Lack of diversity in science and engineering education has contributed to significant inequality in a workforce that is responsible for addressing today's grand challenges. Broadening participation in these fields will promote the progress of science and advance national health, prosperity and welfare, as well as secure the national defense; however, students from underrepresented groups, including women, report different experiences than the majority of students, even within the same fields. These distinctions are not caused by the students' ability, but rather by insufficient aspiration, confidence, mentorship, instructional methods, and connection and relevance to their cultural identity. The long-term vision of this project is to amplify the impact of a successful broadening participation model at the University of Maine, the Stormwater Research Management Team (SMART). This program trains students and mentors in using science and engineering skills and technology to research water quality in their local watershed. Students engage in numerous science and technology fields: engineering design, data acquisition, analysis and visualization, chemistry, environmental science, biology, and information technology. Students also connect with a diversity of professionals in water and engineering in government, private firms and non-profits. SMART has augmented the traditional science and engineering classroom by engaging students in guided mentored apprenticeships that address community problems.
Technical
This pilot project will form a collaborative and define a strategic plan for scale-up to a national alliance to increase the long-term success rate of underrepresented minority students in science, engineering, and related fields. The collaborative of multiple and varied organizations will align to collectively contribute time and resources to a pre-college educational pathway. There are countless isolated programs that offer short-term interventions for underrepresented and minority students; however, there is lack of organizational coordination for aligning current program offerings, sharing best practices, research results or program outcomes along the education to workforce pathway. The collaborative activities will focus on the transition grades (e.g., 4-5, 8, and high school) and emphasize relationships among skills, confidence, culture and future careers. Collaborative partners will establish a centralized infrastructure in each location to coordinate recruiting of invested community leaders, educators, and parents, around a common agenda by designing, deploying and continually assessing a stormwater-themed project that addresses their location and demographic specific needs. This collaborative community will consist of higher education faculty and students, K-12 students, their caregivers, mentors, educators, stormwater districts, state and national environmental protection agencies, departments of education, and other for-profit and non-profit organizations. The collaborative will address the need for research on mechanisms for change, collaboration, and negotiation regarding the greater participation of under-represented groups in the science and technology workforce.
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TEAM MEMBERS:
Mohamed MusaviVenkat BhethanabotlaCary JamesVemitra WhiteLola Brown
Abstract: We aim to disrupt the multigenerational cycle of poverty in our rural indigenous (18% Native American and 82% Hispanic) community by training our successful college students to serve as role models in our schools. Poverty has led to low educational aspirations and expectations that plague our entire community. As such, its disruption requires a collective effort from our entire community. Our Collective unites two local public colleges, 3 school systems, 2 libraries, 1 museum, 1 national laboratory and four local organizations devoted to youth development. Together we will focus on raising aspirations and expectations in STEM (Science, Technology, Engineering and Mathematics) topics, for STEM deficiencies among 9th graders place them at risk of dropping out while STEM deficiencies among 11th and 12th graders preclude them from pursuing STEM majors in college and therefore from pursuing well paid STEM careers. We will accomplish this by training, placing, supporting, and assessing the impact of, an indigenous STEM mentor corps of successful undergraduate role models. By changing STEM aspirations and expectations while heightening their own sense of self-efficacy, we expect this corps to replenish itself and so permanently increase the flow of the state's indigenous populations into STEM majors and careers in line with NSF's mission to promote the progress of science while advancing the national health, prosperity and welfare.
Our broader goal is to focus the talents and energies of a diverse collective of community stakeholders on the empowerment of its local college population to address and solve a STEM disparity that bears directly on the community's well-being in a fashion that is generalizable to other marginalized communities. The scope of our project is defined by six tightly coupled new programs: three bringing indigenous STEM mentors to students, one training mentors, one training mentees to value and grow their network of mentors, and one training teachers to partner with us in STEM. The intellectual merit of our project lies not only in its assertion that authentic STEM mentors will exert an outsize influence in their communities while increasing their own sense of self-efficacy, but in the creation and careful application of instruments that assess the factors that determine teens' attitudes, career interests, and behaviors toward a STEM future; and mentors' sense of self development and progress through STEM programs. More precisely, evaluation of the programs has the potential to clarify two important questions about the role of college-age mentors in schools: (1) To what degree is the protege's academic performance and perceived scholastic competence mediated by the mentor's impact on (a) the quality of the protege's parental relationship and (b) the social capital of the allied classroom teacher; (2) To what degree does the quality of the student mentor's relationships with faculty and peers mediate the impact of her serving as mentor on her self-efficacy, academic performance, and leadership skills?
Northern Michigan University's Center for Native American Studies and the Office of Diversity and Inclusion will lead this Design and Development Launch Pilot about culturally inclusive K-16 STEM education for American Indian and Native Alaskan (AIAN) students. This project was created in response to the NSF Inclusion across the Nation of Communities of Learners of Underrepresented Discoverers in Engineering and Science (NSF INCLUDES) program solicitation (NSF 16-544). The INCLUDES program is a comprehensive national initiative designed to enhance U.S. leadership in science, technology, engineering and mathematics (STEM) discoveries and innovations focused on NSF's commitment to diversity, inclusion, and broadening participation in these fields. The INCLUDES Design and Development Launch Pilots represent bold, innovative ways for solving a broadening participation challenge in STEM.
The full participation of all of America's STEM talent is critical to the advancement of science and engineering for national security, health and prosperity. Our nation is advancing knowledge and practices to address the undergraduate STEM achievement and the graduation gap between NAAIs and non-native Americans. This project, the NSF INCLUDES: Indigenous Women Working Within the Sciences (IWWS), has the potential to advance knowledge, instructional pedagogy and practices to improve the performance of NAAI high school students and undergraduate students in STEM.
This project team will work to: (1) pilot activities and coursework to train K-16 STEM educators about American Indian inclusive methods and materials, (2) to provide AIAN high school students with STEM college preparatory experience using inclusive STEM practices, and (3) to provide a cohort of female AIAN high school students additional university experiences and mentors as these students transition to postsecondary education. Activities include a five-day summer educators institute for 40 K-16 STEM educators, an additional weekend workshop for 20 K-16 STEM educators, a summer STEM academy for 96 AIAN high school students, a STEM weekend workshop for female AIAN high school students, and a mentoring program for AIAN high school students.
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TEAM MEMBERS:
April LindalaJessica CruzMartin Reinhardt
The Mississippi Alliance for Women in Computing (MAWC) project will identify factors that influence and motivate female students and female African American students in Mississippi to enroll and persist in an undergraduate engineering- or science-based computing major. There is a particular need for programming that is inclusive of women and women of color who are from the southern region of the United States. These students typically have less access to extracurricular activities that encourage computing, and are less likely to visualize themselves in a computing major or career. This proposed research is to help girls to know that computer science exists and what jobs in computer science are available with a degree in computer science. A rich environment exists in Mississippi for an alliance focused on building co-curricular and mentorship opportunities. A scalable pipeline model, expandable to a Southern Alliance for Women in Computing (SAWC), will be developed with three major objectives: to attract women and women of color to computing, to improve retention rates of women in undergraduate computing majors, and to help postsecondary women make the transition to the computing workforce. Activities to support these objectives include: scaling the National Center for Women and Information Technology Aspirations in Computing award program in Mississippi, expanding scholarships for Aspirations winners, expanding student-led computing outreach programs, establishing a Mississippi Black Girls Code chapter, informing and collaborating with the Computer Science for Mississippi initiative, creating a summer bridge and living-learning community for women in computing majors, and increasing professional development opportunities for women in computing through conferences, lunch and learn meetings, job shadowing, and internships.
The project will analyze whether the co-curricular activities of MAWC lead to computing self-efficacy and ultimately female students selecting to pursue and persist in computing majors and careers. In order to understand student participation and efficacy changes, data collection for this research will be through demographic and background surveys administered to women entering an undergraduate engineering- or science-based computing major at a university in Mississippi and student surveys and evaluations in MAWC-sponsored programs. Using discriminate analysis methods, specific research questions to be addressed are: 1) Which pre-collegiate experiences influenced them to enroll, 2) Which stakeholders influenced these girls in their decision-making process, and 3) What programs are effective in impacting their persistence in the major. Predictor variables for each respective research question are: pre-collegiate experiences, stakeholders, and programs. Outcome variables are: (a) a female undergraduate student with no involvement with MAWC programming, (b) MAWC activity participant, or (c) a MAWC participant having graduated with a bachelor?s degree in a STEM major. Results will complement published longitudinal research on the gendered and raced dimensions of computing literacy acquisition in Mississippi as well as research on effective CS role model programming.
This project will coordinate and focus existing educational elements with the common goal of increasing the participation of underrepresented minorities in STEM degree programs and the STEM workforce. This goal will help the US maintain its leadership in science and engineering innovation while supporting the expansion of the talent pool needed to fuel economic growth in technical areas. The program will feature an assessment system that addresses both social influence factors and the transfer of STEM skills with the aim of identifying the reasons that underrepresented minorities leave the STEM pipeline. By including both curricular and extracurricular elements of the STEM pipeline, ranging from middle school through college, the program will be able to respond quickly to findings from the assessment component and take proactive steps to retain STEM students and maintain their self perception as future scientists or engineers.
The program proposes to assess, unite and coordinate elements in the New Mexico STEM pipeline with the ultimate goal of increasing the participation of underrepresented groups in the STEM workforce. The need to grow a diverse science, technology, engineering and mathematics (STEM) workforce is recognized throughout the State of New Mexico, and beyond, by both the public and private sectors. The project develops a crosscutting assessment system that addresses both social influence factors and the skills component of STEM education. The project develops a collective impact framework aimed at increasing the participation of underrepresented minorities in the STEM workforce and implements a common assessment system for students in the 6-20+ STEM pipeline. This assessment system will address both social influence factors and the transfer of STEM related skills with the aim of building a research base to investigate why students from underrepresented minorities leave the STEM pipeline. The output from this research will drive the development of a set of best practices for increasing retention and a scheme for improving the integration of minority students into the STEM community. The retention model developed as part of the program will be shared with the STEM partners through a series of workshops with the goal of developing a more coordinated approach to the retention of underrepresented minorities. The program focuses on a small set of STEM programs with existing connections to the College of Engineering.
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TEAM MEMBERS:
Steven StochajPatricia SullivanLuis Vazquez
This evaluator reflection was provided to stimulate conversation at the June 20-21, 2013 CAISE Evaluation Convening. It reflects on the nature of learning and challenges assumptions of outcomes from engaging in informal learning experiences.
This funder reflection was provided to stimulate conversation at the June 20-21, 2013 CAISE Evaluation Convening. It describes the importance of evaluation to funders, and provides some prompts and questions for thinking about evaluation with relation to funding.
This leadership reflection was provided to stimulate conversation at the June 20-21, 2013 CAISE Evaluation Convening. It provides an organizational leadership perspective on evaluation.
This practitioner reflection was provided to stimulate conversation at the June 20-21, 2013 CAISE Evaluation Convening. It discusses improving practice through reflection.
Because of the siloed nature of formal educational curricula, students who opt out of STEM coursework, for whatever reason, lose the opportunity to engage with the domain of science almost entirely, thereby closing the door to the STEM workforce pipeline. This disproportionately impacts students of color and women. This project advances an alliance that consists of a consortium of community-engaged partners, including university and k-12 educational agencies, community colleges, community organizations, cultural institutions and local businesses. The project built around this alliance will leverage interdisciplinary spaces in the curriculum, particularly the humanities and social sciences, across academic levels, as a forum for integrating and applying STEM to bear on the practical, social, economic and political issues of modern life. The PIs establish a physical Community STEM Center as an anchoring institution for STEM engagement. This Center will be situated within the community that the alliance serves, bringing STEM opportunities and engagement to students instead of asking them to come where STEM education is currently provided. The activities enacted through the Community STEM Center will focus on enduring problems experienced by the communities, where students, community residents, teachers, and experts from higher education, industry and other community-based entities can come together to work on understanding them and developing evidenced centered advocacy as a means for addressing them. To facilitate the work at the Community STEM Center, the project creates a Community Ambassadors Program (CAP), leveraging participation across alliance members in partnership with the community. This Design and Development Launch Pilot will cultivate the necessary knowledgebase to develop a scalable model for implementation across diverse urban communities.
Technical Summary
This Design and Development Launch Pilot focuses on shifting the narrative of STEM education away from a solitary focus on formalized educational experiences and targets STEM content. This project develops and facilitates a parallel set of activities designed to engage under-represented students in learning how and why STEM is relevant to their lives, and approached through new and non-traditional educational dimensions. The five main objectives of this proposed pilot are to: (1) Develop a pilot alliance of community-engaged partners, including university and k-12 educational agencies, community colleges, community organizations, cultural institutions and industry;(2)Establish a physical Community STEM Advocacy Center as an anchoring institution for change embedded within the community that the pilot alliance serves; (3) Leverage interdisciplinary spaces in curricula, across academic levels, particularly the humanities and social sciences, as a forum for integrating and applying STEM to bear on the practical, social, economic and political issues of modern life; (4) Create a Community Ambassadors Program (CAP), leveraging participation across higher education pilot alliance members in partnership with the community; and (5)Conduct an evaluation of project initiatives and research regarding the usability and feasibility of a systemic approach to developing community-based, interdisciplinary pathways to broaden STEM participation pathways. Efforts to examine the impact of this community-based, interdisciplinary approach concentrates on the proximal outcomes related to STEM interest, self-efficacy and identity. Data will be collected in pre/post format across our three constituent samples: 1) Community STEM Advocacy Center participants; 2) k-12 students; and, 3) postsecondary students. Analysis of data will be conducted through MANCOVAs to account for potential co-variation among construct scores. Qualitative data will also be collected to contextualize findings and enable the development of a rich case study. At least two observations will be conducted in the Community STEM Advocacy Center and the two classroom implementations to document engagement, participant interactions and level of STEM content.
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TEAM MEMBERS:
Kimberly LawlessDonald WinkLudwig Carlos NitscheAixa AlfonsoJeremiah Abiade
"Strengthening Networks, Sparking Change: Museums and Libraries as Community Catalysts" combines findings from a literature scan and input from the library, museum and community revitalization fields with case studies about the experiences and vision of museums and libraries working to spur change in their communities. It describes the complementary conceptual frameworks of social wellbeing and collective impact and explains how libraries and museums can use these concepts to partner with community-based organizations, government agencies and other cultural or educational organizations. It
Finding inclusive approaches to broaden the participation of underrepresented communities in the sciences is the focus of this project. The team will create pathways for Native American students from the development of new partnerships between tribal communities and STEM institutions that promote the participation and inclusion of Native American scientists in the geosciences. Each partner brings a successful program, based on good practices from the research literature in improving outcomes for underrepresented students and scientists. Together, the researchers will create scientific collaborations that support a pipeline for Native American students from middle school through to graduate school and beyond. In addition, the project will work on building welcoming workplace climates for indigenous researchers within ?traditional Western? organizations. The approach will integrate indigenous and Western knowledge in research collaborations to create more creative, innovative, and culturally relevant science research programs.
This project, Integrating Indigenous and Western Knowledge to Transform Learning and Discovery in the Geosciences, uses the principles of collective impact to create new partnerships between tribal communities and STEM institutions that promote the participation and inclusion of Native American scientists in the geosciences. The project collaborators will more strongly integrate indigenous and Western knowledge into collectively-developed research projects. The project partners the Rising Voices: Collaborative Science for Climate Solutions (Rising Voices) and member tribal colleges and communities with Haskell Indian Nations University, the National Center for Atmospheric Research (NCAR), the University of Arizona?s Biosphere 2, and National Center for Atmospheric Research?s Significant Opportunities in Atmospheric Research and Science (SOARS) internship and Global Learning and Observation to Benefit the Environment (GLOBE) citizen science programs. Together, they will build research partnerships between Native American and traditional Western scientists, provide professional development for NCAR and Biosphere 2 scientists on how to engage appropriately with tribal communities, and provide pathways for NA students from middle school through college, to grad school and beyond. The project will connect community-based citizen science programs for middle- and high school youth with undergraduate programs at Haskell Indian Nations University and University of Arizona, and with summer research internship experiences for undergraduates and graduate students that address topics of interest across tribal communities, tribal college faculty, traditional science institutions, and community-based citizen science. This project also enhances the research capacity of all partners, and brings together diverse perspectives, which have been shown to lead to greater innovation, creativity, and higher impact research. The project has the potential to provide a tried and tested model for building similar partnerships at other institutions, including content and methods for professional development for mainstream scientists, ways to create more welcoming spaces for Native American students and scientists, promising practices for improving how research in the geosciences carried out, and an increase in the representation of Native American students and scientists in that vital research enterprise.