In the Western U.S., in places like the Navajo Nation as seen in this Landsat 9 image, Landsat and other satellite data help people monitor drought conditions and manage irrigation water. With only 85 rain gauges to cover more than 27,000 square miles, satellite data and climate models are filling the gaps to help the Navajo Nation monitor drought severity.
Images
Explore USGS Landsat Program images.
In the Western U.S., in places like the Navajo Nation as seen in this Landsat 9 image, Landsat and other satellite data help people monitor drought conditions and manage irrigation water. With only 85 rain gauges to cover more than 27,000 square miles, satellite data and climate models are filling the gaps to help the Navajo Nation monitor drought severity.
The city of Kathmandu, Nepal, seen at the bottom left of this Landsat 9 image, lies in a valley south of the Himalayan Mountainsbetween Nepal and China. Glaciers, and the lakes formed by glacial meltwater, are visible in the top middle of this image.
The city of Kathmandu, Nepal, seen at the bottom left of this Landsat 9 image, lies in a valley south of the Himalayan Mountainsbetween Nepal and China. Glaciers, and the lakes formed by glacial meltwater, are visible in the top middle of this image.
Example of the Landsat Collection 2 Burned Area Science Product showing the Bootleg Fire in Oregon
linkExample of the Landsat Collection 2 Burned Area Science Product showing the Bootleg Fire in Oregon on July 11, 2021 for tile h006V010. Left: Landsat 8 Collection 2 U.S. Analysis Ready Data Surface Reflectance image (Bands 6,5,4), Middle: Burn Classification (BC), and Right: Burn Probability (BP).
Example of the Landsat Collection 2 Burned Area Science Product showing the Bootleg Fire in Oregon
linkExample of the Landsat Collection 2 Burned Area Science Product showing the Bootleg Fire in Oregon on July 11, 2021 for tile h006V010. Left: Landsat 8 Collection 2 U.S. Analysis Ready Data Surface Reflectance image (Bands 6,5,4), Middle: Burn Classification (BC), and Right: Burn Probability (BP).
South Dakota is home to the fabled “Black Hills.” Seen from a distance, these pine-covered hills, rising several thousand feet above the surrounding prairie, appear black.
South Dakota is home to the fabled “Black Hills.” Seen from a distance, these pine-covered hills, rising several thousand feet above the surrounding prairie, appear black.
This Landsat 8 image of Cape Cod in Massachusetts, was acquired on June 18, 2024. The natural color image is sharpened using the panchromatic band.
Learn more about the Landsat Program.
This Landsat 8 image of Cape Cod in Massachusetts, was acquired on June 18, 2024. The natural color image is sharpened using the panchromatic band.
Learn more about the Landsat Program.
The Menindee Lakes in the Far West of New South Wales, Australia, are seen in this Landsat 8 Collection 2 image from May 14, 2021, and is shown as a natural color composite using the red, green, and blue bands (Bands 4,3,2).
The Menindee Lakes in the Far West of New South Wales, Australia, are seen in this Landsat 8 Collection 2 image from May 14, 2021, and is shown as a natural color composite using the red, green, and blue bands (Bands 4,3,2).
This Landsat 8 Collection 2 image was acquired over the Richat Structure near the western edge of the Sahara Desert on April 25, 2020 and is shown as a natural color composite using the red, green, and blue bands (Bands 4,3,2).
This Landsat 8 Collection 2 image was acquired over the Richat Structure near the western edge of the Sahara Desert on April 25, 2020 and is shown as a natural color composite using the red, green, and blue bands (Bands 4,3,2).
Example of the Landsat Collection 2 Dynamic Surface Water Science Product showing the Confluence of the Wabash and Ohio Rivers on April 12, 2021,for tile h021V010. Left: Landsat Collection 2 U.S. Analysis Ready Data Surface Reflectance image, Right: Dynamic Surface Water Extent (INTR layer)
Example of the Landsat Collection 2 Dynamic Surface Water Science Product showing the Confluence of the Wabash and Ohio Rivers on April 12, 2021,for tile h021V010. Left: Landsat Collection 2 U.S. Analysis Ready Data Surface Reflectance image, Right: Dynamic Surface Water Extent (INTR layer)
Landsat captured the tug of war between winter and spring on the heart-shaped Lake St. Clair along the U.S./Canadian border near Detroit.
This Landsat 8 image was acquired on March 6, 2021 and is shown as a natural color composite.
Learn more about the Landsat program at www.usgs.gov/landsat
Landsat captured the tug of war between winter and spring on the heart-shaped Lake St. Clair along the U.S./Canadian border near Detroit.
This Landsat 8 image was acquired on March 6, 2021 and is shown as a natural color composite.
Learn more about the Landsat program at www.usgs.gov/landsat
Landsat 8 Surface Reflectance image of the coast of Labrador and Newfoundland
Path 5 Row 23
Date acquired 20210216
Landsat 8 Surface Reflectance image of the coast of Labrador and Newfoundland
Path 5 Row 23
Date acquired 20210216
Landsat 8 image acquired on November 19, 2020 over northeast Mongolia (Path 127 Row 26). The image is shown using the shortwave infrared 1, near infrared, and red bands (bands 6,5,4).
Landsat Scene ID LC08_L1TP_127026_20201119_20201119_01_RT
Landsat 8 image acquired on November 19, 2020 over northeast Mongolia (Path 127 Row 26). The image is shown using the shortwave infrared 1, near infrared, and red bands (bands 6,5,4).
Landsat Scene ID LC08_L1TP_127026_20201119_20201119_01_RT
Landsat 8 image acquired on November 11, 2020 over southwest Morocco (Path 203 Row 40). The image is shown using the shortwave infrared 2, red, and blue bands (bands 7,4,2).
Landsat Scene ID LO08_L1TP_203040_20201107_20201111_01_T1
Landsat 8 image acquired on November 11, 2020 over southwest Morocco (Path 203 Row 40). The image is shown using the shortwave infrared 2, red, and blue bands (bands 7,4,2).
Landsat Scene ID LO08_L1TP_203040_20201107_20201111_01_T1
Featured Landsat Image: Qaidam Basin, China. Landsat 8 image from Path 139 Row 034 acquired on Date 22 October 2020. Shown as a pan-sharpened (Band 8) natural color image using the red, green and blue bands (Bands 4, 3, 2)
Featured Landsat Image: Qaidam Basin, China. Landsat 8 image from Path 139 Row 034 acquired on Date 22 October 2020. Shown as a pan-sharpened (Band 8) natural color image using the red, green and blue bands (Bands 4, 3, 2)
The USGS Landsat Archive added its 9 millionth scene to the archive on September 18, 2020. The scene was acquired by Landsat 8 over Northern Paraguay and is shown using bands 6,5,4.
The USGS Landsat Archive added its 9 millionth scene to the archive on September 18, 2020. The scene was acquired by Landsat 8 over Northern Paraguay and is shown using bands 6,5,4.
This graphic shows the cumulative number of scenes by path and row in the Landsat archive from 1972 - 2020. This graphic was created on the anniversary of the 9 millionth scene addition to the USGS Landsat Archive.
This graphic shows the cumulative number of scenes by path and row in the Landsat archive from 1972 - 2020. This graphic was created on the anniversary of the 9 millionth scene addition to the USGS Landsat Archive.
Landsat 8 image on the Utah-Arizona Border on the Navajo Nation acquired on September 18, 2020.
For more information about Landsat, please visit www.usgs.gov/Landsat
To download the data, visit earthexplorer.usgs.gov
Landsat 8 image on the Utah-Arizona Border on the Navajo Nation acquired on September 18, 2020.
For more information about Landsat, please visit www.usgs.gov/Landsat
To download the data, visit earthexplorer.usgs.gov
Example of the Landsat 7 ETM+ Collection 2 level-2 science products. Left: Landsat 7 level-2 surface reflectance image. Right: Landsat 7 level-2 surface temperature image. The data was acquired on August 19, 2020 (path 179 row 28).
Example of the Landsat 7 ETM+ Collection 2 level-2 science products. Left: Landsat 7 level-2 surface reflectance image. Right: Landsat 7 level-2 surface temperature image. The data was acquired on August 19, 2020 (path 179 row 28).
Example of the Landsat 8 OLI/TIRS Collection 2 level-1 product. This Landsat 8 image was acquired on August 18, 2020 over Lake Everard and Lake Harry in southern Australia and is shown as a false color composite using the shortwave infrared, near infrared, and red bands (bands 6,5,4).
Example of the Landsat 8 OLI/TIRS Collection 2 level-1 product. This Landsat 8 image was acquired on August 18, 2020 over Lake Everard and Lake Harry in southern Australia and is shown as a false color composite using the shortwave infrared, near infrared, and red bands (bands 6,5,4).
On August 10, 2018, Operational Land Imager (OLI) on Landsat 8 acquired this image showing part of the Stillwater Complex south of Nye, Montana. Read the original story on NASA Earth Observatory.
On August 10, 2018, Operational Land Imager (OLI) on Landsat 8 acquired this image showing part of the Stillwater Complex south of Nye, Montana. Read the original story on NASA Earth Observatory.
Left: Land surface reflectance natural color composite image (bands 4,3,2); Right: aquatic reflectance Band 2 (Blue band) image of San Francisco Bay, using data acquired by Landsat 8 (Path 44 Row 33) on October 7, 2018
Left: Land surface reflectance natural color composite image (bands 4,3,2); Right: aquatic reflectance Band 2 (Blue band) image of San Francisco Bay, using data acquired by Landsat 8 (Path 44 Row 33) on October 7, 2018
William T. Pecora, Director of the USGS from 1965 to 1971, is largely responsible for two major contributions to science in the public interest: the creation of a national earthquake research center at the USGS facility in Menlo Park, CA, and the Landsat series of Earth observing satellites.
William T. Pecora, Director of the USGS from 1965 to 1971, is largely responsible for two major contributions to science in the public interest: the creation of a national earthquake research center at the USGS facility in Menlo Park, CA, and the Landsat series of Earth observing satellites.