Satellite images show what the historic geomagnetic storm looked like from space

Solar storms disrupts farming tech, planting operations
Solar storms disrupts farming tech, planting operations 00:28

MINNEAPOLIS — Millions of Americans looked to the night sky and snapped magical photos and videos of the northern lights this weekend during the momentous geomagnetic storm.

But cameras were also trained on the storm from space, capturing phantasmal monochromatic shots from the sun's electromagnetic radiation.  

The University of Wisconsin-Madison's Cooperative Institute for Meteorological Satellite Studies (CIMSS) released eight satellite images of the storm on Tuesday, photographed by the Joint Polar Satellite System (JPSS) fleet early Saturday.  

NOAA

The National Oceanic & Atmospheric Administration (NOAA) says its five JPSS satellites supply most of the data used in weather forecasting in the U.S., orbiting the Earth pole to pole and around the equator more than a dozen times daily. The fleet first took to orbit in 2011 and is expected to remain functional through the 2030s.

This was the strongest geomagnetic storm to impact Earth since October 2003, categorized as a G5 — the highest level on NOAA's scale.

NOAA

Besides producing jaw-dropping aurora borealis, solar flares from this storm impacted some power grids and GPS and communications satellites. The storm disrupted some navigational systems in farming equipment in the Midwest and other parts of the country amid the planting season's peak.

"I've never dealt with anything like this," Minnesota farmer Patrick O'Connor told the New York Times.

Solar winds spewed by the sun travel at speeds between 250 and 500 miles per second in swirling spirals due to the star's rotation.

NOAA

The winds can take up to 90 hours to reach Earth, which is 91 million miles away. The vast distance and variable speed that solar energy travels make aurora forecasts as accurate as meteorological forecasts from the 1950s.  

NASA officials say auroras are caused by electrically charged particles in solar winds colliding with the Earth's atmosphere.

    In:
  • Aurora Borealis
  • Northern Lights
  • NASA
Stephen Swanson

Stephen Swanson is a web producer at WCCO. A 20-year station veteran, Stephen was a floor director for a decade before moving to the newsroom, where he focuses on general assignment reporting.

Disclaimer: The copyright of this article belongs to the original author. Reposting this article is solely for the purpose of information dissemination and does not constitute any investment advice. If there is any infringement, please contact us immediately. We will make corrections or deletions as necessary. Thank you.