Transcript Slide 1

Ozone Problem
Lecture-3
Introduction
• That is, the layer of life-protecting ozone found at the top of the
stratosphere. A brief history of the discovery of the ozone 'hole'
is included. The general concepts found in this section include
the following:
– Concentrations of stratospheric ozone represent a balance,
established over eons, between creative and destructive forces
and this balance, or dynamic equilibrium, has been changed by
human activity.
– Ozone is formed in the earth's stratosphere and is critical to life on
earth as we know it.
– There is compelling scientific evidence that ozone is destroyed in
the stratosphere and that some human-released chemicals are
speeding up the breakdown of ozone in the atmosphere.
– CFCs, a human-developed compound, are particularly destructive
to the breakdown of ozone in the atmosphere.
– Ultraviolet radiation is present in natural outdoor light and can be
blocked or filtered by various substances.
Ozone Layer Depletion: Historical Perspective
• The ozone 'hole', it is really not a hole but rather a thinning of
the ozone layer in the stratosphere. We will use the term 'hole'
in reference to the seasonal thinning of the ozone layer.
– The appearance of a hole in the earth's ozone layer over
Antarctica, first detected in 1976.
– 1974: Rowland & Molina theorize CFCs destroy stratospheric
ozone molecules
– 1975: U of M / Harvard papers predict that CFCs deplete Earth’s
ozone layer
– 1985: Ozone holes found over Antarctic
– 1988: Ozone layer thinning over North Pole
– 1993: Thinning over mid-latitudes of the Northern Hemisphere
– 1997: Low values of total ozone occur in Arctic as well as
Antarctic
Antarctic Ozone Hole Progression
1979
1986
1991
CH4 itself is an important greenhouse gas, and links climate with
air pollution via its influence on tropospheric ozone
greenhouse gas
Free Troposphere
hn
O3
NO2
NO
OH
HO2
Hemispheric Pollution
Direct Intercontinental Transport
Boundary layer
(0-2.5 km)
VOC, CH4, CO
NOx
NMVOCs
CONTINENT 1
air pollution (smog)
O3
air pollution (smog)
OCEAN
NOx
NMVOCs
CONTINENT 2
O3
Ozone Layer Depleting Chemicals
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•
•
chlorofluorocarbons (CFCs)
carbon tetrachloride (CCl4)
methyl chloroform (CH3CCl3)
hydrochloric acid (HCl)
methyl chloride (CH3Cl)
methyl bromide(CH3Br)
International Response to Ozone
Layer Depletion
• 1985: United Nations Environment
Program (UNEP)
• 1987: The Montreal Protocol
• 1992: Copenhagen Amendments
• 1998: The Montreal Protocol is affecting
stratospheric chemical composition.
International Response to Ozone
Layer Depletion
• 1999-2000: Stratospheric ozone layer
recovery will be a slow process and extend
into the next century.
• Scientific Assessment of Ozone Depletion:
1994 and 1998 (World Meteorological
Organization).
• Ozone Depletion Web Page:
http://www.epa.gov/ozone
Ozone Layer Depleting Chemicals: Chlorine
CH3Cl & HCl
18%
CCl4
12%
CH3CCl3
10%
HCFC-22
3%
CFC-11
23%
CFC-12
28%
CFC-113
6%
Ozone Layer Depleting Chemicals: CFCs
• CFCs are inert, nonreactive, nontoxic,
nonflammable.
• Human-made CFCs used in:
– refrigeration
– air conditioning
– foam blowing
– cleaning electronic components
– solvents
UV
UV
Cl
CFC
O3
O3
O3
CFCs
CFC Reactions
Deplete Ozone
Layer in
Stratosphere
Ozone Depleting Process
% Deviation from monthly ave.
Global Stratospheric Ozone Layer
Depletion Trend
0
-2
-4
-6
1980
1982
1984
1986
1988
1990
1992
1994
Biological Effects of Ultraviolet Radiation
• Sunburn,Premature Aging & PreCancer
• Cancer of Skin
– Basal and Squamous Cell Carcinoma
– Melanoma
• Cataracts
• Photosensitivity
• Immune system changes
Human Immune System can be
suppressed by ultraviolet radiation
Immunity
humoral
system
B Lymphocyte
cellular
system
T Lymphocyte
Human Immune System can be
suppressed by ultraviolet radiation
B Lymphocyte
T Lymphocyte
Parasites
Immunoglobulins
Cancer
Bacteria-Fungi
Foreign Protein
Viruses
Bacteria
Human Immune System can be
suppressed by ultraviolet radiation
• suppression of immune system
• increased incidence of infection
• promotion of cancer growth
The Skin Cancer Epidemic
• skin cancer is the most common malignancy
in the U.S.
• 1 in 5 Americans will become afflicted
• ~ 1.0 million new cases this year
• rates of skin cancer are rising
3 - 5% per year
The Skin Cancer Epidemic
• Basal cell carcinoma
– most common, least aggressive, locally
destructive
• Squamous cell carcinoma
– more aggressive, can metastasize
• Melanoma
– most aggressive, ~75% of all skin cancer deaths
The Skin Cancer Epidemic
• melanoma is increasing in incidence
faster than any other cancer
• lifetime probability of developing
melanoma is 1 in 75
• 100 new cases of melanoma diagnosed
per day, ~ one death per hour
The Skin Cancer Epidemic Problems
• knowledge: 1/3 of Americans know
that melanoma is a kind of skin cancer
• attitudes: >60% of Americans think
people look better with a tan
• behavior: only 1/4 of the population
use sunscreens regularly
Cataracts of Eyes
• cataracts are when the lens of the eye
becomes cloudy
• 20 million cases worldwide
• account for half of blindness in the world
Good & Bad Effects of Sunlight
Warmth
Sunburn
Premature Aging
Photosynthesis
Pre-Cancer
Vitamin D
synthesis
Cancer
Vision
Cataracts
Phototosensitivity
Kills pathogens
Phototherapy
GOOD
BAD
Immune system
changes
References
• “Environmental Effects of Ozone Depletion.” AMBIO 24
May(1995):137-196.
• Cook, Elizabeth, ed. Ozone Protection in the United States:
Elements of Success. Washington, D.C.: World Resources
Institute,1996.
• UNEP Ozone Depletion Report 1994/98
http://www.gcrio.org/ozone/toc.html
http://www.gcrio.org/UNEP1998/
• Southern Hemisphere Ozone Hole Size
http://www.cpc.ncep.noaa.gov/products/stratosphere/sbuv2to/ozone
_hole.html
• Health and Environmental Effects of Ultraviolet Radiation.
INTERSUN: The Global UV Project. 9 Sep 1998.
http://www.who.int/peh-uv/publications/index.html
• The health impact of solar radiation and prevention strategies.
Report of the Environment Council, American Academy of
Dermatology. J Am Acad Dermatol 1999; 41:81-99.
Think Globally and Act Locally