Here are some examples from the issues and topics I'm familiar with that reflect different models of science communication:
- Climate change skepticism reflects the deficit model, with a view that public concerns could be addressed by providing more scientific facts and evidence.
- Vaccine hesitancy reflects the social contextualist model, with perceptions influenced by social networks and issues of trust in institutions.
- GMO labeling debates reflect the lay expertise model, as the public draws on personal experience shopping for groceries and preferences around food.
- City planning issues around parks or transportation reflect public engagement models, as these topics directly impact people's daily lives and involve tradeoffs the public can reason about.
The factors that determine which model is used
1. The Civic Science Lab
Day 1: Experts in the Decision-Making Process & Models of Communication
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Climate Change Institute
University of Maine 5.14.13
Matthew C. Nisbet
Associate Professor
School of Communication
American University
Washington D.C.
2. Introductions
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o As a scientist, social scientist or professional working
on behalf of an expert institution, what is your
preferred role relative to public outreach and
policymaking?
o How might this role change given the nature of an
issue you may be working on or based on a career
change?
3. Four Idealized Roles for Scientists in Policymaking
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Pure Scientist
Honest Broker of
Policy Alternatives
Issue Advocate
Science
Arbiter
Linear Model Stakeholder Model
VIEW OF SCIENCE IN SOCIETY
(Madisonian)
Interest group
pluralism
(Schnattsneider)
Elite
Conflict
4. The Scientific Arbiter
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oResponds to request or need from
policymakers or media for synthesis
of expert opinion and research
related to emerging science, trend or
problem.
oTypically stops short of offering policy
advice or advocating on behalf of a
policy option.
5. (Stealth) Issue Advocate
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oRun into problems when scientific
findings, studies or reports are
framed as compelling specific
policy action or choice.
oStealth advocates limit policy
options rather than expand them.
6. Honest Broker Approach
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Means and options focused
• Goal: Adaptation and resilience.
• Expand menu of options currently discussed.
• Provide differential information on
effectiveness, risks, costs, social implications.
Pluralistic and participatory
• Diversity of experts and stakeholders.
• Public consultation and co-learning.
Goal is to enable and empower decisions, not to
influence, persuade or limit.
9. Discussion Question
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o Think about individual scientists or organizations
working either at the state or national level. Drawing
on the Pielke reading and discussion, which scientists
and organizations reflect the role of
o science arbiter?
o issue advocate?
o stealth advocate?
o honest broker?
o How effective have each of these individuals or
organizations been?
12. Deficit Model Assumptions
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If the public knew more about the technical side of
science, then the public would view issues as scientists
do, and there would be fewer controversies.
Need to return to a point in the past where science was
respected and citizens were informed.
Emphasis is on improving science literacy through formal
education and science media.
13. 1957: Is the Past That Different from Today?
Science Literacy
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12% of the public understood the scientific approach or
method.
On basic questions tapping knowledge of
polio, fluoridation, radioactivity, and space satellites, only 1
in 6 could answer all four questions correctly.
Only 38% knew that the Moon was smaller than the Earth
and only 4% could correctly indicate the distance in miles
between the Moon and the Earth.
Michael, D.N. (1960). The Beginning of the Space Age and Public Opinion. Public Opinion Quarterly, 573-582;
Withey, S.B. (1959). Public opinion about science and scientists. Public Opinion Quarterly, 382-388.
14. 1957: Is the Past That Different from Today?
Low Knowledge But Support for Science
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Michael, D.N. (1960). The Beginning of the Space Age and Public Opinion. Public Opinion Quarterly, 573-582;
Withey, S.B. (1959). Public opinion about science and scientists. Public Opinion Quarterly, 382-388.
15. 1957: Is the Past That Different from Today?
Low Knowledge But Support for Science
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Michael, D.N. (1960). The Beginning of the Space Age and Public Opinion. Public Opinion Quarterly, 573-582;
Withey, S.B. (1959). Public opinion about science and scientists. Public Opinion Quarterly, 382-388.
16. 1957: Is the Past That Different from Today?
Perception is Context Dependent
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Michael, D.N. (1960). The Beginning of the Space Age and Public Opinion. Public Opinion Quarterly, 573-582;
Withey, S.B. (1959). Public opinion about science and scientists. Public Opinion Quarterly, 382-388.
0
10
20
30
40
50
60
Behind Russia,
Security
Propaganda Nothing
significant
Religious
Meaning
Scientific
Advancement
1957: Looking to
the future, what
would you say is
the real meaning
of Sputnik to us
here in America?
17. 1957: Is the Past That Different from Today?
Perception is Context Dependent
@MCNisbetNational Science Board (2008). Chapter 7: Public Attitudes about Science and Technology. Science & Engineering Indicators.
18. 2008: Is the Past That Different from Today? Deep Public
Optimism and Trust in Science
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More than 70% of all American adults believe that the benefits of
scientific research outweigh the harmful results.
More than 85% of Americans agree that “even if it brings no immediate
benefits, scientific research that advances the frontiers of knowledge is
necessary and should be supported by the federal government.”
On climate change, stem cell research, and food
biotechnology, Americans believe scientists hold greater expertise, are
less self interested, and should have greater say in decisions than
industry leaders, elected officials, and/or religious leaders.
Among institutions, only the military has greater trust than science.
Analysis of 2006 General Social Survey; National Science Board (2008). Chapter 7: Public Attitudes about Science and Technology.
Science & Engineering Indicators.
19. 2. Networks and Trust Matter
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Social
relationships, networ
ks, and identities
Trust, credibility, alienati
on relative to science-
related institutions
The uptake
and
influence of
“expert”
science-
related
knowledge
Practical
reason, localized
knowledge
Bryan Wynne
20. Common Criteria Used to Judge Expert Advice
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1) Does expert knowledge work? Do predictions fail?
2) Do expert claims pay attention to other available
knowledge?
3) Are experts open to criticism? Admission of
errors, or oversights?
4) What are the social / institutional affiliations of
experts? Historical track record of
trustworthiness, affiliation with industry?
5) What issues overlap or connect to lay experience?
21. Q: What Issues/Examples from Your Work Are Consistent
with Wynne’s Observations?
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1) Does expert knowledge work? Do predictions fail?
2) Do expert claims pay attention to other available
knowledge?
3) Are experts open to criticism? Admission of
errors, or oversights?
4) What are the social / institutional affiliations of
experts? Historical track record of
trustworthiness, affiliation with industry?
5) What issues overlap or connect to lay experience?
22. Models of Science Communication
@MCNisbetBrossard, D., & Lewenstein, B. V. (2009). A Critical Appraisal of Models of Public Understanding of Science: Using Practice to Inform
Theory. In L. Kahlor & P. Stout (Eds.), Communicating Science: New Agendas in Communication(pp. 11-39). New York: Routledge.
23. Examples of Models of Science Communication
@MCNisbetBrossard, D., & Lewenstein, B. V. (2009). A Critical Appraisal of Models of Public Understanding of Science: Using Practice to Inform
Theory. In L. Kahlor & P. Stout (Eds.), Communicating Science: New Agendas in Communication(pp. 11-39). New York: Routledge.
24. COMPASS: Contextualist and Network Approach
@MCNisbetBrossard, D., & Lewenstein, B. V. (2009). A Critical Appraisal of Models of Public Understanding of Science: Using Practice to Inform
Theory. In L. Kahlor & P. Stout (Eds.), Communicating Science: New Agendas in Communication(pp. 11-39). New York: Routledge.
25. The Deficit vs. Public Engagement Model
@MCNisbetGroffman, P. Stylinski, C., Nisbet, M.C. et al. (2010). Restarting the Conversation: Challenges at the Interface of Science and Society.
Frontiers in Ecology and the Environment, 8, 284-291.
26. Models of Science Communication
@MCNisbetBrossard, D., & Lewenstein, B. V. (2009). A Critical Appraisal of Models of Public Understanding of Science: Using Practice to Inform
Theory. In L. Kahlor & P. Stout (Eds.), Communicating Science: New Agendas in Communication(pp. 11-39). New York: Routledge.
27. Discussion Question
Think about the issues or topics that you are working on, care most
deeply about, or are most familiar with. Drawing on the Brossard &
Lewenstein reading, identify examples that reflect the:
o deficit model
o social contextualist model
o lay expertise model
o public engagement models of science communication
What factors account for why one of these models might have been
adopted over another?
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