SOTT | Feb 17, 2015 | Paul Dorian |
Discussion
Overview
The main driver of all weather and climate, the entity which occupies 99.86% of all of the mass in our solar system, the great ball of fire in the sky - has gone quiet again during what is likely to be the weakest sunspot cycle in more than a century. For the past 5 days, solar activity has been very low and one measure of solar activity - its X-ray output - has basically flatlined in recent days (plot below courtesy NOAA/Space Weather Prediction Center). Not since cycle 14 peaked in February 1906 has there been a solar cycle with fewer sunspots. We are currently more than six years into Solar Cycle 24 and today the sun is virtually spotless despite the fact that we are still in what is considered to be its solar maximum phase. Solar cycle 24 began after an unusually deep solar minimum that lasted from 2007 to 2009 which included more spotless days on the sun compared to any minimum in almost a century.
Solar maximum
There was an uptick in the number of sunspots in April 2014 which produced a second peak during solar cycle 24 and it is looking increasingly likely that this will be considered the solar maximum point for this particular cycle (figure below courtesy NASA). Many solar cycles are double peaked; however, this is the first one in which the second peak in sunspot number was larger than the first peak which occurred in February 2012. Going back to 1755, there have been only a few solar cycles in the previous 23 that have had a lower number of sunspots during its maximum phase.
Consequences of a weak solar cycle
First, the weak solar cycle has resulted in rather benign "space weather" in recent times with generally weaker-than-normal geomagnetic storms. By all Earth-based measures of geomagnetic and geoeffective solar activity, this cycle has been extremely quiet. However, while a weak solar cycle does suggest strong solar storms will occur less often than during stronger and more active cycles, it does not rule them out entirely. In fact, the famous Carrington Event of 1859 occurred during a weak solar cycle (#10). In addition, there is some evidence that most large events such as strong solar flares and significant geomagnetic storms tend to occur in the declining phase of the solar cycle. In other words, there is still a chance for significant solar activity in the months and years ahead.
Second, it is pretty well understood that solar activity has a direct impact on temperatures at very high altitudes in a part of the Earth's atmosphere called the thermosphere. This is the biggest layer of the Earth's atmosphere which lies directly above the mesosphere and below the exosphere. Thermospheric temperatures increase with altitude due to absorption of highly energetic solar radiation and are highly dependent on solar activity.
Finally, if history is a guide, it is safe to say that weak solar activity for a prolonged period of time can have a negative impact on global temperatures in the troposphere which is the bottom-most layer of Earth's atmosphere - and where we all live. There have been two notable historical periods with decades-long episodes of low solar activity. The first period is known as the "Maunder Minimum", named after the solar astronomer Edward Maunder, and it lasted from around 1645 to 1715. The second one is referred to as the "Dalton Minimum", named for the English meteorologist John Dalton, and it lasted from about 1790 to 1830. Both of these historical periods coincided with below-normal global temperatures in an era now referred to by many as the "Little Ice Age". In addition, research studies in just the past couple of decades have found a complicated relationship between solar activity, cosmic rays, and clouds on Earth. This research suggests that in times of low solar activity where solar winds are typically weak; more cosmic rays reach the Earth's atmosphere which, in turn, has been found to lead to an increase in certain types of clouds that can act to cool the Earth.
Outlook
The increasingly likely outcome for another historically weak solar cycle continues the recent downward trend in sunspot cycle strength that began over twenty years ago during solar cycle 22. If this trend continues for the next couple of cycles, then there would likely be more talk of another "grand minimum" for the sun. Some solar scientists are already predicting that the next solar cycle, #25, will be even weaker than this current one. However, it is just too early for high confidence in those predictions since some solar scientists believe that the best predictor of future solar cycle strength involves activity at the sun's poles during a solar minimum and the next solar minimum is still likely several years away.
Source: Vencore Weather
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