IV. Concepts                         29























         Fig. 2-3. Grand average number (N), surface area (S), and volume (V) distribution of
       Los Angeles smog. The linear ordinate normalized by total number (NT), area (ST), or volume
       (VT) is used so that the apparent area under the curves is proportional to the quantity in that
       size range. Source: Corn, M, Properties of non-viable particles in the air, In "Air Pollution/'
       3rd ed., Vol. I ( A. C. Stern, ed.). Academic Press, New York, 1976, p. 123.



       each element or radical, anion, or cation is present in the mixture can be
       determined. Specific organic compounds may be separated and identified.
       Individual particles may be analyzed by electron microscopy techniques.
         Much of the concern about particulate matter in the atmosphere arises
       because particles of certain size ranges can be inhaled and retained by the
       human respiratory system. There is also concern because particulate matter
       in the atmosphere absorbs and scatters incoming solar radiation. For a
       detailed discussion of the human respiratory system and the defenses it
       provides against exposure of the lungs to particulate matter, see Chap-
       ter 7.


                                 IV. CONCEPTS

       A. Sources and Sinks
         The places from which pollutants emanate are called sources. There are
       natural as well as anthropogenic sources of the permanent gases considered
       to be pollutants. These include plant and animal respiration and the decay
       of what was once living matter. Volcanoes and naturally caused forest fires
       are other natural sources. The places to which pollutants disappear from
       the air are called sinks. Sinks include the soil, vegetation, structures, and
       water bodies, particularly the oceans. The mechanisms whereby pollutants