This special issue of the Lusophone Journal of Cultural Studies (LJCS) highlights the consolidation of the “citizen science” movement, which stems from different forms of direct participation of citizens in scientific projects. This issue also features contributions to the debate on the “open science” movement.
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
The ICBOs (Independent Community-based Organizations), a group of fifteen community representatives from communities historically excluded from the sciences, share results from eight years of community-led de-colonial participatory action research. We wrote this white paper to share our findings and recommendations with funders like the National Science Foundation. These findings, recently published in BioScience (https://doi.org/10.1093/biosci/biac001), along with preliminary results from our current research, and our lived experiences point towards a critical need to change the existing
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TEAM MEMBERS:
Karen PurcellBobby WilsonMakeda CheatomJohn AnnoniTanya Schuh
Refugee youth are particularly vulnerable to STEM disenfranchisement due to factors including limited or interrupted schooling following displacement; restricted exposure to STEM education; and linguistic, cultural, ethnic, socioeconomic, and racial minority status. Refugee youth may experience a gap in STEM skills and knowledge, and a conflict between the identities necessary for participation in their families and communities, and those expected for success in STEM settings. To conduct research to better understand these challenges, an interrelated set of activities will be developed. First, youth will learn principles of physics and computing by participating in cosmic ray research with physicists using an instructional approach that builds from their home languages and cultures. Then youth periodically share what they are learning in the cosmic ray research with their parents, siblings, and science teachers at family and community science events. Finally, youth conduct reflective research on their own STEM identity development over the course of the project. Research on learning will be conducted within and across these three strands to better understand how refugee youth develop STEM-positive identities. This project will benefit society by improving equity and diversity in STEM through (1) creating opportunities for refugee youth to participate in physics research and to develop computing skills and (2) producing knowledge on STEM identity development that may be applied more broadly to improve STEM education. Deliverables from this project include: (a) research publications on STEM identity and learning; (b) curriculum resources for teaching physics and computing to multilingual youth; (c) an online digital storytelling exhibit offering narratives about belonging in STEM research which can be shared with STEM stakeholders (policy makers, scientists, educators, etc.); and (d) an online database of cosmic ray data which will be available to physicists worldwide for research purposes. This Innovations in Development proposal 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 program is designed to provide multiple contexts, relationships, and modes across and within which the identity work of individual students can be studied to look for convergence or divergence. To achieve this goal, the research applies a linguistic anthropological framework embedding discourse analysis in a larger ethnography. Data collected in this study include field notes, audio and video recordings of naturalistic interactions in the cosmic ray research and other program activities, multimodal artifacts (e.g., students' digital stories), student work products, interviews, and surveys. Critically, this methodology combines the analysis of identity formation as it unfolds in moment-to-moment conversations (during STEM learning, and in conversations about STEM and STEM learning) with reflective tasks and the production of personal narratives (e.g., in digital stories and interviews). Documenting convergence and divergence of STEM identities across these sources of data offers both methodological and theoretical contributions to the field. The research will offer thick description of the discursive practices of refugee youth to reveal how they construct identities related to STEM and STEM disciplines across settings (e.g., during cosmic ray research, while creating digital stories), relationships (e.g., peer, parent, teacher), and the languages they speak (e.g., English, Swahili). The findings will be of potential value to instructional designers of informal learning experiences including those working with afterschool, museums, science centers and the like, educators, and scholars of learning and identity.
This Innovations in Development 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:
Tino NyaweloJohn MatthewsJordan GertonSarah Braden
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
An ecosystems model of learning suggests there are critical partners within and across a community that support learning across the lifespan. These school-community partnerships, developed with shared accountability and goals, are essential to rural students given the lack of economic and geographic access to such services. Youth in rural areas may have limited opportunities to engage with professionals. The team proposes to overcome this gap by capitalizing on the wide-spread interest in archaeology to teach critical thinking using STEM concepts and testing components of a partnership program. This project will advance knowledge on multidisciplinary STEM education by iteratively developing and researching an after-school program in which youth engage in multidisciplinary inquiry in the context of archeology. Mentored by archaeologists, rural youth and citizen scientists will use concepts and tools drawn from biology, ecology, geospatial science, mathematics, physics, and data science to identify and answer questions related to the history of their local region. An outcome of this project will be a road map for moving from a feasibility project to a larger implementation project locally and an understanding of community partnerships engaging more broadly.
Researchers at SUNY Binghamton will conduct a mixed-methods research study that examines the ways in which participation in a multidisciplinary after-school archaeology program supports the development of STEM identities among rural youth in sixth through eighth grades. The research team will use content analysis to analyze field notes from observations, as well as transcripts from focus groups and interviews with the youth. They will use inferential statistics to explore changes in the youths' STEM identity using an identity survey, which will be administered to the youth before and after participation in the program. Additionally, the research team will conduct qualitative research that explores shifts in the afterschool program providers' perceptions about supporting middle school youth as STEM learners. The program providers are comprised of graduate and undergraduate archaeology students, citizen scientists, and professional archaeologists. The course modules developed for the after-school program will be disseminated through professional networks and organizations dedicated to archaeologists and informal educators, and empirical findings will be shared widely via peer-reviewed publications. This project is funded by the Advanced Informal STEM Learning (AISL) program. As part of its overall strategy to enhance learning in informal environments, the AISL program 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 Pilots and Feasability Studies 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.
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative resources for use in a variety of settings. This Innovations in Development project addresses the need to broaden girls' participation in STEM studies and career pathways. While women make up 47% of the U.S. workforce, they hold only 28.3% of STEM jobs and only 1 in 10 employed engineers and scientists are minority women. Girls of low socioeconomic status start losing interest and confidence in STEM during middle school, and this decline often continues as girls get older. Multiple sociocultural barriers contribute to girl's loss of confidence including gender and ethnic stereotypes; lack of culturally responsive programming; limited exposure to women role models; and few or no hands-on STEM experiences. This project builds upon the success of SciGirls, the PBS television show and national outreach program, which provides professional development on research-based gender equitable and culturally responsive teaching strategies designed to engage girls in STEM. It is a collaboration between Twin Cities Public Television, the Cornell Lab of Ornithology, and the National Park Service. The project's goal is to create media-rich citizen science experiences for girls, particularly girls of color and/or from rural areas, which broaden their STEM participation, build positive STEM identities and increase girls' understanding of scientific concepts, while leveraging citizen science engagement at national parks. Project deliverables include 1) creating five new PBS SciGirls episodes that feature real girls working with women mentors in 16 National Parks, 2) producing five new role model videos of women National Park Service STEM professionals, nationally disseminated on multiple PBS platforms, 3) providing professional development for educators and role models. This project will increase access to STEM education for girls of color and/or from rural areas, inspiring and preparing them for future STEM workforce participation. It will build the capacity of educators and National Park Service women role models to create educational and professional programs that are welcoming to girls of varying racial, ethnic, socioeconomic, and geographic backgrounds. SciGirls' massive reach to diverse audiences via PBS broadcast and multiple PBS digital platforms will amplify public scientific literacy, particularly for 21st- century audiences that connect, learn and live online.
The research study conducted by the Cornell Lab of Ornithology will address these questions: 1) To what extent does the use of culturally responsive and gender equitable multimedia in citizen science programming affect girls' learning outcomes, and contribute to the development of positive STEM identity' 2) how will their experiencing citizen science in the parks influence girls' connection to nature? At the beginning of the project all participating girls (n=160) will complete a survey on their interest in science, efficacy for doing science, and knowledge of citizen science and project-specific subject matter. Researchers will use the suite of DEVISE instruments most of which have been validated for youth to measure these constructs. To measure connection to nature, researchers will use the Connection to Nature Index, a scale developed for children. Interviews with the girls will be used to obtain qualitative data to supplement the survey data. Pre-post data will be analyzed to determine the influence of the culturally responsive media and experiences on girls' STEM identities. Researchers will share findings with the project evaluator to triangulate data between educators' implementation of the strategies and girls' learning outcome providing a more holistic picture of the overall program.
This Innovations in Development 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.