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Page 1: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

•Meteorological Factors Affecting Air Pollution

•Acid Precipitation

•Air Pollution in Maryland

Air Pollution Outline

5/1/03

Page 2: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

Describe how downdrafts in a severe thunderstorm act tomaintain updrafts. What is a gust front?

In a severe thunderstorm, downdrafts spread out along the ground forcing warm, moist surface air into the thunderstorm, thus maintaining updrafts. A gust front is anoutflow boundary between cool the air of downdraft and warmer surrounding air.

REVIEW QUESTIONS

Page 3: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

List three factors which contribute to the urban heat island

1.Urban building material such as concrete and asphalt absorb greater quantities of solar radiation than vegetationand soils do. 2. City surfaces are impermeable, significantly reducing the evaporation rate3 At night, the building materials in cities release the additional heat they accumulated during the day and thuskeep urban air warmer than that of outlying areas.

Page 4: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

List three steps in providing a weather forecast.

First data is collected and analyzed on a global scale to provide a picture of current state of the atmosphere.Next the NWS employs a variety of techniques to establishthe future state of the atmosphere. Then the forecastis disseminated to the public.

Page 5: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

Tornado formation: roll cloud forms by wind shear

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Roll cloud is lifted by updrafts to form a mesocyclone

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Mesocyclone tightens down into a tornado

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Sources and Types of Air Pollutants

• can be grouped into two categories: primary and secondary.

• Primary pollutants are emitted directly from identifiable sources. They pollute the air immediately upon being emitted.

• Secondary pollutants are produced in the atmosphere when certain chemical reactions take place among primary pollutants.

Page 9: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

The solution to pollution is dilution…NOT TRUE!!!

The two most important atmospheric conditions affecting the dispersal of pollution are: (1) the strength of the wind; (2) the stability of the air.

Boundary layer winds (winds from ~1500 meters down) mix pollutants horizontally while convective mixing dispersespollutants away from source regions.

Meteorological factors

Page 10: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

The concentration of pollutants increases as wind speeddecreases.

Effect of wind speed on dilution

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Temperature profile for a surface inversion

Role of atmospheric stability

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Temperature-profile changes after the Sun has heated the surface .

Role of Atmospheric Stability

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The vertical distance between the Earth’s surface and the heightto which convectional movements extend is called the mixing depth. A deeper mixing depth usually implies better air quality since pollution is more dilute.

Stable air inhibits convective mixing. This leads to shallow mixing depths, which results in increased pollution levels.

Convective mixing is stimulated by the Sun, and therefore, mixing depths are the deepest during the afternoon. Likewise, mixing depths are deeper during the summer than during the winter.

Role of atmospheric stability

Page 14: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

Temperature inversions produce very stable atmospheric conditions in which mixing is greatly reduced. There are two general types of inversions: surface inversions and inversions aloft.

Surface inversions are the result of differential radiative properties of the Earth’s surface and the air above. The Earthis a much better absorber and radiator of energy than air; thus,in the late morning and afternoon hours the lower atmosphere isunstable. The opposite is true in the evening; a stable atmosphere with little vertical mixing prevails.

Role of atmospheric stability

Page 15: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

Inversions aloft are associated with prolonged, severe pollutionepisodes. These types of inversions are caused by the sinking airassociated with the center of high pressure systems (subsidence).As the air sinks it is warmed adiabatically. Turbulence at the verylowest part of the atmosphere prevents subsidence from warmingthat portion of the atmosphere.

Los Angles pollution episodes as well as those over the Mid-Atlantic region are the result of inversions aloft associated with stronghigh pressure systems.

Role of Atmospheric Stability

Page 16: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

Inversion Aloft

Role of Atmospheric Stability

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H

Bermuda high

Page 18: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

The burning of fossil fuels (coal and petroleum products),releases about 43 millions tons of sulfur and nitrogen oxides into the atmosphere over the United States every year.

Acid precipitation

Page 19: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

Robert Angus Smith (1817-1884) was a 19th-century Scottish chemist who investigated numerous environmental issues.

Smith did innovative studies of air and water pollution and was one of the few at the time to realize the importance of findingsolutions to the environmental problems caused by urban growth.He is most famous for his 1852 research on air pollution, in the course of which he discovered acid rain.

Acid Precipitation

Page 20: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

Rain is naturally weakly acidic because CO2 from the atmosphere dissolves in water. Unperturbed rainwater has a pH of near 5. Precipitation near urban areas has amuch lower pH. This rain or snow is called acid precipitation.

Acid Precipitation

Page 21: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

Scientific evidence is mounting that acid-containing aerosols areharmful to human health. It has been known for some time thatacid rain can lower the pH of lakes. Ecosystems are very complex.Different lakes, or different parts of a lake, can react differentlyto acid precipitation. This variation is due in large part to differenttypes of soil matrixes.

If the pH of a lake getstoo low, the ecosystemwill no longer supportmuch of the life withinit.

Effects of Acid Precipitation

Page 22: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

Pollution in the Mid-Atlantic Region

Maryland Department of the Environment

University of Maryland

Pennsylvania State University

Page 23: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

Most Unhealthy Air Quality Days Occur in the Summer Season. Summer Weather in the Mid-Atlantic Can be Characterized by the “4 H’s”

• Hot • Humid• Hazy• High Pressure

These weather conditions occur frequently in mid-Atlantic

summers and are often but not but not alwaysalways associated with unhealthy air quality.

Page 24: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

Pollutants of Concern During PoorAir Quality Events

• Fine Particles

• Haze

• Ozone

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Ozone (O3)

O3 is a colorless gas made up of three oxygen molecules.

In the stratosphere, O3 is present in large concentrations and protects the earth by absorbing harmful UV radiation.

Near the surface, O3 is found in high concentrations in industrialized areas and is harmful to human respiratory systems and to plants and materials.

O3 is not emitted directly into the atmosphere but is formed by a series of reactions.

Page 26: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

• Emissions of O3

“Precursors”• A Sunny Day• Hot Temperatures

(typically in the 90’s)• Moderate or Light

Surface Winds

Recipe for Ozone

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Fine Particles or Particulate Matter (PM)

• PM is made up of suspended particles of either solid or liquid pollutants.

• PM is grouped by size: under 10 microns is called PM10, under 2.5 microns is called PM2.5.

• PM causes increased mortality and morbidity.

• Examples of PM include diesel soot, acids, dust, sulfates, nitrates, and organics.

Page 28: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

Haze

Haze is a subset of PM and is primarily composed of sulfur and nitrogen compounds.

Particles of a certain size can reflect or refract light, causing a reduction in visibility. This reduction in visibility is known as haze.

Hazy conditions occur frequently in conjunction with

severe O3 events.

Page 29: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

An Example of the Effects of Hazein the Mid-Atlantic

The Great Smoky Mountains National Park

A Clear Day A Hazy Day

Photos from www.epa.gov

Page 30: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

A Typical Day in a Pollution Episode

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A Day in a Pollution Episode

• The most severe episodes typically occur over multiple days, building up on the first day and tapering off on the last.

• As an introduction, a day in the “middle” of a pollution episode is discussed.

• While PM, O3 and haze events typically occur in conjunction with one another, we

will focus here on an O3 event.

Page 32: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

In the late night and early morning hours during a pollution episode certain effects are commonly found:

O3 concentrations are at a minimum, particularly near the urban centers.Winds are light and variable.Haze levels are at a maximum with visibility often reduced to a few miles or less.

These effects are due to the development of the nocturnal inversion.

Before Sunrise

Page 33: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

The Nocturnal Inversion

• On clear nights, a temperature inversion develops near the surface.

- Air temperature usually decreases with height. An inversion is a layer of air where temperature increases with height.- Because the layer of air in the inversion is warmer than

the air below it, the cooler air below the inversion cannot rise above it. Pollutants near the surface are therefore trapped below the inversion in the overnight hours.

Page 34: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

Temperature Inversion

Temperature

Temperature Inversion

Alt

itu

de

Pollution trapped below inversion

Page 35: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

What causes the nocturnal inversion?

• While inversions can occur at various levels

in the atmosphere (and we will see more

examples later) and can be due to a variety

of effects, the nocturnal inversion is caused by surface (or radiational) cooling.

Page 36: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

Nocturnal Inversion

After sunset on clear nights, the ground surface cools rapidly. However, air is not a very good conductor of heat. As a result, only the layer of air in the first few hundred meters from the surface cools.

The air further aloft remains warm creating what is called the "nocturnal inversion."

Page 37: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

ABOVE

BELOW•Ozone reacts with substances near to and deposits onto the earth’s surface – its concentration virtually disappears.

•More pollution is released at the surface and is trapped under the inversion – haze increases.

• O3 concentrations remains relatively high.

• Winds are moderate with some localized higher winds.

Nocturnal Inversion

Page 38: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

0

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0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23

Time (EDT)

This hourly O3 graph for a summer day near Frederick,Maryland shows O3 concentrations reaching a minimumin the early morning hours.

O3 Times Series

Page 39: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

Late Morning• The ground heats up the air

beneath the nocturnal inversion. This air becomes warmer than the air aloft, rises and mixes. The inversion layer disappears.

• Ozone and other pollutants above the inversion layer mix with the pollution under the layer

• This causes a dramatic increase in ground-level ozone, beginning around 10 AM

Temperature

Alt

itu

de

Page 40: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

The air that is mixed downward during the late morning and early afternoon hours is typically high in O3 and other pollutants and concentrations are often uniform over large distances.

Regional Scale O3

O3 concentrations along the westernboundary of the I-95 Corridor on

August 17, 1999

Page 41: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

Regional Scale O3

0

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0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23

Time (EST)

Ozo

ne (

ppbv

) So. Carroll

Frederick

Long Park

Ashburn

Little Buffalo

Methodist Hill

In this case from July, 1999, the high elevation monitor at Methodist Hill in southern PA is above the nocturnal inversion. By late morning, mixing has brought all monitors to the common regional level.

Page 42: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

Afternoon• By late morning, downward

mixing of O3 leads to relatively uniform concentrations across the region.

• Local effects, related to emissions available, then dominate in the early afternoon hours.

• O3 is formed as UV radiation drive reactions of O3 precursors.

• Depending on a variety of factors, peak O3 concentrations are reached during the mid to late afternoon hours.

• The highest concentrations occur downwind of the urban center.

Page 43: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

Ozone Map

On this day, windswere generally westor southwest andhighest O3 levels arefound along and eastof the I-95 Corridorwith lower concentrationsnear the city centers.

Page 44: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

The amount of O3 produced each day depends on a variety of factors including:

TemperatureConcentrations of O3 and precursors mixed downward during the late morning. Wind speeds. Local emissions of O3 precursorsAmount of available sunlightDepth of vertical mixing

What modulates O3 concentrations?

Page 45: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

Vertical Mixing Depth

Just as surface-based inversions at night can trap pollutants near the surface, so higher level inversions can form in the afternoon hours and prevent pollution from mixing vertically.

Page 46: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

After Sunset

• If meteorological conditions remain the same, the temperature inversion forms again after dark as the ground cools faster than the air above.

• Ozone concentration above the inversion comes to equilibrium with other pollutants and then remains at a constant, relatively high level.

• Ozone trapped under the inversion reacts with other pollutants, particles and the surface; the ozone concentration diminishes.

Ozone concentration remaining constant

Ozone concentration diminishing

Temperature Inversion

Temperature

Alt

itu

de

Page 47: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

A Multi-Day Pollution Episode

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O3 Profile

Elev (ft)

1,000

2,000

4,000

6,500

Wind

Warmer >><< Cooler Temperature

Assume we start at noon on “Day 1” with a relatively clean air mass

Page 49: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

O3 Profile

Elev (ft)

1,000

2,000

4,000

6,500

Wind

Warmer >><< Cooler Temperature

As the sun sets, the surface begins to cool and a transition takes place

Page 50: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

O3 Profile

Elev (ft)

1,000

2,000

4,000

6,500

Wind

Warmer >><< Cooler Temperature

The surface cooling continues overnight

Page 51: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

O3 Profile

Elev (ft)

1,000

2,000

4,000

6,500

Wind

Warmer >><< Cooler Temperature

On Day 2, the sun rises and the nocturnal inversion begins to erode

Page 52: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

O3 Profile

Elev (ft)

1,000

2,000

4,000

6,500

Wind

Warmer >><< Cooler Temperature

By noon, the nocturnal inversion is gone and any air pollution that was

aloft mixes down

Page 53: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

O3 Profile

Elev (ft)

1,000

2,000

4,000

6,500

Wind

The process repeats – now there is more O3 (Sunset Day 2)

Warmer >><< Cooler Temperature

Page 54: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

O3 Profile

Elev (ft)

1,000

2,000

4,000

6,500

Wind

Warmer >><< Cooler Temperature

Midnight Day 2

Page 55: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

O3 Profile

Elev (ft)

1,000

2,000

4,000

6,500

Wind

Warmer >><< Cooler Temperature

Sunrise Day 3...

Page 56: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

O3 Profile

Elev (ft)

1,000

2,000

4,000

6,500

Wind

Warmer >><< Cooler Temperature

By Noon on Day 3, Local Emissions and High “Background” O3 Combine

Page 57: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

The End of a High Ozone Episode

• An ozone episode usually ends with the arrival of a ‘clean’ air mass:– This can occur with a cold front or other low-

pressure system like a tropical storm.

• An episode may also end prior to the passage of a cold front if widespread thunderstorms develop ahead of the front.

Page 58: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

Thunderstorms

This is an example of a strongsquall line bringing a high O3

event to a end.

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Longer Pollution Episodes

While in this example, the episode lasted three days, it is not uncommon for high O3 events to persist for longer periods.

This episode in July, 1997 lasted 7 days in the Baltimore metropolitan area.

970710 970713 970716 970719Date

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8-Hour1-Hour

Peak Ozone

Page 60: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

Baltimore Forecast Area - 1-Hour NAAQS Exceedances

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Year

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Exceedances of the 1-Hour O3 Standard

Page 61: Meteorological Factors Affecting Air Pollution Acid Precipitation Air Pollution in Maryland Air Pollution Outline 5/1/03

Color-Coded Air Quality Forecasts

Purple – 1-hr Avg. of over 150 ppb (Rare)

Yellow – 1-hr Avg. of between 80 and 104 ppb

Orange – 1-hr Avg. of between 105 and 124 ppb

Red – 1-hr Avg. of between 125 and 150 ppb

Green – 1-hr Avg. of 79 ppb or lower


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