I just got published in Nature because I stuck to a
narrative I knew the editors would like. That’s not the way science should
work.
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Free Press
If you’ve been reading any news about wildfires this summer—from Canada
to Europe to Maui—you will surely get the impression that they are mostly the
result of climate change.
Here’s the AP: Climate
change keeps making wildfires and smoke worse. Scientists call it the “new
abnormal.”
And PBS NewsHour: Wildfires
driven by climate change are on the rise—Spain must do more to prepare, experts
say.
And The New York Times: How
Climate Change Turned Lush Hawaii Into a Tinderbox.
And Bloomberg: Maui
Fires Show Climate Change’s Ugly Reach.
I am a climate
scientist. And while climate change is an important factor
affecting wildfires over many parts of the world, it isn’t close to the only
factor that deserves our sole focus.
So why does
the press focus so intently on climate change as the root cause? Perhaps for
the same reasons I just did in an academic paper about wildfires in Nature,
one of the world’s most prestigious journals: it fits a simple storyline that
rewards the person telling it.
The paper I
just published—“Climate warming increases extreme
daily wildfire growth risk in California”—focuses exclusively on how
climate change has affected extreme wildfire behavior. I knew not to
try to quantify key aspects other than climate change in my research because it
would dilute the story that prestigious journals like Nature and
its rival, Science, want to tell.
This
matters because it is critically important for scientists to be published in
high-profile journals; in many ways, they are the gatekeepers for career
success in academia. And the editors of these journals have made it abundantly
clear, both by what they publish and what they reject, that they want climate
papers that support certain preapproved narratives—even when those narratives
come at the expense of broader knowledge for society.
To put it
bluntly, climate science has become less about understanding the complexities
of the world and more about serving as a kind of Cassandra, urgently warning
the public about the dangers of climate change. However understandable this
instinct may be, it distorts a great deal of climate science research, misinforms
the public, and most importantly, makes practical solutions more difficult to
achieve.
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The
aftermath of the wildfire in western Maui, Hawaii, on August 14, 2023. (Yuki
Iwamura via Getty Images)
Why is this
happening?
It starts
with the fact that a researcher’s career depends on his or her work being cited
widely and perceived as important. This triggers the self-reinforcing feedback
loops of name recognition, funding, quality applications from aspiring PhD
students and postdocs, and of course, accolades.
But as the
number of researchers has skyrocketed in recent years—there are close to six times more PhDs
earned in the U.S. each year than there were in the early 1960s—it has become
more difficult than ever to stand out from the crowd. So while there has always
been a tremendous premium placed on publishing in journals like Nature and Science,
it’s also become extraordinarily more competitive.
In theory,
scientific research should prize curiosity, dispassionate objectivity, and a
commitment to uncovering the truth. Surely those are the qualities that editors
of scientific journals should value.
In reality,
though, the biases of the editors (and the reviewers they call upon to evaluate
submissions) exert a major influence on the collective output of entire fields.
They select what gets published from a large pool of entries, and in doing so,
they also shape how research is conducted more broadly. Savvy researchers
tailor their studies to maximize the likelihood that their work is accepted. I
know this because I am one of them.
Here’s how
it works.
The first
thing the astute climate researcher knows is that his or her work should
support the mainstream narrative—namely, that the effects of climate change are
both pervasive and catastrophic and that the primary way to deal with them is
not by employing practical adaptation measures like stronger, more resilient
infrastructure, better zoning and building codes, more air conditioning—or in
the case of wildfires, better forest management or undergrounding power
lines—but through policies like the Inflation Reduction Act,
aimed at reducing greenhouse gas emissions.
So in my
recent Nature paper, which I authored with seven others, I
focused narrowly on the influence of climate change on extreme wildfire
behavior. Make no mistake: that influence is very real. But there are
also other factors that
can be just as or more important, such as poor forest management and the
increasing number of people who start wildfires either accidentally or
purposely. (A startling fact: over 80 percent of wildfires in the US are ignited by humans.)
In my
paper, we didn’t bother to study the influence of these other obviously
relevant factors. Did I know that including them would make for a more
realistic and useful analysis? I did. But I also knew that it would detract
from the clean narrative centered on the negative impact of climate change and
thus decrease the odds that the paper would pass muster with Nature’s
editors and reviewers.
This type
of framing, with the influence of climate change unrealistically considered in
isolation, is the norm for high-profile research papers. For example, in
another recent influential Nature paper, scientists
calculated that the two largest climate change impacts on society are deaths
related to extreme heat and damage to agriculture. However, the authors never
mention that climate change is not the dominant driver for
either one of these impacts: heat-related deaths have been
declining, and crop yields have been increasing for
decades despite climate change. To acknowledge this would
imply that the world has succeeded in some areas despite climate change—which,
the thinking goes, would undermine the motivation for emissions
reductions.
This leads
to a second unspoken rule in writing a successful climate paper. The authors
should ignore—or at least downplay—practical actions that can counter the
impact of climate change. If deaths due to extreme heat are decreasing and crop
yields are increasing, then it stands to reason that we can overcome some major
negative effects of climate change. Shouldn’t we then study how we
have been able to achieve success so that we can facilitate more of it? Of
course we should. But studying solutions rather than focusing on problems is
simply not going to rouse the public—or the press. Besides, many mainstream
climate scientists tend to view the whole prospect of, say, using technology to
adapt to climate change as wrongheaded; addressing emissions is the right approach.
So the savvy researcher knows to stay away from practical solutions.
Here’s a
third trick: be sure to focus on metrics that will generate the most
eye-popping numbers. Our paper, for instance, could have focused on a simple,
intuitive metric like the number of additional acres that burned or the
increase in intensity of wildfires because of climate change. Instead, we
followed the common practice of looking at the change in risk of
an extreme event—in our case, the increased risk of wildfires burning more than
10,000 acres in a single day.
This is a
far less intuitive metric that is more difficult to translate into actionable
information. So why is this more complicated and less useful kind of metric so
common? Because it generally produces larger factors of increase than
other calculations. To wit: you get bigger numbers that justify the importance
of your work, its rightful place in Nature or Science,
and widespread media coverage.
Another way
to get the kind of big numbers that will justify the importance of your
research—and impress editors, reviewers, and the media—is to always assess the
magnitude of climate change over centuries, even if that timescale is
irrelevant to the impact you are studying.
For
example, it is standard practice to assess impacts on society using the amount
of climate change since the industrial revolution, but to ignore technological
and societal changes over that time. This makes little sense from a practical
standpoint since societal changes in population distribution, infrastructure,
behavior, disaster preparedness, etc., have had far more influence on our
sensitivity to weather extremes than climate change has since the 1800s. This
can be seen, for example, in the precipitous decline in
deaths from weather and climate disasters over the last century. Similarly, it
is standard practice to calculate impacts for scary hypothetical future warming
scenarios that strain credibility while ignoring potential
changes in technology and resilience that would lessen the impact. Those scenarios
always make for good headlines.
A much more
useful analysis would focus on changes in climate from the recent past that
living people have actually experienced and then forecasting the foreseeable
future—the next several decades—while accounting for changes in technology and
resilience.
In the case
of my recent Nature paper, this would mean considering the
impact of climate change in conjunction with anticipated reforms to forest
management practices over the next several decades. In fact, our current
research indicates that these changes in forest management practices could
completely negate the detrimental impacts of climate change on wildfires.
This more
practical kind of analysis is discouraged, however, because looking at changes
in impacts over shorter time periods and including other relevant factors
reduces the calculated magnitude of the impact of climate change, and thus it
weakens the case for greenhouse gas emissions reductions.
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Science
journals—once considered the gold standard for truth—have succumbed to the
confirmation biases of their editors and reviewers. (Astrid Riecken via Getty
Images)
You might
be wondering at this point if I’m disowning my own paper. I’m not. On the
contrary, I think it advances our understanding of climate change’s role in
day-to-day wildfire behavior. It’s just that the process of customizing the
research for an eminent journal caused it to be less useful than it
could have been.
As to why I
followed the formula despite my criticisms, the answer is simple: I wanted the
research to be published in the highest profile venue possible. When I began
the research for this paper in 2020, I was a new assistant professor needing to
maximize my prospects for a successful career. When I had previously attempted
to deviate from the formula, my papers were rejected out of hand by the editors
of distinguished journals, and I had to settle for less prestigious outlets.
To put it another way, I sacrificed contributing the most valuable knowledge
for society in order for the research to be compatible with the confirmation
bias of the editors and reviewers of the journals I was targeting.
I left
academia over a year ago, partially because I felt the pressures put on
academic scientists caused too much of the research to be distorted. Now, as a
member of a private nonprofit research center, The Breakthrough Institute,
I feel much less pressure to mold my research to the preferences of prominent
journal editors and the rest of the field.
This means
conducting the version of the research on wildfires that I believe adds much
more practical value for real-world decisions: studying the impacts of climate
change over relevant time frames and in the context of other
important changes, like the number of fires started by people and the effects
of forest management. The research may not generate the same clean story and
desired headlines, but it will be more useful in devising climate change
strategies.
But climate
scientists shouldn’t have to exile themselves from academia to publish the most
useful versions of their research. We need a culture change across academia and
elite media that allows for a much broader conversation on societal resilience
to climate.
The media,
for instance, should stop accepting these papers at face value and do some
digging on what’s been left out. The editors of the prominent journals need to
expand beyond a narrow focus that pushes the reduction of greenhouse gas
emissions. And the researchers themselves need to start standing up to editors,
or find other places to publish.
What really
should matter isn’t citations for the journals, clicks for the media, or career
status for the academics—but research that actually helps society.
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Patrick
Brown is a PhD climate scientist and co-director of the Climate and Energy Team
at The Breakthrough Institute.
Follow him on Twitter (now X) @PatrickTBrown31. And
read Jamie Blackett’s Free Press piece to
find out how European farmers are fighting climate change through innovation.
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