One In Eight Chance Of A Catastrophic Solar Megastorm By 2020

One In Eight Chance Of A Catastrophic Solar Megastorm By 2020


Earth has a roughly 12 per cent chance of experiencing an enormous megaflare erupting from the sun in the next decade. This event could potentially cause trillions of dollars worth of damage and take up to a decade to recover from.

Such an extreme event is considered to be relatively rare. The last gigantic solar storm, known as the Carrington Event, occurred more than 150 years ago and was the most powerful such event in recorded history.

That a rival to this event might have a greater than 10 per cent chance of happening in the next 10 years was surprising to space physicist Pete Riley, senior scientist at Predictive Science in San Diego, California, who published the estimate in Space Weather on February 23.

“Even if it’s off by a factor of two, that’s a much larger number than I thought,” he said.

Earth’s sun goes through an 11-year cycle of increased and decreased activity. During solar maximum, it’s dotted with many sunspots and enormous magnetic whirlwinds erupt from its surface. Occasionally, these flares burst outward from the sun, spewing a mass of charged particles out into space.

Small solar flares happen quite often whereas very large ones are infrequent, a mathematical distribution known as a power law. Riley was able to estimate the chance of an enormous solar flare by looking at historical databases and calculating the relation between the size and occurrence of solar flares.

The biggest solar event ever seen was the Carrington Event, which occurred on September 1, 1859. That morning, astronomer Richard Carrington watched an enormous solar flare erupt from the sun’s surface, emitting a particle stream at the Earth travelling more than six million kilometres per hour.

When they hit the Earth’s atmosphere, those particles generated the intense ghostly ribbons of light known as auroras. Though typically relegated to the most northerly and southerly parts of the planet, the atmospheric phenomenon reached as far as Cuba, Hawaii and northern Chile. People in New York City gathered on footpaths and rooftops to watch “the heavens … arrayed in a drapery more gorgeous than they have been for years,” as the New York Times described it.

Auroras may be beautiful, but the charged particles can wreak havoc on electrical systems. At the time of the Carrington Event, telegraph stations caught on fire, their networks experienced major outages and magnetic observatories recorded disturbances in the Earth’s field that were literally off the scale.

In today’s electrically dependent modern world, a similar scale solar storm could have catastrophic consequences. Auroras damage electrical power grids and may contribute to the erosion of oil and gas pipelines. They can disrupt GPS satellites and disturb or even completely black out radio communication on Earth.

During a geomagnetic storm in 1989, for instance, Canada’s Hydro-Quebec power grid collapsed within 90 seconds, leaving millions without power for up to nine hours.

The potential collateral damage in the US of a Carrington-type solar storm might be between $US1 trillion and $US2 trillion in the first year alone, with full recovery taking an estimated four to 10 years, according to a 2008 report from the National Research Council.

“A longer-term outage would likely include, for example, disruption of the transportation, communication, banking and finance systems, and government services; the breakdown of the distribution of potable water owing to pump failure; and the loss of perishable foods and medications because of lack of refrigeration,” the NRC report said.

But such possibilities likely represent only the worst-case scenario, said Robert Rutledge, lead of the forecast office at the NOAA/National Weather Service Space Weather Prediction Center. The potential dangers might be significantly less, since power companies are aware of such problems and can take action to mitigate them.

For instance, companies may store power in areas where little damage is expected or bring on additional lines to help with power overloads. This is assuming, of course, that they are given enough warning as to the time and location of a solar storm’s impact on the Earth. Satellites relatively close to Earth are required to measure the exact strength and orientation of a storm.

“It’s like being able to see a cyclone coming but not knowing the wind speed until it hits your boat 50 miles (80km) off the coast,” Rutledge said.

Image: NASA

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