due to warmer-than-expected temperatures and rain.
On April 6, 2011, warmer-than-expected temperatures, combined with some light rain, initiated the melt process. Soon, record-breaking floodwaters came coursing down the Missouri, Red, and Souris Rivers, leading to massive flooding and even forcing some North Dakotans to flee their homes. From the beginning, the USGS North Dakota Water Science Center was prepared to meet the floods, and from April until the floodwaters began to abate in July, USGS crews worked tirelessly to provide accurate, up-to-date information for the first-responders to mitigate the effects of the 2011 floods.
Record–Breaking Floods
The 2011 Floods broke records throughout the state. The Missouri, James, Sheyenne, and Mauvais Coulee Rivers all set record peaks, with streamgages recording for more than 60 years. The Red and Souris Rivers both set second-highest records in the more than 100 years USGS streamgages have been monitoring them.
Whole Effort
For the entirety of the flood response, the USGS put forth its whole effort. Every field scientist, every boat, every vehicle, and every available piece of equipment were deployed to collect critical information. USGS crews worked seven days a week as long as necessary to ensure that flood managers and first responders had the information they needed to make the best decisions possible. More than 35 additional streamgages were deployed to increase the monitoring coverage across the flooding rivers. Two webcams were also installed at Fargo and Grand Forks to provide real-time updates of conditions in those cities. In addition, USGS crews from out of state came to supplement the North Dakota Water Science Center. Scientists and technicians from the Arkansas, Colorado, Montana, Nebraska, and Iowa came and spent weeks working with the North Dakota Water Science Center to ensure complete coverage of the flooding areas while allowing more focus to be placed on the points of most severe flooding.
Souris River
By April 8, 2011, USGS streamgages on the Souris River Basin began registering flooding. The North Dakota Water Science Center deployed additional gages to broaden and intensify coverage, and also began extensive data collection, including streamflow and depth of the river. The Souris River continued to rise until, by June 3, several USGS streamgages that had been in operation for more than 70 years registered record peaks. To help the U.S. Army Corps of Engineers in its efforts to manage such historic water levels, the North Dakota Water Science Center sent crews out to help verify Army Corps streamflow measurements using USGS equipment and streamgages. By June 22, the levees of the town of Minot, North Dakota, began failing, and evacuations were ordered for large sections of the city. By July 1, the Souris River had peaked at 27.9 feet, more than two and a half feet higher than the previous record in 1976.
Red River
In advance of what was expected to be higher-than-normal flooding, the North Dakota Water Science Center partnered with the Army Corps to deploy 20 additional streamgages around the city of Fargo. These gages became crucial to the water monitoring effort when, by April 8, the Red River and its tributaries began flooding. By mid-April, the Red River had crested at both Fargo and Grand Forks, with USGS streamgages recording the third-highest and second-highest peaks respectively for more than 100 years.
Missouri River
Early April also saw the Missouri River reaching flood stage throughout North Dakota. USGS streamgages and crews worked to ensure the Army Corps had accurate and comprehensive river level and streamflow information as the Missouri continued to rise. By May 12, the Missouri River reached the 4th highest level ever recorded at Garrison Dam, since the dam came online in 1953. By June 1, the Missouri River broke the highest recorded level at Garrison Dam when it reached 87,300 cubic feet per second. However, USGS streamgages continued to monitor significant rises in streamflow, until the Missouri River crested on June 22 at 152,000 cubic feet per second, more than twice the previous record, which was set in 1976.
Below are other science projects associated with this flood event.
Historical Flooding
Tropical Storm Lee
Hurricane Irene
2011 - The Year of the Flood
Summer 2011 Missouri River Basin flood
Spring/Summer 2011 Mississippi River Basin Floods
May 2011 Louisiana flood
May 2011 Memphis, Tennessee Flood
May 2011 New Madrid Floodway
April 2011 Arkansas Flood
Below are multimedia items associated with this flood event.
- Overview
Learn more about USGS flood activities related to the April 2011 North Dakota Flood resulting from sudden winter snowmelt due to warmer-than-expected temperatures and rain.
On April 6, 2011, warmer-than-expected temperatures, combined with some light rain, initiated the melt process. Soon, record-breaking floodwaters came coursing down the Missouri, Red, and Souris Rivers, leading to massive flooding and even forcing some North Dakotans to flee their homes. From the beginning, the USGS North Dakota Water Science Center was prepared to meet the floods, and from April until the floodwaters began to abate in July, USGS crews worked tirelessly to provide accurate, up-to-date information for the first-responders to mitigate the effects of the 2011 floods.
Sources/Usage: Public Domain.Image from the flood summary report: The 2011 Floods in North Dakota: The Response Efforts of the USGS North Dakota Water Science Center Record–Breaking Floods
The 2011 Floods broke records throughout the state. The Missouri, James, Sheyenne, and Mauvais Coulee Rivers all set record peaks, with streamgages recording for more than 60 years. The Red and Souris Rivers both set second-highest records in the more than 100 years USGS streamgages have been monitoring them.
Whole Effort
For the entirety of the flood response, the USGS put forth its whole effort. Every field scientist, every boat, every vehicle, and every available piece of equipment were deployed to collect critical information. USGS crews worked seven days a week as long as necessary to ensure that flood managers and first responders had the information they needed to make the best decisions possible. More than 35 additional streamgages were deployed to increase the monitoring coverage across the flooding rivers. Two webcams were also installed at Fargo and Grand Forks to provide real-time updates of conditions in those cities. In addition, USGS crews from out of state came to supplement the North Dakota Water Science Center. Scientists and technicians from the Arkansas, Colorado, Montana, Nebraska, and Iowa came and spent weeks working with the North Dakota Water Science Center to ensure complete coverage of the flooding areas while allowing more focus to be placed on the points of most severe flooding.
Souris River
By April 8, 2011, USGS streamgages on the Souris River Basin began registering flooding. The North Dakota Water Science Center deployed additional gages to broaden and intensify coverage, and also began extensive data collection, including streamflow and depth of the river. The Souris River continued to rise until, by June 3, several USGS streamgages that had been in operation for more than 70 years registered record peaks. To help the U.S. Army Corps of Engineers in its efforts to manage such historic water levels, the North Dakota Water Science Center sent crews out to help verify Army Corps streamflow measurements using USGS equipment and streamgages. By June 22, the levees of the town of Minot, North Dakota, began failing, and evacuations were ordered for large sections of the city. By July 1, the Souris River had peaked at 27.9 feet, more than two and a half feet higher than the previous record in 1976.
Red River
In advance of what was expected to be higher-than-normal flooding, the North Dakota Water Science Center partnered with the Army Corps to deploy 20 additional streamgages around the city of Fargo. These gages became crucial to the water monitoring effort when, by April 8, the Red River and its tributaries began flooding. By mid-April, the Red River had crested at both Fargo and Grand Forks, with USGS streamgages recording the third-highest and second-highest peaks respectively for more than 100 years.
Missouri River
Early April also saw the Missouri River reaching flood stage throughout North Dakota. USGS streamgages and crews worked to ensure the Army Corps had accurate and comprehensive river level and streamflow information as the Missouri continued to rise. By May 12, the Missouri River reached the 4th highest level ever recorded at Garrison Dam, since the dam came online in 1953. By June 1, the Missouri River broke the highest recorded level at Garrison Dam when it reached 87,300 cubic feet per second. However, USGS streamgages continued to monitor significant rises in streamflow, until the Missouri River crested on June 22 at 152,000 cubic feet per second, more than twice the previous record, which was set in 1976.
- Science
Below are other science projects associated with this flood event.
Historical Flooding
The USGS provides practical, unbiased information about the Nation's rivers and streams that is crucial in mitigating hazards associated with floods. This site provides information about the USGS activities, data, and services provided during regional high-flow events, such as hurricanes or multi-state flooding events. The USGS response to these events is typically managed by the National Flood...Tropical Storm Lee
During and after Tropical Storm Lee, the USGS made stream flow measurements, sampled suspended sediment, and repaired gages in Connecticut, Maryland, Pennsylvania, Virginia, and other states in the region.Hurricane Irene
Hurricane Irene, peaking as a Category 3 hurricane, battered Carribean Islands and U.S. states all along the eastern seaboard from South Carolina to Maine on August 21-29, 2011.2011 - The Year of the Flood
2011 proved to be another record-breaking flood year in the United States. USGS Water Science Center personnel from North Dakota to Louisiana measured springtime floods on the Red River of the North, the Ohio River, the Mississippi River, and many tributaries. The Missouri River and its tributaries saw record-breaking snow-melt runoff through the summer, followed closely by Hurricane Irene and...Summer 2011 Missouri River Basin flood
Learn more about USGS flood activities related to the 2011 Missouri River Basin Flood resulting from higher-than-average snowmelt runoff combined with heavy spring rains.Spring/Summer 2011 Mississippi River Basin Floods
Learn more about USGS flood activities related to the Spring/Summer 2011 floods throughout the Mississippi River Basin.May 2011 Louisiana flood
Learn more about USGS flood activities related to the May 2011 flood in Louisiana, including additional real-time monitoring for the Morganza and Bonnet Carre Spillways which were opened to release floodwaters into the Mississippi River.May 2011 Memphis, Tennessee Flood
Learn more about USGS flood activities related to the May 2011 flood in Memphis, Tennessee, including deploying emergency real-time surface-water stage gages at critical locations in Shelby County.May 2011 New Madrid Floodway
Learn more about USGS flood activities related to the May 2011 New Madrid Floodway breaches.April 2011 Arkansas Flood
Learn more about USGS flood activities related to the April 2011 Arkansas Flood. - Multimedia
Below are multimedia items associated with this flood event.
- Partners