196 CHAPTER 8 Air and Air Pollution
Types and Sources of Air Pollution
LEARNING OBJECTIVES
- Define air pollution and distinguish between
primary and secondary air pollutants. - List the seven major classes of air pollutants
and describe their characteristics and sources.
A
ir pollution can come from natural sources,
such as smoke from a forest fire ignited by
lightning or gases from an erupting volcano.
However, human activities release many kinds
of substances into the atmosphere and contribute greatly
to global air pollution. Some of these substances are harm-
ful when they are inhaled or settle on land and surface
waters, and some substances are
harmful b ecause they alter the
chemistry of the atmosphere.
Although many different air
pollutants exist, we focus on the
seven most important classes from
a regulatory perspective: par-
ticulate matter, nitrogen oxides,
sulfur oxides, carbon oxides, hy-
drocarbons, ozone, and air toxics.
Air pollutants are often di-
vided into two categories, pri -
mary and secondary (Figure 8.6).
Primary air pollutants are released
directly from a source into the at-
mosphere. They include carbon
oxides, nitrogen oxides, sulfur
dioxide, particulate matter, and
hydrocarbons.
Ozone, sulfur trioxide, and
several acids are called secondary
air pollutants because they are
formed from chemical reactions
that take place in the atmosphere.
Major Classes of Air Pollutants
Particulate matter consists of dusts and mists— thousands
of different types of solid and liquid particles suspended
in the atmosphere. Particulate matter includes soil parti-
cles, soot, lead, asbestos, sea salt, and sulfuric acid droplets.
Some particulate matter has toxic or c arcinogenic effects.
air pollution
Various chemicals
(gases, liquids, or
solids) present in
the atmosphere in
high enough levels
to harm humans,
other organisms, or
materials.
primary air
pollutants Harmful
chemicals that enter
directly into the
atmosphere due to
either human activities
or natural processes.
secondary air
pollutants Harmful
chemicals that form in
the atmosphere when
primary air pollutants
react chemically with
one another or with
natural components
of the atmosphere.
Human sources
Natural
sources
Primary air pollutants Secondary air pollutants
Most hydrocarbons
Most particulates
CO
NO NO 2
CO 2 HNO^2
SO 2 HNOH 2 O 23
SO 3
O 3 PANs
H 2 SO 4
salts
MostNO 3 and SO 42
Primary and secondary air pollutants
UÊ}ÕÀiÊn°ÈÊ
Primary air pollutants are emitted, unchanged, from a source
directly into the atmosphere, whereas secondary air pollutants are
produced from chemical reactions involving primary air pollutants.
Particulate matter can scatter and absorb sunlight,
r educing visibility. Urban areas receive less sunlight
than rural areas, partly as a result of greater quantities
of particulate matter in the air. Particulate matter can
corrode metals, erode buildings and sculptures when
the air is humid, and soil clothing and draperies. Lead
particles, which are heavy, tend to travel relatively short
distances before settling on the ground or a water
surface.
All particulate matter eventually settles out of the
atmosphere, but microscopic particles can remain
suspended in the atmosphere for weeks or even years.
Trace amounts of hundreds of different chemicals bind
to these microscopic particles; inhaling the particles
i ntroduces the chemicals, some of which are toxic, into
the human body. Microscopic particles are considered