This research examines the Tree Investigators project to support science learning with mobile devices during family public programmes in an arboretum. Using a case study methodology, researchers analysed video records of 10 families (25 people) using mobile technologies with naturalists at an arboretum to understand how mobile devices supported science talk related to tree biodiversity. The conceptual framework brings together research on technological supports for science learning and research on strategies that encourage families to engage in conversations that support observation and
Focusing on climate change and its impact on coastal zones and marine life, Visualizing Change will build educator capacity in the aquarium community and informal science education field. Building on NOAA datasets and visualizations, we will provide interpreters with strategic framing communication tools and training using the best available social and cognitive research so that they can become effective climate change educators. Objectives are to (1) Develop and test four exemplary interpretive "visual narratives" that integrate research-based strategic communication with NOAA data visualization resources; (2) Test the application of the visual narratives in a variety of geographic regions, institution types (aquarium, science center, etc.), and using multiple technology platforms (Science on a Sphere, Magic Planet portable globe display, iPad/tablets, and video walls); (3) Build a professional development program for climate change interpretation with data visualization; and (4) Leverage existing networks for dissemination and peer support.
In this Connecting Researchers to Public Audiences (CRPA) project, the researchers from Florida State University, in partnership with their local public broadcasting station (WFSU-TV), will engage the audience in an exploration of the ecosystem services of coastal habitats. The main content focus is the important linkages among coastal foundation species (oysters and salt marsh plants), the human and ecological communities they support, and the ecosystem services they provide. In particular, the project illuminates the roles of biodiversity and consume-prey relationships in influencing ecosystem services, while conveying the excitement of ecological research. The complementary target audiences are the general WFSU viewers and listeners, groups that actively use or promote coastal habitats, and graduate students at Florida State University and Florida A&M University. The main deliverables include: 1) a TV documentary, a series of short videos and radio spots; 2) a research blog; and 3) a science communication three-day workshop for current and future researchers to converse with the public about key learning goals. In addition, in year two of the grant, the PIs will deliver a monthly seminar series focused on effective communication skills for scientists. The resulting documentaries will be broadcast by WFSU and offered to other PBS stations via APT and/or NETA. Other materials will be made available via PBS Learning Media and other portals. Community group project collaborators, such as SciGirls and the Science Cafe, will extend the reach and impact of the project. The project design includes formative evaluation which will focus on ways to improve the accessibility and usability of the research blog, and summative evaluation which will review each component of the deliverables. Results of the summative evaluation will be posted on www.informalscience.org. This proposal addresses the communication gap between scientists and the public by simultaneously targeting both audiences with deliverables designed to promote dialogue and understanding. By highlighting compelling natural history information and key ecological concepts associated with current research, the project will provide engaging educational experiences to a wide audience. These activities will not only educate the public about specific research but also demonstrate the process of science. Finally, the proposed seminar for students, along with the other informal learning opportunities throughout the project, will enhance the communication skills and outreach abilities of a diverse group of graduate students.
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TEAM MEMBERS:
Randall HughesDavid KimbroRoberto Diaz de Villegas
This Connecting Researchers to Public Audiences project plans to create a multimedia website, Into the Rift, a virtual journey to Lake Tanganyika in East Africa, along with teaching resources and a dissemination campaign. The content will focus on the high freshwater diversity of the 2nd largest lake in the world; the diverse array of cichlid fish in the lake; and the effects of overharvesting and global warming on the lake's ecosystem. The project's intended learning outcomes are that viewers will have enhanced awareness and understanding of: 1) the ecosystem-scale processes that support life in lakes; 2) the importance of intact natural ecosystems for the well-being of human societies; 3) the techniques that scientists use to learn more about the ecosystem-scale movement of matter and energy; and 4) potential career paths in STEM fields. These learning outcomes correlate to the current and proposed science standards, which provide a structure for content development and outcomes assessment. The project will be designed by the collaboration of an ecologist (the PI Dr. Yvonne Vadeboncoeur), education specialist (co-PI Dr. Lisa Kenyon), communication specialist (co-PI Dr. Elliot Gaines) all from Wright State University, and a media lab (Habitat Seven), and informed by formative evaluation conducted by Edu, Inc. The website, hosted by a guide from East Africa along with the PI, will be presented in three languages (Spanish, French, and Swahili) in addition to English. Edu, Inc. will also conduct a summative evaluation of all the components of the project with respect to the four intended learning outcomes and their related concepts as well as analyze the outcomes of the dissemination strategies. This CRPA uses internet technologies to make abstract scientific concepts and a largely inaccessible research location available to a wide audience. The project intends to inform and engage the audience with an aggressive use of social media in addition to the website. Into the Rift will provide material for both the lay audience and classrooms, including access to authentic scientific data to compare the Lake Tanganyika data to environmental data collected from the U.S. Great Lakes. Additional collaborations with established organizations, including Crossing Boundaries, Conservation Bridge and Community Bridges, will expand the reach and impact of the project to diverse audiences. The multi-lingual approach extends the reach to potentially an even greater audience both within and outside the U.S.
This Connecting Researchers and Public Audiences project will engage the public in understanding how species are born. The project builds on the PI's NSF-funded research on speciation and signal diversification in Monarcha Flycatchers of the Solomon Islands (NSF CAREER, #1137624). Project deliverables include a one-hour television program, website, and the use of social media. The team proposes to film an engaging tale that weaves historical research with modern molecular techniques to communicate to the public how new species are born. It will also illustrate the process of science and the people behind the research. The potential national audience is large, with a particular effort to reach 18-49 year olds. The program will be nationally distributed by one of the major television or cable channels. The website will provide a video gallery of short videos and photos, a blog from the field, and an in-depth learning section with new research about speciation. Evaluation of the project, conducted by Education Northwest, will focus on changes in audience knowledge and interest about speciation. The findings of the summative evaluation will be made available online at InformalScience.org.
This Broad Implementation media project (building upon prior NSF award 0639001) will address science literacy among Latinos via mass media, increasing the amount of Spanish-language science content available in the U.S., increasing the representation of Latino scientists in mainstream media, and expanding the knowledge base about Latino's interest and engagement in science. The STEM content will be based on the research conducted by the Hispanic scientists being interviewed and therefore includes a wide range of topics including astronomy, biology, physics, earth sciences, and engineering. The criteria for selecting the Hispanic researchers and the content is based on the importance of the research, how it is immediately relevant to a Latino audience, and how it draws on the indigenous knowledge system or ethnic pride for U.S. Latinos. Project deliverables include 150 audio-video interviews with Hispanic scientists distributed on both commercial Hispanic radio and TV stations, as well as public broadcasting and online. In addition to the broadcasts, social media tools such as Facebook and Twitter will be used to reach out and engage Hispanics. It is estimated that 300 Spanish-language radio stations will air the programs, resulting in 3 million radio impressions for each daily 60-second broadcast. Television broadcasts are estimated to result in another 2 million impressions per program. Project partners include the Society for the Advancement of Chicanos and Native Americans in Science (SACNAS); V-Me, a national Hispanic educational channel; KLRN, the San Antonio, Texas public television station that will provide the national PBS distribution; and DaGama Web Studio that will develop and implement the social media marketing plan to attract and engage Latinos online. Comprehensive evaluations of project deliverables and impact will be conducted by Informal Learning Solutions (video-audio formative evaluations), and Knight-Williams Research (summative evaluation of project impact). The Summative Evaluation Plan will focus on the programs\' overall appeal, clarity, and effectiveness in meeting the two key audience objectives in the proposal: (1) increasing familiarity with and understanding of science concepts among U.S. Latinos, and (2) demonstrating engagement activities such as talking with friends/family about the presented topics, and/or seeking out additional information. It will furthermore assess the extent to which listeners and viewers find the Hispanic researchers featured in the programs to be effective communicators and the importance they assign to hearing from Hispanic researchers themselves. It will look at whether and how the programs are effective selecting topics with immediate relevance to listeners'/viewers' everyday lives. Finally, the evaluation will gather information about listeners'/viewers' demographic and background characteristics, including their country of origin, degree of fluency in Spanish, reasons for preferring Spanish media, number of generations in the U.S., reasons for tuning into the programming, efforts to recommend the programs to others, and the likelihood of continuing to listen to or view the programs in the future.
This CRPA project will develop a game for mobile devices called the "RapidGuppy". It provides users (students 12-21 years of age) with an interesting and fun way to learn details about biological adaptation and genetic change. The game teaches users about the environmental factors that lead to adaptation. More than 30 years of research on the Trinidadian Guppy that "rapidly" evolves (over 3-5 years) is the basis for the game. The research, databases, and mini-documentaries that support the "RapidGuppy" game are linked to allow users to easily delve deeper into these materials. An extensive social media campaign will be used to market the game and the public facing website. Partners in this endeavor include: University of California-Riverside, Habitat Seven, Magmic Inc., and Edu, Inc. In this project, the mobile device game will be backed by a sophisticated website that contains detailed research results from the field and mini-documentaries showing real fish and the actual research processes as well as researchers and scientists to promote role model development. Interested individuals may also directly access the videos and research results via the website. The target audiences are youth who are prone to play electronic games and the general public. The comprehensive evaluation plan will assess the learning outcomes resulting from the mini-documentaries, in-game content, and website, as well as the playability of the game and website functionality. Impacts resulting from the social media campaign and outreach to underserved audiences will also be measured. Because of the major social media campaign, this project may increase the level of interest in the science of evolution and genetic change, and raise awareness of STEM careers. If the user groups become excited about the game and the inherent messages, it is anticipated that the public will gain a better understanding of the factors responsible for genetic change.
Mystic Seaport received an implementation grant from the National Endowment for the Humanities to fund a suite of online, onsite, offsite, and onboard public programs and exhibits that will provide new national insight into universal and important humanities themes, through an interdisciplinary exploration of historic and contemporary American whaling. The Museum and its partners will explore through this project how, when, and why dominant American perceptions of whales and whaling took their dramatic turns. The project will raise public awareness in New England and nationwide about the role the whaling industry played in the development of our nation’s multi-ethnic make-up, our domestic economy, our global impact and encounters, and our long-standing fascination with whales. And it will promote thought about the nation’s whaling heritage, and how it continues to shape our communities and culture.
Using data from interviews with 133 physicists and biologists working at elite research universities in the United States, we analyze narratives of outreach. We identify discipline-specific barriers to outreach and gender-specific rationales for commitment. Physicists view outreach as outside of the scientific role and a possible threat to reputation. Biologists assign greater value to outreach, but their perceptions of the public inhibit commitment. Finally, women are more likely than men to participate in outreach, a commitment that often results in peer-based informal sanctions. The study
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TEAM MEMBERS:
David JohnsonAnne EcklundAnne Lincoln
This design case explores the affordances of gigapixel image technology for science communication and learning in museum settings through the iterative development of an explorable image viewer to engage visitors in an archaeological exhibit. We reflect on the series of user studies, prototype iterations, and design decisions taken to optimize navigation, annotation and exploration in this zoomable user interface. We highlight a set of design precedents, interaction frameworks, and content structuring approaches, while detailing the development of a media rich digital annotation strategy to
The Ross Sea Project was a Broader Impact projects for an NSF sponsored research mission to the Ross Sea in Antarctica. The project, which began in the summer of 2010 and ended in May 2011, consisted of several components: (1) A multidisciplinary teacher-education team that included educators, scientists, Web 2.0 technology experts and storytellers, and a photographer/writer blogging team; (2) Twenty-five middle-school and high-school earth science teachers, mostly from New Jersey but also New York and California; (3) Weeklong summer teacher institute at Liberty Science Center (LSC) where teachers and scientists met, and teachers learned about questions to be investigated and technologies to be used during the mission, and how to do the science to be conducted in Antarctica; (4) COSEE NOW interactive community website where teachers, LSC staff and other COSEE NOW members shared lesson plans or activities and discussed issues related to implementing the mission-based science in their classrooms; (5) Technological support and consultations for teachers, plus online practice sessions on the use of Web 2.0 technologies (webinars, blogs, digital storytelling, etc.); (6)Daily shipboard blog from the Ross Sea created by Chris Linder and Hugh Powell (a professional photographer/writer team) and posted on the COSEE NOW website to keep teachers and students up-to-date in real-time on science experiments, discoveries and frustrations, as well as shipboard life; (7) Live webinar calls from the Ross Sea, facilitated by Rutgers and LSC staff, where students posed questions and interacted directly with shipboard researchers and staff; and (8) A follow-up gathering of teachers and scientists near the end of the school year to debrief on the mission and preliminary findings. What resulted from this project was not only the professional development of teachers, which extended into the classroom and to students, but also the development of a relationship that teachers and students felt they had with the scientists and the science. Via personal and virtual interactions, teachers and students connected to scientists personally, while engaged in the science process in the classroom and in the field.
This project examines the design principles by which computer-based science learning experiences for students designed for classroom use can be integrated into virtual worlds that leverage students' learning of science in an informal and collaborative online environment. GeniVille, developed and studied by the Concord Consortium, is the integration of Geniverse, a education based game that develops middle school students' understanding of genetics with Whyville, developed and studied by Numedeon, Inc., an educational virtual word in which students can engage in a wide variety of science activities and games. Genivers has been extensively researched in its implementation in the middle school science classroom. Research on Whyville has focused on how the learning environment supports the voluntary participation of students anywhere and anytime. This project seeks to develop an understanding of how these two interventions can be merged together and to explore mechanisms to create engagement and persistence through incentive structures that are interwoven with the game activities. The project examines the evidence that students in middle schools in Boston learn the genetics content that is the learning objective of GeniVille. The project uses an iterative approach to the modification of Geniverse activites and the Whyville context so that the structured learning environment is accessible to students working collaboratively within the less structured context. The modification and expansion of the genetics activities of the project by which various inheritance patterns of imaginary dragons are studied continues over the course of the first year with pilot data collected from students who voluntarily engage in the game. In the second year of the project, teachers from middle schools in Boston who volunteer to be part of the project will be introduced to the integrated learning environment and will either use the virtual learning environment to teach genetics or will agree to engage their students in their regular instruction. Student outcomes in terms of engagement, persistence and understanding of genetics are measured within the virtual learning environment. Interviews with students are built into the GeniVille environment to gauge student interest. Observations of teachers engaging in GeniVille with their students are conducted as well as interviews with participating teachers. This research and development project provides a resource that blends together students learning in a computer simulation with their working in a collaborative social networking virtual system. The integration of the software system is designed to engage students in learning about genetics in a simulation that has inherent interest to students with a learning environment that is also engaging to them. The project leverages the sorts of learning environments that make the best use of online opportunities for students, bringing rich disciplinary knowledge to educational games. Knowing more about how students collaboratively engage in learning about science in a social networking environment provides information about design principles that have a wide application in the development of new resources for the science classroom.