6
Climate Change as News: Challenges
in Communicating Environmental
Science
Andrew C. Revkin
A few decades ago, anyone with a notepad or camera could
have looked almost anywhere and chronicled a vivid trail of
environmental despoliation and disregard. Only a few journalists and authors, to their credit, were able to recognize a looming disaster hiding in plain sight. But at least it was in plain
sight. Now, the nature of environmental news is often profoundly different. Biologists these days are more apt to talk
about ecosystem integrity than the problems facing eagles or
some other individual charismatic species. The subject of
sprawl is as diffuse and diverse as the landscapes it encompasses. Concerns about air pollution have migrated—from the
choking plumes of old to the smallest of particles that penetrate deep in the lungs and to the invisible heat-trapping greenhouse gases linked to global warming, led by innocuous
carbon dioxide, the bubbles in beer. Even though scientists say
the main cause of recent warming is smokestack and tailpipe
emissions, projections of the pace and ramifications of future
climate changes remain as murky as the mix of clouds, particles, and gases that determine how much sunlight reaches the
earth and how much heat radiates back into space—the balance that sets the global thermostat.
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The challenges encountered in meaningfully translating such
issues for the public today are enormous for a host of reasons.
Some relate to the subtlety or complexity of the pollution and
ecological issues that remain after glaring problems have been
addressed. Others relate to effective, well-financed efforts by
some industries and groups that oppose pollution restrictions
to amplify the uncertainties in environmental science and exploit the tendency of journalists to seek two sides to any issue.
This approach can effectively perpetuate confusion, contention,
and ultimately public disengagement and inaction.
On the other side of the debate, environmental groups are
not innocent in this regard. In some cases, they have focused
media attention on their favored issues by going beyond the
data and magnifying the risks of, say, cancer or abrupt climate
change. Some scientists, expressing frustration with the public’s indifference to long-term threats, have stepped outside
their areas of expertise and portrayed warming as a real-time
catastrophe.
The rhetoric swelled in the spring of 2006 as documentary
films, books, and magazine cover stories endeavored to directly
link the outbreak of hurricanes, and particularly the ferocity of
Hurricane Katrina, to the slow buildup of heat in the world’s
oceans from human activities. Time magazine proclaimed on
April 3 ‘‘Be worried. Be very worried’’ (Kluger et al. 2006). A
trailer for An Inconvenient Truth, the film that documents former Vice President Al Gore’s peripatetic multimedia climate
campaign, called it ‘‘the most terrifying film you will ever see.’’
Many climate experts said that while there was a growing
likelihood that humans were helping shape storm patterns and
the like, the inherent variability and complexity of the climate
system guaranteed that drawing any straight lines was impossi-
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ble. On hurricanes, for example, even some of the scientists
who claim to have found a relationship between rising hurricane intensity and human-caused warming said that no one
could point (with any credibility) to this relationship affecting
a particular storm or season.
Critics of those who proclaimed the dawn of a real-time
man-made climate catastrophe lashed out. In an opinion piece
in the Wall Street Journal, Richard S. Lindzen (2006), a climatologist at the Massachusetts Institute of Technology who has
long disputed the dominant view that humans could dangerously warm the climate, labeled some calamitous claims ‘‘lies’’
and derided what he called an ‘‘alarmist gale.’’
Between the depictions of global warming as an unfolding
catastrophe and as a nonevent lies what appears to be the
dominant and still troubling view: that the buildup of carbon
dioxide and other long-lived greenhouse gases poses a sufficient
risk of profound and largely irreversible transformations of climate and coastlines to warrant prompt action to limit future
harms. That view was clearly articulated by eleven national
academies of science, including the U.S. National Academy, in
a letter to world leaders in 2005.
Many experts explain that it is urgent to act promptly to
curb emissions and limit future risks. In fact, because of
population growth and increased energy use in developing
countries, even the most optimistic scenarios project that concentrations of greenhouse gases will continue to climb throughout the first half of the twenty-first century.
The problem is that the processes that winnow and shape
the news have a hard time handling the global-warming issue
in an effective way. The media seem either to overplay a sense
of imminent calamity or to ignore the issue altogether because
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it is not black and white or on a time scale that feels like news.
This approach leaves society like a ship at anchor swinging
cyclically with the tide and not going anywhere.
What is lost in the swings of media coverage is a century
of study and evidence that supports the keystone findings:
human-generated heat-trapping gases are holding in heat, and
the ongoing buildup of this greenhouse-gas blanket adds to
warming, shrinks the world’s frozen zones, raises seas, and
shifts climate patterns.
Certainly, the disinformation generated both sides of the issue can trip up even earnest, skilled journalists. And the complexity of climate science and policy questions poses a huge
challenge in media that are constrained by deadlines and a limited supply of column inches or newscast minutes. Another
hurdle is the persistent lack of basic scientific literacy on the
part of the public. Nonetheless, some of the biggest impediments to effective climate coverage seem to lie not out in the
examined world but back in the newsroom and in the nature
of news itself. Overcoming these impediments is a persistent
and daunting task. No one should expect to pick up a daily
paper anytime soon and read a headline that takes climate
science across some threshold of definitiveness that will suddenly trigger public agitation and policy action—and if such a
story does appear, it should be looked at skeptically.
A Legacy of Calamity
A little reflection is useful. Most journalists of my generation
were raised in an age of imminent calamity. Cold-war ‘‘duckand-cover’’ exercises regularly sent us to school basements.
The prospect of silent springs hung in the wind. We grew up
in a landscape where environmental problems were easy to
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identify. The shores of the Hudson River, for example, were
coated with adhesives, dyes, and paint, depending on which
riverfront factory was nearest, and the entire river was a repository for human waste, making most sections unswimmable.
Across the United States, smokestacks were unfiltered. Gasoline was leaded. Los Angeles air was beige.
Then things began to change. New words crept into the popular lexicon—smog, acid rain, toxic waste. At the same time,
citizens gained a sense of empowerment as popular protests
shortened a war. A new target was pollution. Earth Day was
something new and vital, not an anachronistic notion. Republican administrations and bipartisan Congresses created laws
and agencies aimed at restoring air and water quality and protecting wildlife. And remarkably, those laws began to work.
Still, through the 1980s the prime environmental issues of
the day—and thus in the news—continued to revolve around
iconic incidents that were catastrophic in nature. First came
Love Canal, quickly followed by Superfund cleanup laws.
Then came Bhopal, which generated the first right-to-know
laws granting communities information about the chemicals
stored and emitted by nearby businesses. Chernobyl illustrated
the perils that were only hinted at by Three Mile Island. The
grounding of the Exxon Valdez powerfully illustrated the ecological risks of extracting and shipping oil in pristine places.
Debates about wildlife conservation generally focused on highprofile species like the spotted owl or whales, and gripping stories in which a charismatic creature was a target of developers
or insatiable industries presented simplistic views of reality.
In the late 1980s, the world began to focus on the harm
caused by burning in the Amazon and other tropical forests.
Forest destruction was made personal and relevant to citizens
of the industrialized world when the forests were portrayed as
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the ‘‘lungs of the world’’ or our ‘‘medicine chest’’—not because scientists suddenly found a way to describe the extraordinary biological diversity of rain forests and the role they
play in the global climate system.
Indeed, the first sustained media coverage of global warming
was spawned not by a growing recognition that long-lived
emissions from industrial smokestacks and tailpipes could alter
the climate. Instead, it began when the American public experienced a record hot summer in 1988 just as satellites and the
space shuttle were transmitting images of the thousands of fires
burning across the Amazon basin. The burning season in the
rain forests was unleashing torrents of carbon dioxide that
were perceived as directly perilous to us, so we paid attention.
These days, deforestation in the tropics is once again a distant
regional issue and has faded to near obscurity in the press—
resurging only briefly when someone prominent is gunned
down there, like the American nun Sister Dorothy Stang in
2005.
Nuclear Winter, Nuclear Autumn
My first stories about the atmosphere and climate came a
few years before the scorching greenhouse summer of 1988
and focused on the inverse of global warming—nuclear winter.
Here was a ready-made news story. Prominent scientistcommunicators, most notably Carl Sagan and Paul Ehrlich,
calculated that anyone surviving a nuclear war might perish in
the months of cold and dark that followed as the smoke-veiled
sky chilled the earth and devastated agriculture and ecosystems. As the scientists met with Pope John Paul II and the
theory made the covers of major magazines, the scenario
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brought new pressure on leaders to find a way to end the cold
war. Within a couple of years, however, fresh scientific analysis
showed that the aftermath of nuclear war might be more like a
nuclear autumn (to use a phrase coined by Stephen Schneider
and Starley Thompson, climate scientists who independently
assessed the question). A prediction of nuclear winter was dramatic, dangerous, and novel news. Nuclear autumn was not
news, and the double-doomsday scenario quickly faded.
In the meantime, global warming began to build and ebb as
a story, always building a bit more with each cycle. If there is
one barometer that can help a society gauge whether a problem is real, it is longevity. Unlike concerns about nuclear
winter and despite challenges by antiregulatory lobbyists and
skeptical scientists, human contributions to climate change
have not diminished. Instead, evidence of the link and its potential dangers has built relentlessly, as is deftly charted in The
Discovery of Global Warming by Spencer R. Weart (2003), a
historian at the American Institute of Physics.
An Ozone Hole over Antarctica
In the late 1980s, there was a sense of the new about the greenhouse effect, even though scientists had been positing since the
1890s that heat-trapping gases, particularly carbon dioxide
released by burning coal and other focal fuels could raise
global temperatures. A combination of observations and computer simulations seemed finally to be giving a face to theory,
which made it easy to sell as a cover story in Time magazine
or to Science Digest, Discover, the Washington Post, or the
New York Times. At that time, there was also a newly perceived global atmospheric threat—the damage to the ozone
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layer from chlorofluorocarbons (CFCs) and other synthetic
compounds—and an international solution in a treaty that
banned the chemicals.
But eliminating a handful of chemicals produced by a handful of companies is a very different challenge than eliminating
emissions from almost every activity of modern life—from
turning on a lamp to driving a car. Another difference between
global warming and ozone damage was the iconic nature of the
ozone problem. It was an issue with an emblem—the stark,
seasonal ‘‘hole’’ that was discovered in the protective atmospheric veil over Antarctica. If a picture is worth a thousand
words, a satellite image of a giant purple bruiselike gap in the
planet’s radiation shield must be worth 10,000. Indeed,
according to many surveys, the ozone hole still resonates in
the popular imagination—incorrectly—as a cause of global
warming simply because it is so memorable and has something
to do with the changing atmosphere. The ozone hole also resonated with the public because it was directly linked with an
issue that concerns everyone—their health—through the possible risk of increased rates of skin cancer. There, too, global
warming is different. Some of the least understood impacts of
warming are the possible connections to health problems, like
patterns of tropical disease and the frequency of smoggy days,
as the National Academies of Science concluded in 2001.
Still, human contributions to the greenhouse effect have
remained a perennial issue. Specialized reporters have tracked
the developments in climate science and the policy debates over
the implications of that science. Tracking scientific progress has
become somewhat akin to the old art of Kremlinology—sifting
for subtle shifts of language showing that vexing questions are
being resolved. Every five years or so, fresh hints emerge from
the Intergovernmental Panel on Climate Change (IPCC), the
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United Nations scientific body charged with assessing the state
of understanding of the problem. The group has sought to be
as concrete as possible in its findings, giving quantitative
weight to words and phrases such as ‘‘likely’’ and
‘‘very likely.’’ That metric has helped the media meaningfully
explain the incremental improvements in scientific understanding of the causes and consequences of warming.
The other vital component of the assessment process has
been the use of scenarios to depict how certain societal behaviors, particularly energy use, might affect the pace and extent
of climate shifts over the course of the century. For the public,
this practice provides boundaries for outcomes and a means of
judging what kind of response is the most reasonable.
But the incremental nature of climate research and its uncertain scenarios will continue to make the issue of global
warming incompatible with the news process. Indeed, global
warming remains the antithesis of what is traditionally defined
as news. Its intricacies, which often involve overlapping disciplines, confuse scientists, citizens, and reporters—even
though its effects will be widespread, both in geography and
across time. Journalism craves the concrete, the known, the
here and now and is repelled by conditionality, distance, and
the future.
If ever there was a moment for a page-one story on climate,
for example, it came in October 2000, when a scientist sent me
a final draft of the summary for policymakers from the IPCC’s
third climate assessment, due out early in 2001 (Revkin 2000).
For the first time, nearly all of the caveats were gone, and there
was a firm statement that ‘‘most’’ (meaning more than half) of
the warming trend since 1950 was probably due to the humancaused buildup of greenhouse gases. To me, that was a profound turning point, and I wrote my story that way:
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Greenhouse gases produced mainly by the burning of fossil fuels are
altering the atmosphere in ways that affect earth’s climate, and it is
likely that they have ‘‘contributed substantially to the observed warming over the last 50 years,’’ an international panel of climate scientists
has concluded. The panel said temperatures could go higher than previously predicted if emissions are not curtailed.
This represents a significant shift in tone—from couched to relatively confident—for the panel of hundreds of scientists, the Intergovernmental Panel on Climate Change, which issued two previous
assessments of the research into global warming theory, in 1995 and
1990. (Revkin 2000)
To the New York Times, this was just another news story,
and it was outcompeted for the front page by presidential politics, the breakup of AT&T, the overthrow of a junta in Ivory
Coast, a study on the value of defribillators in public places,
and a decision by Hillary Clinton to return some campaign
contributions from a Muslim group. Reporters, scientists, and
the public can take steps to improve this situation. The first
one is simply to anticipate the hurdles that can create trouble
when the news media and climate science mix.
The Tyranny of News
A fundamental impediment to coverage of today’s top environmental issues is the nature of news. News is almost always
something that happens that makes the world different today.
A war starts. A tsunami strikes. In contrast, most of the big environmental themes of this century concern phenomena that
are complicated, diffuse, and poorly understood, with harms
spread over time and space. Runoff from parking lots, gas stations, and driveways invisibly puts the equivalent of one and a
half Exxon Valdez loads of petroleum into coastal ecosystems
each year, the National Research Council (2003) recently
found. But try getting a photo of that or finding a way to
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make an editor understand its implications. A journalism professor of mine once spoke of the ‘‘MEGO’’ factor: ‘‘my eyes
glaze over.’’ I’ve seen that look come over more than a few editors in my years of pitching stories on climate.
Climate change is the poster child of twenty-first-century environmental issues. Many experts say that it will be a defining
ecological and socioeconomic problem in a generation or two
and actions must be taken now to avert a huge increase in
emissions linked to warming as economies in developing countries expand. But you will never see a headline in a major paper
reading ‘‘Global Warming Strikes: Crops Wither, Coasts Flood,
Species Vanish.’’ All of those things may happen in plain sight
in coming decades, but they will occur so dispersed in time and
geography that they will not constitute news as we know it.
Most changes in the landscape and developments in climate
science are by nature incremental. Even as science clarifies, it
also remains laden with statistical analyses, including broad
error bars. In the newsrooms I know, the adjective incremental
in a story is certain death for any front-page prospects, yet it is
the defining characteristic of most environmental research. Editors crave certainty: hedging and caveats are red flags that immediately diminish the newsworthiness of a story.
In fact, reporters and editors are sometimes tempted to play
up the juiciest—and often least certain—facet of some environmental development, particularly in the late afternoon as
everyone in the newsroom sifts for the ‘‘front-page thought.’’
They do so at their peril and at the risk of engendering even
more cynicism and uncertainty in the minds of readers about
the value of the media—especially when one month later the
news shifts in a new direction. As a reporter, it can be hard to
turn off one’s news instinct and insist that a story is not ‘‘frontable’’ or that it deserves three hundred words and not eight
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hundred, but it is possible—kind of like training yourself to
reach for an apple when you crave a cookie.
Scientists have gotten into trouble for doing the same kind of
thing. Over and over, I meet scientists who despair that issues
they see as vital, like climate change or diminishing biological
diversity, are not receiving adequate attention. They feel that
they ‘‘get it’’ and the rest of the world does not. When talking
to the media, some have been tempted to push beyond what
the science supports—focusing on the high end of projections
of global temperatures in 2100 or highlighting the scarier scenarios for emissions of greenhouse gases. Recently, a few scientists and environmental groups linked Florida’s devastating
2004 and 2005 hurricane seasons to warming, even though
the inherent variability in hurricane frequency and targets precludes any such link without a host of caveats and scientific
projections call only for slight intensification of tropical storms
late in the century, not greater numbers.
The coverage linking these storms to warming oceans
resulted in a backlash when some hurricane experts disputed
the assertions made to the media. Some statements made to
the press about climate and hurricanes were made by climatologists who lacked expertise in the conditions generating these
great storms. As a result, in late 2004 one federal hurricane
expert, Christopher Landsea, withdrew in protest from the
climate-review process at the Intergovernmental Panel on Climate Change, leading to stories on a dispute over climate
science. The result was probably more public confusion and
cynicism about what is going on.
This tendency of everyone, from scientists to reporters, to
focus on the most provocative element when climate becomes
news backfired in a very big way in August 2000. A science reporter for the New York Times wrote that a couple of scientists on a tourist icebreaker cruise in the Arctic had seen a
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large patch of open water at the North Pole, possibly the first
such occurrence in thousands of years. Better yet, there were
pictures. In an interview, one of the scientists ascribed the
open water to global warming, and on a quiet summer weekend, the story popped to the top of the front page (Wilford
2006). Finally, the climate-change issue seemed to be behaving
like a news story. It was vivid and dramatic, implying that profound changes were afoot. Television reports and political cartoonists quickly followed up with items on the loss of Santa’s
summer residence.
Unfortunately, the story was incorrect. Calling a few independent experts might have helped the reporter to avoid trouble. Although vast regions in the Arctic may soon be open
water in summer and sometime late this century perhaps a
blue ocean will exist at that end of the Earth, the sighting in
2000 was unremarkable. Floating sea ice is always a maze of
puzzle pieces and open areas. Society would have to wait for
its global warming wakeup call. Since 2000, the science has
steadily pointed to the ever-growing summertime retreat of
Arctic sea ice as an early indicator of human-driven warming.
But it remains a subtle process, laden with uncertainty.
After covering climate for over twenty years, my sense is that
there will be no single new finding that will generate headlines
that galvanize public action and political pressure. Even extreme climate anomalies, such as a decade-long superdrought
in the West, could never be shown to be definitively caused by
human-driven warming.
The Tyranny of Balance
Journalism has long relied on the age-old method of finding a
yea-sayer and a nay-sayer to frame any issue from abortion to
zoning. It is an easy way for reporters to show they have no
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bias. But when dealing with a complicated environmental issue,
this method is also an easy way to perpetuate confusion in
readers’ minds about issues and about the media’s purpose.
When this format is overused, it tends to highlight the opinions
of people at the polarized edges of a debate instead of in the
much grayer middle where consensus generally lies. The following maxim illustrates the weakness of this technique: ‘‘For
every PhD, there is an equal and opposite PhD.’’ The practice
also tends to focus attention on a handful of telegenic or quotable people working in the field who are not necessarily the
greatest authorities. There are exceptions, but over the years I
have learned to be skeptical of scientists who are adept at
speaking in sound bites.
One solution to the tyranny of balance is for writers to
cultivate scientists in various realms—chemistry, climatology,
oceanography—whose expertise and lack of investment in a
particular bias are well established. These people can operate
as guides more than as sources to quote in a story. Another
way to avoid the pitfall of false balance is to focus on research
published in peer-reviewed journals rather than that announced
in press releases. Peer review, as scientists know all too well, is
a highly imperfect process. But it provides an initial qualitycontrol test for new findings that advance understanding of an
issue.
The norm of journalistic balance has been exploited by
opponents of emissions curbs. Starting in the late 1990s, big
companies whose profits were tied to fossil fuels recognized
they could use this journalistic practice to amplify the inherent
uncertainties in climate projections and thus potentially delay
cuts in emissions from burning those fuels. Perhaps the most
glaring evidence of this strategy was a long memo written by
Joe Walker, who worked in public relations at the American
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Petroleum Industry, that surfaced in 1998. According to this
‘‘Global Climate Science Communications Action Plan,’’ first
revealed by my colleague John Cushman at the New York
Times, ‘‘Victory will be achieved when uncertainties in climate
science become part of the conventional wisdom’’ for ‘‘average
citizens’’ and ‘‘the media’’ (Cushman 1998). The action plan
called for scientists to be recruited, be given media training,
highlight the questions about climate, and downplay evidence
pointing to dangers. Since then, industry-funded groups have
used the media’s tradition of quoting people with competing
views to convey a state of confusion even as consensus on
warming has built.
A recent analysis of twenty years of newspaper coverage of
global warming, including articles in the New York Times,
showed how the norm of journalistic balance actually introduced a bias into coverage of climate change. Researchers
from the University of California at Santa Cruz and American
University tracked stories that portrayed science as being deadlocked over human-caused warming, being skeptical of it, or
agreeing it was occurring. While the shift toward consensus
was clearly seen in periodic assessments by the Intergovernmental Panel on Climate Change, the coverage lagged significantly and tended to portray the science as not settled
(Boykoff and Boykoff 2004).
One practice that can improve coverage of climate and
similar issues is what I call ‘‘truth in labeling.’’ Reporters
should discern and describe the motivations of the people cited
in a story. If a meteorologist is also a senior fellow at the Marshall Institute, an industry-funded think tank that opposes
many environmental regulations, then the journalist’s responsibility is to know that connection and to mention it. Such a
voice can have a place in a story focused on the policy debate,
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for example, but not in a story where the only questions are
about science. The same would go for a biologist working for
the World Wildlife Fund.
Another effective approach is to listen carefully to the facts
embedded in what someone is saying, regardless of that person’s affiliations. For a 2003 story on the politicization of climate science, for example, I interviewed Patrick J. Michaels, a
University of Virginia climatologist and outspoken critic of the
mainstream view that human-caused warming is dangerous.
While laying out his argument against that view, he said he
had recently calculated that the most likely warming in the
twenty-first century would be just 1.5 C (2.7 F). Later, I realized that Michaels—a prime skeptic who received income
through his affiliation with the Cato Institute, an antiregulatory group that was supported substantially by energy
companies—had essentially entered the mainstream. His predicted warming was more than two and a half times the
twentieth-century warming and within the range projected by
the IPCC.
None of this comes easily, in part because of two more hurdles that constrain a reporter’s ability to characterize what is
being said in a story.
The Twin Tyrannies of Time and Space
I came to newspapers after writing magazine stories and books
and at first was petrified about filing on a daily deadline. One
of my editors, hovering over my shoulder and alluding to the
stately pace of other forms of publication, while daylight
ebbed, gently put it this way: ‘‘Revkin, this ain’t no seed catalog.’’ Through the ensuing years, I adapted to the rhythm of
the daily deadline but also to the reality of its limitations. On
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an issue like the environment, I understood why the crutch of
‘‘on the one hand’’ was so popular: there is often simply no
time to canvass experts. I grew to understand why stories tend
sometimes to read like a cartoon version of the world: there is
just no time to do better.
And then there is the question of space. Science is one of
the few realms where reporters essentially have to presume the
reader has no familiarity at all with the basics, particularly
something as complicated as climate science. Just about anyone
in America knows the rules of politics, business, baseball, and
other subjects in the news. But studies of scientific literacy
show that most people know little about atoms, viruses, or the
atmosphere. So a lot of extra explication somehow has to fit
into the same amount of space devoted to a story on a stock
split, a primary vote, or a ball game—and it doesn’t. Stories
about global warming are not granted a few hundred extra
words because it is harder than other subjects.
The shrinking of a climate story that is competing on a page
with national or foreign developments is as predictable as the
retreat of mountain glaciers in this century. But the material
that is cut matters to researchers and to those who want to
convey the real state of understanding: the caveats, the couching, the words like may and could, the new questions that
emerge with every answer. Labeling ideally should be there to
characterize the various voices in a story.
The only solution is to educate editors as much as possible
about the importance of context and precision in such stories.
That fight is getting more difficult as the media feel more pressure to generate profits and attract readers. More and more,
the limited ‘‘news hole’’ reserved for science in newspapers is
being filled with stories on subjects most likely to boost circulation, like fitness, autism, diet, and cancer. That leaves ever
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fewer columns for basic science or research on looming risks
like climate change.
Heat versus Light
One of the most difficult challenges in covering the environment is finding the appropriate way to ensure a different kind
of balance—between the potent ‘‘heat’’ generated by emotional
content and the ‘‘light’’ of science and statistics. Consider a
cancer cluster. A reporter constructing a story has various puzzle pieces to connect. Some paragraphs or images brim with the
emotional power of the grief of a mother who lost a child to
leukemia in a suburb where industrial effluent once tainted the
water. A dry section lays out the cold statistical reality of epidemiology, which might never be able to determine if contamination caused the cancer. No matter how one builds such a
story, it may be impossible for the reader to come away with
anything other than the conviction that contamination killed.
In the climate arena, substitute drowning polar bears or displaced Arctic cultures for cancer-stricken children, and you
have the same dynamic at work. It is vital to explore how a
warming climate affects ecosystems and people. But this tactic
can backfire if a story downplays the uncertainties surrounding
unusual climate events or if it portrays everything unusual in
the world today as driven by human-caused warming.
It is my impression that the European press, which gives
more attention than American media do to climate, has also
been more apt to play up hot content and minimize the cooler
elements that might deflate a story’s sense of drama. This
approach caught hold in the United States after Hurricane
Katrina, to the extent that Al Gore’s film poster showed a
plume from a smokestack merging with a swirling satellite
image of a hurricane.
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This tactic makes for powerful headlines and gripping TV
and magazine images, but are media that adopt this approach
doing their job? By the metric of the newsroom, the answer is
probably yes. Pushing the limits is a reporter’s duty. Finding
the one element that’s new and implies malfeasance or peril is
the key to getting on the front page.
I hope that my own work and that of others will try to refine
purely news-driven instincts, to understand and convey the tentative nature of new scientific knowledge, and to retain at least
some shades of gray in all that black and white. We also need
to drive home that once a core body of understanding has
accumulated over decades on an issue—as is the case with
human-forced climate change—society can use it as a foundation for policies and choices.
The Great Divide
Journalists dealing with global warming and similar issues
would do well to focus on the points of deep consensus, generate stories containing voices that illuminate instead of confuse,
convey the complex without putting readers (or editors) to
sleep, and cast science in its role as a signpost pointing toward
possible futures, not as a font of crystalline answers.
The only way to accomplish this is for reporters to become
more familiar with scientists and the ways of science. This
requires using those rare quiet moments between breakingnews days to talk to climate modelers, ecologists, or oceanographers who are not on the spot because their university has
just issued a press release. By getting a better feel for the breakthrough and setback rhythms of research, a reporter is less
likely to forget that on any particular day the state of knowledge about endocrine disruptors, PCBs, or climate is temporary. Readers will gain the resolve to act in the face of
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uncertainty once they absorb that some uncertainty is the
norm, not a temporary state that will give way to magical
clarity sometime in the future.
There is another reason to do this. Just as the public has become cynical about the value of news, many scientists have
become cynical and fearful about journalism. Some of this is
their own fault. When I was at a meeting in Irvine, California,
on building better bridges between science and the public, one
researcher stood up to recount her personal ‘‘horror story’’
about how a reporter misrepresented her statements and got
everything wrong. I asked her if she had called the reporter or
newspaper to fix the errors and begin a dialogue about preventing future ones. She had not even considered doing so.
Cynical unconcern for the presumed failings of journalism in
part prolonged the career of the disgraced former New York
Times reporter Jayson Blair. Few of the people who identified
falsehoods in his stories called the paper to correct them. The
interactions between sources, journalists, and readers ideally
should take on more of the characteristics of a conversation.
The communication of news cannot remain effective if it is a
monologue.
The more scientists and journalists talk, the more likely it is
that the public—through the media—will appreciate what
science can (and cannot) offer as society grapples with difficult
questions about how to invest scarce resources. An intensified
dialogue of this sort is becoming ever more important as
science and technology increasingly underpin daily life and the
progress of modern civilization.
Given the enormous consequences and irreversible losses
from global warming should the worst projections play out,
the time for improving the flow of information on this subject
is clearly now.
Climate Change as News
159
References
Boykoff, J. M., and M. T. Boykoff. 2004. Balance as bias: Global
warming and the U.S. prestige press. Global Environmental Change
14: 125–36.
Cushman, John H., Jr. 1998. Industrial group battles climate treaty.
New York Times, April 26, pA1.
Gore, Al. 2006. An Inconvenient Truth: The Planetary Emergency of
Global Warming and What We Can Do About It, Emmaus, PA:
Rodale Press.
Kluger, Jeffrey, et al. 2006. Be Worried. Be Very Worried. Earth at
The Tipping Point. Time, April 3, 24–54.
Lindzen, Richard. 2006. Climate of fear. Wall Street Journal, April
12, A14.
National Academies of Science. 2001. Under the weather: Climate
ecosystem and infectious disease. Washington, DC: National Academies Press.
National Research Council, Committee on Oil in the Sea. 2003. Oil in
the Sea III: Inputs, fates, and effects. Washington, DC: National Academies Press.
Revkin, Andrew C. 2000. A shift in stance on global warming theory.
New York Times, October 26, A22.
Walker, Joe. 1998. Memo, American Petroleum Industry.
hwww.climatesciencewatch.org/index.php/csw/details/cei_tv-spi (accessed December 7, 2006).
Weart, Spencer R. 2003. The discovery of global warming. Cambridge, MA: Harvard University Press.
Wilford, John Noble. 2000. Ages-Old Icecap at North Pole is Now
Liquid, Scientists Find. New York Times, August 19, A1.
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LA
MCWP 40 FALL 2017
PAPER #2, SYNTHESIS
"Climate Change as News: Challenges in Communicating Environmental Science” and “The
Missing Climate Change Narrative"
Assignment:
Develop your own claim (thesis) about the effects and responsibility of media for the general
public's understanding of climate change based on the two texts. Support your claim with
evidence from the authors' arguments. In addition to a main claim, include subclaims, evidence,
and warrants. Acknowledge and respond to each author's argument. Use MLA conventions
found under the MLA tab in A Writer's Reference.
CHECKLIST FOR SYNTHESIS PAPER
Introduction
Cite both of author's main claims.
Use one sentence for each author.
•
Make your own synthesis claim.
Developing a central frame in the form of an argumentative synthesis indicates how you
are going to organize your essay for the reader. Doing this will help you structure your
paper. This will be your main claim that draws a connection between both of the texts.
Without this central thesis it is difficult for your reader to evaluate whether the content of
your paper and the type of analysis you are doing is appropriate.
Specific type of argument?
You could present a comparative analysis of the overall nature of each author's
argument, what type of argument do they make? For example: deductive, causal,
inductive, foundational, application-focused, adversarial, etc). This might also be the
topic of a separate paragraph if necessary.
Topic Sentences
The topic sentence should distil a specific quality of author A's argument in relation to
author B's argument (a frame/theme) that is appropriate for arguing your central claim.
This will then help you focus your whole paragraph.
Use our own words to distil this synthesis frame in a single frame/theme that advances
your central claim. It is fine to use the course vocabulary here as long as it makes a
specific point and does not get in the way of the reader understanding what you are
saying.
Body Paragraph/s
There is no hard and fast rule as to how these should be structured, however its content
must be directed toward validating and addressing the argument/analysis you proposes
in your topic sentence.
.
Here you will dip into each of the author's argument, analysing the
architectureloperation of the most appropriate components of their argument, which
you are using as evidence to further your own claim, and/or sub-claim and/or reason/s
for that claim.
You might like to synthesise a discussion of how each author argument converges
and/or diverges by structuring their arguments differently similarly.
This is your opportunity to demonstrate your understanding/application of the course
terminology (claim, sub-claim, reasons, evidence, warrant, etc).
Conclusion
Reiterates the main points covered in the paper, which can be done by looking back
over the topic sentences and rewording them as conclusions that have been
successfully argued.
Connects this synthesis back to your main claim to argue how it has been proven.
.
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