Sunspots 2014: Two Big Surprises
The newly proposed revisions to the sunspot record going back to 1749 will have some effect on global warming predictions. The current “pause” in global warming may last for many more years to come, perhaps accompanied by some cooling.
Rare spotless day observed on July 18, 2014. Credit/spaceweather.com
A rare spotless day on the sun on July 17-18, 2014 triggered public speculation that an already stunted Cycle 24 was nearly over. Such is not the case. Defying the odds for so late in a sunspot cycle, another solar sunspot maximum was set last month. Another one is coming this month.
In other major news, a long needed revision to the 400-year sunspot record was proposed. It’ll be the first change made to the sunspot record since it was first established by Rudolf Wolf back in 1849. The changes will affect long-term climate and other dependent scientific studies.
One effect of the proposal will be to reduce modern sunspot totals. That will wipe out the so-called “Modern Maximum” and make the current sunspot cycle, Cycle 24, the weakest in 200 years.
Cycle 24 solar sunspot progression
New solar maximum set in July. Credit/SILSO data, Royal Observatory of Belgium, Brussels
After four straight months of steep declines in monthly sunspot counts, July reversed the trend and increased slightly.
The Royal Observatory of Belgium released July’s average monthly sunspot count on August 1, 2014. Despite the mid-month spotless day, the sunspot number increased and it grew solar maximum again for the sixth straight month.
Cycle 24 still remains the weakest solar cycle in 100 years. It’s nowhere near NASA’s forecast smoothed peak. Data indicating weak sunspot activity over the next couple cycles remain strong.
Cycle 24’s new smoothed solar maximum peak inched up from 76.0 spots/day to 77.3 spots/day. With the increase in sunspot activity in July there will probably be two or three more months setting new sunspot maximums before the sun starts fading inexorably towards minimum.
When that change finally arrives, long-term indicators suggest the next sunspot cycle will be much weaker than this one. That could portend a general cooling trend for earth, if history serves as a guide to future behavior.
Extended periods of inactivity – like the Spörer, Maunder and Dalton minimums – were all accompanied by cooler earth temperatures. Conditions today mimic Cycles 3, 4 and 5 which marked the beginning of the Dalton Minimum.
Revising the 400-year sunspot record
First revision to sunspot record since 1849. Credit/”Revising the Sunspot Number”
The 400-year sunspot record is the longest continuously recorded daily measurement made in science. It’s used in many scientific disciplines, including climate science studies. It hasn’t been adjusted since Rudolf Wolf created it over 160 years ago.
Over the centuries errors have crept into the record, degrading its value for long-term studies. New data and discoveries now allow scientists to detect and correct errors. The first serious look back at the long-term record since Wolf in 1849 came without even a press release last month. It’s a modestly titled new paper called “Revising the Sunspot Number” by Frédéric Clette, et al., submitted for publication to the journal Solar and Stellar Astrophysics on July 11, 2014.
Some outcomes of the new paper include:
* The so-called “Modern Maximum” disappears
* Sunspot activity is steady over the last 250 years
* Three detected “inhomogeneities” since 1880 are corrected
* Cycle 24 will become the weakest in 200 years
The new paper describes the current state of understanding of the long term record. It isn’t a complete revision of the entire record, but a first level recalibration going back to 1749. The Royal Observatory of Belgium plans to release this and other revisions incrementally over time.