2. Virtual sunlight: The LED screen shows the rising sun in Tiananmen Square which is shrouded with heavy smog on January 16, 2014 in Beijing, China. Beijing Municipal Government issued a yellow smog alert this morning Read more:

3. Devastating effects of pollution in China 2012 (13 min)
China air pollution to America 2 min
Common Air pollutants and their source (7min)
Health Care and Air Pollution
Intro to air pollution

4. This lecture will help you understand:
The Earth’s atmosphere
Outdoor pollution and solutions
Stratospheric ozone depletion
Acidic deposition and consequences
Indoor air pollution and solutions

5. Central Case: Charging toward cleaner air in London
London has had bad air pollution for centuries that has killed thousands
Today, smog from traffic is a problem
The “congestion-charging” program charges drivers to drive into central London during the week
Congestion decreased, fewer accidents occurred and the air became cleaner

6. The atmosphere
Atmosphere = the thin layer of gases that surrounds Earth
Absorbs radiation and moderates climate
Transports and recycles water and nutrients
78% nitrogen gas, 21% oxygen gas, 1% other gases
Its four layers differ in temperature, density and composition
Minute concentrations of permanent (remain at stable concentrations) and variable gases (varying concentrations)
Human activity is changing the amounts of some gases

7. The atmosphere’s composition

8. The first two layers of the atmosphere
Troposphere = bottommost layer
Air for breathing, weather
Temperature declines with altitude
Tropopause = limits mixing between troposphere and the layer above it
Stratosphere = km (7-31 mi) above sea level
Drier and less dense, with little vertical mixing
Colder in its lower regions
Contains UV radiation-blocking ozone, km (10-19 mi) above sea level

9. The two highest levels of the atmosphere
Mesosphere = km (31-56 mi) above sea level
Extremely low air pressure
Temperatures decrease with altitude
Thermosphere = atmosphere’s top layer
Extends upward to 500 m (300 mi)

10. The atmosphere’s four layers

11. Atmospheric properties
Atmospheric pressure = measures the force per unit area produced by a column of air
Decreases with altitude
Relative humidity = the ratio of water vapor a given volume of air contains to the amount it could contain at a given temperature
Temperature = varies with location and time

12. Air masses have different atmospheric pressures
High-pressure system = air that moves away from a center of high pressure as it descends
Brings fair weather
Low-pressure system = air moves toward the low atmospheric pressure at the center of the system and spirals upward
Clouds and precipitation

13. Air masses produce weather
Front = the boundary between air masses that differ in temperature, moisture, and density
Warm Front = the boundary where warm moist air replaces colder, drier air
Cold Front = the boundary where colder, drier air displaces warmer, moister air

16. The atmosphere drives weather and climate
Weather = specifies atmospheric conditions over short time periods and within a small geographic areas
Climate = describes patterns of atmospheric conditions across large geographic regions over long periods of time
Mark Twain said “Climate is what we expect; weather is what we get”

17. Solar energy heats the atmosphere
The spatial relationship between the Earth and sun determines the amount of solar energy striking the Earth
Energy from the sun
Heats air
Moves air
Creates seasons
Influences weather and climate
Solar radiation is highest near the equator

18. Solar energy creates seasons
Because the Earth is tilted
Each hemisphere tilts toward the sun for half the year
Results in a change of seasons
Equatorial regions are unaffected by this tilt, so days average 12 hours through the year

20. Solar energy causes air to circulate
Air near Earth’s surface is warmer and moister than air at higher latitudes
Convective circulation = less dense, warmer air rises and creates vertical currents
Rising air expands and cools
Cool air descends and becomes denser, replacing warm air
Influences both weather and climate

21. The atmosphere
Convective currents contribute to climatic patterns and affect moisture distribution
Hadley cells = near the equator, surface air warms, rises, and expands
Releases moisture and heavy rainfall near the equator
Ferrel cells and polar cells = lift air
Creates precipitation at 60 degrees latitude north and south
Causes air to descend at 30 degrees latitude

22. Climate patterns and moisture distribution
Global Circulation (1:56) Hadley Cells Corriolus Effect)

23. Global wind patterns
The atmospheric cells interact with Earth’s rotation to produce global wind patterns
As Earth rotates, equatorial regions spin faster
Coriolis effect = the north-south air currents of the convective cells appear to be deflected from a straight path
Results in curving global wind patterns

24. Wind patterns Doldrums = near the equator Few winds
Trade winds = between the equator and 30 degrees latitude
Blow from east to west
Westerlies = from 30 to 60 degrees latitude
Originate from the west and blow east
People used these winds to sail their ships across the ocean

25. Deserts of the world and 30

26. Thermal inversion
Usually, tropospheric air temperature decreases as altitude increases
Warm air rises, causing vertical mixing
Thermal inversion = a layer of cool air occurs beneath a layer of warmer air
Inversion layer = the band of air in which temperature rises with altitude
Denser, cooler air at the bottom of the layer resists mixing
Temperature Inversion Lab Video 2:50
Inversion Layer over Bergen 1:53
Good Inversion animation 1min

27. Outdoor air pollution
Most Polluted Cities l
Air pollutants = gases and particulate material added to the atmosphere
Can affect climate or harm people
Air pollution = the release of pollutants
Outdoor (ambient) air pollution = pollution outside
Has recently decreased due to government policy and improved technologies in developed countries
Developing countries and urban areas still have significant problems

28. Natural sources pollute: dust storms
Dust storms = Hundreds of millions of tons of dust are blown westward across the Atlantic Ocean by trade winds every year
From Africa to the Americas
Unsustainable farming and grazing, erosion and desertification

29. Natural sources pollute: volcanoes
Release large quantities of particulate matter, sulfur dioxide & other gases
Can remain for months or years
Aerosols = reflect sunlight back into space and cool the atmosphere and surface

30. Natural sources pollute: fires
Pollutes atmosphere with soot and gases
Over 60 million ha of forests and grasslands burn per year
Severe fires are caused by human interaction
Cleared forests, harsh droughts, and climate change (El Niño)

31. Types of outdoor air pollution
Air pollution can come from mobile or stationary sources
Point Sources = specific spots where large quantities of pollutants are discharged (power plants and factories)
Nonpoint Sources = more diffuse, consisting of many small sources (automobiles)
Primary Pollutants = directly harmful and can react to form harmful substances (soot and carbon dioxide)
Secondary Pollutants = form when primary pollutants interact or react with constituents or components of the atmosphere (tropospheric ozone and sulfuric acid)

32. Differentiate between primary and secondary pollutants.
Primary pollutants are emitted into the troposphere in a form that is directly harmful.
Secondary pollutants are harmful substances produced when primary pollutants interact or when they react with the normal constituents of the atmosphere.

33. Legislation addresses pollution
Congress passed a series of laws starting in 1955
The Clean Air Act of 1970
Sets standards for air quality, limits on emissions
Provides funds for pollution-control research
Allows citizens to sue parties violating the standards
The Clean Air Act of 1990
Strengthens standards for auto emissions, toxic air pollutants, acidic deposition, stratospheric ozone depletion
Introduced emissions trading

34. The EPA sets standards
Environmental Protection Agency (EPA) sets nationwide standards for emissions of toxic pollutants
States monitor air quality and develop, implement, and enforce regulations within their borders
If a state’s plans for implementation are not adequate, the EPA can take over enforcement

35. History of Federal Atmospheric Pollution Regulation
Air Pollution Control Act of 1955
Money allocated to states to improve air quality
Clean Air Act of 1963
Allowed states to set standards (Standards were different for different states.)
Air Quality Control Act of 1967
Divided the country into Air Quality Control Regions (AQMD) and defined methods for setting standards. Only regulates stationary sources (not mobile sources)

36. History of Federal Atmospheric Pollution Regulation
Clean Air Act of 1970
Goals
Protect Public health from air pollution
Limit the effects of air pollution on the environment
Established National Ambient (outdoor) Air Quality Standards (NAAQS) for six criteria pollutants
Clean Air Act Revisions 1990
Addressed Acid Rain, VOC’s, CFC’s
Clean Air Act Revisions 2009
Addressed Greenhouse gas emissions allowing the government to regulate automobile emissions through CAFÉ standards

37. Criteria pollutants: carbon monoxide
Criteria pollutants = pollutants judged to pose especially great threats to human health
Carbon monoxide (CO)
A colorless, odorless gas
Produced primarily by incomplete combustion of fuel
Binds with hemoglobin in red blood cells and blocks the uptake of Oxygen.
Causes drowsiness, brain damage and death.
Poses risk to humans and animals, even in small concentrations

38. Criteria pollutants: sulfur and nitrogen dioxide
Sulfur dioxide (SO2) = colorless gas with a strong odor
Emissions from combustion of coal and petroleum in electricity generation and industry
Can form acid precipitation (affects pH of lakes, streams and soil, affects soil cation exchange capacity)
Nitrogen dioxide (NO2) = highly reactive, foul smelling reddish brown gas
Nitrogen oxides (NOx) = nitrogen and oxygen react at high temperatures
Vehicle engine and industrial combustion, electrical utilities
Contributes to smog and acid precipitation

39. Criteria pollutants: tropospheric ozone
Tropospheric ozone (O3) = a colorless gas with a strong odor
A secondary pollutant
Results from interactions of sunlight, heat, nitrogen oxides, and volatile carbons (VOC’s)
A major component of smog
Poses a health risk as a result of its instability
Reacts with animal tissues creating pain in most sensitive tissues like lungs, eyes, nose, etc.
Reacts with synthetic carbon compounds like tires, plastics, and latex.

40. The “Urban Heat Island Effect” and Ozone
Ozone is a bigger problem in cities because the increased amount of cement and asphalt and fewer trees creates a “Heat Island” effect that increases the formation of Ozone.

41. Criteria pollutants: particulate matter and lead
Particulate matter = solid or liquid particles suspended in the atmosphere
Primary pollutants: dust and soot
Secondary pollutants: sulfates and nitrates
Damages respiratory tissue when inhaled
Smallest particles PM 2.5 can enter the blood directly and pass into tissues like the brain.
Most is wind-blown dust
Some particulates form aerosols that decrease primary productivity by limiting the availability of sunlight for plants
Lead = particulate pollutant added to gas and used in industrial metal smelting
Bioaccumulates and causes nervous system malfunction
Banned in gasoline in developed, but not in developing countries

44. Take the Six Criteria Pollutant Quiz: http://www. epa

45. Areas in the U.S. fail air quality standards
“Non-Attainment Areas”
More than 100 million people live in counties that violate
EPA levels

46. Agencies monitor pollutants
State and local agencies also monitor, calculate, and report to the EPA the emissions of pollutants
Four criteria pollutants: carbon monoxide, sulfur dioxide, particulate matter, and lead
All nitrogen oxides
Not tropospheric ozone (no emissions to monitor)
Volatile organic compounds (VOCs) = carbon-containing chemicals used emitted by vehicle engines and industrial processes
Southern California AQMD

47. Reasons for the decline in U.S. pollution
Cleaner-burning vehicles and catalytic converters decrease carbon monoxide
Permit-trading programs and clean coal technologies reduce SO2 emissions
Scrubbers = technologies that chemically convert or physically remove pollutants before they leave the smokestacks
Phaseout of leaded gasoline
Improved technologies and federal policies

48. Formation of Ozone and PANs (The role of combustion, light and VOCs)
Heat of Combustion
Heat of combustion from car engines, furnaces and power plants form NO2
NO2
UV Light
NO + O
UV Light from sunlight will breakdown the NO2
O + O2 O3
The lone oxygen atom will react with naturally occurring oxygen to form ozone
O3+ NO
NO2+O2
Normally, the Ozone would react with the NO from reaction 2 and break down into Oxygen
VOCs +NO
PANs
However, the VOCs Remove NO allowing the Ozone to accumulate and also producing toxic PANs

49. Formation of PANs (Peroxyacytyl nitrate)
Hydrocarbons + O2 + NO2 + light → CH3COOONO2
PANs are both toxic and irritating, as they dissolve more readily in water than ozone.
They are lachrymators, causing eye irritation at concentrations of only a few parts per billion.
At higher concentrations they cause extensive damage to vegetation.
Both PANs and their chlorinated derivates are said to be mutagenic, as they can be a factor causing skin cancer.

50. Photochemical Smog devolopment

51. Ozone development

52. Catalytic Converter
Required in automobile emission systems to remove Nitrous Oxides, CO and excess Hydrocarbons from the emissions.
Requires Platinum

53. U.S. air pollution
In 2006, the U.S. emitted 137 million tons of the six major pollutants

54. Air pollution has decreased since 1970
Total emissions of the six monitored pollutants have declined
Despite increased population, energy consumption, miles traveled, and gross domestic product

55. Toxic substances also pollute
Toxic air pollutants = substances known to cause cancer; reproductive defects; or neurological, development, immune system, or respiratory problems
Some are produced naturally: hydrogen sulfide
Most are produced by humans: smelting, sewage treatment, industry
Not monitored as closely as the six criteria pollutants
Monitoring is improving

56. Recent policies have been contentious
President G.W. Bush has pushed proposals that would overturn key aspects of legislation
New source reviews = old utility plants have to install the best available technology when upgrading
The Bush administration proposed abolishing this requirement and dropped lawsuits against violators
Clear Skies Initiative = establishes a market-based can-and-trade program for some pollutants
Stopped in the Senate, because it would increase pollution
The EPA had skewed its analysis to promote the legislation

57. Burning fossil fuels produces industrial smog
Smog = unhealthy mixtures of air pollutants over urban areas
Industrial (gray air) smog = industries burn coal or oil
Occurs in cooler, hilly areas
Government regulations in developed countries reduced smog
Coal-burning industrializing countries face significant health risks

58. What is the main cause of industrial smog?
Burning Fossil Fuels

59. Photochemical (brown air) smog
Produced by a series of reactions
Hot, sunny cities surrounded by mountains
Light-driven reactions of primary pollutants and normal atmospheric compounds
Morning traffic exhaust releases pollutants
Irritates eyes, noses, and throats
Vehicle inspection programs in the U.S. have decreased smog

60. Industrial smog
Photochemical smog
17.16

63. Industrial Smog vs. Photochemical Smog
Chemicals and Particulates from point sources (Factories)
Burning Fossil Fuels
Photochemical Smog
Smog from atmospheric reactions with sunlight or UV radiation

64. Air quality is a rural issue, too
Airborne pesticides from farms
Industrial pollutants drifting from cities, factories and powerplants
Feedlots, where cattle, hogs, or chickens are raised in dense concentrations
Voluminous amounts of methane, hydrogen sulfide, and ammonia
People living or working nearby have high rates of respiratory problems

65. Industrializing nations face increasing pollution
Outdoor pollution is increasing
Factories and power plants do not control emissions
Citizens burn traditional fuels (wood and charcoal)
China has the world’s worst air pollution
80% of Chinese cities have emissions above the safety threshold
Asian brown cloud = a 2-mile thick layer of pollution that reduces sunlight, affects climate, decreases productivity, and kills thousands each year

66. Synthetic chemicals deplete stratospheric ozone
Ozone layer = ozone in the lower stratosphere
12 ppm concentrations effectively block incoming damaging ultraviolet radiation
Chlorofluorocarbons (CFCs) = chemicals that attack ozone
1 million metric tons/year were produced
Releases chlorine atoms that split ozone

67. The hole in the ozone
Ozone hole = ozone levels over Antarctica had declined by 40-60%
Depletion also in the Arctic and globally
Causes skin cancer, harms crops and decreases ocean productivity

68. One CFC molecule can destroy 100,000 molecules of ozone.

70. The Montreal Protocol addressed ozone depletion
Montreal Protocol (1987) = 180 nations agreed to cut CFC production in half
Follow-up agreements deepened cuts, advanced timetables and addresses other ozone-depleting chemicals
Today, production and use of ozone-depleting chemicals has decreased 95%
The ozone layer is beginning to recover
Challenges still face us
CFCs will remain in the stratosphere for a long time
Nations can ask for exemptions to the ban

71. The Montreal Protocol is a success
Considered the biggest environmental success story
Policymakers included industry in helping solve the problem
Implementation of the plan allowed an adaptive management strategy that changed strategies in response to new scientific data, technological advances, and economic figures
The Montreal Protocol can serve as a model for international environmental cooperation

72. Acid deposition is another trans-boundary issue
Acidic deposition = the deposition of acid, or acid-forming pollutants, from the atmosphere onto Earth’s surface
Acid rain = precipitation of acid
Atmospheric deposition = the wet or dry deposition on land of pollutants
Rain with a pH lower than 5.6 is considered Acid Rain

73. Sources of acid deposition
Originates from burning fossil fuels that release sulfur dioxide and nitrogen oxides
These compounds react with water to form sulfuric and nitric acids

74. Effects of acid deposition
Nutrients are leached from topsoil
Soil chemistry is changed
Metal ions (aluminum, zinc, etc.) are converted into soluble forms that pollute water
Widespread tree mortality
Affects surface water and kills fish
Damages agricultural crops
Erodes stone buildings, corrodes cars, erases writing on tombstones

76. pH of precipitation in the U.S.
Many regions of acidification are downwind of major sources of pollution

77. Movement of Pollutants

78. Acid deposition has not been greatly reduced
New technologies such as scrubbers have helped
SO2 emissions are lower
But, NOx emissions are higher
Acid deposition’s effects are worse than predicted
The Clean Air Act cannot restore ecosystems
More must be done to control acid deposition

79. Indoor air pollution
The Environmental Protection Agency estimates that indoor air can be two- to five-times more polluted than the air outdoors.
And while the EPA is responsible for cracking down on outdoor pollution -- the smog, ozone and other chemicals that spew from tailpipes and smokestacks -- protecting the air indoors is largely the responsibility of homeowners. Read more: Purify Air - Surprising Sources of Indoor Air Pollution - Popular Mechanics

80. Indoor air pollution
(2min) (2min) (5min)
Indoor air contains higher concentrations of pollutants than outdoor air
6,000 people die per day from indoor air pollution
The average U.S. citizen spends 90% of the time indoors
Exposed to synthetic materials that have not been comprehensively tested
To reduce heat loss and improve energy efficiency, building ventilation systems were sealed off ventilation and windows put in that did not open, trapping pollutants inside

81. Indoor air pollution in the developing world
Stems from burning
Wood, charcoal, dung, crop wastes
Little to no ventilation
Fuel burning pollution causes an estimated 1.6 million deaths per year
Soot and carbon monoxide
Causes pneumonia, bronchitis, allergies, cataracts, asthma, heart disease, cancer and death

82. Developed World: Tobacco smoke and radon
The most dangerous indoor pollutants in the developed world
Secondhand smoke from cigarettes is especially dangerous
Containing over 4000 dangerous chemicals
Causes eye, nose, and throat irritation
Smoking has declined in developed nations
Radon causes 20,000 deaths a year in the U.S.
A radioactive gas resulting from natural decay of rock; soil; or water, which can seep into buildings
Most homes are now radon resistant

83. Radon risk across the U.S.

84. What is the cause of indoor air pollution?
Some of the biggest problems come from dust, dander, and mites, as well as toxins given off by furniture and rugs.
The two most dangerous indoor pollutants in developed nations are cigarette smoke and radon

85. Volatile Organic Compounds (VOCs)
The most diverse group of indoor air pollutants
Released by everything from plastics and oils to perfumes and paints
Most VOCs are released in very small amounts
Unclear health implications due to low concentrations
Also include pesticides, which are found indoors more often than outdoors due to seepage
Formaldehyde, which leaks from pressed wood and insulation, irritates mucous membranes and induces skin allergies
VOC paints

86. Sources of indoor air pollution

87. Sources of Indoor Air Pollution
Showers with chlorinated water
Formaldehyde from carpets, furniture, foam padding, pressed wood
Bacteria and molds from air ducts.
CO and particulates from fireplaces, wood stoves, candles cigarette smoke
Pollen and dander from flowers and pets
Toxins and VOCs from cleaners, pesticides
VOCs from computers and office equipment
Asbestos from insulation and old floor and ceiling tiles
Lead from old paint
Radon from rocks under the house

88. Living organisms can pollute indoors
Tiny living organisms can also pollute
Includes dust mites and animal dander worsen asthma
Fungi, mold, mildew, airborne bacteria cause severe allergies, asthma, and other respiratory ailments
Sick building syndrome = a sickness produced by indoor pollution with general and nonspecific symptoms
Solved by using low-toxicity building materials and good ventilation

89. EPA Indicators of a “Sick Building”
When people report relief of symptoms (adverse health effects) when outside the building.
When 20% or more of the occupants report some adverse health effect when inside the building.
When occupants report any of the following symptoms

90. When occupants report any of the following symptoms
Chronic respiratory problems/irritation of mucous membranes
• Sinus infection
• Sore throat
• Irritability
• Forgetfulness
• Asthma
• Shortness of breath
• Hypersensitivity and Pneumonitis
• Humidifier fever
• Depression
• Nerve disorders
• Kidney/Liver damage
Ear infections
• Reduced lung function
• Onset of chest pain
• Allergic reactions/responses
• Muscle twitching/tingling sensation
• Headaches
• Rashes/skin irritation
• Eye irritation
• Impaired vision

91. Best solutions for indoor air pollution
Clean ventilation ducts
Increase natural ventilation (open windows)
Purchase products with low VOC’s and synthetic components (Products without formaldehyde)
Prohibit smoking in your house or workplace
Leave a vent space under your house
Keep your pets outside
Use non-toxic cleaners and pesticides
Use low VOC paints and varnishes

92. We can reduce indoor air pollution
In developed countries:
Stop Smoking
Use low-toxicity material (furniture, blankets, paint)
Monitor air quality
Keep rooms clean (without toxic cleaners)
Open windows for ventilation
Limit exposure to chemicals (cleaners, candles, air fresheners)
In developing countries:
Dry wood before burning
Cook outside
Use less-polluting fuels (natural gas)

93. Agency Responsible for Regulation of Indoor Air Pollution in the workplace
OSHA

94. Conclusion Indoor air pollution is a potentially serious health threat
We can significantly minimize risks
Outdoor air pollution has been addressed by government legislation and regulation in developed countries
Reduction in outdoor air pollution represents some of the greatest strides in environmental protection
There is still room for improvement, especially in developing countries

95. QUESTION: Review The major component of Earth’s atmosphere is …
Nitrogen gas
Oxygen gas
Argon gas
Water vapor
Answer: a

96. QUESTION: Review
Ozone in the _________ is a pollutant, but in the ______ is vital for life
Stratosphere, troposphere
Troposphere, stratosphere
Troposphere, tropopause
Stratosphere, thermosphere
Answer: b

97. QUESTION: Review
_____ is defined as the ratio of water vapor in the atmosphere compared to the amount the atmosphere could contain
Atmospheric pressure
Ozonification
Temperature
Relative humidity
Answer: d

98. QUESTION: Review
If you were on a sailing ship going from Europe to the United States, you would want to be in the ________
Doldrums
Trade winds
Westerlies
Polar cell
Answer: c

99. QUESTION: Review The Clean Air Act does all of the following, except:
Allows higher levels of emissions of some criteria pollutants
Provides funds for pollution control research
Allows citizens to sue violators
Sets standards for air quality
Answer: a

100. QUESTION: Review
Which criteria pollutant is colorless, odorless, and poses a risk to humans, even in small amounts?
Sulfur dioxide
Nitrogen dioxide
Tropospheric ozone
Carbon monoxide
Answer: d

101. QUESTION: Review The Montreal Protocol addressed _______
Global warming, and was not successful
Criteria pollutants, and was successful
Ozone depletion, and was successful
Acid deposition, and was successful
Answer: c

102. QUESTION: Interpreting Graphs and Data
What does this graph show about the mesosphere?
It contains the most ozone
It is a very thin layer
Temperature decreases with increasing altitude
Temperature increases with increasing altitude
Answer: c

103. QUESTION: Interpreting Graphs and Data
Which conclusion can you draw from this graph?
Even though population and consumption increased, emissions have decreased
Along with population decreases, emissions have decreased
People have increased emissions, but only slightly
All factors show major decreases
Answer: a

104. QUESTION: Viewpoints
Think of a major city near you. Do you think it should adopt congestion charging (drivers have to pay to drive downtown)?
Yes, if mass transit is available
Yes, but only charge people who do not live in the downtown area
No; it’s my right to drive where ever I want to
I don’t care, because I don’t own a car
Answer: any

105. QUESTION: Viewpoints
Should the government be able to prevent restaurants from allowing smoking, to protect people from secondhand smoke?
Yes; I don’t want to be exposed to this form of pollution
Yes, only if the restaurant agrees
No, let the restaurant owner decide
No; I want to be able to smoke in a restaurant
Answer: any