|
|
THE NATURAL WORLD
The
Destructive Nature
of Our Bountiful Harvests
By Malcolm G. Scully
|
|
(SALINA,
KAN.)
ACCORDING to an emerging
school of thought in archaeology, "human-induced
degradation of the environment" has played a far
greater role in the fall of civilizations -from
Mesopotamia to Mesoamerica- than previously recognized,
The human activity that has taken the most serious
toll, in this view, is agriculture.
Wes Jackson believes that agriculture
is taking that toll today, and he has devoted almost
25 years to finding a solution, A refugee from academe
-he earned his Ph.D. in genetics from North Carolina
State University in 1967 and founded the environmental-studies
program at California State University at Sacramento
in the early 1970's -Jackson has, since 1976, directed
the Land Institute here- a nonprofit research center
devoted to solving "the problem or agriculture."
Along the way, he has won a MacArthur Foundation
"genius grant" (in 1992), support from the Pew Trusts,
and widespread attention.
It hasn't been an easy or simple
task to persuade people that agriculture is a problem
and requires fixing. For years, the increasing productivity
of America's farms and the "green revolution" were
seen as major success stories. As Jackson is fond
of saying, "Nothing fails like success. The failure
of success is the worst of all, be cause you do
not learn anything from it."
In New Roots for Agriculture
(University of Nebraska Press, 1980), Jackson out-
lined what he saw as the problem of agriculture
and his program for repairing it "We grow increasingly
more food on few- er acres and, in 1978, exported
over twenty-seven billion dollars' worth of farm
products a year on a planet where people are hungry
and starve by the millions:' he wrote. "There is
a strong temptation for us to believe we must be
doing something right."
"Unfortunately," he added,
"our successes are measured on discount economics."
American agriculture, he
said, relies on "heavy fossil-fuel chemotherapy,
which has given us all a false sense of the health
of the agricultural system, even as it is being
poisoned and further depleted. |
At the moment, we are poisoning the North American
continent with pesticides and fertilizers, salting
millions of acres through irrigation, and promoting
erosion, through our methods of cultivating, of
tens of millions of acres of top cropland."
Any agriculture based on
such an "extractive economy," consuming non-renewable
resources, he said, is bound to fail.
"As one does a mental survey
of the agricultural problem,…one is forced to acknowledge
the double bind with which we are confronted: without
agriculture there will be immediate mass starvation,
but with agriculture there will be a continual eroding
away of the productive basis of human livelihood."
"Is there no way out of such
a trap?' he asked. "Is it our fate that we must
merely wait for the unfolding of the drama?" Jackson's
answer was then and is now No, and his way out-what
he and his colleagues at the Land Institute have
been investigating for more than 20 years-is "natural
systems agriculture." In effect, he hopes to create
an agriculture that mimics the native prairie around
him. It would be based on perennial rather than
annual crops, so that the land would not need to
be plowed and reseeded each year At least four crops
would be grown together. Such a polyculture of herbaceous
perennials" would, the institute says, "run on sunlight,
preserve soil, maintain biological diversity, yield
adequately, and not rely on harmful synthetic chemicals
for fertility of pest management."
To produce what Jackson
has called "instant granola in the field," the institute
has identified four basic biological questions.
-- Can perennial grains produce yields
of seeds great enough to be agriculturally viable'?
The prevailing view has been that perennials devote
so much energy to maintaining their root systems
that they cannot produce yields as high as those
of annuals.
--Can perennials yield more when planted
in combination with other species than when planted
alone.?
--Can a perennial polyculture provide
its own nitrogen, eliminating the need for chemical
fertilizer?
--Can such an ecosystem produce natural
defenses against weeds, insect pests, and disease?
|
Working
with four species -lllinois bundleflower, a legume;
mammoth wild rye, a cool-season grass; eastern gamagrass,
a warm-season grass related to corn; and Maximilian
sunflower, researchers at the institute have come
up with what Jackson calls a "tentative Yes" to
each of the four biological questions.
He acknowledges that experiments
thus far have produced only "modest successes,"
and that far more research and experimentation will
be required Nonetheless, he says, "We're on the
cusp of something. We're where the Wright brothers
were in 1903. To our satisfaction we've demonstrated
the equivalent of lift and drag While it's very
modest, it's no more modest than that flight at
Kitty Hawk."
To move beyond first-flight
status, Jack- son has developed an ambitious 25-year
plan, one that be believes would lead to a viable
alternative to America's industrial farms. What
he really needs, he says, is S5-million a year for
the next 25 years. Since the institute's budget
this year, under $1 million -it comes from f tuition
grants and private contributions. He spends as much
time raising money as he does in the field or the
laboratory
THE analysis that Jackson
set out in New Roots for Agriculture does not seem
as counterculture- al today as it did in the 1970's.
The negative effects of
industrialized agriculture on the environment, on
health, and on rural communities have been widely,
if not universally, acknowledged. Some of the warnings
that Jackson and like-minded scientists and environmentalists
sounded more than 20 years ago seem prescient.
For instance, in The Doubly Green Revolution: Food
for All in the 21st Century (CorneIl University
Press, 1997), Gordon Conway, an agricultural ecologist
who is president of the Rockefeller Foundation,
cited widespread evidence that crop yields are no
longer growing as rapidly as they did in the heyday
of the green revolution.
"The causes of this slowing in
yield growth are not clearly he wrote, "although
one factor is likely to be the cumulative effect
of environmental degradation, partly caused by agriculture
itself. |
Information Resource: The Chronicle of
Higher Education |
|
The
litany of loss is familiar, Soils are eroding and losing their
fertility, precious water sup- plies are being squandered, rangeland
overgrazed, forests destroyed and fisheries overexploited."
Agricultural practices, Conway added, "have
become a significant contributor to the global pollutants that
affect the ozone layers and produce global warming, These changes
are already beginning to have significant adverse consequences
on agricultural production There is also clear evidence of instances
where pesticides, far from solving pest problems, make them
worse, And, as we have long known, pesticides and nitrate fertilizers
pose serious health hazards,"
INEVITABLY, because his work involves
plant breeding and because the issue has become front-page news,
Jackson has been drawn into the debate over the use of genetic
engineering and other biotechnological tools to redress some
of the failings of convention- al agriculture.
While he is not unalterably opposed to any
use of biotechnology, he is sharply critical or the mindset
of many of its proponents, and he distrusts their motives' "1
don't want to be a party for the corporate state to turn DNA
into capital," he says, "And this is a technology that lends
itself to capitalization and appropriation," He also warns that,
if misused, biotechnology will lead to the human-induced degradation
of the genomes of plant species, "What is being more or less
ignored" in the rush to biotechnology, he says, "is that some
or the same principles and processes that govern an ecosystem,
like a forest or a prairie, also operate with genomes, The genome
is a miniature ecosystem."
In an article in the most recent issue of
The Land Report, an institute publication, he wrote, "The genes
within the genome interact with one another and collectively
interact with the environment, all the way from the molecular
and cellular level to the ecosystem at large, In other words,
the architecture of the genome results from the context of the
history of gene-carrying predecessors in times past. At the
level we are talking about the world is grossly un- known, indeed
unknowable So much is subtle; so much is small effect."
The harm "from the wholesale employment of
the new forms of biotechnology," he added, "will come in the
threat to the very architecture of the genomes of our major
crops."
Despite his deep reservations about bio-
technology, his unwillingness to categorically reject it has
drawn sharp criticism from hard-Iine opponents of genetic engineering
His response "We need to worry about a deeply fundamentalist
position of saying No to all new brands of biotechnology." Fundamentalism,
he adds, "usually takes over where thought leaves off."
Of the current debate, Jackson says,
"We must make this subject as complicated as it is:' rather
than opt for "cheap and instantly gratifying solutions." That
means, he says, proceeding with extreme caution, to avoid disrupting
"nature's wisdom"-/he resiliency built into a system that has
evolved over millennia, The task, he wrote in New Roots for
Agriculture, "is to build an agriculture that is resilient to
human folly, an agriculture that rewards wisdom and patience.
"We don't need one more breakthrough in agriculture:'
he said, "We need to stare hard at America's fields -for a long
time- and then reach into the vast literature in evolutionary
biology and ecology to learn he rules and laws at work on the
land be- 'ore we got here, and out of this knowledge, put together
a new synthesis, a truly Jew paradigm for agriculture" |
