I do not want to revisit the long
ongoing squabble regarding the quality of the data used which has been shown to
be a lot less convincing than one would desire.
At least we are now getting the data
described in decadal terms which certainly smoothes out the inevitable annual
shifts and it also rather closely follows the near decadal sunspot cycle
itself. This has an immediate advantage
of largely synchronizing the calendar cycle with the sunspot cycle and perhaps
we should simply give it up and use the sunspot cycle instead of the pure calendar
cycle.
It would be quite worthwhile to actually
calculate a temperature chart drawn specifically against the sunspot
cycle. Then we can compare temperature
directly between sunspot cycles. The
decadal system will allow an unacceptably high level of data drift over several
cycles.
In fact this is something quite
easy to do and I may take a run at it to see what it looks like.
NASA Finds 2011 Ninth-Warmest Year on Record
by Leslie McCarthy for Goddard Institute for Space Studies
While average global temperature will still fluctuate from year to
year, scientists focus on the decadal trend. Nine of the 10 warmest years
since 1880 have occurred since the year 2000, as the Earth has experienced
sustained higher temperatures than in any decade during the 20th century.
As greenhouse gas emissions and atmospheric carbon dioxide levels continue to
rise, scientists expect the long-term temperature increase to continue as well.
(Data source: NASA Goddard Institute for Space Studies. Image credit: NASA
Earth Observatory, Robert Simmon). For a larger version of this image please
go here.
The global average surface
temperature in 2011 was the ninth warmest since 1880, according to NASA
scientists. The finding continues a trend in which nine of the 10 warmest years
in the modern meteorological record have occurred since the year 2000.
NASA's Goddard Institute for Space Studies (GISS) in New York, which
monitors global surface temperatures on an ongoing basis, released an updated
analysis that shows temperatures around the globe in 2011 compared to the
average global temperature from the mid-20th century. The comparison shows
how Earth
continues to experience warmer temperatures than several decades ago. The
average temperature around the globe in 2011 was 0.92 degrees F (0.51 C) warmer
than the mid-20th century baseline.
"We know the planet is absorbing more energy than it is emitting,"
said GISS Director James E. Hansen. "So we are continuing to see a trend
toward higher temperatures. Even with the cooling effects of a strong La Nina
influence and low solar activity
for the past several years, 2011 was one of the 10 warmest years on
record."
The difference between 2011 and the warmest year in the GISS record
(2010) is 0.22 degrees F (0.12 C). This underscores the emphasis scientists put
on the long-term trend of global temperature rise.
Because of the large natural variability of climate, scientists do not
expect temperatures to rise consistently year after year. However, they do
expect a continuing temperature rise over decades.
The first 11 years of the 21st century experienced notably higher
temperatures compared to the middle and late 20th century, Hansen said. The
only year from the 20th century in the top 10 warmest years on record is 1998.
Higher temperatures today are largely sustained by increased atmospheric
concentrations of greenhouse gases, especially carbon dioxide. These gases
absorb infrared radiation emitted by Earth and release that energy into the
atmosphere rather than allowing it to escape to space. As their atmospheric
concentration has increased, the amount of energy "trapped" by these
gases has led to higher temperatures.
The carbon dioxide level in the atmosphere was about 285 parts per
million in 1880, when the GISS global temperature record begins. By 1960, the
average concentration had risen to about 315 parts per million. Today it
exceeds 390 parts per million and continues to rise at an accelerating pace.
The temperature analysis produced at GISS is compiled from weather data
from more than 1,000 meteorological stations around the world, satellite
observations of sea surface temperature and Antarctic research station
measurements.
A publicly available computer program is used to calculate the
difference between surface temperature in a given month and the average
temperature for the same place during 1951 to 1980. This three-decade period
functions as a baseline for the analysis.
The resulting temperature record is very close to analyses by the Met
Office Hadley Centre in the United
Kingdom
National Climatic Data Center in Asheville ,
N.C.
Hansen said he expects record-breaking global average temperature in
the next two to three years because solar activity is on the upswing and the
next El Nino will increase tropical Pacific temperatures. The warmest years on
record were 2005 and 2010, in a virtual tie.
"It's always dangerous to make predictions about El Nino, but it's
safe to say we'll see one in the next three years," Hansen said. "It
won't take a very strong El Nino to push temperatures above 2010."
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