How does focusing on “community science literacy” change the role of an informal science learning center?
This poster was presented at the 2019 NSF AISL Principal Investigators meeting.
This ChangeMakers project builds on a 2016 National Academies report finding that scientific literacy can be understood at a community level as opposed to a traditional focus on the individual. This is important since scientific knowledge is often seen as abstract and distant from the daily concerns of average citizens. A community focus shifts the spotlight away from individual learning to collective learning facilitated by trusted cultural institutions serving as social assets. This work brings together scientific expertise and community organizations to advance operational science literacy--scientific ways of problem-solving--for community leaders and functional science literacy--information and skills people can use in their daily lives--among their service populations. This will be done by gathering and sharing knowledge and developing skills and abilities to contribute to the community's overall well-being.
The New England Aquarium (NeAq) and Aquarium of the Pacific (AoP) will apply a community engagement model involving active listening, documentation, alignment of concerns and goals, and co-development of shared solutions that serves the needs of all participants. As part of the Advancing Community Science Literacy (ACSL) project, multi-disciplinary teams from NeAq, AoP and their regional partners will participate in training on the model. They will apply that training to build and implement action plans to advance community-driven responses to local environmental issues. Teams will be assessed with respect to how they use tools from their shared training, along with peer support and coaching, to make progress in engaging diverse community stakeholders. Results of the evaluation will offer insights and recommendations for informal science learning centers to serve their communities more effectively as engagement facilitators and change agents to support science literacy development and action. By applying techniques developed for cultural institutions to communicate about climate science, and combining those with techniques developed for libraries and other organizations to help meet emergent community concerns, such as storm surges and coastal flooding, it is possible to redefine the role informal science learning centers can play as part of a community culture.
ACSL is funded by the Advancing Informal STEM Learning (AISL) program which supports projects that provide multiple pathways for broadening access to and engagement in STEM learning experiences, advances innovative research on and assessment of STEM learning in informal environments, and develops understandings of deeper learning by participants.
During the preparation of the 2010 Science & Engineering Indicators, there arose a concern about measures of public knowledge of science, and how well they capture public knowledge for Chapter Seven of the Indicators. A workshop at NSF in October 2010 concluded that the process of measuring and reporting public knowledge of science should start with the question of what knowledge a person in the public needs, whether for civic engagement with science and science policy, or for making individual decisions about one’s life or health, or for feeding one’s curiosity about science. This starting
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TEAM MEMBERS:
John BesleyMeg BlanchardMark BrownElaine Howard EcklundMargaret GlassTom GuterbockA. Eamonn KellyBruce LewensteinChris ToumeyDebbie RexrodeColin Townsend
resourceprojectProfessional Development, Conferences, and Networks
The scientific community has been under increasing pressure from policymakers and the public to explain how research contributes to the public good. The community has emphasized two distinct approaches to explaining its operations and value. The first is the use of narratives that can make the work of science more accessible and engaging to nonscientists. The other is the use of new data mining and analysis methods to document quantitatively the complex paths by which research progresses and eventually contributes to a variety of societal goals. While both of these approaches have proved useful, the goal of this workshop is to explore ways that they might be combined into a hybrid approach that will be even more effective.
This workshop will assemble experts in the narrative and data-driven science communication approaches with leading science researchers to discuss how these various perspectives can be merged to define a template for a type of communication that encompasses the appeal of narrative, the rigor of new analytic data, and the understanding of how science works in practice.
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TEAM MEMBERS:
Kevin Finneran
resourceresearchProfessional Development, Conferences, and Networks
How should we convey science—both its findings and its value to society—to the many members of the public who lack either scientific training or intense interest in scientific progress? In October 2016 the National Academies of Sciences, Engineering, and Medicine convened a workshop to explore ways of better presenting science—both specific findings and the processes of discovering and confirming—to the public. Participants discussed ways to develop data-enriched narratives that communicate to the public and policy makers in an engaging and rigorous way the work of basic research. They also
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TEAM MEMBERS:
National Academies of Sciences, Engineering, and Medicine
This is a two-year "Inclusion across the Nation of Communities of Learners of Underrepresented Discoverers in Engineering and Science" (INCLUDES) Design and Development Launch Pilot targeting high school students in the Hudson Valley, including the New York Metropolitan Area. It will support a network of institutional partners that are committed to providing internship and mentoring opportunities to youths interested in authentic research projects. The proposed work will build on a current research immersion program--the Secondary School Field Research Program (SSFRP) at Columbia University's Lamont-Doherty Earth Observatory. SSFRP serves high school students, mainly from underrepresented and underserved communities, who work with college students, science teachers, and researchers around a specific science problem. Over the past decade, the program has had demonstrable impact, including attendance to college, and students' selection of STEM majors. Tracking data indicates that retention rates of its alumni in four-year colleges are well above the norm, and a significant fraction of early participants are now in graduate programs in science or engineering. The program has surpassed all expectations in its effectiveness at engaging underserved populations in science and promoting entry into college, recruitment into STEM majors, and retention through undergraduate and into graduate studies. Hence, the project's overall goal will be to extend and adapt the research-immersive summer internship model through an alliance with peer research institutions, school districts and networks, public land and resource management agencies, private funding agencies, informal educational institutions, and experts in pedagogical modeling, metrics, and evaluation. Focused on earth and environmental sciences, the summer and year-round mentoring model will allow high school students to work in research teams led by college students and teachers under the direction of research scientists. The mentoring model will be multilayered, with peer, near-peer, and researcher-student relationships interweaving throughout the learning process.
The project has formulated a set of testable explanatory hypotheses: (1) Beyond specific subject knowledge, success rests on increased student engagement in a community of practice, with near-peer mentors, teachers, and scientists in the context of scientific research; (2) The intensity of engagement also shifts the students' vision of their future to include higher education, and specifically to imagine and move toward a STEM career; and (3) Early engagement, before students attend college, is critical because high school is where students form patterns of engagement and capacities related to science learning. Thus, the immediate goal of the two-year plan will be to create approximately 11 research internship programs focused on earth and environmental sciences, and to build the networks for growth through engagement with a wider community of educational partners. The main focus of this approach will be removing barriers between high school students and STEM organizations, and adapting the current mentoring model at Columbia University to the specific cultures of other research groups and internship programs throughout the lower Hudson Valley. The team has already assembled a diverse set of partners committed to broadening participation in STEM using a collective impact approach to early engagement in project-based learning. Research partners will provide the mentors, research projects, and laboratory facilities. The educational network partners will provide access for students, particularly those from under-resourced communities to participate, as well as participation opportunities for interested teachers. Informal learning organizations will provide access to field and research sites, along with research dissemination opportunities. In Year 1, the project will conduct a series of development workshops for partners already in place and foster the formation of new partnership clusters according to shared interest, complementary resources and geographic proximity. The workshops will provide a forum for partners to learn about each other's visions, values, challenges, and existing structures, while working through theoretical and practical issues related to STEM engagement for young investigators. In Year 2, the project will target the implementation of the internship programs at various sites according to the agreed-upon goals, program model, research projects, recruitment and retention strategy, staff training, data collection, and evaluation plans. An external evaluator will address both the formative and summative evaluation of the effort directed toward examining the three project's hypotheses concerning the educational impacts of scientific research on student engagement, extent of the immersion, and overall effectiveness of the programs.
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TEAM MEMBERS:
Robert NewtonLuo Cassie XuMargie TurrinEinat LevMatthew Palmer
Scientific literacy is an important educational and societal goal. Measuring scientific literacy, however, has been problematic because there is no consensus regarding the meaning of scientific literacy. Most definitions focus on the content and processes of major science disciplines, ignoring social factors and citizens’ needs. The authors developed a definition of scientific literacy for the California 4-H Program from the citizen’s perspective, concentrating on real-world science-related situations. The definition includes four anchor points: science content; scientific reasoning skills