Global warming
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Large and rapid climatic changes affecting the atmospheric and oceanic circulation and temperature, and the hydrological cycle, occurred during the last ice age and during the transition towards the present Holocene period (which began about 10,000 years ago). Based on the incomplete evidence available, the projected change of 3 to 7°F (1.5 - 4°C) over the next century would be unprecedented in comparison with the best available records from the last several thousand years.
Is sea level rising?
Global mean sea level has been rising at an average rate of 1 to 2 mm/year over the past 100 years, which is significantly larger than the rate averaged over the last thousand years. Projected increase for the
21st century is about 0.5 meter, but estimates range widely.
Can the observed changes be explained by natural variability, including
changes in solar output?
Some changes, particularly part of the pre-1960 temperature record, show some relationship with solar output, but the more recent warm era is not well correlated. The exact magnitude of purely natural global mean temperature variance is not known precisely, but model experiments excluding solar variation indicate that it is likely less than the variability observed during this century.
Global Warming or Global Cooling the Threat for the Future?
Has the climate of the United States changed significantly during the
century that is about to end? In what ways and by how much? Have national
trends emerged that agree--or perhaps disagree--with what is expected from
projections of global greenhouse warming? These are questions addressed in
a report entitled "Trends in U.S. Climate during the Twentieth Century," by
Thomas R. Karl, Richard W. Knight, David R. Easterling, Robert G. Quayle
who serve on the scientific staff of the National Oceanic and Atmospheric
Administration's National Climatic Data Center (NCDC), in Asheville, North
Carolina. Thomas "The challenge to the climatologist is to separate any
meaningful signals from ever-present noise, and to discern, if possible, whether there is indeed at work the sometimes slow and subtle hand of
significant change. The second task, which is even harder, is to identify, unequivocally, the cause," according to the scientists was the focus of
their study.
"Before such questions can be answered, we need to remind ourselves that
'climate', as it is defined for a specific region and time, includes more
than the simple average of weather conditions. Either random events or long-
term persistent change, or more often combinations of them, can bring about
significant swings in a variety of climate indicators from one time period
to the next. Examples include a year dominated by severe drought and the
next excessively wet; a series of bitterly cold winters followed by winters
more mild; one scorching summer preceded by a summer pleasantly warm; years
with numerous severe storms followed by years with few severe storms. The
temptation at each time and place is often to attribute any of these
temporal and sometimes local variations to a wider and more pervasive
change in climate..."
GREENHOUSE WARMING
In their assessment they noted that the so-called "greenhouse" gases "have
all been markedly increasing in amount since about the time of the
industrial revolution, that began in earnest some 150 years ago. The
largest and best-known contributor is carbon dioxide, originating
principally from the burning of wood and coal and petroleum derivatives.
However, other climatic trends include "changes in the composition of the
atmosphere in ways that act to cool the surface temperature. This includes
the anthropogenic decrease of stratospheric ozone, and an increase in
anthropogenic microscopic sulfate particles, often readily apparent during
the warm season as smog. The effect of these additional atmospheric
constituents on global climate is less certain than that of the better
known greenhouse gases, but models suggest that in some areas they may have
already acted to significantly retard greenhouse warming. It is important
to note, however, that the global-scale warming predicted in climate
modeling experiments from future greenhouse gas increases is substantially
larger on a global average than the regional cooling expected from these
other sources.
Measurements of past and current levels of carbon dioxide and other
greenhouse gases indicate that we should have already increased the global
greenhouse effect by man-made, or anthropogenic additions, by nearly 40% in
the last 150 years. If these changes were the only process of importance, then the same mathematical climate models suggest that the average global
surface temperature should have risen by about 1° C during this time.
Available climate data suggest that the mean global temperature has indeed
risen, but unsteadily and by only about half that amount.
"Confounding any search for anthropogenic effects are the natural changes
and variations of climate that will constantly add to or subtract from the
expected signal. Examples include changes in upper atmospheric steering
winds (commonly known as the jet stream) due to ocean-atmosphere
interactions; changes in the circulation of the ocean that can influence
air temperatures; effects of major volcanic eruptions; feedbacks from
changes in the land surface, as in soil moisture, snow cover, and plant
cover; and changes in the energy received from the Sun.
PRECIPITATION AND DROUGHT
Another factor in the climatic equation is precipitation and drought.
Studies indicate that, "since about 1970 precipitation has tended to remain
above the twentieth century mean, averaging about 5% higher than in the
previous 70 years. Such an increase hints at a change in climate.
Statistical analysis suggests that the change is unusual, but there is
still about a 10% chance that such a change could arise from a stable or
quasi-stationary climate without any real long-term changes."
TEMPERATURE
While during the 1930's there was a sharp rise in temperature, there was a
modest cooling trend from the 1950's to the 1970 when the temperature began
to rise again. There has been a rise in temperature since the 1970's . The
report states, " A straightforward statistical average of mean temperatures
across the U.S. gives evidence of a rise through the century of about 0.3
to 0.4° C (0.6 to 0.8° F), although so crude a characterization of mean
temperature change in the U.S. would be indeed a gross oversimplification."
"The increase in annual temperatures after the 1970s is mainly the result
of significant increases of temperature during the first six months of the
year (winter and spring). Temperatures during summer and autumn have
changed little after dropping from conditions of the warm 1930s. Unusually
high precipitation and cloud amount tend to cool the air, especially during
the second half of the year. It is rare to find much above normal
precipitation and cloud amount during these two seasons when temperatures
are higher than normal.
"On a regional basis the West contributes most to the increase of annual
average nation-wide temperatures. As with drought and excessive moisture, portions of the country can be extremely cold at the same time that others
are unusually warm, leading to an average national temperature that is near-
normal. Similarly, abnormally high daytime maximum temperatures can occur
while nighttime temperatures remain below normal, or vice-versa, although
these are not usually the case."
TROPICAL STORMS
"Changes and variations of destructive storms are of particular interest
because of their socio-economic and biophysical impact. Reliable records of
the number and intensity of tropical hurricanes that reach the U.S. go back
to at least 1900.Based on a commonly used classification of hurricane
intensity, the studies indicates that the frequency of these violent storms
that make landfall in the U.S. has been relatively low over the past few
decades, as compared to the middle of the century. The decline is reflected
in both the total number of hurricanes making landfall in the U.S. and in
the occurrence of more destructive storms. It is difficult to discern any
long-term trend however, since the frequency of hurricanes was also low in
the early part of the century. Furthermore, recent studies indicate that
even if significant greenhouse induced warming were to occur, it is
doubtful whether increases in tropical storms would be detectable due to
the large natural variability in these storms."
CHANGES IN CIRCULATION
Another factor the climatologists have studied are changes in circulation
over the past few decades. Since the winter of 1976-77, the sea-surface
temperatures in the central and eastern equatorial Pacific have remained
anomalously warm. The report states:"Such events have been directly linked
to increased precipitation in the southeastern U.S. and warmer than normal
temperatures in the Pacific Northwest. During these same years a large-
scale redistribution of atmospheric mass has taken place in the North
Pacific, associated with a change of the upper-level steering winds over
the North Pacific and North America. El Niс o events (and their opposition
phases, La Niс a events) have been quantitatively linked to the 1988
drought, to increased precipitation in the South, and to other abnormal
temperature conditions in the U.S. Variations in the circulation of the
North Atlantic Ocean have also directly influenced the eastern U.S. climate
in the form of stronger than normal winds over these regions that seem to
oscillate on decadal time-scales. Such oscillations have been linked to
colder than normal temperatures in the region."
CLIMATE CHANGE INDICES
"Most readers will by now agree that it is difficult to draw a simple
picture that summarizes the many parameters and multidimensional aspects of
observed climate change and variability, no matter how complete the record.
One approach toward simplification might be to consider only long-term
measurements of a few near-surface conditions: temperature and
precipitation, for example, are two primary elements of climate that affect
many aspects of our lives. But neither tells the whole story.
CONCLUSIONS
"Several indicators stand out most conspicuously in the picture of surface
climate variations and changes in the U.S. over the past century. These
include the rather steady increase in precipitation derived from extreme 1-
day precipitation events; the systematic decrease in the day-to-day
variations of temperature; and the increased frequency of days with
precipitation. Trends in other indicators of climate change are now neither
sufficiently large nor persistent enough to be considered as strongly
suggestive of systematic change, even though it remains a likely
explanation. These include the increase of total precipitation and the
related increase in cloud amount, as well as an overall increase in mean
temperature. The area of the country that has experienced an increase in
mean temperature has risen while the proportion of the country with much
below normal mean minimum temperatures has decreased. Many of these
indicators appear to have undergone significant change during the late
1970s and have more or less remained at these levels to the present. In
contrast, other surface climate change indicators (such as the frequency of
tropical cyclones) reflect the kind of climatic variability that is
completely consistent with the premise of a stable or unchanging climate.
The increase in temperature across the U.S. in this century is slightly
smaller, but of comparable magnitude to the increase of temperature that
has characterized the world as a whole. The increase in minimum temperature
and the related increase in area affected by much above normal minimum
temperatures are also found in many other countries of the northern
hemisphere. Worldwide precipitation over land has changed little through
the twentieth century; increases noted in high latitudes have been balanced
by low-latitude decreases. By comparison, the change in precipitation in
the U.S. is still relatively moderate compared to some of the increases and
decreases at other latitudes. Decreases in the day-to-day differences of
temperature observed in the U.S. are also apparent in China and Russia, the
only other large countries analyzed as of this date. The persistent
increase in the proportion of precipitation derived from extremely heavy
precipitation has not been detected in these other countries.
Global warming
Introduction in Global warming
“Global warming” has been introduced by the scientific community and the
media as the term that encompasses all potential changes in climate that
result from higher average global temperatures. Hundreds of scientists from
many different countries are working to understand global warming and have
come to a consensus on several important aspects. In general, Global
warming will produce far more profound climatic changes than simply a rise
in global temperature.
A recent study by an international panel of scientists suggested that if trends in current emissions of greenhouse gases and aerosols continue, the globe may warm by an average of 2°C by the year 2100. The average rate of warming would probably be greater than any seen in the last 10,000 years
An analysis of temperature records shows that the Earth has warmed an
average of 0.5°C over the past 100 years. This is consistent with
predictions of global warming due to an enhanced greenhouse effect and
increased aerosols. Yet, it could also be within acceptable limits for
natural temperature variation. The twelve warmest years of the twentieth
century have occurred since 1980. The Earth’s warmest years since 1861 have
been: 1981, 1983, 1987, 1988, 1989, 1990, 1991, 1994, 1995, 1996, 1997 and
1998. 1997 and 1998 were the two warmest years recorded during that period.
This lends support to the assumption that the Earth’s climate is warming.
However, it may take another decade of continued increases in global
temperatures to provide conclusive evidence that the world’s climate is
warming as a result of the enhanced greenhouse effect.
Global surface air temperature in 1997 was warmer than any previous year this century, marginally exceeding the temperature of 1995. Part of the current global warmth is associated with the tropical El NiЯo, without which a record global temperature would probably not have occurred.
Global surface temperatures in 1998 set a new record for the period of
instrumental measurements, report NASA/GISS researchers who analyzed data
collected from several thousand meteorological stations around the world.
The global temperature exceeded that of the previous record year, by such a
wide margin that the 1998 calendar year is certain to also set a new
record. The United States experienced in 1998 its warmest year in the past
several decades. As for the Russia, global surface air temperatures in 1997-
98 were not warmer than previous years.
Until recently, researchers were uncertain whether Climate developments
reflected natural variations in the Earth, or whether in fact human
activities contributed to the warming. The latest observed data reveals
some striking trends:
- All 10 of the warmest years on record have occurred in the last 15 years.
- The 1990s have already been warmer than the 1980s - the warmest decade on
record - by almost 0.2°F (0.1°C), according to the Goddard Institute of
Space Studies.
- The global average surface temperature has risen 0.5°-1.1°F (0.3°-0.6°C) since reliable records began in the second half of the 19th century.
In 1995, scientists with the Intergovernmental Panel on Climate Change - the authoritative international body charged with studying this issue- reached a conclusion in the Second Assessment Report, which summarizes the current state of scientific knowledge on global warming, also called climate change.
For the first time ever, the Panel concluded that the observed increase in global average temperature over the last century "is unlikely to be entirely natural in origin" and that "the balance of evidence suggests that there is a discernible human influence on global climate."
The Cause
The Earth's climate is the result of extremely complex interactions among
the atmosphere, the oceans, the land masses, and living organisms, which
are all warmed daily by the sun's energy. This heat would radiate back into
space if not for the atmosphere, which relies on a delicate balance of heat-
trapping gases - including water vapor, carbon dioxide, nitrous oxide, and
methane - to act as a natural "greenhouse," keeping in just the right
amount of the sun's energy to support life.
For the past 150 years, though, the atmospheric concentrations of these gases, particularly carbon dioxide, have been rising. As a result, more heat is being trapped than previously, which in turn is causing the global temperature to rise. Climate scientists have linked the increased levels of heat-trapping gases in the atmosphere to human activities, in particular the burning of fossil fuels (coal, oil, and natural gas for heating and electricity; gasoline for transportation), deforestation, cattle ranching, and rice farming.
But Global Warming has received much press in the past decade. There are
many questions like these ones. Could the earth’s climate really heat up?
What are the causes if such a warming occurs? Is global warming a theory
and thrue or false theory at that?
These questions and more are what climate scientists are asking themselves daily. So, there are two sides to every story and both are discussed in the media.
The Impacts
As the Earth's climate is the result of extremely complex interactions, scientists still cannot predict the exact impact on the earth's climate of
these rising levels of heat-trapping gases over the next century. But there
is striking agreement among most climate scientists about what is likely to
occur. Poureful climate models suggest that the planet will warm over the
next century at a more rapid rate than ever before recorded. The current
best estimate is that if carbon dioxide concentrations double over
preindustrial levels, global average surface temperatures will rise between
1.8° and 6.3°F (between 1° and 3.5°C). According to the scientific possible
scenarios, an atmospheric doubling of carbon dioxide could occur as early
as 2050. Future impacts from this kind of warming will most likely include:
- damage to human health
- severe stress on forests, wetlands, and other natural habitats
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