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Implementing Global Climate Change Research:
Assessing the Challenge of Defining and Evaluating Decision Support
Rebecca J. Romsdahl, PhD – Earth System Science & Policy Program, UND – [email protected]
Results & Discussion
Introduction
Decision support (DS) is the buzzword concept
for implementing global climate change research;
the aim is to develop better science-based
resources to aid decision-making under the
uncertain conditions of climate variability and
change.1 Survey responses show there is
disagreement on how to define DS, who it should
involve, what is needed by decision-makers, and
how to evaluate its effectiveness; there are also
suggestions that some researchers do not
support the concept. This author argues that DS
should be broadly defined and evaluated as a
collaborative process.
Research Process
In order to better understand how DS is being
defined and evaluated, global climate change
experts, within the US Climate Change Science
Program (CCSP), see Table 1, were invited to
participate in an Internet-based survey; 35 valid
responses were analyzed.
The Sample Population
Survey participants are senior-level Federal agency
representatives to CCSP working groups. As representatives,
they bring an overview of their agency’s research and
development portfolio and some level of budgetary authority.
NOAA (n=8)
 NASA (n=7)
 Dept. Agriculture (n=6)
 USGS (n=6)
 EPA (n=4)
 Dept. Energy (n=3)
 Dept. Interior (n=3)
 Dept. Health & Human Services (n=2)
 NSF (n=2)
 Smithsonian Institute (n=2)
 Dept. Transportation (n=2)
When asked how they define DS, based on their experiences, 16
respondents (45%) reference ‘tools,’ only 4 (11%) include
decision-makers, none reference collaboration or uncertainties,
see Figure 1. Also, 24 (68%) agree with the statement: ‘Decision
support is a new label for a long established line of work.’
Increasing emphasis on uncertainty levels, socioeconomics, dialogue, implementation
Linear Knowledge Transfer
Climate Extension
Conclusions
‘Pure’ science researchers will think it is not
their job to worry about what happens to the
research activity once they have finished a
project…. If this is true, then we need an
intermediary ‘technology/research’ transfer
process to move from pure research to decision
support.
- Survey Respondent
Collaborative Process
Increasing emphasis on experimentation, data collection, technology tools
Figure 1a: Decision Support Definition Continuum
When asked to list examples of ‘effective DS activities’ related
to their program, nearly half of respondents describe projects
involving collaboration between researchers and decisionmakers. Many of the described projects are similar to the
collaborative problem solving design institutionalized in the
US Environmental Protection Agency2, see Table 2.
Collaborative Problem Solving Design
Rather than continue to define and evaluate DS via the
predominant linear model of knowledge transfer, see
Figure 1, where products or information are handed
down from the expert to the decision-maker, a processbased model of DS, see Figure 2, would recognize
relevant uncertainties involved with global climate
change data and encourage dialogue on how to
incorporate uncertainty into the decision process. This
type of model would also encourage evaluation and
feedback to help assess the effectiveness of DS
activities in addressing climate variability and change.
Ad-hoc DS Evaluation
1.
2.
3.
4.
5.
6.
7.
Identify priorities
Get the right groups to the table
Provide education / training as needed
Determine roles of each organization
Frame a mutually agreeable goal
Manage the process to be fair, objective, timely
Decide how to document / evaluate outcomes
 Benchmarking
 Case-by-case analysis
 Reports/publications
 Stakeholder feedback
 Surveys
Researchers
Decision-makers
Problem
Identification
Experimentation /
Data Collection
Table 3
Table 2
When asked if their ‘program always evaluates the
effectiveness of DS products,’ 22 respondents (62%)
indicate ‘no.’ References to ad-hoc evaluation, however,
include formal and informal strategies, see Table 3.
Survey Results in Summary:
Evaluation and
Feedback
Translation of
Research /
Uncertainties
Climate
Extension
Implementation
Figure 2b: Collaborative Process for Decision Support
Collectively, responses highlight continued uncertainty with DS concept
• Responses indicate that although DS constitutes a variety of
products and activities, that range from interactive climate-modeling
software to extension-like advice and training, a common definition
is needed.
Table 1
• Responses also indicate that evaluation of DS products and
activities is essential, but there is disagreement on: what should be
evaluated, just the products and / or DS implementation; when and
how to evaluate effectiveness; and who should conduct evaluation,
researchers, decision-makers, or somebody else?
References
1. p. 111, Climate Change Science Program. 2003. Strategic Plan
2. p. 144, Belefski, M. 2006. “Collaboration at the U.S. Environmental Protection Agency:
An Interview with Two Senior Managers.” Public Administration Review, December
a. Figure 1 adapted from: Pyke, C. et.al. (in press) “Effective Decision Support for Climate
Change Impact Assessment and Adaptation.”
b. Figure 2 adapted from: Horsefall, F. and H. Hill, 2004. “NOAA Climate Transition Program.
Conceptual Paper.” Available at: http://www.climate.noaa.gov/cpo_pa/nctp/nctp.pdf