Hayes
has devoted the past fifteen years to studying atrazine, a widely used
herbicide made by Syngenta. The company’s notes reveal that it struggled
to make sense of him, and plotted ways to discredit him.
Photograph by Dan Winters
In 2001,
seven years after joining the biology faculty of the University of
California, Berkeley, Tyrone Hayes stopped talking about his research
with people he didn’t trust. He instructed the students in his lab,
where he was raising three thousand frogs, to hang up the phone if they
heard a click, a signal that a third party might be on the line. Other
scientists seemed to remember events differently, he noticed, so he
started carrying an audio recorder to meetings. “The secret to a happy,
successful life of paranoia,” he liked to say, “is to keep careful track
of your persecutors.”
Three years earlier, Syngenta, one of the
largest agribusinesses in the world, had asked Hayes to conduct
experiments on the herbicide atrazine, which is applied to more than
half the corn in the United States. Hayes was thirty-one, and he had
already published twenty papers on the endocrinology of amphibians.
David Wake, a professor in Hayes’s department, said that Hayes “may have
had the greatest potential of anyone in the field.” But, when Hayes
discovered that atrazine might impede the sexual development of frogs,
his dealings with Syngenta became strained, and, in November, 2000, he
ended his relationship with the company.
Hayes continued studying
atrazine on his own, and soon he became convinced that Syngenta
representatives were following him to conferences around the world. He
worried that the company was orchestrating a campaign to destroy his
reputation. He complained that whenever he gave public talks there was a
stranger in the back of the room, taking notes. On a trip to
Washington, D.C., in 2003, he stayed at a different hotel each night. He
was still in touch with a few Syngenta scientists and, after noticing
that they knew many details about his work and his schedule, he
suspected that they were reading his e-mails. To confuse them, he asked a
student to write misleading e-mails from his office computer while he
was travelling. He sent backup copies of his data and notes to his
parents in sealed boxes. In an e-mail to one Syngenta scientist, he
wrote that he had “risked my reputation, my name . . . some say even my
life, for what I thought (and now know) is right.” A few scientists had
previously done experiments that anticipated Hayes’s work, but no one
had observed such extreme effects. In another e-mail to Syngenta, he
acknowledged that it might appear that he was suffering from a “Napoleon
complex” or “delusions of grandeur.”
For years, despite his
achievements, Hayes had felt like an interloper. In academic settings,
it seemed to him that his colleagues were operating according to a
frivolous code of manners: they spoke so formally, fashioning themselves
as detached authorities, and rarely admitted what they didn’t know. He
had grown up in Columbia, South Carolina, in a neighborhood where fewer
than forty per cent of residents finish high school. Until sixth grade,
when he was accepted into a program for the gifted, in a different
neighborhood, he had never had a conversation with a white person his
age. He and his friends used to tell one another how “white people do
this, and white people do that,” pretending that they knew. After he
switched schools and took advanced courses, the black kids made fun of
him, saying, “Oh, he thinks he’s white.”
He was fascinated by the
idea of metamorphosis, and spent much of his adolescence collecting
tadpoles and frogs and crossbreeding different species of grasshoppers.
He raised frog larvae on his parents’ front porch, and examined how
lizards respond to changes in temperature (by using a blow-dryer) and
light (by placing them in a doghouse). His father, a carpet layer, used
to look at his experiments, shake his head, and say, “There’s a fine
line between a genius and a fool.”
Hayes received a scholarship to
Harvard, and, in 1985, began what he calls the worst four years of his
life. Many of the other black students had gone to private schools and
came from affluent families. He felt disconnected and ill-equipped—he
was placed on academic probation—until he became close to a biology
professor, who encouraged him to work in his lab. Five feet three and
thin, Hayes distinguished himself by dressing flamboyantly, like Prince.
The Harvard Crimson, in an article about a campus
party, wrote that he looked as if he belonged in the “rock-’n’-ready
atmosphere of New York’s Danceteria.” He thought about dropping out, but
then he started dating a classmate, Katherine Kim, a Korean-American
biology major from Kansas. He married her two days after he graduated.
They
moved to Berkeley, where Hayes enrolled in the university’s program in
integrative biology. He completed his Ph.D. in three and a half years,
and was immediately hired by his department. “He was a force of
nature—incredibly gifted and hardworking,” Paul Barber, a colleague who
is now a professor at U.C.L.A., says. Hayes became one of only a few
black tenured biology professors in the country. He won Berkeley’s
highest award for teaching, and ran the most racially diverse lab in his
department, attracting students who were the first in their families to
go to college. Nigel Noriega, a former graduate student, said that the
lab was a “comfort zone” for students who were “just suffocating at
Berkeley,” because they felt alienated from academic culture.
Hayes had become accustomed to steady praise from his
colleagues, but, when Syngenta cast doubt on his work, he became
preoccupied by old anxieties. He believed that the company was trying to
isolate him from other scientists and “play on my insecurities—the fear
that I’m not good enough, that everyone thinks I’m a fraud,” he said.
He told colleagues that he suspected that Syngenta held “focus groups”
on how to mine his vulnerabilities. Roger Liu, who worked in Hayes’s lab
for a decade, both as an undergraduate and as a graduate student, said,
“In the beginning, I was really worried for his safety. But then I
couldn’t tell where the reality ended and the exaggeration crept in.”
Liu
and several other former students said that they had remained skeptical
of Hayes’s accusations until last summer, when an article appeared in Environmental Health News (in partnership with 100Reporters)*
that drew on Syngenta’s internal records. Hundreds of Syngenta’s memos,
notes, and e-mails have been unsealed following the settlement, in
2012, of two class-action suits brought by twenty-three Midwestern
cities and towns that accused Syngenta of “concealing atrazine’s true
dangerous nature” and contaminating their drinking water. Stephen
Tillery, the lawyer who argued the cases, said, “Tyrone’s work gave us
the scientific basis for the lawsuit.”
Hayes
has devoted the past fifteen years to studying atrazine, and during
that time scientists around the world have expanded on his findings,
suggesting that the herbicide is associated with birth defects in humans
as well as in animals. The company documents show that, while Hayes was
studying atrazine, Syngenta was studying him, as he had long suspected.
Syngenta’s public-relations team had drafted a list of four goals. The
first was “discredit Hayes.” In a spiral-bound notebook, Syngenta’s
communications manager, Sherry Ford, who referred to Hayes by his
initials, wrote that the company could “prevent citing of TH data by
revealing him as noncredible.” He was a frequent topic of conversation
at company meetings. Syngenta looked for ways to “exploit Hayes’
faults/problems.” “If TH involved in scandal, enviros will drop him,”
Ford wrote. She observed that Hayes “grew up in world (S.C.) that
wouldn’t accept him,” “needs adulation,” “doesn’t sleep,” was “scarred
for life.” She wrote, “What’s motivating Hayes?—basic question.”
Syngenta,
which is based in Basel, sells more than fourteen billion dollars’
worth of seeds and pesticides a year and funds research at some four
hundred academic institutions around the world. When Hayes agreed to do
experiments for the company (which at that time was part of a larger
corporation, Novartis), the students in his lab expressed concern that
biotech companies were “buying up universities” and that industry
funding would compromise the objectivity of their research. Hayes
assured them that his fee, a hundred and twenty-five thousand dollars,
would make their lab more rigorous. He could employ more students, buy
new equipment, and raise more frogs. Though his lab was well funded,
federal support for research was growing increasingly unstable, and,
like many academics and administrators, he felt that he should find new
sources of revenue. “I went into it as if I were a painter, performing a
service,” Hayes told me. “You commissioned it, and I come up with the
results, and you do what you want with them. It’s your responsibility,
not mine.”
Atrazine is the second most widely used herbicide in
the U.S., where sales are estimated at about three hundred million
dollars a year. Introduced in 1958, it is cheap to produce and controls a
broad range of weeds. (Glyphosate, which is produced by Monsanto, is
the most popular herbicide.) A study by the Environmental Protection
Agency found that without atrazine the national corn yield would fall by
six per cent, creating an annual loss of nearly two billion dollars.
But the herbicide degrades slowly in soil and often washes into streams
and lakes, where it doesn’t readily dissolve. Atrazine is one of the
most common contaminants of drinking water; an estimated thirty million
Americans are exposed to trace amounts of the chemical.
In 1994,
the E.P.A., expressing concerns about atrazine’s health effects,
announced that it would start a scientific review. Syngenta assembled a
panel of scientists and professors, through a consulting firm called
EcoRisk, to study the herbicide. Hayes eventually joined the group. His
first experiment showed that male tadpoles exposed to atrazine developed
less muscle surrounding their vocal cords, and he hypothesized that the
chemical had the potential to reduce testosterone levels. “I have been
losing lots of sleep over this,” he wrote one EcoRisk panel member, in
the summer of 2000. “I realize the implications and of course want to
make sure that everything possible has been done and controlled for.”
After a conference call, he was surprised by the way the company kept
critiquing what seemed to be trivial aspects of the work. Hayes wanted
to repeat and validate his experiments, and complained that the company
was slowing him down and that independent scientists would publish
similar results before he could. He decided to resign from the panel,
writing in a letter that he didn’t want to be “scooped.” “I fear that my
reputation will be damaged if I continue my relationship and associated
low productivity with Novartis,” he wrote. “It will appear to my
colleagues that I have been part of a plan to bury important data.”
Hayes repeated the experiments using funds from Berkeley and the National Science Foundation. Afterward, he wrote
to the panel, “Although I do not want to make a big deal out of it
until I have all of the data analyzed and decoded—I feel I should warn
you that I think something very strange is coming up in these animals.”
After dissecting the frogs, he noticed that some could not be clearly
identified as male or female: they had both testes and ovaries. Others
had multiple testes that were deformed.
In January, 2001, Syngenta
employees and members of the EcoRisk panel travelled to Berkeley to
discuss Hayes’s new findings. Syngenta asked to meet with him privately,
but Hayes insisted on the presence of his students, a few colleagues,
and his wife. He had previously had an amiable relationship with the
panel—he had enjoyed taking long runs with the scientist who supervised
it—and he began the meeting, in a large room at Berkeley’s Museum of
Vertebrate Zoology, as if he were hosting an academic conference. He
wore a new suit and brought in catered meals.
After lunch,
Syngenta introduced a guest speaker, a statistical consultant, who
listed numerous errors in Hayes’s report and concluded that the results
were not statistically significant. Hayes’s wife, Katherine Kim, said
that the consultant seemed to be trying to “make Tyrone look as foolish
as possible.” Wake, the biology professor, said that the men on the
EcoRisk panel looked increasingly uncomfortable. “They were experienced
enough to know that the issues the statistical consultant was raising
were routine and ridiculous,” he said. “A couple of glitches were
presented as if they were the end of the world. I’ve been a scientist in
academic settings for forty years, and I’ve never experienced anything
like that. They were after Tyrone.”
Hayes
later e-mailed three of the scientists, telling them, “I was insulted,
felt railroaded and, in fact, felt that some dishonest and unethical
activity was going on.” When he explained what had happened to Theo
Colborn, the scientist who had popularized the theory that industrial
chemicals could alter hormones, she advised him, “Don’t go home the same
way twice.” Colborn was convinced that her office had been bugged, and
that industry representatives followed her. She told Hayes to “keep
looking over your shoulder” and to be careful whom he let in his lab.
She warned him, “You have got to protect yourself.”
Hayes published his atrazine work in the Proceedings of the National Academy of Sciences
a year and a half after quitting the panel. He wrote that what he
called “hermaphroditism” was induced in frogs by exposure to atrazine at
levels thirty times below what the E.P.A. permits in water. He
hypothesized that the chemical could be a factor in the decline in
amphibian populations, a phenomenon observed all over the world. In an
e-mail sent the day before the publication, he congratulated the
students in his lab for taking the “ethical stance” by continuing the
work on their own. “We (and our principles) have been tested, and I
believe we have not only passed but exceeded expectations,” he wrote.
“Science is a principle and a process of seeking truth. Truth cannot be
purchased and, thus, truth cannot be altered by money. Professorship is
not a career, but rather a life’s pursuit. The people with whom I work
daily exemplify and remind me of this promise.”
He
and his students continued the work, travelling to farming regions
throughout the Midwest, collecting frogs in ponds and lakes, and sending
three hundred pails of frozen water back to Berkeley. In papers in Nature and in Environmental Health Perspectives,
Hayes reported that he had found frogs with sexual abnormalities in
atrazine-contaminated sites in Illinois, Iowa, Nebraska, and Wyoming.
“Now that I have realized what we are into, I cannot stop it,” he wrote
to a colleague. “It is an entity of its own.” Hayes began arriving at
his lab at 3:30 A.M. and staying fourteen hours. He had two young children, who sometimes assisted by color-coding containers.
According
to company e-mails, Syngenta was distressed by Hayes’s work. Its
public-relations team compiled a database of more than a hundred
“supportive third party stakeholders,” including twenty-five professors,
who could defend atrazine or act as “spokespeople on Hayes.” The P.R.
team suggested that the company “purchase ‘Tyrone Hayes’ as a search
word on the internet, so that any time someone searches for Tyrone’s
material, the first thing they see is our material.” The proposal was
later expanded to include the phrases “amphibian hayes,” “atrazine
frogs,” and “frog feminization.” (Searching online for “Tyrone Hayes”
now brings up an advertisement that says, “Tyrone Hayes Not Credible.”)
In
June, 2002, two months after Hayes’s first atrazine publication,
Syngenta announced in a press release that three studies had failed to
replicate Hayes’s work. In a letter to the editor of the Proceedings of the National Academy of Sciences,
eight scientists on the EcoRisk panel wrote that Hayes’s study had
“little regard for assessment of causality,” lacked statistical details,
misused the term “dose,” made vague and naïve references, and
misspelled a word. They said that Hayes’s claim that his paper had
“significant implications for environmental and public health” had not
been “scientifically demonstrated.” Steven Milloy, a freelance science
columnist who runs a nonprofit organization to which Syngenta has given
tens of thousands of dollars, wrote an article for Fox News titled
“Freaky-Frog Fraud,” which picked apart Hayes’s paper in Nature,
saying that there wasn’t a clear relationship between the concentration
of atrazine and the effect on the frog. Milloy characterized Hayes as a
“junk scientist” and dismissed his “lame” conclusions as “just another
of Hayes’ tricks.”
Fussy critiques of scientific experiments have
become integral to what is known as the “sound science” campaign, an
effort by interest groups and industries to slow the pace of regulation.
David Michaels, the Assistant Secretary of Labor for Occupational
Safety and Health, wrote, in his book “Doubt Is Their Product” (2008),
that corporations have developed sophisticated strategies for
“manufacturing and magnifying uncertainty.” In the eighties and
nineties, the tobacco industry fended off regulations by drawing
attention to questions about the science of secondhand smoke. Many
companies have adopted this tactic. “Industry has learned that debating
the science is much easier and more effective than debating the policy,”
Michaels wrote. “In field after field, year after year, conclusions
that might support regulation are always disputed. Animal data are
deemed not relevant, human data not representative, and exposure data
not reliable.”
In
the summer of 2002, two scientists from the E.P.A. visited Hayes’s lab
and reviewed his atrazine data. Thomas Steeger, one of the scientists,
told Hayes, “Your research can potentially affect the balance of risk
versus benefit for one of the most controversial pesticides in the U.S.”
But an organization called the Center for Regulatory Effectiveness
petitioned the E.P.A. to ignore Hayes’s findings. “Hayes has killed and
continues to kill thousands of frogs in unvalidated tests that have no
proven value,” the petition said. The center argued that Hayes’s studies
violated the Data Quality Act, passed in 2000, which requires that
regulatory decisions rely on studies that meet high standards for
“quality, objectivity, utility, and integrity.” The center is run by an
industry lobbyist and consultant for Syngenta, Jim Tozzi, who proposed
the language of the Data Quality Act to the congresswoman who sponsored
it.
The E.P.A. complied with the Data Quality Act and revised its
Environmental Risk Assessment, making it clear that hormone disruption
wouldn’t be a legitimate reason for restricting use of the chemical
until “appropriate testing protocols have been established.” Steeger
told Hayes that he was troubled by the circularity of the center’s
critique. In an e-mail, he wrote, “Their position reminds me of the
argument put forward by the philosopher Berkeley, who argued against
empiricism by noting that reliance on scientific observation is flawed
since the link between observations and conclusions is intangible and is
thus immeasurable.”
Nonetheless, Steeger seemed resigned to the
frustrations of regulatory science and gently punctured Hayes’s
idealism. When Hayes complained that Syngenta had not reported his
findings on frog hermaphroditism quickly enough, he responded that it
was “unfortunate but not uncommon for registrants to ‘sit’ on data that
may be considered adverse to the public’s perception of their products.”
He wrote that “science can be manipulated to serve certain agendas. All
you can do is practice ‘suspended disbelief.’ ” (The E.P.A. says that
there is “no indication that information was improperly withheld in this
case.”)
After consulting with colleagues at Berkeley, Hayes
decided that, rather than watch Syngenta discredit his work, he would
make a “preëmptive move.” He appeared in features in Discover and the San Francisco Chronicle,
suggesting that Syngenta’s science was not objective. Both articles
focussed on his personal biography, leading with his skin color, and
moving on to his hair style: at the time, he wore his hair in braids.
Hayes made little attempt to appear disinterested. Scientific
objectivity requires what the philosopher Thomas Nagel has called a
“view from nowhere,” but Hayes kept drawing attention to himself, making
blustery comments like “Tyrone can only be Tyrone.” He presented
Syngenta as a villain, but he didn’t quite fulfill the role of the hero.
He was hyper and a little frantic—he always seemed to be in a rush or
on the verge of forgetting to do something—and he approached the idea of
taking down the big guys with a kind of juvenile zeal.
Environmental
activists praised Hayes’s work and helped him get media attention. But
they were concerned by the bluntness of his approach. A co-founder of
the Environmental Working Group, a nonprofit research organization, told
Hayes to “stop what you are doing and take time to actually construct a
plan” or “you will get your ass handed to you on a platter.” Steeger
warned him that vigilantism would distract him from his research. “Can
you afford the time and money to fight battles where you are clearly
outnumbered and, to be candid, outclassed?” he asked. “Most people would
prefer to limit their time in purgatory; I don’t know anyone who
knowingly enters hell.”
Hayes had worked all his life to build his
scientific reputation, and now it seemed on the verge of collapse. “I
cannot in reasonable terms explain to you what this means to me,” he
told Steeger. He took pains to prove that Syngenta’s experiments had not
replicated his studies: they used a different population of animals,
which were raised in different types of tanks, in closer quarters, at
cooler temperatures, and with a different feeding schedule. On at least
three occasions, he proposed to the Syngenta scientists that they trade
data. “If we really want to test repeatability, let’s share animals and
solutions,” he wrote.
In early 2003, Hayes was considered for a job at
the Nicholas School of the Environment, at Duke. He visited the campus
three times, and the university arranged for a real-estate agent to show
him and his wife potential homes. When Syngenta learned that Hayes
might be moving to North Carolina, where its crop-protection
headquarters are situated, Gary Dickson—the company’s vice-president of
global risk assessment, who a year earlier had established a
fifty-thousand-dollar endowment, funded by Syngenta, at the Nicholas
School—contacted a dean at Duke. According to documents unsealed in the
class-action lawsuits, Dickson informed the dean of the “state of the
relationship between Dr. Hayes and Syngenta.” The company “wanted to
protect our reputation in our community and among our employees.”
There
were several candidates for the job at Duke, and, when Hayes did not
get it, he concluded that it was due to Syngenta’s influence. Richard Di
Giulio, a Duke professor who had hosted Hayes’s first visit, said that
he was irritated by Hayes’s suggestion: “A little gift of fifty thousand
dollars would not influence a tenure hire. That’s not going to happen.”
He added, “I’m not surprised that Syngenta would not have liked Hayes
to be at Duke, since we’re an hour down the road from them.” He said
that Hayes’s conflict with Syngenta was an extreme example of the kind
of dispute that is not uncommon in environmental science. The
difference, he said, was that the “scientific debate spilled into
Hayes’s emotional life.”
In
June, 2003, Hayes paid his own way to Washington so that he could
present his work at an E.P.A. hearing on atrazine. The agency had
evaluated seventeen studies. Twelve experiments had been funded by
Syngenta, and all but two showed that atrazine had no effect on the
sexual development of frogs. The rest of the experiments, by Hayes and
researchers at two other universities, indicated the opposite. In a
PowerPoint presentation at the hearing, Hayes disclosed a private e-mail
sent to him by one of the scientists on the EcoRisk panel, a professor
at Texas Tech, who wrote, “I agree with you that the important issue is
for everyone involved to come to grips with (and stop minimizing) the
fact that independent laboratories have demonstrated an effect of
atrazine on gonadal differentiation in frogs. There is no denying this.”
The
E.P.A. found that all seventeen atrazine studies, including Hayes’s,
suffered from methodological flaws—contamination of controls,
variability in measurement end points, poor animal husbandry—and asked
Syngenta to fund a comprehensive experiment that would produce more
definitive results. Darcy Kelley, a member of the E.P.A.’s scientific
advisory panel and a biology professor at Columbia, said that, at the
time, “I did not think the E.P.A. made the right decision.” The studies
by Syngenta scientists had flaws that “really cast into doubt their
ability to carry out their experiments. They couldn’t replicate effects
that are as easy as falling off a log.” She thought that Hayes’s
experiments were more respectable, but she wasn’t persuaded by Hayes’s
explanation of the biological mechanism causing the deformities.
The
E.P.A. approved the continued use of atrazine in October, the same
month that the European Commission chose to remove it from the market.
The European Union generally takes a precautionary approach to
environmental risks, choosing restraint in the face of uncertainty. In
the U.S., lingering scientific questions justify delays in regulatory
decisions. Since the mid-seventies, the E.P.A. has issued regulations
restricting the use of only five industrial chemicals out of more than
eighty thousand in the environment. Industries have a greater role in
the American regulatory process—they may sue regulators if there are
errors in the scientific record—and cost-benefit analyses are integral
to decisions: a monetary value is assigned to disease, impairments, and
shortened lives and weighed against the benefits of keeping a chemical
in use. Lisa Heinzerling, the senior climate-policy counsel at the
E.P.A. in 2009 and the associate administrator of the office of policy
in 2009 and 2010, said that cost-benefit models appear “objective and
neutral, a way to free ourselves from the chaos of politics.” But the
complex algorithms “quietly condone a tremendous amount of risk.” She
added that the influence of the Office of Management and Budget, which
oversees major regulatory decisions, has deepened in recent years. “A
rule will go through years of scientific reviews and cost-benefit
analyses, and then at the final stage it doesn’t pass,” she said. “It
has a terrible, demoralizing effect on the culture at the E.P.A.”
In
2003, a Syngenta development committee in Basel approved a strategy to
keep atrazine on the market “until at least 2010.” A PowerPoint
presentation assembled by Syngenta’s global product manager explained
that “we need atrazine to secure our position in the corn marketplace.
Without atrazine we cannot defend and grow our business in the USA.”
Sherry Ford, the communications manager, wrote in her notebook that the
company “should not phase out atz until we know about” the Syngenta
herbicide paraquat, which has also been controversial, because of
studies showing that it might be associated with Parkinson’s disease.
She noted that atrazine “focuses attention away from other products.”
Syngenta
began holding weekly “atrazine meetings” after the first class-action
suit was filed, in 2004. The meetings were attended by toxicologists,
the company’s counsel, communications staff, and the head of regulatory
affairs. To dampen negative publicity from the lawsuit, the group
discussed how it could invalidate Hayes’s research. Ford documented
peculiar things he had done (“kept coat
on”) or phrases he had used (“Is this line clean?”). “If TH wanted to
win the day, and he had the goods,” she wrote, “he would have produced
them when asked.” She noted that Hayes was “getting in too deep w/
enviros,” and searched for ways to get him to “show his true colors.”
In
2005, Ford made a long list of methods for discrediting him: “have his
work audited by 3rd party,” “ask journals to retract,” “set trap to
entice him to sue,” “investigate funding,” “investigate wife.” The
initials of different employees were written in the margins beside
entries, presumably because they had been assigned to look into the
task. Another set of ideas, discussed at several meetings, was to
conduct “systematic rebuttals of all TH appearances.” One of the
company’s communications consultants said in an e-mail that she wanted
to obtain Hayes’s calendar of speaking engagements, so that Syngenta
could “start reaching out to the potential audiences with the Error vs.
Truth Sheet,” which would provide “irrefutable evidence of his polluted
messages.” (Syngenta says that many of the documents unsealed in the
lawsuits refer to ideas that were never implemented.)
To redirect
attention to the financial benefits of atrazine, the company paid Don
Coursey, a tenured economist at the Harris School of Public Policy, at
the University of Chicago, five hundred dollars an hour to study how a
ban on the herbicide would affect the economy. In 2006, Syngenta
supplied Coursey with data and a “bundle of studies,” and edited his
paper, which was labelled as a Harris School Working Paper. (He
disclosed that Syngenta had funded it.) After submitting a draft,
Coursey had been warned in an e-mail that he needed to work harder to
articulate a “clear statement of your conclusions flowing from this
analysis.” Coursey later announced his findings at a National Press Club
event in Washington and told the audience that there was one “basic
takeaway point: a ban on atrazine at the national level will have a
devastating, devastating effect upon the U.S. corn economy.”
Hayes
had been promoted from associate to full professor in 2003, an
achievement that had sent him into a mild depression. He had spent the
previous decade understanding his self-worth in reference to a series of
academic milestones, and he had reached each one. Now he felt aimless.
His wife said she could have seen him settling into the life of a
“normal, run-of-the-mill, successful scientist.” But he wasn’t motivated
by the idea of “writing papers and books that we all just trade with
each other.”
He began giving more than fifty lectures a year, not
just to scientific audiences but to policy institutes, history
departments, women’s health clinics, food preparers, farmers, and high
schools. He almost never declined an invitation, despite the distance.
He told his audiences that he was defying the instructions of his Ph.D.
adviser, who had told him, “Let the science speak for itself.” He had a
flair for sensational stories—he chose phrases like “crime scene” and
“chemically castrated”—and he seemed to revel in details about
Syngenta’s conflicts of interest, presenting theories as if he were
relating gossip to friends. (Syngenta wrote a letter to Hayes and his
dean, pointing out inaccuracies: “As we discover additional errors in
your presentations, you can expect us to be in touch with you again.”)
At
his talks, Hayes noticed that one or two men in the audience were
dressed more sharply than the other scientists. They asked questions
that seemed to have been designed to embarrass him: Why can’t anyone
replicate your research? Why won’t you share your data? One former
student, Ali Stuart, said that “everywhere Tyrone went there was this
guy asking questions that made a mockery of him. We called him the Axe
Man.”
Hayes had once considered a few of the scientists working
with Syngenta friends, and he approached them in a nerdy style of
defiance. He wrote them mass e-mails, informing them of presentations he
was giving and offering tips on how to discredit him. “You can’t
approach your prey thinking like a predator,” he wrote. “You have to
become your quarry.” He described a recent trip to South Carolina and
his sense of displacement when “my old childhood friend came by to
update me on who got killed, who’s on crack, who went to jail.” He
wrote, “I have learned to talk like you (better than you . . . by your
own admission), write like you (again better) . . . you however don’t
know anyone like me . . . you have yet to spend a day in my world.”
After seeing an e-mail in which a lobbyist characterized him as “black
and quite articulate,” he began signing his e-mails, “Tyrone B. Hayes,
Ph.D., A.B.M.,” for “articulate black man.”
Syngenta was concerned
by Hayes’s e-mails and commissioned an outside contractor to do a
“psychological profile” of Hayes. In her notes, Sherry Ford described
him as “bipolar/manic-depressive” and “paranoid schizo &
narcissistic.” Roger Liu, Hayes’s student, said that he thought Hayes
wrote the e-mails to relieve his anxiety. Hayes often showed the e-mails
to his students, who appreciated his rebellious sense of humor. Liu
said, “Tyrone had all these groupies in the lab cheering him on. I was
the one in the background saying, you know, ‘Man, don’t egg them on.
Don’t poke that beast.’ ”
Syngenta
intensified its public-relations campaign in 2009, as it became
concerned that activists, touting “new science,” had developed a “new
line of attack.” That year, a paper in Acta Paediatrica,
reviewing national records for thirty million births, found that
children conceived between April and July, when the concentration of
atrazine (mixed with other pesticides) in water is highest, were more
likely to have genital birth defects. The author of the paper, Paul
Winchester, a professor of pediatrics at the Indiana University School
of Medicine, received a subpoena from Syngenta, which requested that he
turn over every e-mail he had written about atrazine in the past decade.
The company’s media talking points described his study as “so-called
science” that didn’t meet the “guffaw test.” Winchester said, “We don’t
have to argue that I haven’t proved the point. Of course I haven’t
proved the point! Epidemiologists don’t try to prove points—they look
for problems.”
A few months after Winchester’s paper appeared, the Times
published an investigation suggesting that atrazine levels frequently
surpass the maximum threshold allowed in drinking water. The article
referred to recent studies in Environmental Health Perspectives and the Journal of Pediatric Surgery
that found that mothers living close to water sources containing
atrazine were more likely to have babies who were underweight or had a
defect in which the intestines and other organs protrude from the body.
The
day the article appeared, Syngenta planned to “go through the article
line by line and find all 1) inaccuracies and 2) misrepresentations.
Turn that into a simple chart.” The company would have “a credible third
party do the same.” Elizabeth Whelan, the president of the American
Council on Science and Health, which asked Syngenta for a hundred
thousand dollars that year, appeared on MSNBC and declared that the Times
article was not based on science. “I’m a public-health professional,”
she said. “It really bothers me very much to see the New York Times front-page Sunday edition featuring an article about a bogus risk.”
Syngenta’s
public-relations team wrote editorials about the benefits of atrazine
and about the flimsy science of its critics, and then sent them to
“third-party allies,” who agreed to “byline” the articles, which
appeared in the Washington Times, the Rochester Post-Bulletin, the Des Moines Register, and the St. Cloud Times.
When a few articles in the “op-ed pipeline” sounded too aggressive, a
Syngenta consultant warned that “some of the language of these pieces is
suggestive of their source, which suggestion should be avoided at all
costs.”
After the Times article, Syngenta hired a
communications consultancy, the White House Writers Group, which has
represented more than sixty Fortune 500 companies. In an e-mail to
Syngenta, Josh Gilder, a director of the firm and a former speechwriter
for Ronald Reagan, wrote, “We need to start fighting our own war.” By
warning that a ban on atrazine would “devastate the economies” of rural
regions, the firm tried to create a “state of affairs in which the new
political leadership at E.P.A. finds itself increasingly isolated.” The
firm held “elite dinners with Washington influentials” and tried to
“prompt members of Congress” to challenge the scientific rationale for
an upcoming E.P.A. review of atrazine. In a memo describing its
strategy, the White House Writers Group wrote that, “regarding science,
it is important to keep in mind that the major players in Washington do
not understand science.”
In
2010, Hayes told the EcoRisk panel in an e-mail, “I have just initiated
what will be the most extraordinary academic event in this battle!” He
had another paper coming out in the Proceedings of the National Academy of Sciences,
which described how male tadpoles exposed to atrazine grew up to be
functional females with impaired fertility. He advised the company that
it would want to get its P.R. campaign up to speed. “It’s nice to know
that in this economy I can keep so many people employed,” he wrote. He
quoted both Tupac Shakur and the South African king Shaka Zulu: “Never
leave an enemy behind or it will rise again to fly at your throat.”
Syngenta’s head of global product safety wrote a letter to the editor of the Proceedings of the National Academy of Sciences
and to the president of the National Academy of Sciences, expressing
concern that a “publication with so many obvious weaknesses could
achieve publication in such a reputable scientific journal.” A month
later, Syngenta filed an ethics complaint with the chancellor of
Berkeley, claiming that Hayes’s e-mails violated the university’s
Standards of Ethical Conduct, particularly Respect for Others. Syngenta
posted more than eighty of Hayes’s e-mails on its Web site and enclosed a
few in its letter to the chancellor. In one, with the subject line “Are
y’all ready for it,” Hayes wrote, “Ya fulla my j*z right now!” In
another, he told the Syngenta scientists that he’d had a drink after a
conference with their “republican buddies,” who wanted to know about a
figure he had used in his paper. “As long as you followin me around, I
know I’m da sh*t,” he wrote. “By the way, yo boy left his pre-written
questions at the table!”
Berkeley declined to take disciplinary
action against Hayes. The university’s lawyer reminded Syngenta in a
letter that “all parties have an equal responsibility to act
professionally.” David Wake said that he read many of the
e-mails and found them “quite hilarious.” “He’s treating them like
street punks, and they view themselves as captains of industry,” he
said. “When he gets tapped, he goes right back at them.”
Michelle
Boone, a professor of aquatic ecology at Miami University, who served on
the E.P.A.’s scientific advisory panel, said, “We all follow the Tyrone
Hayes drama, and some people will say, ‘He should just do the science.’
But the science doesn’t speak for itself. Industry has unlimited
resources and bully power. Tyrone is the only one calling them out on
what they’re doing.” However, she added, “I do think some people feel he
has lost his objectivity.”
Keith Solomon, a professor emeritus at
the University of Guelph, Ontario, who has received funding from
Syngenta and served on the EcoRisk panel, noted that academics who
refuse industry money are not immune from biases; they’re under pressure
to produce papers, in order to get tenure and promotions. “If I do an
experiment, look at the data every which way, and find nothing, it will
not be easy to publish,” he said. “Journals want excitement. They want
bad things to happen.”
Hayes, who had gained more than fifty
pounds since becoming tenured, wore bright scarves draped over his suit
and silver earrings from Tibet. At the end of his lectures, he broke
into rhyme: “I see a ruse / intentionally constructed to confuse the
news / well, I’ve taken it upon myself to defuse the clues / so that you
can choose / and to demonstrate the objectivity of the methods I use.”
At some of his lectures, Hayes warned that the consequences of atrazine
use were disproportionately felt by people of color. “If you’re black or
Hispanic, you’re more likely to live or work in areas where you’re
exposed to crap,” he said. He explained that “on the one side I’m trying
to play by the ivory-tower rules, and on the other side people are
playing by a different set of rules.” Syngenta was speaking directly to
the public, whereas scientists were publishing their research in
“magazines that you can’t buy in Barnes and Noble.”
Hayes
was confident that at the next E.P.A. hearing there would be enough
evidence to ban atrazine, but in 2010 the agency found that the studies
indicating risk to humans were too limited. Two years later, during
another review, the E.P.A. determined that atrazine does not affect the
sexual development of frogs. By that point, there were seventy-five
published studies on the subject, but the E.P.A. excluded the majority
of them from consideration, because they did not meet the requirements
for quality that the agency had set in 2003. The conclusion was based
largely on a set of studies funded by Syngenta and led by Werner Kloas, a
professor of endocrinology at Humboldt University, in Berlin. One of
the co-authors was Alan Hosmer, a Syngenta scientist whose job,
according to a 2004 performance evaluation, included “atrazine defence”
and “influencing EPA.”
After the hearing, two of the independent
experts who had served on the E.P.A.’s scientific advisory panel, along
with fifteen other scientists, wrote a paper (not yet published)
complaining that the agency had repeatedly ignored the panel’s
recommendations and that it placed “human health and the environment at
the mercy of industry.” “The EPA works with industry to set up the
methodology for such studies with the outcome often that industry is the
only institution that can afford to conduct the research,” they wrote.
The Kloas study was the most comprehensive of its kind: its researchers
had been scrutinized by an outside auditor, and their raw data turned
over to the E.P.A. But the scientists wrote that one set of studies on a
single species was “not a sufficient edifice on which to build a
regulary assessment.” Citing a paper by Hayes, who had done an analysis
of sixteen atrazine studies, they wrote that “the single best predictor
of whether or not the herbicide atrazine had a significant effect in a
study was the funding source.”
In another paper, in Policy Perspective,
Jason Rohr, an ecologist at the University of South Florida, who served
on an E.P.A. panel, criticized the “lucrative ‘science for hire’
industry, where scientists are employed to dispute data.” He wrote that a
Syngenta-funded review of the atrazine literature had arguably
misrepresented more than fifty studies and made a hundred and forty-four
inaccurate or misleading statements, of which “96.5% appeared to be
beneficial for Syngenta.” Rohr, who has conducted several experiments
involving atrazine, said that, at conferences, “I regularly get peppered
with questions from Syngenta cronies trying to discount my research.
They try to poke holes in the research rather than appreciate the
adverse effects of the chemicals.” He said, “I have colleagues whom I’ve
tried to recruit, and they’ve told me that they’re not willing to delve
into this sort of research, because they don’t want the headache of
having to defend their credibility.”
Deborah Cory-Slechta, a
former member of the E.P.A.’s science advisory board, said that she,
too, felt that Syngenta was trying to undermine her work. A professor at
the University of Rochester Medical Center, Cory-Slechta studies how
the herbicide paraquat may contribute to diseases of the nervous system.
“The folks from Syngenta used to follow me to my talks and tell me I
wasn’t using ‘human-relevant doses,’ ” she said. “They would go up to my
students and try to intimidate them. There was this sustained campaign to make it look like my science wasn’t legitimate.”
Syngenta
denied repeated requests for interviews, but Ann Bryan, its senior
manager for external communications, told me in an e-mail that some of
the studies I was citing were unreliable or unsound. When I mentioned a
recent paper in the American Journal of Medical Genetics,
which showed associations between a mother’s exposure to atrazine and
the likelihood that her son will have an abnormally small penis,
undescended testes, or a deformity of the urethra—defects that have
increased in the past several decades—she said that the study had been
“reviewed by independent scientists, who found numerous flaws.” She
recommended that I speak with the author of the review, David Schwartz, a
neuroscientist, who works for Innovative Science Solutions, a
consulting firm that specializes in “product defense” and strategies
that “give you the power to put your best data forward.” Schwartz told
me that epidemiological studies can’t eliminate confounding variables or
make claims about causation. “We’ve been incredibly misled by this type
of study,” he said.
In
2012, in its settlement of the class-action suits, Syngenta agreed to
pay a hundred and five million dollars to reimburse more than a thousand
water systems for the cost of filtering atrazine from drinking water,
but the company denies all wrongdoing. Bryan told me that “atrazine does
not and, in fact, cannot cause adverse health effects at any level that
people would ever be exposed to in the real-world environment.” She
wrote that she was “troubled by a suggestion that we have ever tried to
discredit anyone. Our focus has always been on communicating the science
and setting the record straight.” She noted that “virtually every
well-known brand, or even well-known issue, has a communications program
behind it. Atrazine’s no different.”
Last
August, Hayes put his experiments on hold. He said that his fees for
animal care had risen eightfold in a decade, and that he couldn’t afford
to maintain his research program. He accused the university of charging
him more than other researchers in his department; in response, the
director of the office of laboratory-animal care sent detailed charts
illustrating that he is charged according to standard campus-wide rates,
which have increased for most researchers in recent years. In an online
Forbes op-ed, Jon Entine, a journalist who is listed
in Syngenta’s records as a supportive “third party,” accused Hayes of
being attached to conspiracy theories, and of leading the “international
regulatory community on a wild goose chase,” which “borders on
criminal.”
By late November, Hayes’s lab had resumed work. He was
using private grants to support his students rather than to pay
outstanding fees, and the lab was accumulating debt. Two days before
Thanksgiving, Hayes and his students discussed their holiday plans. He
was wearing an oversized orange sweatshirt, gym shorts, and running
shoes, and a former student, Diana Salazar Guerrero, was eating fries
that another student had left on the table. Hayes encouraged her to come
to his Thanksgiving dinner and to move into the bedroom of his son, who
is now a student at Oberlin. Guerrero had just put down half the
deposit on a new apartment, but Hayes was disturbed by her description
of her new roommate. “Are you sure you can trust him?” he asked.
Hayes
had just returned from Mar del Plata, Argentina. He had flown fifteen
hours and driven two hundred and fifty miles to give a thirty-minute
lecture on atrazine. Guerrero said, “Sometimes I’m just, like, ‘Why
don’t you let it go, Tyrone? It’s been fifteen years! How do you have
the energy for this?’ ” With more scientists documenting the risks of
atrazine, she assumed he’d be inclined to move on. “Originally, it was
just this crazy guy at Berkeley, and you can throw the Berserkley thing
at anyone,” she said. “But now the tide is turning.”
In a recent paper in the Journal of Steroid Biochemistry and Molecular Biology,
Hayes and twenty-one other scientists applied the criteria of Sir
Austin Bradford Hill, who, in 1965, outlined the conditions necessary
for a causal relationship, to atrazine studies across different
vertebrate classes. They argued that independent lines of evidence
consistently showed that atrazine disrupts male reproductive
development. Hayes’s lab was working on two more studies that explore
how atrazine affects the sexual behavior of frogs. When I asked him what
he would do if the E.P.A., which is conducting another review of the
safety of atrazine this year, were to ban the herbicide, he joked, “I’d
probably get depressed again.”
Not long ago, Hayes saw a
description of himself on Wikipedia that he found disrespectful, and he
wasn’t sure whether it was an attack by Syngenta or whether there were
simply members of the public who thought poorly of him. He felt deflated
when he remembered the arguments he’d had with Syngenta-funded pundits.
“It’s one thing if you go after me because you have a philosophical
disagreement with my science or if you think I’m raising alarm where
there shouldn’t be any,” he said. “But they didn’t even have their own
opinions. Someone was paying them to take a position.” He wondered if
there was something inherently insane about the act of whistle-blowing;
maybe only crazy people persisted. He was ready for a fight, but he
seemed to be searching for his opponent.
One
of his first graduate students, Nigel Noriega, who runs an organization
devoted to conserving tropical forests, told me that he was still
recovering from the experience of his atrazine research, a decade
before. He had come to see science as a rigid culture, “its own club, an
élite society,” Noriega said. “And Tyrone didn’t conform to the social
aspects of being a scientist.” Noriega worried that the public had
little understanding of the context that gives rise to scientific
findings. “It is not helpful to anyone to assume that scientists are
authoritative,” he said. “A good scientist spends his whole career
questioning his own facts. One of the most dangerous things you can do
is believe.” ♦ *An earlier version of this article did not properly credit the organization that produced and co-published the report with Environmental Health News; it was 100Reporters.
This article appears in the print edition of the February 10, 2014, issue.
Rachel Aviv joined The New Yorker as a staff writer in 2013.
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