Landsat shows how coal development in the Powder River Basin has changed the landscape since 1984...
EarthView–Landsat Reveals Industrial Growth in Powder River Basin
USGS EarthView of the Week
EarthViews is a continuing series in which we share a USGS Image of the Week featuring the USGS/NASA Landsat program. From the artistry of Earth imagery to natural and human-caused land change over time, check back every Friday to finish your week with a visual flourish!
The EarthView: Landsat Reveals Industrial Growth in Powder River Basin
The expanding coal fields in Wyoming's Powder River Basin serve as prime examples of Landsat's ability to monitor land cover change related to industrial growth across the American landscape.
In imagery acquired more than three decades apart, Landsat time-series data illustrate what USGS scientists call a central reality of industrial growth in this country-changing the use of land to increase its economic output. Agriculture remained the main occupation in the basin into the 1970s, until the coal boom took off. The largest U.S. coal mine, the North Antelope Rochelle Mine south of Gillette, WY, opened late in 1983.
The influence of mining is readily apparent in these Landsat images. In 1984, the Landsat 5 scene is largely devoid of open-pit mining signatures. But 32 years later, in 2016, Landsat 8 captures how the Black Thunder Mine and the North Antelope Rochelle Complex have expanded over the last few decades. In 2014, the two mines produced 22 percent of the nation's coal supply.
USGS officials estimate that mines in the Powder River Basin generally have less than 20 years of economically recoverable coal remaining. Once they end operations, coal mining companies are required by law to reclaim the land, a requirement that Landsat can help verify in the decades to come.
Hungry for some science, but you don’t have time for a full-course research plate? Then check out USGS Science Snippets, our snack-sized science series that focuses on the fun, weird, and fascinating stories of USGS science.