The Arctic Harvest-Public Participation in Scientific Research (which encompasses the Winterberry Citizen Science program), a four-year citizen science project looking at the effect of climate change on berry availability to consumers has made measurable progress advancing our understanding of key performance indicators of highly effective citizen science programs.
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TEAM MEMBERS:
Angela LarsonKelly KealyMakaela Dickerson
resourceresearchMuseum and Science Center Exhibits
This is an overview of research to measure STEM Engagement and Advocacy of Older Adults (50+). This work explored findings from Design Challenges hosted for older adult learners and also resulted in survey instruments to be used for this population. It also outlines constructs that were developed to inform the research.
Informal STEM learning experiences (ISLEs), such as participating in science, computing, and engineering clubs and camps, have been associated with the development of youth’s science, technology, engineering, and mathematics interests and career aspirations. However, research on ISLEs predominantly focuses on institutional settings such as museums and science centers, which are often discursively inaccessible to youth who identify with minoritized demographic groups. Using latent class analysis, we identify five general profiles (i.e., classes) of childhood participation in ISLEs from data
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TEAM MEMBERS:
Remy DouHeidi CianZahra HazariPhilip SadlerGerhard Sonnert
We explored a long-standing community science partnership between the Science Museum of Virginia and Groundwork RVA, a local organization that connects youth with opportunities to enhance greenspaces in Richmond.
Mathematizing, Visualizing, and Power (MVP): Appalachian Youth Becoming Data Artists for Community Learning is a three-year Advancing Informal STEM Learning, Innovations and Development, project that focuses on community-centered data exploration catalyzed by youth. The project develops statistical artistry among young people in East Tennessee Appalachian communities and enables these youth to share their data visualizations with their communities to foster collective reflection and understanding. The creative work generated by the MVP project will be compelling in two ways, both as statistical art and as powerful statements giving voice to the experience of communities. Critical aspects of the MVP model include (1) youth learning sessions that position youth as owners of data and producers of knowledge and (2) Community Learning Events that support community learning as youth learning occurs. The MVP project has a primary focus on broadening the STEM participation of underrepresented communities of Appalachia. The project’s mission is to increase the learning and life outcomes of young people and communities of Appalachia by creating a meaningful foundation of data science and collective data exploration. The University of Tennessee partners with Pellissippi State Community College, Drexel University, and the Boys & Girls Club of the Tennessee Valley to bring together a convergent team of community members, practitioners, and professionals, with the expertise to carry out the project. The project will impact approximately 120 youth and 3800 of their East Tennessee community members. The research generated will inform how to engage community members in learning about community issues through the exploration of datasets relevant to participants.
The field of STEM education is in urgent need of knowledge about effective models to inspire community-based data exploration with young people as leaders in these efforts. The MVP project includes engaging youth with meaningful problems, building a discourse community with possibilities for action, re-positioning youth as knowledge producers within their own communities, leveraging linguistic and cultural resources of the youth participants and their communities, and implementing critical events that support substantial interaction between youth, community members, and the data visualizations. MVP builds on the idea that the design of data visualizations requires an understanding of both data science and artistic design. Research will inform the model of community engagement, examine data artists’ identities, and document community learning. The MVP model will be designed, developed, tested, and refined through three cycles of design-based research. The overarching research question guiding these cycles is: What affordances (and delimitations) related to identity and learning does the model provide for MVP Youth and community members? Data sources for the project include: fieldnotes, portfolios created by MVP Youth, youth pre/post interviews, observations of the learning sessions, a project documentary, surveys for youth and community members, interviews with community members, and audience feedback. The National Institute for STEM Evaluation and Research (NISER) will provide formative and summative evaluation about project activities. Formative feedback will be integrated into the ongoing research cycles. The research conducted will inform (1) the community learning model; (2) the integrated pedagogy and curriculum of the MVP Youth learning sessions that emphasize data science through design arts; and, (3) research on community learning and youth identity. Findings will be shared through conferences, academic and practitioner-focused journals, a video documentary, a Summit on Engaging Youth and Communities in Data, and a project website.
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TEAM MEMBERS:
Lynn HodgeElizabeth DyerJoy BertlingCarlye Clark
To advance justice, equity, diversity, and inclusion in science, we must first understand and improve the dominant-culture frameworks that impede progress and, second, we must intentionally create more equitable models. The present authors call ourselves the ICBOs and Allies Workgroup (ICBOs stands for independent community-based organizations), and we represent communities historically excluded from the sciences. Together with institutional allies and advisors, we began our research because we wanted our voices to be heard, and we hoped to bring a different perspective to doing science with
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TEAM MEMBERS:
María Cecilia Alvarez RicaldeJuan Flores ValadezCatherine CrumJohn AnnoniRick BonneyMateo Luna CastelliMarilú López FrettsBrigid LuceyKaren PurcellJ. Marcelo BontaPatricia CampbellMakeda CheatomBerenice RodriguezYao Augustine FoliJosé GonzálezJosé Miguel Hernández HurtadoSister Sharon HoraceKaren KitchenPepe Marcos-IgaTanya SchuhPhyllis Edwards TurnerBobby WilsonFanny Villarreal
This Pilot and Feasibility project will investigate: a) the kinds of learning outcomes that occur in an informal STEM project utilizing a Critical Environmental Justice-informed Participatory Action Research framework, co-created between researchers and homeless communities, and b) the challenges and opportunities that arise in evaluating such collaborative projects. To address these questions, a team of university and community researchers will work with two self-organized homeless communities, in Portland, OR and Baltimore, MD, to systematically examine air quality at their sites and further develop a multimedia environmental justice toolkit. The toolkit is aimed at equipping homeless communities with STEM-based information and approaches to learn about and address various environmental hazards. Homeless people are disproportionately vulnerable to the impacts of air and soil pollution, rodents, extreme weather, floods, fires, and other hazards. This collaboration will study STEM learning outcomes related to the broader historical socio-political context in which people are living. The project also anticipates finding ways to adapt evaluation processes to better suit the needs of marginalized groups participating in informal STEM projects.
Guided by this integrated framework, the team will undertake participant observation, interviews, focus groups, and document analysis to assess learning. It also anticipates gaining insights into how evaluation processes may be adapted to better suit the needs of marginalized groups participating in informal STEM learning. This project 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 award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
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TEAM MEMBERS:
Chris HawnMelanie MaloneErin GoodlingDillon MahmoudiAnthony Levenda
This paper describes community engagement activities with indigenous heritage and archaeology research in the Caribbean. The practice of local community engagement with the archaeological research process and results can contribute to retelling the indigenous history of the Caribbean in a more nuanced manner, and to dispel the documentary biases that originated and were perpetuated from colonial times. From the conception of the ERC-Synergy NEXUS 1492 research project, a key aim has been to engage local communities and partners in the research process and collaboratively explore how the
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TEAM MEMBERS:
Tibisay Sankatsing NavaCorrine Hofman
The RASOR project is designed to increase engagement of students from rural Alaska communities in biomedical/STEM careers. Rural Alaskan communities are home to students of intersecting identities underrepresented in biomedical science, including Alaska Native, low-income, first generation college, and rural. Geographic isolation defines these communities and can limit the exposure of students to scientifically-minded peers, professional role models, and science career pathways. However these students also have a particularly strong environmental connection through subsistence and recreational activities, which makes the one-health approach to bio-medicine an intuitive and effective route for introducing scientific research and STEM content. In RASOR, we will implement place-based mentored research projects with students in rural Alaskan communities at the high school level, when most students are beginning to seriously consider career paths. The biomedical one-health approach will build connections between student experiences of village life in rural Alaska and biomedical research. Engaging undergraduate students in research has proved one of the most successful means of increasing the persistence of minority students in science (Kuh 2008). Furthermore, RASOR will integrate high school students into community-based participatory research (Israel et al. 2005). This approach is designed to demonstrate the practicality of scientific research, that science has the ability to support community and cultural priorities and to provide career pathways for individual community members. The one-health approach will provide continuity with BLaST, an NIH-funded BUILD program that provides undergraduate biomedical students with guidance and support. RASOR will work closely with BLaST, implementing among younger (pre-BLaST) students approaches that have been successful for retaining rural Alaska students along STEM pathways and tracking of post-RASOR students. Alaska Native and rural Alaska students are a unique and diverse population underrepresented in biomedical science and STEM fields.
This poster presents the overall approach of the project and was presented at the NSF AISL PI meeting in February 2019 by the PI.
This pilot research seeks to understand how informal learning experiences called mapathons are viable pathways for veterans to transition to the civilian workforce. The conceptual approach pays attention to the realities of the life course of military and veteran families, especially building upon theories of change related to transitions that include a spatial component.
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TEAM MEMBERS:
Patricia SolisDennis PattersonMelanie Hart
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative research, approaches and resources for STEM learning in a variety of settings. Many military veterans who seek to transition to higher education or workforce pathways find it challenging to translate the skills they acquired during service to civilian STEM settings and the modern day workforce. Yet many returning veterans have significant experience with STEM fields, including mapping and geospatial technologies, because of their unique functions and service assignments. Such geospatial skills are useful for location-aware industries, citizen science and public services. At the same time, military and veteran families have been largely overlooked as an important public audience for focused informal STEM learning. Informal learning events called "mapathons" which enlists participants to mapping exercises and create geospatial data on open platforms that address authentic needs in their communities and the broader society at large. When seeking to further their education upon returning from service, veterans' typical options have included some form of formal higher education. Mapathons may be a feasible bridging activity that (a) recognizes veterans' unique, valuable, and in-demand STEM skills and (b) supports lifelong learning.
This pilot research seeks to understand how informal learning experiences such as mapathons are viable pathways for veterans to transition to the civilian workforce. The conceptual approach pays attention to the realities of the life course of military and veteran families, especially building upon theories of change related to transitions to include a spatial component. The foundation of the project's intellectual merit is its explicit inclusion and sensitivity to place, scale, and spatial behavior, building directly from findings of prior NSF-funded projects and the evidence base for informal learning pathways. The research will contribute to knowledge about workforce development by addressing the questions: (1) To what extent do veterans recognize that their extant skills acquired, in military settings, are translatable to civilian STEM settings?; (2) How can informal learning experiences help a diverse veteran population increase awareness of the translatability of geospatial workforce competencies, build confidence in technology skills, and motivate interest to pursue formal studies in STEM fields in general?; and (3) What pathways do which veterans favor when they could pursue formal STEM higher education learning among an array of choices online or at regional sites, and why? The study will engage 320 participants at 8 sites across Texas; employ in-depth surveys and interviews; and use spatial analysis to elicit insights about the research questions.
Military and veteran families include a significant number of people from group typically underrepresented in STEM fields. Supporting more veterans to transition successfully to higher education pathways or careers in STEM is a vital service to the nation. This study on informal to formal pathways for veterans will include an innovative understanding of the importance of place in meaning-making and in the reality of choices they consider during the transitions of their life course.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
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TEAM MEMBERS:
Patricia SolisMelanie HartDennis Patterson