respiration Processes that
together deliver oxygen
from the air to body cells
and move waste carbon
dioxide to the outside.
respiratory surface The
thin, moist surface across
which oxygen and carbon
dioxide diffuse during res-
piration; the thin walls of
alveoli in the lungs provide
this surface.
respiration 5 Gas Exchange
only diffuse rapidly over short distances. The respiratory
surface must be moist because gases can’t diffuse across
it unless they are dissolved in fluid. The thin walls of the
millions of alveoli in the lungs meet these requirements.
Oxygen and carbon dioxide also move between body
cells and tissue fluid. Blood circulated by the cardiovascu-
lar system carries these gases to and from the tissue fluid
that bathes cells (Figure 10.6B).
Two factors affect how many gas molecules can move
into and out of lung alveoli in a given period of time. The
first is surface area, and the second is the partial pressure
gradient across it. Diffusion occurs faster when the surface
area is large and the gradient is steep. The millions of
alveoli in your lungs provide a huge surface area for gas
exchange. As we see next, the interaction between hemo-
globin and oxygen helps maintain a steep gradient that in
turn helps bring oxygen into the lungs.
n All living cells in the body rely on respiration to supply them
with oxygen and dispose of carbon dioxide wastes.
n Links to Mitochondria 3.8, Cellular respiration 3.15
Chapter 3 described aerobic cellular respiration—the
process inside cell mitochondria that uses oxygen and pro-
duces carbon dioxide wastes that enter the bloodstream.
Respiration, in contrast, refers to overall gas exchange: the
processes that deliver oxygen in inhaled air to body cells and
remove waste carbon dioxide from the body (Figure 10.4).
in gas exchange, oxygen and carbon dioxide
diffuse down a pressure gradient
Gas exchange in the body relies on the tendency of oxy-
gen and carbon dioxide to diffuse down their respective
concentration gradients—or, as we say for gases, their
pressure gradients. When molecules
of either gas are more concentrated
outside the body, they tend to move
inside and vice versa.
At sea level air is about 78 per-
cent nitrogen, 21 percent oxygen,
0.04 percent carbon dioxide, and
0.96 percent other gases. Atmos-
pheric pressure there is about
760 mm Hg, as measured by a mer-
cury barometer (Figure 10.5). Each
gas accounts for only part of the
total pressure exerted by the whole mix of gases. Oxygen’s
partial pressure is 21 percent of 760, about 160 mm Hg.
Carbon dioxide’s partial pressure is about 0.3 mm Hg.
Gases are exchanged across a thin, moist
respiratory surface
Meeting the metabolic needs of a large, active animal such
as a human requires extremely efficient gas exchange. Vari-
ous factors influence the process. To start with, gases enter
and leave the body by crossing a respiratory surface of
thin, moist epithelium (Figure 10.6A). The surface must
be thin—at most, one or two cells thick—because gases
O 2
CO 2
Cellular respiration
in mitochondria
Whole body
respiration
O 2
CO 2
Figure 10.4 Respiration is the exchange of inhaled oxygen
for waste carbon dioxide, which is exhaled. (© Cengage Learning)
78% N 2
Partial pressure of
N 2 = 600 mm Hg
21% O 2
Partial pressure of
O 2 = 160 mm Hg
1% CO 2 , other gases
760 mm Hg
Total atmospheric pressure = 760 mm Hg
Figure 10.5 Each gas in air exerts part of the total air
pressure. This is the meaning of “partial pressure.” Hg is the
chemical symbol for the element mercury. (© Cengage Learning)
cells of the
respiratory
surface
other
body
cells
External environment Internal environment
(tissue fluid)
O 2
CO 2
a Cells of the respiratory
surface exchange gases
with both the external and
internal environment.
B Other body cells
exchange gases with the
internal environment.
Figure 10.6 Gases are exchanged in the lungs and in tissues.
(© Cengage Learning)
10.2
10.3
180 ChapteR 10
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