QUEST Beyond Local is a consortium of six public media providers across the country coming together in a unique collaborative structure to foster widespread STEM literacy for general audiences; support formal and informal education outcomes in the sciences; and revive ailing science and environment journalism in the face of its rapid decline. QUEST Beyond Local is built on the success of the local, cross-editorial QUEST model, in which media making professionals from multiple disciplines--radio, television, web, and especially education--collaborate to distribute high-quality content to general and underserved audiences. Two years ago, KQED (serving Northern California) introduced a capacity-building effort with five other public media stations serving markets across the nation: Seattle (KCTS), Wisconsin (WPT/WPR), Nebraska (NET), Cleveland (ideastream), and North Carolina (UNC-TV). On the heels of this pilot process, QUEST Beyond Local will expand production in all markets and focus its multimedia efforts around the theme "Science of Sustainability" so as to achieve maximum effect on critical STEM outcomes in formal and informal education settings, and to foster science/environment literacy among a wide general audience. QUEST Beyond Local is defined by an organizationally and technologically innovative model of content creation: a newsroom structured according to a hub and spoke model; with common branding, technical, and style guidelines; and with a central coordinating and editorial office liaising between local production teams. Under the guidance of this central office, the collaborative seeks to create content with both local authority and national relevance. Building on existing media impact research, and previous research and evaluation of QUEST, research firm Rockman et al will apply evaluation theory to determine: (1) the structures and strategies to a successful STEM collaborative that contribute to a greater understanding of and engagement in science and environment topics; and (2) determine the interests, priorities, and media consumption habits of local and national STEM audiences. Primary project deliverables include three diverse multimedia packages for general and professional audiences, focusing on three main themes and anchored in STEM disciplines. In total, the three packages will include: 18 television segments; 6 half-hour television programs; 20 radio reports; 18 "web extras" (slide shows, maps, etc.); 12 web-based videos; 144 blog posts; 18 education "explainers"; 5 educator trainings; and a comprehensive distribution and social media campaign. All efforts will be supported by at least 18 science community partners, including zoos, museums, aquariums, research centers, and others. Through these efforts, the collaborative seeks to repair the systemic damage done by years of neglect to science/environment journalism--particularly the marked decline in this type of coverage over the last decade. This decline is perhaps related to the observed disconnect between the public and scientific knowledge, despite a demonstrated public appetite for science content and educators' reported desire for more resources and professional development opportunities focused on STEM topics. At a time when an evolving workforce and economy increasingly demand STEM skills and environmental literacy, QUEST Beyond Local will contribute resources to address these challenges.
This Partnerships for Innovation: Building Innovation Capacity (PFI:BIC) project from the University of New Hampshire focuses on a "living bridge", which exemplifies the future of smart, sustainable, user-centered transportation infrastructure. Bridges deliver such a fundamental service to society that they are often taken for granted. Typically, bridges only stir the public's interest when they must unexpectedly be replaced at great cost, or, worse, fail. The Living Bridge project will create a self-diagnosing, self-reporting "smart bridge" powered by a local renewable energy source, tidal energy, by transforming the landmark Memorial Bridge--a vertical lift bridge over the tidal Piscataqua River, with pedestrian access connecting Portsmouth, New Hampshire to Kittery, Maine--into a living laboratory for researchers, engineers, scientists, and the community at large. The Living Bridge will engage innovators in sensor and renewable energy technology by creating an incubator platform on a working bridge, from which researchers can field test and evaluate the impact and effectiveness of emerging technologies. The Living Bridge will also serve as a community platform to educate citizens about innovations occurring at the site and in the region, and about how incorporating renewable energy into bridge design can lead to a sustainable transportation infrastructure with impact far beyond the region. Sustainable, smart bridges are key elements in developing a successful infrastructure system. To advance the state of smart service systems and clean energy conversion, this project team will design and deploy a structural and environmental monitoring system that provides information for bridge condition assessment, traffic management, and environmental stewardship; advances renewable energy technology application; and excites the general public about bridge innovations. This PFI:BIC project is enabled through partnerships between academic researchers with expertise in structural, mechanical and ocean engineering, sensing technology and social science; small businesses with expertise in instrumentation, data acquisition, tidal energy conversion; and state agencies with bridge design expertise. The Living Bridge technical areas are structural health monitoring, tidal energy conversion with fluid-structure interaction measurements, estuarine environmental monitoring, and outreach communication. Sensors will be used to calibrate a three-dimensional analytical structural finite element model of the bridge. The predicted structural response from this model will assess the measured structural response of the bridge as acceptable or not. Instruments installed on the turbine deployment platform will measure the spatio-temporal structure of the turbulent inflow and modified wake flow downstream of the turbine. Resulting data will include turbine performance and loads for use in fluid-structure interaction models. Deployed environmental sensors will measure estuarine water quality; wildlife deterrent sensors will deter fish from the turbine. Hydrophones and video cameras will be used before and during turbine deployment to monitor environmental changes due to turbine presence. Outreach efforts will make bridge data, history, and information about new systems accessible and understandable to the public and K-12 educators, facilitated by an information kiosk installed at the bridge. Public awareness will be assessed with survey methods used in the N.H. Granite State Poll. The lead institution is the University of New Hampshire (UNH) with its departments of Civil Engineering, Mechanical Engineering, and Sociology, and the Center for Ocean Engineering. Primary industrial partners are a large business, MacArtney Underwater Technology Group, Inc. (Houston, TX) and two small businesses Lite Enterprises, Inc. (Nashua, NH) and Eccosolutions, LLC (New Paltz, NY.) Broader context partners are New Hampshire Department of Transportation, NH Fish & Game Department, NH Port Authority, NH Coastal Program, City of Portsmouth (NH), Sustainable Portsmouth (nonprofit), Maine Department of Transportation; U.S. Coast Guard, Archer/Western (Canton, MA, large business), Parsons-Brinkerhoff (Manchester, NH, large business), UNH Tech Camp, UNH Infrastructure and Climate Network, UNH Leitzel Center for Mathematics, Science and Engineering Education, and Massachusetts Institute of Technology's Changing Places (a joint Architecture and Media Laboratory Consortium, in Cambridge, MA).
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TEAM MEMBERS:
Erin BellTat FuMartin WosnikKenneth BaldwinLawrence Hamilton
Effective communication of science to the public by scientists is a desired and sought after attribute. This project which is working with graduate and undergraduate students in Physics will determine what interventions are best in assessing communication and attitudinal capacities in this cadre. Further, the project will determine what strategies are best at remediation. Finally, the successes will be generalized with regard to interventions and remediation to other Physics programs across the country and perhaps to other disciplines in the STEM fields. There are a variety of factors that contribute to effective communications with public audiences. Some of those factors include audience characteristics and teacher/mentor capabilities. This project will ascertain the issues in the latter teacher/mentor capacities. They will assess the mentor's baseline skills regarding communication, teaching and emergent attitudes. These are considered separately as each contributes uniquely to the effectiveness of communication. In the communications skills section, the objective will be to determine initially if the mentors are using any one of the following models: deficit, meaning the mentor is the expert and the participants are not informed; dialogue, where there is more back and forth between mentor and participant; and finally participatory interactions, where there is full integration of participant and mentor ideas. Once the baseline is established, the investigators will introduce mechanisms for remedial intervention with the student mentors to determine if and what types of changes can be made to improve communication directed toward public understanding of STEM concepts and ideas. Finally, the researchers will seek to determine if these interventions have affects beyond the immediate challenges such as career discussions, participation in classes and/or written products.
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TEAM MEMBERS:
Kathleen HinkoNoah Finkelstein
resourceprojectProfessional Development, Conferences, and Networks
The National Parks Conservation Association (NPCA), in collaboration with the National Park Service and other organizations, will organize a climate adaptation science and education workshop that will focus on engaging diverse public audiences in learning about climate adaptation. The outcomes of the workshop will include: a strong regional network to continue and sustain the initiative; a strategic plan for Sandy Hook that will result in model for using parks as laboratories for climate adaptation education; and the identification of existing climate adaptation education projects that can inform the strategic plan and the model. These outcomes will have broad relevance for the many environmental science and education projects funded by the Advancing Informal STEM Learning Program. The workshop, centered on Gateway National Recreation Area and surrounding New York/New Jersey communities, will engage diverse stakeholders including community members, research scientists, park staff, and others. Participants will assess and further develop research findings that reveal the potential of place-based contexts, such as parks and recreation areas, as settings for learning about global adaptation issues such as sea level rise, impacts on fish habitat due to inundation and changes in water quality, impacts on recreational fishery, and coastal resilience. Workshop findings will be disseminated broadly through the NPCA national network, national parks, and other organizations concerned with climate adaptation education.
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TEAM MEMBERS:
Karen Hevel-MingoJodie RiesenbergerGerald GlaserMarc Stern
The aim of this project is to create conversations in science museums among scientists, engineers, and public audiences about an emerging research field, synthetic biology. Synthetic biology applies science and engineering to create new biological systems, and re-design existing biological systems, for useful purposes. This is an important new area of research and development that raises societal questions about potential benefits, costs, and risks. Conversations between researchers and public audiences will focus not only on what synthetic biology is and how research in the field is carried out, but also on the potential products, outcomes, and implications for society of this work. Researchers and publics will explore personal and societal values and priorities as well as desired research outcomes so that both groups can learn from each other. Public participants will benefit from knowing about this field of research, and researchers will benefit from hearing public perspectives directly from the public participants. This project will be led by the Museum of Science with partners at the American Association for the Advancement of Science, the Synthetic Biology Engineering Research Center, the Science Museum of Minnesota, the Ithaca Sciencenter, and several other universities and science museums. It is funded by the Advancing Informal STEM Learning (AISL) program, which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. This includes providing multiple pathways for broadening access to and engagement in STEM learning experiences, advancing innovative research on and assessment of STEM learning in informal environments, and developing understandings of deeper learning by participants. This project is aimed at pushing beyond traditional modes of communicating with public audiences rooted in "public understanding of science" modalities into the mechanisms and perspectives associated with "public engagement with science" (PES). The project will support informal educational institutions as facilitators of such PES activities through which mutual learning takes place among research experts and various publics. Formative evaluation will support the development of evaluation tools that practitioners can use themselves to measure impacts of public engagement activities on both scientist and public participants. Summative evaluation will measure the impacts of the project on informal science education practitioners and researchers participating in the development of the project. In the first year of the project, two kinds of engagement activities will be tested at eight pilot sites across the U.S. The first kind will be the focus of "showcase" events, in which researchers demonstrate and talk with museum visitors about the basics of synthetic biology and their research work. The second kind will be the focus of "forum" events in which the multi-directional conversations focus on societal implications and participants' priorities for maximizing the benefits of this new field while minimizing the risks. The work of the first year will inform development of a kit of public engagement materials that will support widespread public engagement with synthetic biology in the second year at up to 200 sites across the U.S. Successful practices and infrastructure developed by the Nanoscale Informal Science Education Network to support NanoDays events will be use for this broad dissemination of public engagement in synthetic biology in year 2. When the project is complete a set of tools and guides will be provided online for developing, implementing, and evaluating engagement events that bring scientists and publics together, specifically about synthetic biology, but adaptable to other emerging research topics. The informal science education field will have a better understanding of how to get scientists, engineers, and publics to engage together in discussions about the societal implications of emerging technologies, and how to evaluate the quality of that engagement for both the researchers and the publics involved. The project will also provide a sense of informed public views on societal issues related to synthetic biology that emerge through a variety of public engagement activities that take place in science museums.
This conference at Arizona State University is an early-stage activity inspired by the upcoming 2016 - 2018 bicentennial of the conception, writing and publication of Mary Shelley's "Frankenstein - or The Modern Prometheus." That book, and the dozens of films produced subsequently, have provoked questions for researchers and citizens that have endured for two centuries and are relevant today. - How have we gone from a world in which Mary Shelley could watch public demonstrations of voltaic power on dead animals to one in which the dissection of animals in classrooms is frowned upon, but the creation of new life forms via an international synthetic biology competition (iGEM) is celebrated? - How do literary, artistic and other cultural portrayals of science and engineering inspire and inflect STEM research? - What steps do contemporary scientists and engineers need to take in order to proceed with their innovative activity in a responsible fashion? - What role do lay citizens have in making decisions about science and technology?- How can we understand the broad relationship between creativity and responsibility? The convening brings together a USA and international group of educators in informal science education and multi-disciplinary scholars who study various aspects of the interactions of science, technology and society (STS). This team of natural and social scientists, engineers, museum professionals (Museum of Science, Boston (MOS); Science Museum of Minnesota (SMM)), artists and humanities scholars will begin to formulate plans for producing exhibits, educational programs and demonstrations, fiction and nonfiction writing contests, performances, and curricula that explore science education, ethics and artistry. An overarching goal is to establish a process that could create a national and global network of collaborators to plan programs worldwide and establish new professional collaborations of researchers beyond the bicentennial. The workshop, a first step toward a possible larger initiative, could be significant both for the public's engagement with contemporary issues of science and society and for stimulating new inter-disciplinary research on such issues.
Earth Partnership: Indigenous Arts and Sciences (EP) will develop and refine a model for integrating Indigenous and informal and formal K-20 educators in ecological restoration, project-based learning and professional development. EP will involve participants in Native habitat restoration on community spaces, school grounds and nearby natural areas as a context for intergenerational STEM learning across age, ecosystem, discipline, learning style, culture and place. EP integrates Native knowledge and core values including relationship, reciprocity, respect and responsibility with Western STEM concepts and processes. The project will integrate the expertise of university social, physical, life and learning scientists and community and tribal practitioners to design, develop and test informal STEM learning incorporating ecological restoration, citizen science and cultural diversity. EP grows out of a teacher professional development model funded by NSF and is a network that now includes participating individuals and organizations from many states. This network will enhance dissemination and provide a foundation for a larger project growing out of the results of this project. EP will build capacity of Native and non-Native informal educators and citizens to work together to generate engagement among young people and adults with ecological STEM learning and stewardship. The approach will integrate culturally authentic resources, inquiry and citizen science process skills (e.g., data collection, analysis, ecological restoration, water stewardship) in multiple learning settings. Stronger multicultural, intergenerational and community partnerships will be supported to restore aquatic and terrestrial habitats through community-based stewardship projects and Service Learning. Through EP, Native youth will be encouraged to explore STEM careers that will meet future workforce needs for managing tribal resources and become knowledgeable citizens able to use critical thinking and analysis of STEM-related issues in their communities. The project will use a developmental evaluation approach to assess project planning processes and outcomes of educational programs.
The Rutgers Film Bureau in collaboration with the scientists of the LTER (Long Term Ecological Research) project at Palmer will produce a multi-platform documentary project, Antarctic Quest: Racing to Understand a Changing Ocean. This Connecting Researchers to Public Audiences proposal will focus on the scientists who are studying ocean physics, chemistry, biology, and ecology in the West Antarctic Peninsula (WAP), which is the fastest winter warming location on earth. The aim of the project is to promote scientific knowledge about the world's oceans and climate change, inspire interest in scientific careers, as well as train a cadre of next generation film students in the craft of science documentary filmmaking. The project will articulate the research of the Palmer LTER's quest to understand the impact of climate change on the marine ecosystems of the WAP, while involving university students in the filmmaking process. Deliverables include an hour television documentary intended for PBS television broadcast, an online "Antarctic Quest community" created through interactive and interconnected social media, three five-minute educational videos produced for the PBS Learning Media website, and a Digital Media Library to assist Earth science educators. The production team will employ a diverse group of twenty film students from Rutgers University to be involved in the many phases and components of the project. The project is designed to advance the public's environmental literacy. The project will raise awareness of the changes being observed in the world's oceans by illustrating how small changes in the physical conditions in the WAP can have profound impact on marine ecosystems and potentially the entire ocean system. The project will also highlight the significance of innovative new technologies that are revolutionizing research methods as well document the importance of scientific collaboration to understand a complex interdisciplinary problem and the challenges of working in extreme environments. The summative evaluation of the project will assess the effectiveness of the project in meeting its educational goals. By communicating significant scientific research to the public while training a cohort of next generation of science documentary filmmakers, the project will also contribute to capacity-building in the Informal Science Education field.
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TEAM MEMBERS:
Oscar SchofieldDena Seidel
resourceprojectProfessional Development, Conferences, and Networks
The Cyberlearning Resource Center (CRC) has responsibility for promoting integrative collaboration among cyberlearning grantees (across NSF programs); synthesis and national dissemination of cyberlearning findings, technologies, models, materials, and best practices; creating a national presence for Cyberlearning; helping the disparate Cyberlearning research and development communities coordinate efforts to build capacity; and providing infrastructure (technological and social) for supporting these efforts. Monitored through the Cyberlearning: Transforming Education program, the CRC serves as a resource for all NSF grantees and programs with cyberlearning components, helping to promote synergy and integrate projects across NSF's cyberlearning investments. Among society's central challenges are amplifying, expanding, and transforming opportunities people have for learning and more effectively drawing in, motivating, and engaging young learners. Engaging actively as a citizen and productively in the workforce requires understanding a broad variety of concepts and possessing the ability to collaborate, learn, solve problems, and make decisions. Whether learning is facilitated in school or out of school, and whether learners are youngsters or adults, to develop such knowledge and capabilities, learners must be motivated to learn, actively engage over the long term in learning activities, and put forth sustained cognitive and social effort. Consistent with NSF's mission and strategic plan, a variety of programs at NSF invest in research aimed towards achieving these goals. In support of this important thematic thrust, the Cyberlearning Resource Center works with researchers and NSF program officers to identify and disseminate findings from across programs and projects; develop ways to broker productive partnerships and collaborations; convene meetings for purposes of envisioning the future, integrating findings, and building capacity,; and monitor the cyberlearning portfolio and its influences and impacts.
This Michigan State University and University of Texas-Austin project will focus on making science communication more scientific. It will primarily use interview and survey research to improve societal understanding of how those involved in science communication, particularly scientists, think about science communication. The goal is to use this knowledge to help improve science communication training and recruiting with a focus on increasing the likelihood that scientists will adopt evidence-based communication strategies to increase public interest, engagement, and identification with science, technology, engineering, and math (STEM). A central underlying reason for the study is a mismatch between scientists' motivations and goals when interacting with public audiences and what research suggests would be the most positive and productive with public audiences. This study is funded by the Advancing Informal STEM Learning program, which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. This includes providing multiple pathways for broadening access to and engagement in STEM learning experiences, advancing innovative research on and assessment of STEM learning in informal environments, and developing understandings of deeper learning by participants. The project will be conducted in three phases. The first is interviews with a wide range of science communication experts to assess priority research questions. These interviews will be followed by surveys with U.S.-based members of up to 10 different scientific societies representing a broad range of academic fields as well as a survey of science communication researchers. The survey will focus on three different public engagement modes, including face-to-face engagement, online engagement, and engagement via the news media. Consistent with the Theory of Planned Behavior, the surveys will assess scientists' attitudes about public engagement and specific public engagement goals, as well as perceptions of social norms (both descriptive and injunctive) and efficacy beliefs (both internal and external). These will be used as predictors of general and goal-specific engagement willingness, as well as reported past behavior, using multigroup modeling. Potential communication goals of interest include transferring knowledge, developing interest and excitement, building trust in scientists, demonstrating openness and a willingness to listen, shaping how people think about subjects (i.e. framing), and/or defending science. The final phase of the project will explore the potential to design experiments aimed at testing the impact that mention of specific goals has on communication training recruitment as well as the degree to which online content about various goals is attractive to scientists interested in developing their communication skills. The research is the most targeted and largest attempt to date to understand how scientists' views about the public and communication processes may shape science communication behavior.
The Citizen Science Embedded Assessment project will explore the use of embedded assessment to measure participant science inquiry skill development within the context of citizen science projects. Citizen science (CS) projects partner volunteers with scientists to participate directly in research endeavors. Embedded assessments (EAs) assess participant skills and performance that are directly integrated and are indistinguishable from day-to-day activities. As such, EAs allow learners to demonstrate their science competencies through tasks that are integrated seamlessly into the learning experience itself. The CS field has a growing inventory of self-assessment tools, however, the evaluation of citizen science (and other informal science projects) using such subjective assessments can be remarkably improved when these are used in combination with objective measures of knowledge, skills or other resources participants gain through their participation. Science skills, such as data collection and analysis, are particularly important for CS projects because of their focus on the scientific process and their need for rigorous data collection. Despite the focus on skill gains, CS projects rarely measure such improvements. Embedded assessments (EAs) offer a critical method for understanding the impacts of these participatory learning environments. The project will develop and field test EAs on citizen science topics with an environmental science focus. It will also design training to support their use by individual projects. The project has three primary research foci: (1) identifying common and unique science inquiry skills targeted by CS projects, and how skills are currently being measured to document project impact; (2) identifying the opportunities and challenges present in developing and administering EA tools customized for CS projects to assess science inquiry skills; and (3) assessing whether EA tools created for a CS project can provide project leaders with a better understanding of their project's impact on participant science inquiry skills. The project will address these questions with a needs assessment of research and evaluation studies within the CS community and case studies to develop and test EAs customized for three identified and interested CS projects.
The mission of the New Mexico Informal Science Education Network (NM ISE Net) is to provide opportunities and resources for informal educators to work together to impact science teaching, science learning, and science awareness throughout the state of New Mexico. The NM Museum of Natural History and Science leads NM ISE Net with support from NM EPSCoR.
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TEAM MEMBERS:
New Mexico Museum of Natural HistorySelena ConnealyCharlie Walter