Stephen Aumus/US Dept. of Agriculture/SPL
356 CHAPTER 14 Agriculture and Food Resources
generally equal. Advances by research scientists since then
have dramatically increased food production in highly
developed countries (Figure 14.7). Greater knowledge
of plant nutrition has resulted in production of fertilizers
that promote high yields. The use of pesticides to control
insects, weeds, and disease-causing organisms has also
improved crop yields.
The Green Revolution By the middle of the 20th cen-
tury, serious food shortages occurred in many developing
countries coping with growing populations. The devel-
opment and introduction during the 1960s of high-yield
varieties of wheat and rice to Asian and Latin American
countries gave these nations the chance to provide their
people with adequate supplies of food (Figure 14.8).
But the high-yield varieties required intensive industrial
cultivation methods, including the use of commercial
inorganic fertilizers, pesticides, and mechanized machin-
ery, to realize their potential. These agricultural tech-
nologies were passed from highly developed nations to
developing nations.
Using modern cultivation methods and the high-
yield varieties of certain staple crops to produce more
food per acre of cropland is known as the green revo-
lution. Some of the success stories of the green revolu-
tion are remarkable. During the 1920s, Mexico produced
Global Decline in Domesticated
Plant and Animal Varieties
A global trend is currently under way to replace the many
local varieties of a particular crop or domesticated farm
animal with just a few kinds (Figure 14.6). A traditional
variety is adapted to the climate where it was bred and con-
tains a unique combination of traits conferred by its unique
combination of genes. Modern varieties, which are bred for
uniformity and maximum production, are generally more
susceptible to insect pests and disease and less able to adapt
to environmental changes, including climate change.
When farmers abandon traditional varieties in favor
of more modern ones, the traditional varieties frequently
face extinction. This represents a great loss in genetic
diversity because each variety’s characteristic combina-
tion of genes gives it distinctive nutritional value, size,
color, flavor, resistance to disease, and adaptability to
different climates and soil types.
To preserve older, more diverse varieties of plants and
animals, many countries, includ-
ing the United States, are collect-
ing germplasm: seeds, plants, and
plant tissues of traditional crop
varieties and the sperm and eggs
of traditional livestock breeds.
Increasing Crop Yields
Until the 1940s, agricultural yields among various coun-
tries, whether highly developed or developing, were
germplasm Any
plant or animal
material that may be
used in breeding.
Average U.S. wheat yields, 1950 to 2010
UÊ}ÕÀiÊ£{°ÇÊ
Each year shown is actually an average of 3 years to minimize the
effects that poor weather conditions might have in a single year.
Similar increases in yield have occurred in other grain crops.
1950 1960 1970
Year
1980 1990 2000 2010
5
10
15
20
25
30
35
40
45
Annual yield (bushels per acre)
50
Based on data from USDA.
7 ÌiÊi} ÀÊ iÊUÊ}ÕÀiÊ£{°ÈÊ
If you eat eggs, they are probably laid
by white leghorn hens, which
produce almost all of the
eggs in the United
States as well as
those in many other
countries. This
breed is prolific at
egg laying, but it
is not particularly
good for meat
production.