45:315 The Enhanced Greenhouse Effect From the end of the last glacial episode about 10Ka up to the...
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Transcript of 45:315 The Enhanced Greenhouse Effect From the end of the last glacial episode about 10Ka up to the...
![Page 1: 45:315 The Enhanced Greenhouse Effect From the end of the last glacial episode about 10Ka up to the mid-eighteenth century, the levels of greenhouse gases.](https://reader034.fdocuments.us/reader034/viewer/2022051619/56649e795503460f94b78d1f/html5/thumbnails/1.jpg)
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The Enhanced Greenhouse Effect
• From the end of the last glacial episode about 10Ka up to the mid-eighteenth century, the levels of greenhouse gases in the atmosphere remained fairly constant.
• Since the Industrial Revolution, concentrations of most of the major greenhouse gases have increased. – The effect of this has been to increase the
greenhouse radiative forcing of the climate.
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The Enhanced Greenhouse Effect
• With more greenhouse gases in the atmosphere, more outgoing terrestrial radiation is trapped in the lower atmosphere, leading, presumably, to increases in surface temperature.– The debate as to whether this pollution of the
atmosphere has increased global surface temperatures is ongoing.
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Greenhouse Feedbacks
• Global Climate Models have estimated the CO2 doubling temperature change to be approximately 1.2°C in the absence of feedback processes. – The existence of feedback loops within the
climate system results in a climate sensitivity of 1.5°C to 4.5°C, and makes an otherwise linear association between radiative forcing and global temperature distinctly non-linear.
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Feedback Ratio
• The effect of feedback can be characterised in terms of the ratio of the temperature change with feedback to that without:
Rf = DT/DTo = Gf/Go = 1/(1-f) • When the net feedback is positive, (1-f) < 1 and Rf > 1
(i.e. the response of the system is amplified/increased). • When the net feedback is negative, (1-f) is > 1 and Rf
< 1 ( i.e. the response of the system is damped/reduced).
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Climate Feedbacks
• Three of the most important direct climatic feedbacks to greenhouse forcing are:– water vapour feedback, – cloud cover feedback and the – ice-albedo feedback.
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Water Vapour Feedback
• The concentration of water vapour in the atmosphere increases rapidly with rising temperature (about 6%/°C).– This is the basis for the strong positive water
vapour feedback in current climate models• increases in temperature produce increases in
atmospheric water vapour which in turn enhance the greenhouse forcing leading to further warming).
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Ice-Albedo Feedback
• A warmer Earth will have less snow and ice cover, resulting in a lower global albedo and consequent absorption of more solar radiation. This, in turn causes a further warming of the climate. – Most GCMs have simulated this positive surface
albedo feedback, but – significant uncertainties exist over the size of the
effect, particularly for sea-ice
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Cloud Feedback
• The effects of changes in cloud on a change of climate have been identified as a major source of uncertainty in climate models – clouds contribute to the greenhouse warming of
the climate system by absorbing more outgoing infrared radiation (positive feedback),
– they also produce a cooling through the reflection and reduction in absorption of solar radiation (negative feedback)
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Net Cloud Feedback
• The presence of cloud cover on Earth reduces the mean global surface temperature by about 7.5oC (compared to a cloud-free Earth).– Increases in cloud cover thus seem to
constitute a net negative feedback to climate change (although the Table of feedback values is not definitive on this).
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The Enhanced Greenhouse Effect
• From the end of the last glacial episode about 10Ka up to the mid-eighteenth century, the levels of greenhouse gases in the atmosphere remained fairly constant.
• Since the Industrial Revolution, concentrations of most of the major greenhouse gases have increased. – The effect of this has been to increase the
greenhouse radiative forcing of the climate.
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Trace Gases
• Most of Earth’s atmosphere is climatically neutral– the really
important gases are present in trace amounts only
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Trends in GHGs
• Since the mid-1800s, – atmospheric levels of carbon dioxide have
increased 30 percent (from 280 parts per million to 360 parts per million),
– the concentration of methane has more than doubled (to about 1.72 parts per million), and
– nitrous oxide levels have increased by a more modest 10-15%.
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The historical data
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Carbon Cycle
• The earth's natural processes continually exchange massive quantities of carbon.– Oceans release about 90 billion tonnes of CO2
into the atmosphere each year. – Decaying vegetation adds another 30 billion
tonnes annually, while– another 30 billion tonnes each year is released
from the natural respiration of living creatures and plants.
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Global Carbon Cycle
Oak Ridge National Laboratory
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Human Sources of CO2
• Human activities add an extra 3% to this natural cycle, or about 7 billion tonnes per year. The majority of human CO2 comes from the burning of fossil fuels.
The residence time of CO2 in the atmosphere is ~100 to 200 years
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45:315 Data Source: Marland et al, 1999. Carbon Dioxide Information Analysis Center.
Cumulative carbon emissions, 1950-1996
7,415
8,504
11,651
15,715
4,235
4,054
2,331
1,361
966
50,795
1,557
2,080
2,118
0 10,000 20,000 30,000 40,000 50,000 60,000
United States
Indonesia
Korea, Rep.
Brazil
Australia
Mexico
South Africa
Canada
India
United Kingdom
Japan
Germany
China
Million tons of carbon
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Carbon Sinks
• At the same time, natural processes - primarily absorption by the oceans and by the photosynthesis process of green plants - remove the natural and much of the human CO2 from the atmosphere. – The net result of this "carbon cycle" is a net
increase of about 3.1 to 3.5 billion tonnes of CO2 annually to the atmosphere.
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More fuel and less trees
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Air is Mobile• While sources of contaminants may be fixed
(or relatively so), air movements and circulation can carry contaminants far and wide:– distance depends on residence time and weather
conditions;
– we find industrial chemicals (such as PCBs) in the Arctic and Antarctic;
– we find CO2 all over the globe
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Atmospheric Circulation
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Data Source: C.D. Keeling and T.P. Whorf, Atmospheric CO2 Concentrations (ppmv) derived from in situ air samples collected at Mauna Loa Observatory, Hawaii, Scripps Institute of Oceanography, August 1998. A. Neftel et al, Historical CO2 Record from the Siple Station Ice Core, Physics Institute, University of Bern, Switzerland, September 1994. See http://cdiac.esd.ornl.gov/trends/co2/contents.htm
Atmospheric carbon dioxide (CO2):1750 to present
270
280
290
300
310
320
330
340
350
360
370
1750 1800 1850 1900 1950 2000
part
s pe
r m
illio
n vo
lum
e
Siple Station (1750-1970)
Mauna Loa (1958-present)
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Methane
• Unlike carbon dioxide, methane is destroyed by reactions with other chemicals in the atmosphere. – Its approximate lifetime is
about 10 years.
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Methane Potential
• On the other hand, on a molecule-for-molecule basis, methane is a much greater absorber of energy than carbon dioxide. – As a greenhouse gas, a methane molecule is
more than 20-times more potent than than a carbon dioxide molecule.
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Nitrous Oxide
• As a greenhouse gas, its major source is the bacterial breakdown of nitrogen compounds in soils. – When land is deforested and then cultivated,
nitrous oxide emissions can increase, particularly if nitrogen-containing fertilizers are used.
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Nitrous Oxide Potential
• Nitrous oxide is even more potent than methane as a greenhouse gas. – A nitrous oxide molecule may be as much as
300 times more potent than a molecule of carbon dioxide.
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Ozone
• Ozone is a molecule made up of three oxygen atoms (normal atmospheric oxygen has two oxygen atoms bound in each molecule). – At high altitudes in the stratosphere, ozone
forms a protective layer, shielding the Earth's inhabitants from potentially harmful ultraviolet radiation.
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Low Level Ozone• At lower levels, however, ozone can form a relatively
short-lived greenhouse gas. – The gases responsible for low-level ozone are carbon
monoxide and nitrogen oxides (from vehicle emissions), methane and other HCs.
• Ozone is not particularly stable in the lower atmosphere and breaks down in a few days or weeks. – Its transient nature makes it difficult to estimate its
contribution to the greenhouse effect.
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CFCs
• Molecule for molecule, chlorofluorocarbons are the most potent of greenhouse gases.– CFC-12 or "Freon-12" as it is known by its
trade name, is 17,700 times more potent than carbon dioxide.
– Although they exist in only minute quantities in the atmosphere, CFCs are thought to be responsible for about 20% of the enhanced greenhouse effect.
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Aerosols
• A suspension of liquid or solid matter in air– These microscopic particles act as nuclei for water
droplets to collect and form clouds.– Clouds reflect sunlight back into space, cooling
the planet. – Sulphate aerosols are the most important category.
They originate from sulphur dioxide (SO2) which is emitted largely from the burning of coal.
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Sulphate Aerosols
Tg/yr %Fuel Combustion 77.6 75.9Biomass Burning 2.3 2.2Volcanoes 9.6 9.4Marine Biosphere 11.9 11.6Land Biosphere 0.9 0.9Total 102.3
The climatic effects of sulphate aerosols is estimated to be comparable to the present forcing due to increased GHGs (but in the opposite direction)
Residence time is quite brief (months) but emission rates are quite high
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Sulphate Aerosols are regional
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Global Warming Potential
• The concept of a Global Warming Potential (GWP) has been developed to compare the effect of each greenhouse gas in trapping heat in the atmosphere relative to another gas.– Carbon dioxide was chosen as the reference gas
by the IPCC.
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Global Warming Potential
• The GWP of a greenhouse gas is the ratio of global warming, or radiative forcing – both direct and indirect – from one kg mass of a greenhouse gas to that of one kg mass of carbon dioxide over a period of time. – While any time period can be selected, the 100
year GWP recommended by the IPCC has generally been used. GWP values are listed in the following Table.
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Global Warming Potential
• GWP depends on:– radiative properties of the gases– atmospheric lifetime– existing concentration in the atmosphere
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Net Radiative Forcing =
CO2 1CH4 21N2O 300CFCs 3500-7500
+
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Relative Radiative Forcing of 1990 Emissions
GWP Emissions (Tg) Rel ContCO2 1 26000 60%CH4 21 300 15%N2O 290 6 5%CFCs, etc 3500-7500 0.1 20%
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Ozone Hole
• The ozone hole is a well-defined, large-scale destruction of the ozone layer over Antarctica that occurs each spring. – The word "hole" is a misnomer; it is really a
significant thinning, or reduction in ozone concentrations, which results in the destruction of up to 70% of the ozone normally found over Antarctica.
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• In the stratosphere, UV radiation breaks down CFC molecules, releasing atomic chlorine. A free chlorine atom reacts with an ozone molecule, converting it from O3 to O2.
Cl + O3 = ClO + O2
Cl + O
Cl + O3 = ClO + O2
Unstable