DOINews: USGS Science Feature: Space Veteran Landsat 7 Marks 15 Years of Observing Earth

Last edited 09/05/2019

Image from USGS Science Feature: Landsat 7 satellite

USGS Science Feature

April 15, 2014

Launched on April 15, 1999, the Landsat 7 satellite has now been observing Earth from outer space for 15 years. The Landsat program is a decades-long NASA and U.S. Geological Survey partnership that has provided a continuous, unbiased record of change across the earth land surface since 1972.

As illustrated in this collection of Landsat 7 images, Landsat 7 provides a worldwide audience with objective views, both current and historical, of events and trends across the global landscape. Landsat data can be used to detect and monitor urban growth, forestry practices, the extent of floods, wildfire burn acreage, major natural or human-caused disasters, and many other important changes in land-surface conditions.

Yellowstone Park Boundary

The boundary between Yellowstone National Park (right) and Targhee National Forest (left) is clearly seen in this Landsat 7 image. Clearcuts are evident on the left (west) side of the boundary. Landsat 7; July 13, 1999.

Landsat 7's remarkable longevity has been vital to the majority of Landsat data users who require frequent imaging of specific areas for land and resource management. For example, water resource managers in western U.S. states need Landsat's unique combination of thermal and vegetation condition readings at field scale to estimate water use more efficiently for crop irrigation ­— typically the major source of water consumption in these arid regions.

Continuous data and more of it

Combined with Landsat 8, Landsat 7 ensures the collection of images across the entire U.S. every eight days (clouds permitting) and enables the collection of critical global imagery sets on a seasonal basis. Working in tandem, Landsat 7 and Landsat 8 together collect nearly 1,000 images daily, almost double the amount of data collected when Landsat 5 and 7 were operating together. This increased data collection benefits all Landsat applications, especially in persistently cloudy areas (e.g., humid tropics and high latitudes) where multiple imaging attempts are essential.

Missouri River Flood, Hamburg, Iowa

In spring 2011, communities along the Missouri River were threatened by high flows and record releases from dams in Montana and the Dakotas. Landsat 7; August 2, 2011.

A mechanical failure onboard Landsat 7 in 2003 reduces the amount of data in each scene by 22 percent. However, this loss does not affect the quality or usefulness of the remaining data. Many users simply treat the blank areas of each scene as if they were obscured by clouds. Landsat customers, especially those with agricultural interests, who require 8-day repeat data collection have a strong motivation to use Landsat 7 data even with the 22 percent loss per scene.

Barring the failure of any key spacecraft component, the remaining fuel on Landsat 7 is expected to permit imaging operations through 2017. NASA and the USGS are working together on a plan to ensure long-term continuity of land imaging operations while also addressing the near-term need to replace Landsat 7.

Seeing the world's forests and the trees

An outstanding example of the scientific value of Landsat 7 imagery is the research published in 2013 by a team of scientists led by the University of Maryland. This team analyzed data from Landsat 7 to map changes in forests from 2000 to 2012 around the world at local to global scales.

Published in the journal Science, the study comprehensively described changes in the world's forests from the beginning of this century, tracking forest loss and gain at the spatial granularity of an area covered by a baseball diamond (30-meter resolution). The uniform data obtained from more than 650,000 scenes taken by Landsat 7 ensured a consistent global perspective across time, national boundaries, and regional ecosystems.

Wallow Fire, Arizona

The largest wildfire in Arizona history burned well over 500,000 acres in the White Mountains of eastern Arizona. Landsat 7; June 7, 2011.

A Landsat primer

Landsat images from space are not just pictures. They contain many layers of data collected at different points along the visible and invisible light spectrum. Consequently, Landsat images can show where vegetation is thriving and where it is stressed, where droughts are occurring, and where wildland fire is a danger.

Landsat satellites give us a view as broad as 12,000 square miles per scene while describing land cover in units the size of a baseball diamond. From a distance of more than 400 miles above the earth surface, a single Landsat scene can record the condition of hundreds of thousands of acres of grassland, agricultural crops, or forests.

Landsat data have been used to monitor water quality, glacier recession, sea ice movement, invasive species encroachment, coral reef health, land use change, deforestation rates, and population growth.

Oil Spill, Gulf of Mexico

Landsat imagery showed the extent of the oil slick resulting from the Deepwater Horizon oil spill. Landsat 7; May 1, 2010.

Free data for innovation

The Department of the Interior and USGS policy of unrestricted access and free distribution of Landsat data encourages researchers everywhere to develop practical applications of the data. Ready access to Landsat images provides a reliable common record of Earth conditions that advances the mutual understanding of environmental challenges worldwide by citizens, researchers, and decision makers.

USGS role in observing Earth

USGS and NASA have distinct roles in the Landsat program. NASA develops remote-sensing instruments and spacecraft, launches satellites, and validates their performance. The USGS then assumes ownership and operation of the satellites, in addition to managing ground-data reception, archiving, product generation, and distribution. USGS has managed daily end-to-end Landsat operations since October of 2000.

Learn more

USGS Landsat (latest satellite status and related information)

NASA Landsat

What is the Economic Value of Satellite Imagery? (USGS Professional Paper)

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