What is happening is that
when money is involved, they are prepared to outright seize effective
control of the tools of independent dissemination of test results.
This is not uncommon. In mining it is the equivalent of not just
modifying the gold assays but of arranging to own the assay office
and to ensure only your corrupted employers are there.
The key is to determine
if a vested interest has a legitimate interest in the science.
Fortunately, that is usually not the case outside of the biological
sciences. Yet it is there that it is far too easy to manipulate both
the data and the interpretation. Here we are seeing just that
underway.
The bad news is that all
biological claims made by pharmaceutical companies and agricultural
supply companies are first completely self serving and potentially
bogus. Your only defense is been careful and too avoid new drugs in
particular unless you have an excellent empirical case for their
value. Even that should be after a time of maturation.
The good news is that we
have a range of drugs now long out of patent whose empirical base is
good enough. As well research is building up on the huge database of
plant based protocols that can also be applied.
In agriculture, it is
time to convert fully to organic protocols and suck up the initial
cost. We already know enough to surpass the performance of the
present protocols.
You also do not want to
be the last to join the organic revolution coming to industrial
farming. As said, we already know enough and there is more to come.
The Goodman Affair:
Monsanto Targets the Heart of Science
Richard Smith, former
editor of the British Medical Journal, has jested that
instead of scientific peer review, its rival The Lancet had a system
of throwing a pile of papers down the stairs and publishing those
that reached the bottom. On another occasion, Smith was challenged to
publish an issue of the BMJ exclusively comprising papers that had
failed peer review and see if anybody noticed. He replied, “How do
you know I haven’t already done it?”
As Smith’s stories
show, journal editors have a lot of power in science – power that
provides opportunities for abuse. The life science industry knows
this, and has increasingly moved to influence and control science
publishing.
The strategy, often
with the willing cooperation of publishers, is effective and
sometimes blatant. In 2009, the scientific publishing giant Elsevier
was found to have invented an entire
medical journal, complete with editorial board,
in order to publish papers promoting the products of the
pharmaceutical manufacturer Merck. Merck provided the papers,
Elsevier published them, and doctors read them, unaware that the
Australasian Journal of Bone and Joint Medicine was simply a stuffed
dummy.
Fast forward to
September 2012, when the scientific journal Food and Chemical
Toxicology (FCT) published a study that caused an international storm
(Séralini,
et al. 2012). The study, led by Prof
Gilles-Eric Séralini of the University of Caen, France, suggested a
Monsanto genetically modified (GM) maize, and the Roundup herbicide
it is grown with, pose serious health risks. The two-year feeding
study found that rats fed both suffered severe organ damage and
increased rates of tumors and premature death. Both the herbicide
(Roundup) and the GM maize are Monsanto products. Corinne Lepage,
France’s former environment minister, called the study “a
bomb”.
Subsequently,
an orchestrated
campaign was launched to discredit the
study in the media and persuade the journal to retract it. Many of
those who wrote letters to FCT (which is published by Elsevier)
had conflicts of interest with the GM industry and its lobby groups,
though these were not
publicly disclosed.
The journal did not
retract the study. But just a few months later, in early 2013 the FCT
editorial board acquired a new “Associate
Editor for biotechnology”, Richard E.
Goodman. This was a new position, seemingly established especially
for Goodman in the wake of the “Séralini affair”.
Richard E. Goodman is
professor at the Food Allergy Research and Resource Program,
University of Nebraska. But he is also a former Monsanto employee,
who worked for the company between 1997
and 2004. While at Monsanto he assessed the
allergenicity of the company’s GM crops and published papers on its
behalf on allergenicity and safety issues relating to GM food
(Goodman and Leach 2004).
Goodman had no
documented connection to the journal until February 2013. His
fast-tracked appointment, directly onto the upper editorial board
raises urgent questions. Does Monsanto now effectively decide which
papers on biotechnology are published in FCT? And is this part of an
attempt by Monsanto and the life science industry to seize control of
science?
To equate one journal
with “science” may seem like an exaggeration. But peer-reviewed
publication, in the minds of most scientists, is science. Once a
paper is published in an academic journal it enters the canon and
stands with the discovery of plate tectonics or the structure of DNA.
All other research, no matter how groundbreaking or true, is
irrelevant. As a scientist once scathingly said of the “commercially
confidential” industry safety data that underpin approvals of
chemicals and GM foods, “If it isn’t published, it doesn’t
exist.”
Goodman’s ILSI links
The industry
affiliations of FCT’s new gatekeeper for biotechnology are not
restricted to having worked directly for Monsanto. Goodman has
an active and ongoing involvement
with the International Life Sciences Institute (ILSI). ILSI is funded
by the multinational GM and agrochemical companies, including
Monsanto. It develops industry-friendly risk assessment methods for
GM foods and chemical food contaminants and inserts them into
government regulations.
ILSI describes itself
as a public interest non-profit but its infiltration of regulatory
agencies and influence on risk assessment policy has become highly
controversial in North America and Europe. In 2005 US-based
non-profits and trade unions wrote to
the World Health Organization (WHO) protesting against ILSI’s
influence on international health standards protecting food and water
supplies. As a result, the WHO barred
ILSI from taking part in WHO activities
setting safety standards, because of its funding sources. And
in Europe in 2012, Diana Banati, then head of the management board at
the European Food Safety Authority (EFSA), had to resign over her
undisclosed long-standing involvement with ILSI (Robinson et al.
2013).
Goodman’s
appointment to FCT is surprising also for the fact that the journal
already has expertise in GM food safety. Of the four senior editors,
José L. Domingo is a professor of toxicology and environmental
health and author of two comprehensive reviews of GM food safety
studies (Domingo
2007; Domingo
and Bordonaba 2011). Both reviews
expressed skepticism of the thesis that GMOs are safe. Consequently,
it is far from clear why FCT needs an “associate editor for
biotechnology”, but it is clear why Monsanto would have an interest
in ensuring that the “Séralini affair” is never repeated.
Editing the scientific
record: The case of Paul Christou
FCT is not the only
academic journal that appears to have been captured by commercial
interests. After the initial campaign failed to get FCT to retract
the Séralini study, the journal Transgenic Research published a
heavy-handed critique of the study and of the researchers themselves
(Arjo
et al., 2013). The lead author of that critique
was Paul Christou.
Christou and
co-authors castigated the editor of FCT for publishing the study,
calling it “a clear and egregious breach of the standards of
scientific publishing”. They insisted that the journal editor
retract the study “based on its clearly flawed data, its breaches
of ethical standards, and the strong evidence for scientific
misconduct and abuse of the peer-review process”. “Even a full
retraction of the Séralini article” wrote Christou, “will not
cleanse the Internet of the inflammatory images of tumorous rats.”
The same writers
further implied that the Séralini study was “fraudulent”, that
the researchers failed to analyse the data objectively, and that the
treatment of the experimental animals was inhumane.
This is not the first
time Christou has attacked scientific findings that have raised
doubts about GM crops. In 2001 Ignacio Chapela and David Quist of the
University of California, Berkeley, reported in the journal Nature
that indigenous Mexican maize varieties had become contaminated with
GM genes (Quist
and Chapela, 2001). This issue was, and
remains, highly controversial since Mexico is the genetic centre of
origin for maize. In an exact parallel with the Séralini study,
an internet
campaign was waged against Chapela and
Quist demanding that the journal retract the study. Then Christou,
just as he was later to do with the Séralini study, attacked Chapela
and Quist’s paper in an article in Transgenic Research. The title
said it all: “No credible scientific evidence is presented to
support claims that transgenic DNA was introgressed into traditional
maize landraces in Oaxaca, Mexico” (Christou,
2002).
Responding to the
campaign, Nature editor Philip Campbell asked Chapela and Quist for
more data, which they provided, and arranged another round of peer
review. Only one reviewer in the final group of three supported
retraction, and no one had presented any data or analysis that
contradicted Chapela and Quist’s main finding. Nevertheless,
Nature asserted,
“The evidence available is not sufficient to justify the
publication of the original paper”. Some subsequent investigations,
testing different samples, reported finding GM genes in native
landraces of Mexican corn (Pineyro-Nelson
et al. 2009), while others did not
(Ortiz-Garcia
et al. 2005).
Paul Christou, in
contrast, probably did not have much trouble getting either of his
critiques published in Transgenic Research. He is the journal’s
editor-in-chief. And, like Goodman, Christou is connected to
Monsanto. Monsanto bought the GM seed company Agracetus (Christou’s
former employer) and Monsanto now
holds patents for
the production of GM crops on which Christou is named as
the inventor. It is normal practice to declare inventor status
on patents as a competing interest in scientific articles, but
Christou did not disclose either conflict of interest – his
editorship of the journal or his patent inventor status – in his
critique of the Séralini study.
The Ermakova affair:
Preemptive editing of the scientific record
Not only can journal
editors prevent the publication of research showing problems with GM
crops in their own journals – they can effectively prevent
publication elsewhere. In 2007, the leading academic
journal Nature Biotechnology featured an extraordinary attack on the
work of Russian scientist, Irina Ermakova (Marshall, 2007). Her
laboratory research had found decreased weight gain, increased
mortality, and decreased fertility in rats fed GM Roundup-tolerant
soy over several generations (Ermakova, 2006; Ermakova,
2009).
The editor of Nature
Biotechnology, Andrew Marshall, contacted Ermakova, inviting her to
answer questions about her findings, which she had only presented at
conferences. He told
her it was “an opportunity to present your
own findings and conclusions in your own words, rather than a
critique from one side”. Ermakova agreed.
The process that
followed was as deceptive as it was irregular. The
editor sent Ermakova
a set of questions about her research, which she answered. In due
course she was sent a proof of what she thought was to be
‘her’ article, with her byline as author.
However, the article
that was finally published was very different. Ermakova’s
byline had been removed and Marshall’s substituted. Each of
Ermakova’s answers to the questions was followed by a lengthy
critique by four pro-GM scientists (Marshall, 2007). The proof sent
to Ermakova, now revealed as a ‘dummy
proof’, had not included these critical
comments. Consequently, she was denied the chance to address them in
the same issue of the journal. And in the final article the editor
had preserved the critics’ references but removed many of
Ermakova’s, with the effect that her statements appeared
unsubstantiated.
Nature Biotechnology’s
treatment of Ermakova attracted
condemnation from many scientists. It was
also strongly criticized in some mediaoutlets.
Harvey Marcovitch, former editor of a scientific journal and now
director of the Committee on Publication Ethics (COPE), which sets
ethical standards for academic journals, commented,
“This is a type of publication which I have never encountered.”
He said that while reading it he was struck by “some surprising
things”. He was unwilling to speculate as to what exactly happened:
“Either the editor was trying out a new form of experimentation, in
which not everything went according to plan, or there was indeed a
conspiracy or whatever one wants to call it.”
Dr Brian John of the
Wales-based campaign group GM-Free Cymru was more blunt,
calling the process “tabloid academic publishing
involving deception, lies, duplicity and editorial malpractice”.
Amid the uproar,
editor Marshall released his email correspondence with
Ermakova on the internet. It showed that far from his having
“solicited” the comments from the critics, as he had originally
claimed, the four pro-GM scientists had themselves approached the
journal proposing their “critique”, and even though none of them
are toxicologists, Marshall had agreed. The self-selected
critics judged Ermakova’s research – which they had never even
seen in its complete form – “demonstrably flawed”.
Nature Biotechnology
also failed to fully disclose the conflicts of interest of Ermakova’s
critics. Bruce
Chassy was lead author on two influential
ILSI publications, which defined weak risk assessment methodologies
for GM crops that were later
inserted into the guidelines of the
European Food Safety Authority (EFSA). Vivian Moses was
chairman of CropGen,
a GM industry lobby group with Monsanto among its funders. L.
Val Giddings, an industry consultant, was
described in the article as formerly of the Biotechnology Industry
Organization (BIO). Nature Biotechnology omitted to say that Giddings
occupied a senior position at BIO – vice
president for food and agriculture – and
that BIO’s
funders include the GM crop companies,
Monsanto, Dow and DuPont. The last of the four critics, Alan
McHughen, developed a GM flax called Triffid
that in 2009 was found to have contaminated flax supplies coming into
Europe from Canada. If these interests had been disclosed, readers
might have judged the criticism of Ermakova differently.
Open source scientific
publishing?
These examples show
that the threat to scientific publishing from industry influence is
real. The avenues for researchers to publish critical views in
science are already few. This is especially true for the high-impact
journals that the media notices and that therefore influence public
discourse. Equally problematic is that few scientific institutions
will support researchers whose findings contradict industry
viewpoints, as Chapela found out when UC Berkeley tried to deny
him tenure following the controversial
maize study. Even fewer funding sources will give to such
researchers. Consequently almost all funding of biosafety research
finds its way into the hands of researchers with industry ties.
This directly affects
the quality of the science produced. A recent literature review found
that most studies concluding that GM foods are as safe as non-GM
counterparts were performed by the developer companies or their
associates (Domingo and Bordonaba, 2011). . It is no coincidence that
Norway, a country without an agricultural industry lobby, hosts the
only publicly funded institute in
the world with a mission to conduct research on the environmental,
health and social consequences of genetic engineering.
There are in principle
ways within the existing system to mitigate or neutralize the
influence of industry on the ability of scientists to publish
independent and critical research. The first is transparency in
publishing. Journal editors should adopt the COPE guidelines and
publish all conflicts of interest among staff and editors.
Also in line with
COPE’s stipulation, peer reviewers should be selected to avoid
conflicts of interest. If this proves impossible due to the spread of
patents and industry research funding, then care must be taken to
select a balanced panel representing a plurality of views. FCT is a
member of COPE, but does not publish information on editors’
conflicts of interest, and its appointment of Goodman over Domingo
shows that it does not seek to avoid them.
There may in fact be a
need to critically examine the entire concept of peer review. The
limitations of all types of expert opinion – whether that of an
individual expert or of an expert panel – are recognized in the
field of evidence-based medicine. To address this problem, bodies
such as the non-profit Cochrane
Collaboration have developed systematic
and transparent methodologies to review and evaluate data on the
effectiveness of different medical interventions. The aim is to
enable healthcare practitioners to make well-informed clinical
decisions. The reviewing
criteria are transparently set out in
advance, so there is less scope for bias in evaluations of studies.
When disagreements do occur, it is easy to pinpoint the reason and
resolve the problem. Cochrane also implements rules to
prevent conflicts of interest among its reviewers and editorial
board.
The Cochrane approach
is widely respected and the lessons learned in evidence-based
medicine about conflicts of interest and resisting industry pressure
are being applied to
other fields, such as hazardous environmental exposures (Woodruff
et al., 2011). There is no reason why
scientific journals, including those publishing GMO research, cannot
use similar methods to evaluate papers, so that less discretion is
given to experts with conflicts of interest.
Implementing such
policies presumes strong support among the scientific community for
independent science. But this support may not exist outside of
medical research.
FCT took on Goodman, a
former Monsanto employee and well-known supporter of industry
viewpoints, immediately following the publication of a controversial
paper that was critical of Monsanto’s principal products. In doing
so, FCT senior management bypassed the normal scientific editorial
culture of gradual promotion from within.
Meanwhile, two other
prominent academic journals have served as platforms for their
editors to generate unsubstantiated and unscientific abuse without
any repercussions for their editorial positions. Marshall remains
editor of Nature Biotechnology. The fact that journal editors get
away with such behavior suggests that support for independent
research among scientists is generally lacking and that
accountability within the scientific publishing world barely exists.
It seems unlikely that
scientific journals will address unaided the defects in scientific
publishing at FCT and elsewhere. To do so would require confronting
the fundamental problem that academic science now largely makes its
money from exploiting conflicts of interest. This has become the
underlying business model of science. Universities offer
‘independent’ advice to governments while taking corporate money
for ‘research’. Corporations offer that money to universities,
not for the knowledge it generates, but primarily for the influence
it buys.
These same incentives
are reinforced at the personal level as well. Individual scientists
occupy taxpayer-funded academic positions while benefitting from
patents, stocks and industry consultancies. If journals and
government agencies took action to eliminate conflicts of interest,
the corporate money for science would dry up, because industry-funded
scientists would lose influence.
But if scientific
journals do not find a way to level the playing field for critical
studies, the few scientists who are still able to carry out
independent public interest research may need to find an alternative
publishing model: public peer review, or ‘open-source science’.
Such online collaborative approaches could even revitalize scientific
publishing.
Unless radical reform
is achieved, peer-reviewed publication, which many hold to be the
defining characteristic of science, will have undergone a remarkable
inversion. From its origin as a safeguard of quality and
independence, it will have become a tool through which one vision,
that of corporate science, came to assert ultimate control. Richard
Goodman, FCT’s new Associate Editor for biotechnology, now has the
opportunity to throw down the stairs only those papers marked
“industry approved”.
References
Arjo G, et al. (2013).
Plurality of opinion, scientific discourse and pseudoscience: an in
depth analysis of the Séralini et al. study claiming that Roundup
Ready corn or the herbicide Roundup cause cancer in rats. Transgenic
Research 22: 2 255-267
Christou P (2002). No
credible scientific evidence is presented to support claims that
transgenic DNA was introgressed into traditional maize landraces in
Oaxaca, Mexico. Transgenic Research 11: iii–v
Domingo JL (2007).
Toxicity studies of genetically modified plants: a review of the
published literature. Crit Rev Food Sci Nutr 47(8): 721-733
Domingo JL and JG
Bordonaba (2011). A literature review on the safety assessment of
genetically modified plants. Environ Int 37: 734–742.
Ermakova I (2006).
Genetically modified soy leads to the decrease of weight and high
mortality of rat pups of the first generation. Preliminary studies.
Ecosinform. 2006;1:4–9.
Ermakova I (2009). [Influence of soy
with gene EPSPS CP4 on the physiological state and reproductive
function of rats in the first two generations] [Russian text].
Contemporary Problems in Science and Education 5:15–20.
Marshall A (2007). GM soybeans and
health safety – a controversy reexamined. Nat Biotechnol 25:
981–987.
Ortiz-Garcia S, et al. (2005).
Absence of detectable transgenes in local landraces of maize in
Oaxaca, Mexico. Proceedings of the National Academy of Sciences 102:
18242.
Pineyro-Nelson A, et al. (2009).
Transgenes in Mexican maize: molecular evidence and methodological
considerations for GMO detection in landrace populations. Mol Ecol
18(4): 750-761.
Quist D and IH Chapela (2001).
Transgenic DNA introgressed into traditional maize landraces in
Oaxaca, Mexico. Nature 414(6863): 541-543.
Robinson, C, et al. (2013).
Conflicts of interest at the European Food Safety Authority erode
public confidence. J Epidemiol Community
Health.doi:10.1136/jech-2012-202185.
Séralini GE, et al. (2012). Long
term toxicity of a Roundup herbicide and a Roundup-tolerant
genetically modified maize. Food and Chemical Toxicology 50(11):
4221-4231.
Woodruff TJ, et al. (2011). An
evidence-based medicine methodology to bridge the gap between
clinical and environmental health sciences. Health Aff (Millwood)
30(5): 931-937.
Claire Robinson is research
director, Earth Open Source; editor, GMWatch; and editor,
GMOSeralini.org.
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