April 29, 2021: Imagine living in Florida. You’ll never see the Northern Lights … right? Actually, the odds may be better than you think. A new historical study just published in the Journal of Space Climate Space Weather shows that great auroral storms occur every 40 to 60 years.
„They’re happening more often than we thought,“ says Delores Knipp of the University of Colorado, the paper’s lead author. „These are extreme space weather events that produce auroras in places like Florida, Cuba and Mexico.“
A key result of their study is this timeline, stretching back 500 years:
Finding such old storms is not easy. Hundreds of years ago, most people had never even heard of the aurora borealis. When the lights appeared, they were described as „fog,“ „vapors“, „spirits“–almost anything other than „auroras.“ Making a timeline 500 years long requires digging through unconventional records such as personal diaries, ship’s logs, local weather reports–often in languages that are foreign to the researchers. Knapp’s timeline stitches this kind of disparate information into a coherent picture.
„We defined a ‚Great Storm‘ simply as one in which auroras were visible to the unaided eye at 30 degrees magnetic latitude,“ says Knipp.
Visual sightings were key. The human eye is a sensor we’ve had in common with observers since the beginning of recorded history. Pre-modern scientists didn’t have satellites or magnetometers to measure solar storms, but they could look up at the night sky. In all, Knipp and colleagues found 14 examples of storms where many people saw auroras within 30 degrees of the equator.
„There may be more,“ she notes. „For example, I am aware of a low latitude event that occurred between February and April 1648. It’s not on the timeline, though, because we haven’t yet been able to pin down the date.“
Look at the timeline again; there’s a whole cluster of sightings in Sept. 1770. „The Great Storm of 1770 appears to be a 500-year event,“ says Knipp. „There were low-latitude auroras for 9 nights in a row.“
During the 1770 storm, extremely bright red auroras blanketed Japan and parts of China. Captain James Cook himself saw the display from the HMS Endeavour near Timor Island, south of Indonesia. Knipp’s colleague Hisashi Hayakawa (Nagoya University) has found drawings of the instigating sunspot; it is twice the size of the sunspot that caused the infamous Carrington Event of 1859. Knipp’s timeline shows that this was not „just another Great Storm“; something exceptional happened in 1770 that researchers still don’t fully understand.
Today’s senior space weather researchers were taught in school that Great Storms are rare. The Carrington Event of 1859 was long thought to be a singular event, alone in the historical record. Recent studies are finding otherwise. Just last month Jeffrey Love of the US Geological Survey published a paper in the research journal Space Weather showing that extreme geomagnetic storms recur every ~45 years or so–a result in accord with Knipp’s. He used completely different techniques (extreme value statistics and magnetometer records) to reach a similar conclusion.
The last Great Storm in Knipp’s timeline occurred 32 years ago. Soon, it will be time for another. Stay tuned.