This item got fair coverage
lately. We have been able to better
calibrate solar energy and it has meant an adjustment downward in absolute
terms. Nice to know but not particularly
useful except that we will feel better about the number plugged into our models.
In time we will have all the data
we want, and then we will have to wait decades to begin to plausibly understand
the range and meaning of variation. It would be really nice if someone just
gave it to us already.
I actually see no mechanism available
that will actually provide much variation over and above what we now have. That is significant in certain spectra. The net for us should be stable effectively
forever. After all, the sun is a fusion
gravity pile burning flat out. The fuel
is diminishing extremely slowly and nothing is been added that makes any
difference. It cannot burn any faster
than it already is.
Sun provides Earth with less energy than we thought
Jan 21, 2011
Researchers in the US
claim to have the most reliable estimates yet of the amount of energy that the
Sun provides to Earth – and it is less than previously thought. The findings
will give scientists more robust solar data to feed into climate models, though
much more work needs to be done to fully understand the relationship between
the Sun and the Earth.
Historical and geological records reveal that the Sun has remained
relatively stable for the past 250 years, with the total solar irradiance (TSI)
fluctuating by less than 1% over the roughly 11-year solar cycle. And since the
first space-based radiometers were launched in the late 1970s, scientists have
been able to measure this irradiation directly. But to date, these space
measurements have remained uncalibrated – researchers had to assume that their
instruments function in the same way in space as they do on Earth.
Greg Kopp of the Laboratory for Atmospheric and Space Physics (LASP) in
Boulder, Colorado, and Judith Lean of the Naval Research Laboratory in Washington DC
say they have acquired a more reliable estimate of solar activity. They
analysed data collected by NASA's Solar Radiation and Climate Experiment
(SORCE), a satellite launched in 2003 to investigate why solar variability
occurs and how it affects Earth's atmosphere and climate.
Simulating space on Earth
Crucially, Kopp and Lean were able to calibrate data collected by the
Total Irradiance Monitor (TIM) instrument aboard this craft at a new
calibration centre at LASP. This facility in Boulder enables researchers to verify their
findings by recreating the conditions of interplanetary space with vacuum
operations and high solar power levels. Kopp and Lean find that the TSI during
the last solar minimum in 2008 was 1360.8 ± 0.5 W m–2,
which is roughly 5 W m–2 less than the accepted value used in
climate models.
"Although it seems small, this level of difference is very large
for the instruments acquiring these measurements," Kopp tellsphysicsworld.com.
He says that while the latest finding is purely an improvement in instrument
accuracy, it can help to inform climate studies about the influence of the Sun.
"The major climate models agree that the majority of climate
change over the last century is caused by changes in greenhouse gases, while
the Sun's influence is responsible for about 15% of the observed warming over
this time," he says. "Prior to the 1900s, the Sun was responsible for
much more of the changes in Earth's climate."
Little Ice Age
Indeed, geologists agree that over the course of Earth's history,
variations in the Sun's energy output are likely to have influenced the climate
on Earth. The "Little Ice Age", for instance, which extended from the
16th to the 19th century, is often linked with a roughly 70-year stretch
beginning in 1645 known as the Maunder Minimum when the Sun was particularly weak.
Friedhelm Steinhilber, a geologist at the Swiss Federal Institute of
Aquatic Science and Technology, near Zurich, agrees that Kopp and Lean's
measurements of TSI are the most accurate to date. But he warns that the
significance of the lower value is far from fully understood.
"The Sun's influence on Earth's climate is not so much the
absolute value. It is the relative variation". Steinhilber believes that
the significance of solar fluctuations is only really felt over longer time
periods, like that observed during the Maunder Minimum.
These findings are presented in a paper in Geophysical
Research Letters.
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