NowM.gurontd
vested $13 billion. Until wc can re
duce such losses, scientific crop
control might as well be done by
flipping a coin.
The farmer thinks part of the so
lution is in crops and stock with
built-in resistance to natural haz
ards. A few toughened plants and
animals already exist. New tobaccos,
(or example, fight off five of the
worst crop diseases, and certain
wheat varieties now resist stem rust.
Hardier breeds can even foil the
predatory Insect; that villain of the
Midwest, the com borer, is expected
to be conquered within 10 years by
inbred resistance
Some farms already are using disease-hardened
strains of poultry,
the next step, experimenters believe,
is to develop livestock impervious to
common ailments.
When tomorrow's farmer plants
his new crops he will be fighting still
another scourge of agriculture
drought The improved plants will
require leas moisture and will make
better use of it in critical stages of
growth. To provide moisture, the
farmer will reclaim brackish water
with an electric ion-changing device
which removes salty impurities Or,
after s rain, he may take a spray
gun and cover his fields with an or
ganic chemical which seals in mois
ture His pond already will be lined
with plastic to control drainage and
reduce polluting growth
Qavikc caora will be Just a part of
1 our future farmer's job. He also
will have to produce more per acre
and spend less time doing It That
means he'll need a lot of help from
that handyman, modern science.
By 1977, for example, research will
1
v-H
y - y
mm'i ray h heat orein, may Irj tVVv
i
Growth ttimltrt melt
pltfvrt 9 row 3 to fnwot factor a
nifty movo crop AoHKwofJa
com, or owa cioaaa.
h around. Si on el many w"
experimental crop varieties.
have developed crops with greater
concentrated yields. The farmer will
average 100 bushels per acre of
newly bred com (last year's yield
was 45 bushels) and will look for
ward to hybrids that bring as much
as 200 bushels.
Improved machinery will save
valuable time in producing these In
tensified crops. One unit will plant,
fertilize, and spray insect killer in a
tingle trip over the field then be
adjusted to handle other farm jobs.
Future crops will be bred especially
for the machine age. Today's corn,
for example, was bred with ear at
uniform height to facilitate harvest
ing, other crops also are being "tailor-made"
to fit the specifications of
all -purpose machines.
The dairy farmer will save time
by shipping milk through a pipeline
direct from bam to supply depot
And rather than inject cattle indi
vidually with vaccines, the farmer
will spray live virus Into an enclosed
srea and immunize his entire stock
against s variety of diseases.
Pigs will not be raised they will
be maw-produced in hatcheries as
poultry is today To get into initial
production, the1 farmer will order
"piglets" by the crate, eliminating
those long, late hours attending un
predictable births. He will place pigs
in concrete lots because land is too
valuable for pasture The hatchery
will be air conditioned, to assure top
weight gains in hot weather, and
completely sanitized to reduce the
risk of disease.
Automation will be as much a part
of tomorrow's farm aa of tomorrow's
factory Automatic timing devices,
for instance, will feed and water
livestock and control the flow of ir
rigation. Along with other new tech
niques and machines, automation
will drastically reduce chorea which
now take one-third of the farmer's
day, allowing more time for manage
ment, sowing, and reaping.
Moat or the changes on our farms
will be startling only to the
city dweller. The farmer knows that
the "agricultural revolution" has
been going on for decade and that
the important change of the future
will be the widespread application
of technique already familiar to
Laboratories and experimental farms.
One aspect of current n search
could bring radical development,
however Atomic energy has been
suggested for everything from trac
ing secret growth processes to pow
ering gigantic irrigation projects.
But the atom's real value must still
be determined, and several experts
have pointed out that we must solve
the current surplus problem before
further accelerating agriculture with
nuclear energy.
They would prefer that research
ers devote themselves leas to atomic
(arming and more to discovering
new use for products we already
grow but cannot consume Can new
textile or plastics be derived from
our surpluses? What industrial and
commercial developments will help
farm markets keep pace with farm
production?
No amount of research, of course,
can assure the American farmer a
trouble-free tomorrow Yet increas
ing knowledge and broadening ex
periments will help him meet the
future successfully and profitably
in making his indispensable con
tribution to America's well-being.
3-DAY
TREATMENT
FOR CORNS
BLUE JAY PUsfc Con Plasters
widi womter drat PhtHYUUtl
Guaranteed ta retiev pain
. . . and gal rid f ordl
nary earns 1st three day
Medical semap baa fouad a
faat and effective way to re
lieve the pa la of a corn, and
get rid of it at the aaas time
Thai traataaent works by
getting to the baa of the
probata. It actually gets rid
of year cora by pushing it up
fro as aaderaeara.
Th secret is a wonder drug
from th Bine-Jay labora
tories wbiri took nine year
to perfect That wonder drag
ia called Pnsnyunas (pheaos
yethaeoic acid).
Nee Mel-MV Cam PMn
Th Blue-Jay plantar
of a fait ring surrounding a
pad with Phaaytiaaa. ThefeK
reiievea th pain of th cora
by removing the pressure aad
friction which causes it.
SiaaulUaaoualy. the Phan
ylium goes to work to remove
th awn Of the pain th
cora itaalf. It peaetrate
through th tough, horay
akin ol th corn to ita aeee,
what it (tiasulatea the growth
of aew cell tanus.
la moat earn, by th nd
of th thard day thai aew tis
sue has frown to the point
where it pushes the cora loos
so that it can be lifted out.
i cosh i nan sat aw in
mcowbt w. nasm-tw.
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to I T . m rmm I I 1 1 kstt lMa nw
in. w w. ii O n as, cm n .
in m Us Crib, sli l i Ms
W SUA-MT I -
BLUE-JAY
KENDALL
Dlua-tJay Sal Drvialon
fMOIa WstMa. JtUi It. IM7