A fertigation system used on
romaine lettuce in Coachella
Valley, California. Metered
chemical fertilizers are
tubing and injection ports at
various points in the
irrigation pipe. An elbow
provides mixing of the
chemical with the
irrigation water, which is
then distributed into
Many growers don't simply water their crops. They "fertigate"
them. As the name implies, fertigation brings both nutrients and water to
Fertigation has many advantages over applying water and
fertilizer separately. It saves money by combining the two tasks. It allows
growers to fertilize crops throughout the growing season rather than stop when
the plants become too unwieldy to allow mechanized applications with
conventional machinery. Finally, many crops can thrive with less fertilizer
when it's applied throughfertigation.
Farmers are interested not only in increasing crop yields, but
also in improving water quality, according to Dale A. Bucks,
ARS national program leader for water
quality and management. Fertigation began with sprinkler irrigation but has
advanced to surface and other irrigation systems. Surface irrigation has the
added benefit of curbing both nutrient runoff and leaching into streams and
groundwater. As soil scientist Floyd Adamsen of ARS's U.S. Water Conservation
Laboratory in Phoenix, Arizona, points out, "With fertigation, we're trying to
get the fertilizer to stay where we want it."
These Crimson Lady peach
trees irrigated by subsurface
drip outgrew trees irrigated
by other methods during the
first 3 years
Newer, pressurized irrigation systems have less field
variability of water and fertilizer than surface irrigation does. But many
growers are not yet willing to replace surface irrigation with the newer
systems. So many areas of the West and Southwest stick to fertigation through
surface irrigation. Most wheat growers and a third of cotton growers in Arizona
fertigate through surface irrigation systems, according to Steven Husman, a
University of Arizona extension agent.
Sensing the Needs
You might say Jim Schepers, Dennis Francis, Mike Schlemmer, and
Ariovaldo Luchiari are using a short form of remote sensing in their
fertigation studies in Lincoln, Nebraska. Instead of using aerial photographs
or satellite-generated images, the scientists take stock of the crop's
fertilizer needs from a few feet off the ground. Their tool of choice:
electronic sensors perched atop high-clearance canopy sprayers.
The sensors zap the crop with certain light wavelengths and then
measure how much of that light bounces off the plant's surface. The brightness
of the returning light is then assigned a numeric value.
One way the sensors check for onset of stress due to nitrogen
deficiency is to zap the crop with red light, which is absorbed by chlorophyll,
an important pigment. Since green, healthy plants have lots of chlorophyll in
their leaves, they absorb more red light, and reflect less, than
low-chlorophyll plants, such as those needing nitrogen fertilizer. Near
infrared, a waveband not visible to humans, is sensitive to the amount of
living vegetation present, so it is used to assess plant vigor.
The high-clearance sprayers use such information to fertigate
with variable, rather than fixed, rates of nitrogen, saving money and reducing
the risk of leaching. The sprayers' sensors can monitor the conditions of
multiple plants, rows, or areas and collect reflectance readings from them at
the rate of 1 to 10 per second. "This allows us to make spatial nitrogen
applications that simulate variable-rate fertigation," says Schepers, research
leader of ARS's Soil and Water Conservation Research Unit at Lincoln.
The sensor studies are part of a cooperative multistate project
under way to evaluate this type of fertilization technology for use on corn,
wheat, andto a lesser degreeturf grass. Other ARS scientists in
Fort Collins, Colorado, are applying fertilizers and pesticides using precision
agriculture technologies, including variable-rate fertigation (see
Schepers says the technology may eventually allow farmers to
satisfy their crop's nitrogen fertilizer needs in season rather than trying to
predictbefore plantingwhat these will be. Aided by technologies
such as the sensors, "Our strategy is to make sure the crop gets off to a good
start, monitor its progress, and provide required nutrients as needed."
Secrets From Underground
Meanwhile, scientists are scrutinizing healthy young peach trees
to find out how to fertigate for the best yields of this delicious fruit.
Growers already know a lot about how to manage a mature peach orchard. But
there's very little scientific information on the water and nutrient needs of a
newly planted orchard.
There's ongoing interest in the care of young trees. That's
because many commercial peach orchards are pulled up every 10 years or so and
replaced with new varieties that have more economic potential, says plant
physiologist David R. Bryla. Formerly with ARS's Water Management Research
Laboratory, Parlier, California, and now with ARS in Corvallis, Oregon, Bryla
leads the peach study. He expects to have final results later this year.
Earlier Parlier investigations of fertilizer and water needs of
three other cropssweet corn, cotton, and tomatoesare attracting
renewed interest. Completed by ARS scientists about a decade ago, the research
demonstrated the benefits of subsurface drip systems. Through tubes buried
beneath the soil, these systems bring precise amounts of water and fertilizer
to the place they're needed mostplants' roots.
James E. Ayars, agricultural engineer at the water management
lab, says several factors combined to boost interest in subsurface systems,
including the need to prevent seepage of excess nutrients into groundwater and
new, impressive improvements in subsurface drip equipment.
The Parlier scientists' detailed studies of crops' water use and
yield with subsurface drip, as compared to surface systems, still rank as the
most comprehensive of their kind.By David Elstein, Jan Suszkiw, and
Wood, Agricultural Research Service Information Staff.
This research is part of Water Quality and Management, an ARS
National Program (#201) described on the World Wide Web at
To reach scientists featured in this article, contact
David Elstein, USDA-ARS
Information Staff, 5601
Sunnyside Ave., Beltsville, MD 20705-5129; phone (301) 504-1654, fax (301)
"The Best of Both Worlds? Fertigation Is an Efficient Way for
Many Farmers To Grow Crops" was published in the
issue of Agricultural Research magazine.