This poster was presented at ASTC 2016 in Tampa, Florida. Climate change can be abstract to visitors, but seeing, touching and smelling permafrost can make it seem more real. This poster shares lessons about bringing an ISE program to rural Alaska, and how this University & Museum partnership leverages real objects from frozen ground to engage child and adult learners alike in the emotions of climate change.
Over three years beginning in January 2016, the Science Museum of Virginia will launch a new suite of public programming entitled “Learn, Prepare, Act – Resilient Citizens Make Resilient Communities.” This project will leverage federally funded investments at the Museum, including a NOAA-funded Science On a Sphere® platform, National Fish and Wildlife-funded Rainkeepers exhibition, and the Department of Energy-funded EcoLab, to develop public programming and digital media messaging to help the general public understand climate change and its impacts on Virginia’s communities and give them tools to become resilient to its effects. Home to both the delicate Chesapeake Bay ecosystem and a highly vulnerable national shoreline, Virginia is extremely susceptible to the effects of climate change and extreme weather events. It is vital that citizens across the Commonwealth understand and recognize the current and future impacts that climate variability will have on Virginia’s economy, natural environment, and human health so that they will be better prepared to respond. In collaboration with NOAA Chesapeake Bay Office, George Mason University’s Center for Climate Change Communication, Virginia Institute for Marine Science, Public Broadcasting Service/National Public Radio affiliates, and Resilient Virginia, the Museum will use data from the National Climatic Data Center and Virginia Coastal Geospatial and Educational Mapping System to develop and deliver new resiliency-themed programming. This will include presentations for Science On a Sphere® and large format digital Dome theaters, 36 audio and video digital media broadcast pieces, two lecture series, community preparedness events, and a Resiliency Checklist and Certification program. This project supports NOAA’s mission goals to advance environmental literacy and share its vast knowledge and data with others.
Children in the Norfolk, Va., area will inherit the second highest sea level rise on the East Coast. In response, the non-profit Elizabeth River Project will prepare one of the first comprehensive youth education programs on climate change resilience on this coast. The Elizabeth River Project, working since 1993 to restore the environmental health of the urban Elizabeth River, will deploy its Dominion Virginia Power Learning Barge, “America’s Greenest Vessel,” and its new urban park, Paradise Creek Nature Park, to empower 21,000 K-12 students over three years to become informed decision makers and environmental stewards, prepared to adapt to rising seas. The project primarily will reach under-served schools in Norfolk and adjoining Portsmouth, Va. Lead science partner will be Old Dominion University, on the forefront of climate change research. Other partners include the Chrysler Museum of Art, ground zero for street flooding that has become routine in Norfolk. A youth strategy for the Elizabeth River “watershed” or drainage area will be disseminated nationally internationally by the City of Norfolk through its participation as one the Rockefeller Foundation’s 100 Resilient Cities. The youth strategy will be used by Norfolk to complement its Norfolk Resilience Strategy, prepared so far with adults in mind.
This project team will develop and test a prototype of Planet 3, a multi-media online platform to apply real world problems (e.g., pollution, overpopulation) to middle school earth and life science learning. The prototype will include videos, simulations, and games to allow opportunities for students to explore problem sets, collect and analyze data, and draw conclusions. At the end of Phase I in a pilot study with two classrooms, the researchers will examine whether the prototype functions as planned, where teachers can implement the prototype within classroom practice, and if students are engaged while examining real-world problems.
The Yellowstone Altai-Sayan Project (YASP) brings together student and professional researchers with Indigenous communities in domestic (intermountain western U.S.) and international (northwest Mongolian) settings. Supported by a National Science Foundation grant, MSU and tribal college student participants performed research projects in their home communities (including Crow, Northern Cheyenne, Fort Peck Assiniboine & Sioux, and Fort Berthold Mandan, Hidatsa and Sahnish) during spring semester 2016. In the spirit of reciprocity, these projects were then offered in comparative research contexts during summer 2016, working with Indigenous researchers and herder (semi-nomadic) communities in the Darhad Valley of northwestern Mongolia, where our partner organization, BioRegions International, has worked since 1998. In both places, Indigenous Research Methodologies and a complementary approach called Holistic Management guided how and what research was performed, and were in turn enriched by Mongolian research methodologies. Ongoing conversations with community members inspire the research questions, methods of data collection, as well as how and what is disseminated, and to whom. The Project represents an ongoing relationship with and between Indigenous communities in two comparable bioregions*: the Big Sky of the Greater Yellowstone Ecosystem, and the Eternal Blue Sky of Northern Mongolia.
*A ‘bioregion’ encompasses landscapes, natural processes and human elements as equal parts of the whole (see http://bioregions.org/).
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TEAM MEMBERS:
Kristin RuppelClifford MontagneLisa Lone Fight
The Fluid Earth Viewer (FEVer), an interactive and visually appealing web application that will allow users to visualize current and past conditions of our planet's atmosphere and oceans will be built via this award. This free web application, available to anyone with an internet connection, will directly impact approximately 2,000 individuals in-person through three field tests and is expected to reach many more online.
FEVer will be an extension of an existing open-source web application, and the PIs will add polar data sets, extended options in the user interface, and the ability to view historical climate/weather data to the existing "earth" app. It will be a vehicle of modern Earth science communication, making information most often used by the scientific community accessible and engaging to broader communities. In particular, it will provide hands-on visualization of the important climatic role of the polar-regions, their connections to lower latitudes, and the changes they are undergoing. A companion website, FEVer-Ed, will provide background, educational support, and opportunities for additional learning through a gallery of historically interesting atmospheric and oceanic events. FEVer will serve as a gateway to data sets that have otherwise been inaccessible to audiences outside of the research community. While a number of large data sets are included in this proposal (regional and global operational weather models/reanalyses), the platform is scalable to include other data such as ice sheet and glacier dynamics.
This project is partially 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.
The proposed project, which will build upon a successful NSF EAGER grant, will help arctic researchers explain the significance of their research widely to the general public which, in today's technologically connected world means not only in the U.S., but worldwide- and to reflect the diversity of the scientific enterprise Alaska. As proposed, the current Frontier Scientist's schedule of science reporting will be enhanced by a broadcast TV series titled Frontier Scientists to engage a larger viewing audience. A 'Do It Yourself' (DIY) component will help scientists to create their, professional-caliber media that will sustain the publics' interest and feedback in their research. An evaluation regime will insure appropriate quality and depth of communication, throughout the lifecycle of each science story.
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TEAM MEMBERS:
Liz OConnellRobert McCoyGregory Newby
Frontier Scientists is comprised of a website and portfolio of videos created for distribution web-wide and through television broadcast. The goal of this program is to excite the general public about ongoing science in Alaska and the Arctic. This is the summary evaluation of a three-year National Science Foundation grant received by Frontier Scientists. Frontier Scientists contracted PEER Associates to conduct the evaluation. Over the course of the three years, the evaluation was focused on both formative (intended to inform and improve programming) and summative (what has the program
This project is funded by the Advancing Informal STEM Learning program, which seeks to advance new approaches to, and evidence-based understandings of, the design and development of Science, Technology, Engineering, and Mathematics (STEM) learning in informal environments. Roughly one million refugees resettled in the United States in the past decade, many of whom are school-aged youth. During secondary school, resettled refugee youth are often still developing English language literacy and STEM skills needed for successful postsecondary experiences in the United States. At the same time, these youth bring rich cultural and linguistic resources that they can use as an asset as they grow their STEM skill sets, prepare for future success, and make positive impacts on U.S. society. To promote these assets and engage youth in developing STEM literacy, this after-school program engages these youth in critical STEM literacy development. The project focuses on STEM learning, specifically the relationship between human life and climate, as well as developing youths' STEM identities and agency.
The project will develop and implement a community-based afterschool program that provides resettled Burmese refugee youth with STEM learning experiences. By drawing upon youths' experiences, the program will engage youth in learning about climate science and developing digital stories to communicate with broader audiences. To do so, the team will implement a program that builds on principles of responsive teaching, funds of knowledge, and English literacy development in authentic meaning-making contexts. The project will examine how youth expand their STEM knowledge, develop STEM identities and agency, and develop their expertise in communicating about STEM within and beyond their participation in the after-school program. The research team will explore existing and innovative data collection and analysis methods by drawing on principles of ethnography, video ethnography, mediated discourse analysis, and phenomenological and ethnomethodological analysis of interviews. These analyses will document learning over time in informal STEM learning settings. As there is very little prior research on STEM learning in this population, this project will generate knowledge about how to support STEM sense-making and critical STEM literacy. Furthermore, by testing the designed curriculum and building a partnership with a local community organization, the project will build capacity for broadening participation in informal STEM learning practices.
This Advancing Informal Science Learning Pathways project, Using Technology to Research After Class (UTRAC), explores whether a combination of technology (e.g., iPad-enabled sensors, web-based inquiry-focused portal) and facilitated visits improves learning outcomes for rural and Native American elementary-age youth in after school programs. Expected outcomes include improved engagement, knowledge, skills, and attitudes toward science, technology, engineering, and math (STEM). Project goals include promoting STEM learning through science inquiry activities keyed to specific Next Generation Science Standards as well as improving how technology can be used to enhance learning outcomes in afterschool programs. The experimental design of this project - testing the effects of physical or virtual facilitation visits on learning outcomes - will lead to improvements in STEM learning outcomes among rural and underrepresented students. This project will employ several innovations in utilizing technology to teach STEM topics including: (i) hands-on, real-time, crowd sourced data collected by participants in their schoolyards; (ii) a pedagogic emphasis on communication of schoolyard data among and between participants; (iii) testing of motivational incentives; and (iv) partnerships between after school providers, preservice teachers, and university researchers as facilitators. The entire process will be modularized so that it can be modified in terms of place, STEM topic or student cohort. The topic focus of the project -- Life Under Snow -- is relevant to participating students, as Montana school playgrounds lie blanketed under snow for the majority of the school year; it includes elements of snow science, carbon cycle science, and a combination at the intersection of three recent literacy initiatives (e.g., Earth Science, Climate, or Energy). UTRAC will pilot and evaluate facilitated snow science/carbon cycle science activities that couple real-time schoolyard data with tools patterned after those available through WISE (Web-based Inquiry Science Environment; wise.berkeley.edu). Participants will collect and compare data with other youth participants, and researchers will use formative assessments to define interventions with potential to maximize student engagement and learning improvements among underserved youth. The project will advance understanding of informal education's potential to improve STEM engagement, knowledge, skills and attitudes by quantifying how - and to what extent - youth engage with emerging technologies iPad-enabled sensors, and crowdsourcing and visualization tools. The deliverables include a quantifying metric for learning outcomes, a training model for the iPad sensors and web application, an orientation kit, a social media portal, and database for the measurements.
This early-stage design and development, integrated media and research project will contribute important new understandings to the informal science learning literature by exploring science engagement on social media when integrated with broadcast television. It will help answer questions including: What does such engagement look like? Who participates? How and why does it happen? and What is the degree or depth of engagement? The project builds on the previous successful work by WGBH nationally distributing the television series NOVA scienceNOW and the research expertise of EDC. WGBH's NOVA scienceNOW program will collaborate with EDC to develop new metrics to understand how and why learners engage with science on social media. Deliverables will include six one-hour episodes of NOVA scienceNOW, short online videos, moderated online discussion events, and an online film festival. A new social Media Initiative will develop six live broadcast microblogging events, six post-broadcast online discussion events, daily social media updates, and an online film festival that will feature user generated videos. A range of STEM content in the videos and online posts will be framed around big science and engineering questions such as animal communication and survival systems, the biology of sleep, climate change, new technologies, energy, genetics, and natural disasters. The continued innovations and expansion of social media channels provides significant new opportunities for providing learner's access to high quality science content, researchers, and opportunities to participate in science. In the first phase of this work to deepen the evidence based understanding of how social media supports informal science engagement, NOVA and EDC will collaborate to develop new measurement instruments: (1) a Network Profile to quantitatively represent the size and activity of NOVA's social media network; (2) an Informal Science Engagement (ISE) index to measure the degree of engagement by coding and analyzing conversations and posts; (3) a Follower Profile to assess the degree of activity and the nature of the engagement; and (4) a Science Social Media Engagement survey instrument. They will then use these measures and data collection protocols to explore whether and how the initiative might influence science engagement. External expert reviewers with content and methodological expertise will review all aspects of the project at critical junctures. This project will contribute important new knowledge and research instruments and methods to better understand how the learning opportunities of social media channels can be realized most effectively. This has significant potential for broad and lasting benefits to society as well as advancing the informal science learning field.
Who We Are: A network of informal educators, climate scientists, learning scientists and local partners across four cities, dedicated to improving local understanding of and engagement with climate change science. Mission: CUSP aims to foster a network of climate-focused organizations to implement targeted, coordinated, and concentrated educational strategies that explore local climate impacts and community-level responses. What We Do: Unite local organizations committed to addressing the impacts of climate change into collaborative network Use latest climate science and learning science research to inform program development Connect urban residents’ personal interests to larger city systems impacted by climate change, and provide residents opportunities to explore city-wide responses Deliver programs that are targeted (aimed at specific audiences), coordinated (presenting consistent and clear information about the science of climate change), and concentrated (delivered many times, through many programs) Test the hypothesis that when people encounter the same science content in multiple settings, from multiple points of view, they are more likely to understand and remember important concepts What We Offer: A Community of Practice for local organizations, including training on best practices of climate communication and education Provide local organizations with current climate science impacting their city, and latest learning science research Opportunities for city residents to explore local impacts of climate change in every day settings, at neighborhood centers, at schools, online, and at city festivals. Opportunities for city residents to engage with local organizations in community-level responses to climate change
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TEAM MEMBERS:
The Franklin InstituteRaluca EllisFrederic BertleySteven SnyderRadley HortonKevin Crowley