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Introduction
A review
of the US climate patterns for 2006 is given by
the National Climatic Data Center (NCDC), and the review of global patterns of
change for 2005
are put into perspective of the entire instrumental record. You should read through this summary
to get an overall record of the global mean temperature patterns for the last
127 years.
Global Temperatures
Trends in global mean surface temperatures are best revealed by plotting
temperature "anomalies," which are changes from the long-term (120 year) average
over the period for which we have instrument records.
Global land, ocean, and land-ocean combined surface data (Figure 1) show that the last 4-5 years have been near the record high year of 1998 (an El Niño year). The high temperatures in recent years are observed both over oceans and over land.
Global mean surface temperatures have increased over the past 120 years at a reate near 0.06 C/decade (0.11 F/decade) but with periods of larger and smaller trend. During the past 25 to 3- years this trend has approximately 0.18 C/decade (0.32 F/decade). The most recent period of increasing surface temperatures has a warmning rate comparable to the rates of warming projected by the global climate models using observed changed in greenhouse gases, statospheric ozone concentration, volcanoes, and fluctuations of the output of the sun. This recent trend is expected to continue throughout the next century with continued increases of anthropogenic greenhouse gases.
Temperature measurements above the Eath's surface have been made over the past 50 to 60 years using balloon-borne instruments (radiosondes) and for the past 28 years using satellites. These measurements show that the middle tropospheric temperatures (14 to 22 km above the surface) have been below average since the dissipation of the warming effects from the 1991 Mt. Pinatubo eruption. Depletion of the ozone in the lower statosphere, combine with the effects of rising greenhouse gas concentrations, would lead to lower temperatures int eh stratosphere of magnitude consistent with these observations.
Global Precipitation
Global
mean precipitation over the past
100 years shows a weak resemblance to global temperature history (low at the beginning of the
record, increasing beginning in the 1940s, variable to 1980, and increasing since then. A global
distribution of change from 1900-1994 generally shows
increases at high latitudes and decreases in subtropical areas.
Identifying Climate Change
Over the US, the best record we have for tracking climate change is the United States
Historical Climatology
Network comprised of 1, 221 high-quality stations from the U.S. Cooperative Observing
Network within the 48 contiguous United States. This
USHCN web site also
gives information on quality control and adjustment procedures for reducing biases in the datasets.
A wealth of additional climate data can be found online at the
NCDC . NCDC has prepared
answers to a number of very timely questions:
The Debate Over Evidence
The debate over whether or not the atmosphere is warming has been quite intense
since the late 1990s. Satellite records, with a more limited period than surface temperatures,
suggested that the rapid warming in since 1970 might be artificial, but a subsequent
re-calibration of the temperature data eliminated the differences in the two records.
The "Summary for Policy Makers" of the Intergovernmental Panel on Climate Change Fourth Assessment Report issued in February 2007 produced a strongly worded statement about the role of humans in climate change:
"Changes in climate are now affecting physical and biological sysems on every continent. Effects on human systems, although more difficult to discern due to adaptation and non-climatic drivers, are emerging. Over 99% of obeserved changes in systems and sectors are consisten with regional temperature trends. Many of the changes are now attributed to temperature increase caused by anthropogenic greenhouse gas emissions."
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