Reflecting on the practice of storytelling, this practice insight explores how collaborations between scholars and practitioners can improve storytelling for science communication outcomes with publics. The case studies presented demonstrate the benefits of collaborative storytelling for inspiring publics, promoting understanding of science, and engaging publics more deliberatively in science. The projects show how collaboration between scholars and practitioners [in storytelling] can happen across a continuum of scholarship from evaluation and action research to more critical thinking
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TEAM MEMBERS:
Michelle RiedlingerJenni MetcalfeAyelet Baram-TsabariMarta EntradasMarina JoubertLuisa Massarani
Keyes [2004, p. 15] says: “In the post-truth era we don't just have truth or lies but a third category of ambiguous statements that are not exactly the truth but fall short of a lie”. In this paper about Hector's and Maui dolphin management in New Zealand, we argue that some scientific knowledge about these species presented and disseminated in ways that equate to this third category and as such may be classed as ‘post-truth type communication’. This generates citizen mistrust in science, scientists and government agencies and inflames conflict among informed stakeholders. We argue trust may
Genetic Modification (GM) has been a topic of public debates during the 1990s and 2000s. In this paper we explore the relative importance of two hypothesized explanations for these controversies: (i) people's general attitude toward science and technology and (ii) their trust in governance, in GM actors, and in GM regulations, in explaining the Dutch public's Attitude toward GM applications, and in addition to that, the public's GM Information seeking behaviour. This will be conducted through the application of representative survey methodology. The results indicate that Attitudes toward GM
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TEAM MEMBERS:
Lucien HanssenAnne DijkstraSusanne SleenhoffLynn FrewerJan Gutterling
As part of its overall effort to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program, seeks to advance new approaches to, and evidence-based understanding of, the design and development of science, technology, engineering, and mathematics (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. In alignment with these aims, the STEM + Digital Literacies (STEM+L) project will investigate science fiction as an effective mechanism to attract and immerse adolescents (ages 10-13) from diverse cultural backgrounds in environmental and human health content and socio-scientific issues. This work is particularly novel, as the current knowledge base is limited, and largely addresses the high school level. Therefore, the results of the proposed effort could yield important findings regarding the feasibility of this activity as an effective platform for science learning and engagement for younger students. As such, STEM+L would not only advance knowledge in the field but would also contribute to a growing AISL portfolio on digital literacy and learning.
STEM+L is an early stage Innovations in Development project that will engage thirty middle school students in out of school time experiences. Over a twenty-four-week period, students will work collaboratively in groups in-person and online with their peers and field experts to design, develop, and produce STEM content rich, multimedia science fictions. The in-person learning experiences will take place on the University of Miami campus during the summer and academic year. Culminating activities include student presentations online and at a local Science Fiction Festival. The research component will employ an iterative, design-based approach. Four research questions will be explored: (a) How do students learn science concepts and multimodal digital literacies through participating in the STEM+L Academy? (b) How do students change their views in STEM related subject matter and in pursuing STEM related careers? (c) How do students participate in the STEM+L Academy? (d) How do we best support students' participation and learning of STEM+L in face-to-face and online environments? Data collection methods include video records, student-generated artifacts, online surveys, embedded assessments, interviews, and multimodal reflections. Comparative case analysis and a mixed methods approach will be employed. A rigorous evaluation will be conducted by a critical external review board. Inclusive and innovative dissemination strategies will ensure that the results of the research and program reach a broad range of audiences including both informal and formal STEM and literacy educators and researchers, learning scientists, local communities, and policy makers through national and international conference presentations, journal publications, Web2.0 resources, and community outreach activities.
Campaigns by zoos, aquariums, and other civil society organizations are an important tool for promoting social changes that benefit the environment. Here, we evaluate a global biodiversity education campaign's impact through a repeated-measures survey of nearly 5000 visitors to 20 zoos and aquariums located in 14 countries. By comparing visitors’ pre- and post-visit responses combined across respondents, we found significant aggregate improvements in their biodiversity understanding and their knowledge of actions to help protect biodiversity. Respondents who reported seeing the education
Connecting Tennessee to the World Ocean is a three-year capacity building project of the Tennessee Aquarium and its partners, the Hamilton County Department of Education, Calvin Donaldson Environmental Science Academy, and NOAA's National Weather Service. Expanded capacity, in turn, allows the institution to reach a broader audience with a message connecting Tennessee's waterways to the world ocean. Primary project outcomes are increased ocean literacy and expanded ocean stewardship ethics in targeted Aquarium audiences. A series of specific activities focused on ocean literacy and global change make this possible, including expanding Aquarium classroom capacity by 60% to serve more students, expanded videoconferencing opportunities in partnership with NWS, free admission and programming for underrepresented students from across the region, expanded educational opportunities on the Aquarium s website, updated interpretive panels focusing on global change, installation of a NOAA WeatherBug station, a civic engagement series, and professional development for Aquarium educators.
One common barrier to STEM engagement by underserved and underrepresented communities is a feeling of disconnection from mainstream science. This project will involve citizen scientists in the collection, mapping, and interpretation of data from their local area with an eye to increasing STEM engagement in underrepresented communities. The idea behind this is that science needs to start at home, and be both accessible and inclusive. To facilitate this increased participation, the project will develop a network of stakeholders with interests in the science of coastal environments. Stakeholders will include members of coastal communities, academic and agency scientists, and citizen science groups, who will collectively and collaboratively create a web-based system to collect and view the collected and analyzed environmental information. Broader impacts include addressing the STEM barriers to those who reside in the coastal environment but who are underrepresented in STEM education, vocations and policy-making. These include tribal communities (racial and ethnic inclusion), fishery communities (inclusion of communities of practice), and rural communities without direct access to colleges or universities. This project will create a physical, a social, and a virtual, environment where all participants have an equal footing in the processes of "doing science" - the Coastal Almanac. The Almanac is simultaneously a network of individuals and organizations, and a web-based repository of coastal data collected through the auspices of the network. During the testing phase, the researchers will implement the "rules of engagement" through multiple interaction pathways in the growing Coastal Almanac network: increases in rigorous citizen science, development of specific community-scientist partnerships to collect and/or use Almanac data, development of K-12 programs to collect and/or use Almanac data. The proposed work will significantly scale up citizen science and community-based science programs on the West Coast, broadening participation by targeting members of coastal communities with limited access to mainstream science, including participants from non-STEM vocations, and Native Americans. The innovation of the Coastal Almanac is in allowing the process of deepening involvement in science, and through that process increasing agency of community members to be bona fide members of the science team, to evolve organically, in the manner dictated by community members and the situation, rather than a priori by the project team and mainstream science. The project has the potential in the long-term to increase participation in marine science education, workforce, and policy-making by underrepresented groups resident in the coastal environment. Contributions by project citizen scientists will also provide valuable data to mainstream science and to resource management efforts.
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TEAM MEMBERS:
Julia ParrishMarco HatchSelina Heppell
Sustainability science, as described by the PNAS website, is “…an emerging field of research dealing with the interactions between natural and social systems, and with how those interactions affect the challenge of sustainability: meeting the needs of present and future generations while substantially reducing poverty and conserving the planet's life support systems.” Over the past 7 y, PNAS has published over 300 papers in its unique section on sustainability science and has received and reviewed submissions for many hundreds more. What kind of a science is sustainability science?
The concepts of sustainable development have experienced extraordinary success since their advent in the 1980s. They are now an integral part of the agenda of governments and corporations, and their goals have become central to the mission of research laboratories and universities worldwide. However, it remains unclear how far the field has progressed as a scientific discipline, especially given its ambitious agenda of integrating theory, applied science, and policy, making it relevant for development globally and generating a new interdisciplinary synthesis across fields. To address these
Right now about one billion people suffer from chronic hunger. the world’s farmers grow enough food to feed them, but it is not properly distributed and, even if it were, many cannot afford it, because prices are escalating. But another challenge looms. By 2050 the world’s population will increase by two billion or three billion, which will likely double the demand for food, according to several studies. Demand will also rise because many more people will have higher incomes, which means they will eat more, especially meat. Increasing use of cropland for biofuels will make meeting the doubling
In a sustainable world, human needs would be met without chronic harm to the environment and without sacrificing the ability of future generations to meet their needs. Addressing the grand challenge of sustainability, the U.S. National Science Foundation (NSF) has developed a coordinated research and education framework, called the Science, Engineering, and Education for Sustainability (SEES) portfolio (http://www.nsf.gov/sees). The growing family of SEES activities, currently consisting of 11 programs, represents a major interdisciplinary investment by NSF that reflects the following topical
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TEAM MEMBERS:
Tim KilleenBen Van Der PluumMarge Cavanaugh
The management of health risks related to scientific and technological innovations has been the focus of a heated debate for a few years now. In some cases, like the campaigns against the use of GMOs in agriculture, this debate has degenerated into a political and social dispute. Even risk analysis studies, which appeared in the 1970s in the fields of nuclear physics and engineering and were later developed by social sciences as well, have given completely different, and at times contradictory, interpretations that, in turn, have given rise to bitter controversies.