Space weather: Havoc caused by the sun

February 15, 2018

Ned Rozell
907-474-7468





Photo by Ned Rozell. Aurora such as this is space weather made visible.
Photo by Ned Rozell. Aurora such as this is space weather made visible.


Space weather affects snowplow drivers carving through Thompson Pass in a whiteout, Iowa farmers dropping seeds of corn and wedding planners who release white doves during the ceremony.

These and other customers subscribe to daily forecasts from the National Oceanic and Atmospheric Administration's Space Weather Prediction Center in Boulder, Colorado.

Rodney Viereck works there. He and his teammates monitor eruptions on the sun, especially those spat in our direction and covering those 92 million miles in as little as eight minutes. Viereck is sort of a weatherman of deep space, trying to predict what happens in the airless infinity beyond the 30-mile shell of our atmosphere.

Viereck spoke about his job recently in his hometown of Fairbanks. His colleagues in Boulder use computer models, readings of Earth’s magnetism and spacecraft one million miles away to monitor blasts of solar radiation. They send out warnings to airline pilots, hopeful aurora viewers and managers of electrical grids.

Part of the National Weather Service, the Space Weather Prediction Center is also staffed 24 hours a day. Researchers get busy when the sun erupts a fountain of particles and the explosion happens to be aimed at Earth. They pay special attention to solar flares, blasts of protons and other forms of geomagnetic storms.

The aurora is a good tracer of solar unrest. When frenetic particles shot from the sun tickle the gases in the ionosphere from 60 to 100 miles over our heads, they glow aquamarine. Those same energetic specks flood the ionosphere, sometimes disabling the stable layer off which high-frequency radio signals bounce.

When a big solar storm happens, HF radios don’t work. Airline pilots use HF radio when flying over the North Pole, where there are no ground stations for line-of-sight operation. All the major airlines subscribe to forecasts from the Space Weather Prediction Center. When pilots know a big solar storm is predicted, they sometimes alter their routes.

Solar storms can knock Global Positioning System satellites offline. Some farmers use precision GPS in their tractors; it enables them to track a straight line through plowed fields and drop a seed within an inch of where they want it, then deliver water and fertilize to that exact spot.

Snowplow drivers in places like Thompson Pass use GPS to keep them on the road when the world is white on white. And that wedding planner subscribes to solar storm warnings to make sure his doves, which navigate in part using the Earth’s magnetism, will return after they flap away.

The “most critical” users of the center’s free forecasts are power grid managers, Viereck said. Spurious bursts from the sun soak power lines with induced current. Since most power grids operate at their capacity, managers dial down their output when they know a large solar storm is coming.

“Every single power grid across the country is a customer,” Viereck said.

Giant solar storms have not happened often, but one in March 1989 shut down Hydro-Quebec’s electricity transmission system, leaving six million people in the dark for nine hours. People in Texas and Florida saw red aurora during that event.

Viereck mentioned the Carrington Event of 1859, when people in Cuba saw the aurora and those in Queensland, Australia, saw its mirror image. Telegraph systems around the world failed. Some equipment administered a mild shock to operators with their fingers on the controls.

If a similar storm were to strike Earth today, “everything across the U.S. could be affected,” Viereck said. A solar storm of similar size to the Carrington Event just missed our planet in 2012.

Viereck, who is 59, experienced many aurora nights as a boy growing up in Fairbanks, but he chose his career because he was good at math and physics and it seemed a natural path. In February 2018, he returned to Fairbanks to sell his mother’s house, cabin and car. She passed away in October 2017.

Viereck’s mother, Teri, had a variety of interests represented by two books she authored and co-authored: “Edible Plants of Alaska” and “Meditation: The Complete Guide.”  Rodney’s late father, Les, was a respected ecologist who studied and protested the proposed creation of a northern Alaska harbor using nuclear bombs as excavators. He was the author of “Alaska Trees and Shrubs.”

When it was time to think about a career, Rodney looked above the trees. Admiring the people and camaraderie at UAF’s Geophysical Institute, he took a summer job there as a teenager, cataloging video from aurora-watching all-sky cameras.

He liked that job. He soon became a graduate student and earned a degree in space physics. He remembers the seven years at the Geophysical Institute — from his first scientific job until the printing of his Ph.D. — as some of the best of his life.

The Geophysical Institute exists in large part because of the aurora. In 1946, members of Congress voted to establish a “geophysical station” at a high-latitude site, because something associated with the aurora was interfering with high-frequency radio signals.

Space weather forecasting is about 50 years behind terrestrial weather forecasting, Viereck said. Right now, space-weather models do slightly better than human forecasters, just like it was when models were introduced a few decades ago as a tool for predicting snowstorms and heat waves.

Since the late 1970s, the University of Alaska Fairbanks' Geophysical Institute has provided this column free in cooperation with the UAF research community. Ned Rozell is a science writer for the Geophysical Institute.