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Phil Barak (608) 263-5450
PWBARAK@FACSTAFF.WISC.EDU
ACIDIFICATION FROM FERTILIZER USE LINKED TO SOIL AGING
Thirty-seven years of data collected from a plot at the University of
Wisconsin-Madisons Arlington agricultural research station is yielding
alarming results: acidification from excess fertilizer is wearing out the
soil.
Phillip Barak, UW associate professor of soil chemistry and plant nutrition,
is part of a team carrying on research that was begun in 1962 by emeritus
soil scientist Lloyd Peterson. The Arlington plot has been planted to tobacco
and soybeans, as well as 15 years of continuous corn. This history mirrors
many Wisconsin fields that have been rotated among a variety of crops.
Barak and his colleagues have found the cation exchange capacity, or
the soils ability to hold onto small bits of calcium, magnesium and
potassium, decreases because of soil acidity.
"This change is irreversible," he said.
According to Fred Madison, UW soil science professor, this is important
news for farmers.
"Now youve got a whole path of destruction," he said.
Producers may have overlooked the danger that excess nitrogen poses to
groundwater, but evidence that it may also permanently damage the soil is
beginning to garner attention, Madison said.
Barak said health experts have long known the role that nitrogen plays
in blue baby syndrome, a condition in which high levels of nitrogen inhibit
the bloods ability to transport oxygen.
Barak said soil becomes more acidic when nitrogen sources, whether from
urea, legume plowdown such as alfalfa and red clover or commercial
fertilizer are not completely used up by the crop. This excess nitrogen
becomes nitric acid, which destroys the soils vital ability to retain
the calcium, magnesium and potassium necessary for crop growth. Instead,
these nutrients leach out of the soil and into the groundwater. Although
they are harmless, they do cost money to replace a price that Barak
estimates at 20 percent of what farmers normally spend on nitrogen fertilizers.
According to Barak, the United States has a 50 percent applied nitrogen
efficiency rate. This means only half of the nitrogen applied by farmers
is actually taken up by the plants, leaving the other half to become nitric
acid, he said.
"Thats like a tanker truck of nitric acid being dumped on
a field," Barak said.
These tons of unneutralized nitric acid age the soil very quickly, according
to Barak. He said the soil at his Arlington test site has, in 30 years of
"normal" agricultural acid inputs, aged the equivalent of 5,000
years with natural source acid inputs.
Barak said the aging is remarkable considering the age of the soils.
"Keep in mind these soils have only been in existence for 10,000 years,"
he said.
Barak said the fine soils of Wisconsin are "tender," and the
very qualities that make them fertile also make them vulnerable. They are
easily dissolved by acidity, he said.
According to Barak, if excess nitrogen inputs continue, unneutralized,
northern soils might soon become like the sandy, less productive soils of
the southeast region of the United States.
"With the long term, over-application of nitrogen, we run the risk
of irreparably damaging the soil," Madison said.
But Barak said the news is not all bad. He cited two ways farmers can
better care for their valuable soil.
The first, and preventative, measure is to use nitrogen more efficiently.
Producers should account for all sources of nitrogen, and adjust their commercial
inputs accordingly. Excess nitrogen not only acidifies, it can leach into
groundwater or run off into surface water.
The second, and remedial, measure is applying agricultural lime. Liming
can neutralize the damaging acid and protect the fields. "Agliming
has been known for 3,000 years," Barak said. "Use it. Its
like TUMS for the soil." By closely monitoring pH levels and appropriately
applying agricultural lime, farmers can greatly retard what Barak refers
to as "accelerated soil weathering."
Since 1950, Barak reports that nitrogen use, as well as agricultural
production, has skyrocketed. The United States is locked into a system of
high production that cannot be reversed without serious negative implications,
he said. The result is that farmers must learn to be more attentive to their
treatment of the soil.
###
Writer: Andy Napgezek, (608) 836-6651
aanapgez@students.wisc.edu
This story first appeared in the March 3, 1999 issue of the Badger Herald,
an independent student newspaper at the University of Wisconsin-Madison.
###
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