The project team published a research synopsis article with Futurum Science Careers in Feb 2023 called “How Can Place Attachment Improve Scientific Literacy?”
The Arizona-Sonora Desert Museum will partner with the Flowing Wells Unified School District on “We Bee Scientists,” a program to engage students in grades K–6 in real-world science by learning about bees—the most important group of pollinators. They plan to create a curriculum and related activities aligned with the Arizona science standards. The program is an expansion of the Tucson Bee Collaborative, which empowers community scientists from “K to grey” to contribute to ecosystem health and understanding through the study of native bees. The museum also will partner with Pima Community College and the University of Arizona on the program, which will involve volunteers and high school, college, and university students in documenting the abundance and diversity of native bees.
Science identity has been shown to be a necessary precondition to academic success and persistence in science trajectories. Further, science identities are formed, in large part, due to the kinds of access, real or perceived, that (racialized) learners have to science spaces. For Black and Latinx youth, in particular, mainstream ideas of science as a discipline and as a culture in the US recognize and support certain learners and marginalize others. Without developing identities as learners who can do science, or can become future scientists, these young people are not likely to pursue careers in any scientific field. There are demonstrable links between positive science identities and the material and social resources provided by particular places. Thus, whether young people can see themselves as scientists, or even feel that they have access to science practices, also depends on where they are learning it. The overarching goal of this project is to broaden participation of Black and Latinx youth in science by deepening our understanding of both science identities and how science learning spaces may be better designed to support the development of positive science identities of these learners. By deepening the field’s knowledge of how science learning spaces shape science identities, science educators can design more equitable learning spaces that leverage the spatial aspects of program location, culturally relevant curriculum, and participants’ lived experiences. A more expansive understanding of positive science identities allows educators to recognize these in Black and Latinx learners, and direct their continued science engagements accordingly, as positive identities lead to greater persistence in science. This project is a collaboration between researchers at New York University and those at a New York City informal science organization, BioBus. It 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 participatory design research project will compare three different formats, in different settings, of afterschool science programming for middle schoolers: one located in a lab space on the campus of a nearby university, one located in the public middle school building of participating students, and one aboard a mobile science lab. For purposes of this study, the construct of “setting” refers to the dimensions of geographic location, built physical environment, and material resources. Setting is not static, but instead social and relational: it is dynamically (co)constructed and experienced in activity by individuals and in interaction by groups of individuals. Therefore, the three BioBus programming types allow for productive comparison not only because of their different geographic locations, built environments, and material resources (e.g., scientific tools), but also the existing relationships learners may have with these places, as well as the instructional designs and pedagogical practices that BioBus teaching scientists use in each. This project uses a design-based research approach to answer the following research questions: (1) How do the settings of science learning shape science identity development? What are different positive science identities that may emerge from these relationships? And (2) What are ways to leverage different spatial aspects of informal science programming and instruction to support positive science identities? The study uses ethnographic and micro-analytic methods to develop better understandings of the relationships between setting and science identity development, uncover a broad range of types of positive science identities taken up by our Black and Latinx students, and inform informal science education to design for and leverage spatial aspects of programming and instruction. Findings will contribute to a systematic knowledge base bringing together spatial aspects of informal science education and science identity and identity development, and provide new tools for informal science educators, including design principles for incorporating spatial factors into program and lesson planning.
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TEAM MEMBERS:
Jasmine MaLatasha WrightRoya Heydari
This Innovations in Development project explores radical healing as an approach to create after-school STEM programming that welcomes, values and supports African American youth to form positive STEM identities. Radical healing is a strength-based, asset centered approach that incorporates culture, identity, civic action, and collective healing to build the capacity of young people to apply academic knowledge for the good of their communities. The project uses a newly developed graphic novel as a model of what it looks like to engage in the radical healing process and use STEM technology for social justice. This graphic novel, When Spiderwebs Unite, tells the true story of an African American community who used STEM technology to advocate for clean air and water for their community. Youth are supported to consider their own experiences and emotions in their sociopolitical contexts, realize they are not alone, and collaborate with their community members to take critical action towards social change through STEM. The STEM Club activities include mentoring by African American undergraduate students, story writing, conducting justice-oriented environmental sciences investigations, and applying the results of their investigations to propose and implement community action plans. These activities aim to build youth’s capacity to resist oppression and leverage the power of STEM technology for their benefit and that of their communities.
Clemson University, in partnership with the Urban League of the Upstate, engages 100 predominantly African American middle school students and 32 African American undergraduate students in healing justice work, across two youth-serving, community-based organizations at three sites. These young people assume a leadership role in developing this project’s graphic novel and curriculum for a yearlong, after-school STEM Club, both constructed upon the essential components of radical healing. This project uses a qual→quant parallel research design to investigate how the development and use of a graphic novel could be used as a healing justice tool, and how various components of radical healing (critical consciousness, cultural authenticity, self knowledge, radical hope, emotional and social support, and strength and resilience) affect African American youths’ STEM identity development. Researchers scrutinize interviews, field observations, and project documents to address their investigation and utilize statistical analyses of survey data to inform and triangulate the qualitative data findings. Thus, qualitative and quantitative data are used to challenge dominant narratives regarding African American youth’s STEM achievements and trajectories. The project advances discovery and understanding of radical healing as an approach to explicitly value African Americans’ cultures, identities, histories, and voices within informal STEM programming.
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TEAM MEMBERS:
Renee LyonsRhondda ThomasCorliss Outley
Access & opportunity in STEM remain limited for youth from historically underrepresented backgrounds in the US & UK. We present findings grounded in Participatory Ethnographies into STEM pathways, highlighting how youth participate in ISL across time and settings in equitable and transformative ways, and practices that ISL practitioners engage in towards supporting pathway authoring. We take a pathways lens to highlight the multiple directions one may take through a particular ecology towards a wide range of outcomes beyond the STEM career, such as STEM agency and identities. Our study
The Apsáalooke (Crow Indian) Nation in Montana, as well as other Indigenous communities across the United States, disproportionally experience negative consequences from water-related environmental hazards, such as contaminated water. In this project, fifth- and sixth-grade Apsáalooke youth will act as change agents through investigating water issues in their communities and presenting findings to their communities. They will conduct this water-related research in the context of an informal summer program designed to integrate Indigenous and Western perspectives on science. For example, youth will learn the cultural significance of water sites while also practicing methods for collecting and analyzing data relative to those sites, guided by Apsáalooke elders and science professionals. During the summer program, Indigenous high school students and tribal college students will mentor the youth. To develop this program, the project team will conduct interviews with elders and Apsáalooke community members in scientific fields to determine the desired features of a program that integrates Indigenous and Western science. They will use the findings from these interviews to develop a multimedia toolkit, which includes a set of comprehensive materials that will enable other researchers and informal educators to implement similar programs. This toolkit will include information about water science and water quality, lesson plans and related resources for the summer program, professional development materials to prepare the high school youth to act as mentors, handouts for family members to facilitate at-home engagement with their children, and more. The project team will research how the implementation of the toolkit influences the participants' water-related knowledge and attitudes toward science. The toolkit, and the associated empirical findings, will be disseminated widely through local, regional, and national professional networks that serve American Indians.
Montana State University, in partnership with Little Big Horn College, will implement and research an informal summer program for Apsáalooke youth in the fifth and sixth grades, as well as a mentorship program for Indigenous high school students and tribal college students. The older students will participate in a four-week internship program in which they learn about conducting water research and facilitating science activities that foreground Apsáalooke perspectives and cultural practices. The high school and tribal college students will partner with Apsáalooke elders and science professionals to facilitate and implement a two-week summer program for the fifth- and sixth-grade youth. This program will use the toolkit materials that were previously developed in consultation with elders and other community stakeholders. Regression analyses of validated pre- and post-surveys, as well as inductive analyses of interviews with stakeholders, will be used to study how the mentoring program affects the high school and tribal college students' attitudes toward science and career interests, and how the summer program affects the fifth- and sixth-graders' water-related knowledge. The research team will also study how youth participation in the program affects their family and community members' water-related knowledge. This project will result in a multimedia toolkit, freely available to the public and widely disseminated through professional networks, which specifies how other informal educators and researchers can implement similar mentorship programs and summer programs for Indigenous youth. Ultimately, this project will broaden participation through resulting in empirically-tested materials that advance practice in informal education for Indigenous youth and their communities. 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 (science, technology, engineering, and mathematics) 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 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.
The Vertically Integrated Science Learning Opportunity (VISLO) program builds upon an existing three-way partnership between (i) faculty, graduate students, and undergraduate students form the University Nebraska-Lincoln (UNL), (ii) the 21st Century Community Learning Centers (CLC) in Lincoln, NE, and (iii) The University of Nebraska State Museum.
VISLO uniquely incorporates vertically-integrated peer instruction across educational levels, including: graduate, undergraduate, middle school, and elementary school. Throughout the program, participants of all identified educational levels had
The employment demands in STEM fields grew twice as fast as employment in non-STEM fields in the last decade, making it a matter of national importance to educate the next generation about science, engineering and the scientific process. The need to educate students about STEM is particularly pronounced in low-income, rural communities where: i) students may perceive that STEM learning has little relevance to their lives; ii) there are little, if any, STEM-related resources and infrastructure available at their schools or in their immediate areas; and iii) STEM teachers, usually one per school, often teach out of their area expertise, and lack a network from which they can learn and with which they can share experiences. Through the proposed project, middle school teachers in low-income, rural communities will partner with Dartmouth faculty and graduate students and professional science educators at the Montshire Museum of Science to develop sustainable STEM curricular units for their schools. These crosscutting units will include a series of hands-on, investigative, active learning, and standards-aligned lessons based in part on engineering design principles that may be used annually for the betterment of student learning. Once developed and tested in a classroom setting in our four pilot schools, the units will be made available to other partner schools in NH and VT and finally to any school wishing to adopt them. In addition, A STEM rural educator network, through which crosscutting units may be disseminated and teachers may share and support each other, will be created to enhance the teachers’ ability to network, seek advice, share information, etc.
This application requests support to enable a team of experienced science educators and biomedical and behavioral health network scientists to develop and implement the Worlds of Connections curriculum. Most middle school students are familiar with patient care-related health careers (e.g., nurses, dentists, surgeons), but few know about emerging careers in network science that can be leveraged to improve population health. This innovative and research-based science program is strategically designed to increase awareness of, understanding of, and interest in the important role of network science for health. This project will design learning activities that incite interest in network science applications to biomedical and public health research. The long- term goal is to enhance the diversity of the bio-behavioral and biomedical workforce by increasing interest in network science among members of underrepresented minority communities and to promote public understanding of the benefits of NIH-funded research for public health. The goal of this application is to identify and create resources that will overcome barriers to network science uptake among underserved minority middle school youth. The central hypothesis is that the technology-rich field of network science will attract segments of today’s youth who remain uninterested in conventional, bio-centric health fields. Project activities are designed to improve understanding of how informal STEM experiences with network science in health research can increase STEM identities, STEM possible selves, and STEM career aspirations among youth from groups historically underrepresented in STEM disciplines at the center of health science research (Aim 1) and create emerging media resources via augmented reality technologies to stimulate broad interest in and understanding of the role of network science in biomedical and public health research (Aim 2). A team led by University of Nebraska-Lincoln sociologists will partner with the University of Nebraska at Omaha; state museums; centers for math, science, and emerging media arts; NIH-funded network scientists; educators; community learning centers at local public schools; learning researchers; undergraduates; software professionals; artists; augmented reality professionals; storytellers; and evaluation experts to accomplish these goals and ensure out of school learning will reinforce Next Generation Science Standards. The Worlds of Connections project is expected to impact 35,250 youth and 20,570 educators in Lincoln and Omaha, Nebraska by: adding network science modules to ongoing 6th-8th-grade afterschool STEM clubs in community learning centers; adding network science for health resources to a summer graduate course on “activating youth STEM identities” for sixth to twelfth grade STEM teachers; connecting teachers with local network scientists; creating free, downloadable, high-quality emerging media arts-enhanced stories; and publishing peer-reviewed research on the potential of network science to attract youth to health careers. Coupled with the dissemination plan, the project design and activities will be replicable, allowing this project to serve as a model to guide other projects in STEM communication.
PUBLIC HEALTH RELEVANCE:
The lack of public understanding about the role of network science in the basic biological and social health sciences limits career options and support for historically underrepresented groups whose diverse viewpoints and questions will be needed to solve the next generation of health problems. The Worlds of Connections project will combine network science, social science, learning research, biology, computer science, mathematics, emerging media arts, and informal science learning expertise to build a series of monitored and evaluated dissemination experiments for middle school science education in high poverty schools. Broad dissemination of the curriculum and project impacts will employ virtual reality technologies to bring new and younger publics into health-related STEM careers.
This project specifically addresses the SMRB’s imperative that “NIH’s pre-college STEM activities need a rejuvenated integrated focus on biomedical workforce preparedness with special considerations for under-represented minorities.”
Approximately one-third of CityLab’s participants are under-represented minority (URM) students, but we now have a unique opportunity to build a program that will reach many URM students and position them for undergraduate STEM success. We have partnered with urban squash education organizations in Boston (SquashBusters) and New York (CitySquash and StreetSquash) that recruit URM/low SES students to participate in after-school squash training and academic enrichment programs. We have also partnered with the Squash + Education Alliance (previously named the National Urban Squash and Education Association) to disseminate the new program—first from Boston to New York and later through its national network of affiliated squash education programs.
In order to bring this project to fruition, Boston University is joining forces with Fordham University in New York. Fordham is home to CitySquash so these organizations provide an ideal base for the New York activities. The proposed project will enable us to demonstrate feasibility and replicability within the 5-year scope of this grant. Our shared vision is to develop a national model for informal precollege biomedical science education that can be infused into a myriad of similar athletic/academic enrichment programs.
The squash education movement for urban youth has been highly successful in enrolling program graduates in college. Since the academic offerings of the squash education programs focus on English Language Arts and Mathematics, their students struggle with science and rarely recognize the tremendous opportunities for long- term employment in STEM fields.
This project will bring CityLab’s resources to local squash programs in a coordinated and sustained engagement to introduce students to STEM, specifically the biomedical sciences. Together with the urban squash centers, we will build upon the hands-on life science experiences developed and widely disseminated by CityLab to create engaging laboratory-based experiences involving athletics and physiology.
The specific aims of the proposed project are:
To develop, implement, and evaluate a new partnership model for recruiting URM/low SES students and inspiring them to pursue careers in STEM; and
To examine changes in the science learner identities (SLI) of the students who participate in this program and establish this metric as a marker for continued engagement in STEM.
With the involvement of the two urban research universities, three local squash education programs, and SEA, we see this new SEPA initiative as a unique way to pilot, refine, and disseminate an after-school/informal science education program that can have a significant impact on the nation’s production of talented STEM graduates from URM/low SES backgrounds.
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TEAM MEMBERS:
Carl FranzblauDonald DeRosaCarla Romney
Recognizing that race can influence African American youths' perception of which academic disciplines and careers are available to them, this pilot study will explore how African American youths' physical and social communities can be leveraged to support the evolution of their STEM identity and their ability to recognize their potential as scientists. Unfortunately, many of these youths live in communities that are void of critical resources that research has demonstrated time and time again are critical for success in STEM disciplines and careers. This lived reality for many African American youth is the direct result of long-standing disparities in access and opportunities, fueled by racial socialization and biased institutional structures. This pilot will empower youth to recognize these disparities and use science to provide solutions. One perilous societal disparity experienced in many predominately African American communities is the lack of access to fresh produce and healthy food. As a mechanism for potential resolution, this project will consider the utility of community gardens to address this important community need and as a strategy to engage youth in STEM content and skill development. While this notion is not novel to NSF, the intent to utilize an augmented reality (AR) storytelling platform for data collection and project experiences is innovative. This technology will also provide a space for participants to share their work with each other and their broader communities. To our knowledge, this pioneering approach has not been previously piloted in this context. In addition, the pilot will engage multiple youth serving community-based organizations such as park and recreation centers and faith-based organizations in this work, which is also innovative. This is significant, as youth serving community-based organizations are often play important role in the social, educational, and cultural lives of youth and their families in communities. These organizations are often at the heart of the community, figuratively and literally. If successful, this pilot could be transformative and provide a strong basis to support similar work in other communities.
Over the two-year project duration, eighty African American youth ages 11 -14 will participate in the year-long program, across three youth-serving, community-based organizations at four sites. They will be exposed to relevant agricultural, geological, engineering and technological content through a newly developed curriculum called "Cultivating My Curriculum." Community mentors and undergraduate role models will facilitate the instruction and hands-on experiences in the garden and with the AR platform. A capstone event will be a held for the participants and community to convene to learn more about the results of the pilot and share recommendations with community leaders for improving the disparities identified during the pilot. The research component will focus on: (a) the impact of the sociocultural theoretical framework grounding the work on youths' STEM identities, (b) the integration of the AR tool, and (c) mentorship. Formative and summative evaluation will take place through focus groups, surveys, journals, and youth storytelling. Ultimately, the project endeavors to advance the narrative that African Americans are scientists and that science can be used to improve the lives of African Americans and other groups challenged by structural and racial disparities.
This pilot study 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 project is funded by the National Science Foundation's (NSF's) Advancing Informal STEM Learning (AISL) program, which supports innovative research, approaches, and resources for use in a variety of learning settings.
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TEAM MEMBERS:
Harrison PinckneyDavid BoyerBarry GarstDilrukshi Thavarajah