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  • Written by David Vail, Assistant Professor of History, University of Nebraska – Kearney

It is easy to frame conservation as a clash between environmentalists and polluters. But this view can greatly oversimplify many complex choices. What does conservation look like when ideas about nature cut across political lines?

In my book, “Chemical Lands: Pesticides, Aerial Spraying and Health in North America’s Grasslands since 1945[1],” I explore how pilots, scientists and farmers developed practices for “cropdusting” on the Great Plains after World War II. This industry took shape years before Rachel Carson published “Silent Spring,” a sweeping critique of widespread use of synthetic pesticides, in 1962.

Farmers and cropdusting pilots on the Great Plains worried about pesticide risks before 'Silent Spring' Cropdusting pilots often published their own manuals for spraying schools. University of Nebraska at Kearney, CC BY-NC[2]

Chemical companies made broad promises about these “miracle” products, with little discussion of risks. But pilots and scientists took a much more cautious approach. Well before a national environmental movement emerged, local producers developed their own ways to study safety and health questions as early as the 1950s. If protecting agricultural health here meant using pesticides to meet production goals, they wanted to understand the risks too.

A cautious approach

After World War II, U.S. farmers began using new chemicals, many developed during the war, to fight pests. Grasslands weeds like musk thistle[3] and field bindweed[4], and insects like corn borers[5], threatened production lands as markets were expanding during the postwar economic boom.

Farm poisons seemed like a “silver bullet” response. Just as insecticides like DDT had protected Allied soldiers against diseases such as typhus fever, they could protect fields at home, companies like DuPont and Dow told farmers in advertisements, trade journals and in-person sales.

But cropdusting pilots, known as “ag pilots,” and land-grant agricultural scientists didn’t all buy this message. They worried that using pesticides might be just as dangerous as not using them. In search of answers, they attended annual conferences held at universities and rural convention centers. At meetings like the North Central Weed Control Conference, which took place annually starting in 1944, ag pilots and farmers could learn about new advances and debate current practices. Records of these meetings show a kind of “chemical stewardship” developing on the Plains.

Farmers and cropdusting pilots on the Great Plains worried about pesticide risks before 'Silent Spring' Early spraying configuration recommendations from Farmers’ Bulletin (1954). USDA[6]

Potential for good or harm

Many farmers and experts were well aware of how little they really knew about pesticide and herbicide impacts. University of Nebraska agricultural extension scientist Noel Hanson cautioned in his plenary speech at the 1947 NCWCC meeting in Topeka, Kansas, about the promise of agricultural chemicals:

We all know that it will take years of research, education, regulation, manufacture, distribution of materials, and plain good farming in a sound agriculture and industry before the weeds that are now present can be most efficiently and economically brought under control. Little progress can be made until the biological foundations … are better known.”

Reporter Dick Mann observed in the Kansas Farmer that wheat farmers also worried about the new pesticides and potential impacts of aerial spraying:

These chemicals compare with some of the new miracle drugs in medicine. They have the power for tremendous good, but they also have the power for great harm if improperly used. … With this information as background you can see that many persons are deeply concerned over the possibilities of this thing getting out of hand.

In Hays, Kansas, pilot Donald E. Pratt – known as the “Spray King of the West” – established the P-T Air Service, an aerial spraying school that combined spraying education with agricultural science. Pratt had his pilots learn as much as they could about the newest pest control chemicals on the market. His crew met with state entomologists and weed scientists to better understand crop-pest interactions. Then Pratt conducted his own experiments on private test plots to assess effectiveness and hazards. Many Great Plains pilots ran flight schools similar to Pratt’s.

Farmers and cropdusting pilots on the Great Plains worried about pesticide risks before 'Silent Spring' Spray planes in Donald Pratt’s P-T Air Service fleet. Kansas State University, CC BY-ND[7]

Rogue pilots and chemical bootleggers

Nonetheless, some operators cut corners. Renegade pilots failed to pay attention to wind direction for target fields. In my archival research, I found that their haphazardness resulted in many chemical poisonings in fields and communities.

Some suppliers developed a process called “incorporating” – mixing two or three different pesticides together, then repackaging the adulterated poison and mislabeling it as an entirely different chemical. These products either over-poisoned farmers’ fields or had virtually no effect on pests. They also threatened ag pilots’ professional reputations.

Farmers and cropdusting pilots on the Great Plains worried about pesticide risks before 'Silent Spring' Caricatures of farm chemical hucksters and criminals, 1970s. Kansas State University Libraries

But reputable weed scientists and ag pilots continued studying risks of aerial pesticide application. They also devised methods to stop chemical hucksters, such as designing industry certification documents and supporting aerial spraying laws.

The ‘Silent Spring’ era

Then came Rachel Carson’s best-seller. A key question in “Silent Spring” was how users applied agricultural chemicals, especially insecticides. Carson never argued for completely banning popular insecticides or urged farmers to stop using chemicals entirely. But she called indiscriminate aerial application the best example of vast ecological dangers associated with DDT and other farm chemicals:

Although today’s poisons are more dangerous than any known before, they have amazingly become something to be showered down indiscriminately from the skies. Not only the target insect or plant, but anything human and nonhuman within range of the chemical fallout has known the sinister touch of the poison.

For Carson, health encompassed humans, wildlife and the environment in a holistic way. She implicated producers and the chemicals they used in endangering all living things. Farmers, ranchers, cattle, crops, water supplies and cities were all at risk. “Silent Spring” sparked calls for regulation in the 1960s and 1970s, culminating in the creation of the Environmental Protection Agency in 1970 and the banning of DDT in 1972.

Many ag pilots pushed back, claiming they had already developed practical methods to minimize risks. Pesticides were dangerous, but so were pests. Protection and safety on farmlands meant “safe,” “standardized” agricultural chemical use.

Farmers and cropdusting pilots on the Great Plains worried about pesticide risks before 'Silent Spring' Agricultural plane test-spraying Kansas wheat for drift hazards. David Vail, CC BY-ND[8]

Still on the treadmill

After DDT was banned, new and more toxic alternatives succeeded it – first organophosphates[9], and more recently, neonicotinoids[10]. But insect pests and weeds have developed resistance to each new generation of products. Today many farmers are contending with weeds that have developed resistance[11] to the widely used herbicide glyphosate – the latest step on this chemical-pest treadmill.

Farm chemicals remain a key part of conventional agriculture[12], and aerial spraying is still a central practice for most large-scale farms on the Great Plains. Many pilots and farmers still pursue chemical stewardship, using GPS technologies[13] to apply pesticides precisely and use no more than needed.

But as cheap chemical solutions lose their potency, agricultural extension programs increasingly are recommending approaches that include non-chemical tactics, like crop diversity[14] and planting practices that inhibit weed growth[15]. These seemingly contrasting views – using chemicals to control pests while seeking to minimize environmental damage – reflect the nuanced attitudes many Great Plains farmers and pilots have long held toward pesticides and herbicides.

References

  1. ^ Chemical Lands: Pesticides, Aerial Spraying and Health in North America’s Grasslands since 1945 (www.uapress.ua.edu)
  2. ^ CC BY-NC (creativecommons.org)
  3. ^ musk thistle (extension.colostate.edu)
  4. ^ field bindweed (communityenvironment.unl.edu)
  5. ^ corn borers (www.ent.iastate.edu)
  6. ^ USDA (archive.org)
  7. ^ CC BY-ND (creativecommons.org)
  8. ^ CC BY-ND (creativecommons.org)
  9. ^ organophosphates (www.epa.gov)
  10. ^ neonicotinoids (www.npr.org)
  11. ^ developed resistance (netnebraska.org)
  12. ^ a key part of conventional agriculture (www.ers.usda.gov)
  13. ^ using GPS technologies (www.gps.gov)
  14. ^ crop diversity (crops.extension.iastate.edu)
  15. ^ planting practices that inhibit weed growth (www.hpj.com)

Authors: David Vail, Assistant Professor of History, University of Nebraska – Kearney

Read more http://theconversation.com/farmers-and-cropdusting-pilots-on-the-great-plains-worried-about-pesticide-risks-before-silent-spring-91976

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