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NASA
still reluctant to admit that the Sun might affect Earth's climate
By Lykke E. Andersen*,
La Paz,
29
September
2008.
Last week, NASA held a conference on solar activity, showing the
results of Ulysses' third and last orbit around the sun
(1). "The sun cycles between periods of
great activity and lesser activity. Right now, we are in a
period of minimal activity that has stretched on longer than
anyone anticipated," explained Ed Smith, NASA's Ulysses project
scientist at the Jet Propulsion Laboratory in Pasadena,
California. "When the results of the third scan were compared
with observations from the previous solar cycle, the strength of
the solar wind pressure and the magnetic field embedded in the
solar wind were found to have decreased by 20 percent. The field
strength near the spacecraft has decreased by 36 percent."
As someone trained at finding patterns in data (and trained at
recognizing when patterns are spurious), I couldn't help
wondering if the sun's current low level of activity might help
explain the sharp drop in global temperatures over the last
year. And whether the exceptionally strong solar activity during
the last decades of the previous century (2)
might have had something to do with the sharp increases in
global temperatures during those decades.
Of course I am not the first to suspect that variations in the
sun's activity might have an influence on our planets climate.
Already in 1878, the English economist William Stanley Evans
suggested that the sunspot cycle influenced the business cycle
through its effect on crop productivity (3).
As more information accumulated and the technical methods of the
analysis of cyclical data improved, people started testing the
relationships between sunspots, Earth’s climate, and economic
activity on Earth. In 1934, Carlos Garcia-Mata and Felix I
Shaffer published a long article in The Quarterly Journal of
Economics on “Solar and Economic Relationships”
(4).
Figure 1 shows the sunspot series from 1750 to 2008 subjected to
one of those fancy technical methods, the Morley Wavelet
Transform. Time is read on the horizontal axis (on top) and
frequency is read at the vertical axis (2x months),
with cycles of 11, 22 and 44 years highlighted. Sunspot
intensity is indicated by colors, with red being high intensity
and blue low intensity. The well-known 11 year sunspot cycle is
very clear. There is also a strong cycle of about 85 years (210
months), and some weaker cycles in between.
Sunspot cycles are counted at the 11 year frequency. The last
cycle is Cycle 23, which is noticeably weaker than the previous
5 cycles. Currently we are at a low point of solar activity as
indicated by everything being blue from top to bottom. This has
only happened once before, just before the Dalton Minimum in the
beginning of the 19th century.
Figure 1: A Morlet Wavelet Transform of Smoothed Sunspot Numbers
Source:
http://wattsupwiththat.files.wordpress.com/2008/09/wavelet_ssn.png
Sunspot cycles are not entirely regular, but vary in length
between 10 and 12 years, depending on the sun’s activity level.
When the sun is very active (strong magnetic field), the cycles
get shorter, and when the sun is relatively quiet,
they get longer.
A 1991 Science paper by Friis-Christensen and Lassen
showed that there is a close inverse relationship between
sunspot cycle length and Northern Hemisphere land temperatures
over the 1860-1985 period (5).
See Figure 2.
Figure 2: Sunspot cycle length and temperature on Earth
Source: (http://www.sciencemag.org/cgi/content/abstract/254/5032/698)
Until recently, nobody really understood how the sunspot cycle
could affect climate on Earth, since the direct effects of
variations in irradiance are clearly too small to drive climate
variations on Earth.
However, in 2007, the Danish physicist Henrik Svensmark,
together with science writer Nigel Calder, published
The Chilling Stars: A New Theory of Climate Change,
which puts forth a theory which does explain the links.
Basically, when the sun is very active, it’s magnetic field is
strong, which helps shield the Earth from cosmic rays. Cosmic
rays are central to cloud formation on Earth, so when the sun is
active, there are fewer clouds. Since clouds have a net cooling
effect on Earth’s climate, fewer clouds will imply higher
temperatures.
The theory corresponds very well to observation, with cool
periods coinciding with periods of low solar activity and more
cloud cover. It also explains events that the theory on CO2-induced
global warming has trouble explaining, such as the cooling
period from 1945 to 1970, and the cooling of Antarctica amidst
general warming.
The theory is understandably unpopular among the Anthropogenic
Global Warming (AGW) crowd, as it leaves little room for a CO2
effect on global temperatures.
My guess is that if you put together the two theories (Svensmark
and AGW), you will be able to model climate much more accurately
than if you rely on just one of them, and the predictions of the
combined model would be much less dramatic future warming than
current IPCC models suggest.
Related articles:
-
Climate
Alarmists versus Science
-
Climate Change versus Climate Variability
-
Living on the Edge: The
Perils of Climate Change
-
Fighting Climate Change: Cures worse than the disease?
-
Reducing Vulnerability to Climate Change
-
Global Warming Causing Cannibalism
(*) Director, Institute for Advanced
Development Studies, La Paz, Bolivia. The author happily
receives comments at the following e-mail:
landersen@inesad.edu.bo.
(1) NASA:
Ulysses Reveals Global Solar Wind Plasma Output at 50-Year Low.
(2)
In 2004 we learned that “sunspots
have been more active the last 70 years than it has for the
previous 8000 years.” (New Scientist, 27 October 2004).
(3) Jevons, W.S. (1878) “The Periodicity
of Commercial Crises and its Physical Explanation.” Paper read
at the meeting of the British Association on August 19, 1878.
(4) Garcia-Mata, C. & F. I. Shaffner
(1934) “ Solar and Economic Relationships: A Preliminary
Report.” The Quarterly Journal of Economics, 49(1): 1-51.
(5) Friis-Christensen, E. & K. Lassen
(1991) “Length of the Solar Cycle: An Indicator of Solar
Activity Closely Associated with Climate.” Science, Vol. 254.
no. 5032, pp. 698 – 700.
Ó
Institute for Advanced Development Studies 2008.
The opinions expressed in this newsletter are those of the
author and do not necessarily coincide with those of the Institute.
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